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#include "UniversalIdentifier.hpp"
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namespace xmreg
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{
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void
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Output::identify(transaction const& tx,
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public_key const& tx_pub_key,
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vector<public_key> const& additional_tx_pub_keys)
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{
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auto tx_is_coinbase = is_coinbase(tx);
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key_derivation derivation;
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if (!generate_key_derivation(tx_pub_key,
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*get_viewkey(), derivation))
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{
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throw std::runtime_error("generate_key_derivation failed");
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}
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// since introduction of subaddresses, a tx can
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// have extra public keys, thus we need additional
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// derivations
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vector<key_derivation> additional_derivations;
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if (!additional_tx_pub_keys.empty())
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{
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additional_derivations.resize(additional_tx_pub_keys.size());
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for (size_t i = 0; i < additional_tx_pub_keys.size(); ++i)
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{
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if (!generate_key_derivation(additional_tx_pub_keys[i],
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*get_viewkey(),
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additional_derivations[i]))
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{
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throw std::runtime_error("additional generate_key_derivation failed");
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}
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}
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}
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for (auto i = 0u; i < tx.vout.size(); ++i)
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{
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// i will act as output indxes in the tx
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if (tx.vout[i].target.type() != typeid(txout_to_key))
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continue;
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// get tx input key
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txout_to_key const& txout_key
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= boost::get<txout_to_key>(tx.vout[i].target);
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uint64_t amount = tx.vout[i].amount;
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// get the tx output public key
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// that normally would be generated for us,
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// if someone had sent us some xmr.
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public_key generated_tx_pubkey;
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derive_public_key(derivation,
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i,
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get_address()->address.m_spend_public_key,
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generated_tx_pubkey);
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// cout << pod_to_hex(derivation) << ", " << i << ", "
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// << pod_to_hex(get_address()->address.m_spend_public_key) << ", "
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// << pod_to_hex(txout_key.key) << " == "
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// << pod_to_hex(generated_tx_pubkey) << '\n' << '\n';
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// check if generated public key matches the current output's key
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bool mine_output = (txout_key.key == generated_tx_pubkey);
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auto with_additional = false;
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if (!mine_output && !additional_tx_pub_keys.empty())
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{
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// check for output using additional tx public keys
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derive_public_key(additional_derivations[i],
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i,
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get_address()->address.m_spend_public_key,
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generated_tx_pubkey);
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mine_output = (txout_key.key == generated_tx_pubkey);
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with_additional = true;
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}
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// placeholder variable for ringct outputs info
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// that we need to save in database
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rct::key rtc_outpk {0};
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rct::key rtc_mask {0};
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rct::key rtc_amount {0};
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// if mine output has RingCT, i.e., tx version is 2
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// need to decode its amount. otherwise its zero.
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if (mine_output && tx.version == 2)
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{
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// initialize with regular amount value
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// for ringct, except coinbase, it will be 0
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uint64_t rct_amount_val = amount;
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// cointbase txs have amounts in plain sight.
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// so use amount from ringct, only for non-coinbase txs
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if (!tx_is_coinbase)
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{
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// for ringct non-coinbase txs, these values are given
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// with txs.
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// coinbase ringctx dont have this information. we will provide
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// them only when needed, in get_unspent_outputs. So go there
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// to see how we deal with ringct coinbase txs when we spent
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// them
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// go to CurrentBlockchainStatus::construct_output_rct_field
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// to see how we deal with coinbase ringct that are used
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// as mixins
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rtc_outpk = tx.rct_signatures.outPk[i].mask;
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rtc_mask = tx.rct_signatures.ecdhInfo[i].mask;
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rtc_amount = tx.rct_signatures.ecdhInfo[i].amount;
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rct::key mask = tx.rct_signatures
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.ecdhInfo[i].mask;
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auto r = decode_ringct(tx.rct_signatures,
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!with_additional ? derivation
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: additional_derivations[i],
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i,
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mask,
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rct_amount_val);
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if (!r)
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{
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throw std::runtime_error(
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"Cant decode ringCT!");
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}
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amount = rct_amount_val;
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} // if (!tx_is_coinbase)
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} // if (mine_output && tx.version == 2)
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if (mine_output)
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{
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total_received += amount;
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identified_outputs.emplace_back(
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info{
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txout_key.key, amount, i, derivation,
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rtc_outpk, rtc_mask, rtc_amount
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});
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total_xmr += amount;
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} // if (mine_output)
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} // for (uint64_t i = 0; i < tx.vout.size(); ++i)
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}
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void Input::identify(transaction const& tx,
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public_key const& tx_pub_key,
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vector<public_key> const& additional_tx_pub_keys)
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{
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auto search_misses {0};
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auto input_no = tx.vin.size();
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for (auto i = 0u; i < input_no; ++i)
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{
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if(tx.vin[i].type() != typeid(txin_to_key))
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continue;
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// get tx input key
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txin_to_key const& in_key
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= boost::get<txin_to_key>(tx.vin[i]);
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// get absolute offsets of mixins
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vector<uint64_t> absolute_offsets
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= relative_output_offsets_to_absolute(
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in_key.key_offsets);
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// get public keys of outputs used in the mixins that
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// match to the offests
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vector<output_data_t> mixin_outputs;
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// this can THROW if no outputs are found
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mcore->get_output_key(in_key.amount,
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absolute_offsets,
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mixin_outputs);
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// indicates whether we found any matching mixin in the current input
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auto found_a_match {false};
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// for each found output public key check if its ours or not
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for (auto count = 0u; count < absolute_offsets.size(); ++count)
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{
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// get basic information about mixn's output
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output_data_t const& output_data
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= mixin_outputs.at(count);
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// before going to the mysql, check our known outputs cash
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// if the key exists. Its much faster than going to mysql
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// for this.
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auto it = known_outputs->find(output_data.pubkey);
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if (it != known_outputs->end())
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{
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// this seems to be our mixin.
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// save it into identified_inputs vector
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identified_inputs.push_back(info {
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in_key.k_image,
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it->second, // amount
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output_data.pubkey});
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total_xmr += it->second;
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found_a_match = true;
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}
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} // for (const cryptonote::output_data_t& output_data: outputs)
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if (found_a_match == false)
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{
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// if we didnt find any match, break of the look.
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// there is no reason to check remaining key images
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// as when we spent something, our outputs should be
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// in all inputs in a given txs. Thus, if a single input
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// is without our output, we can assume this tx does
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// not contain any of our spendings.
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// just to be sure before we break out of this loop,
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// do it only after two misses
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if (++search_misses > 2)
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break;
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}
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} // for (auto i = 0u; i < input_no; ++i)
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}
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void RealInput::identify(transaction const& tx,
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public_key const& tx_pub_key,
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vector<public_key> const& additional_tx_pub_keys)
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{
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auto search_misses {0};
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auto input_no = tx.vin.size();
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for (auto i = 0u; i < input_no; ++i)
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{
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if(tx.vin[i].type() != typeid(txin_to_key))
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continue;
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// get tx input key
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txin_to_key const& in_key
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= boost::get<cryptonote::txin_to_key>(tx.vin[i]);
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// get absolute offsets of mixins
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auto absolute_offsets
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= relative_output_offsets_to_absolute(
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in_key.key_offsets);
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//tx_out_index is pair::<transaction hash, output index>
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vector<tx_out_index> indices;
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// get tx hashes and indices in the txs for the
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// given outputs of mixins
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// this cant THROW DB_EXCEPTION
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mcore->get_output_tx_and_index(
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in_key.amount, absolute_offsets, indices);
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// placeholder for information about key image that
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// we will find as ours
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unique_ptr<info> key_image_info {nullptr};
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// for each found mixin tx, check if any key image
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// generated using our outputs in the mixin tx
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// matches the given key image in the current tx
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for (auto const& txi : indices)
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{
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auto const& mixin_tx_hash = txi.first;
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auto const& output_index_in_tx = txi.second;
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transaction mixin_tx;
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if (!mcore->get_tx(mixin_tx_hash, mixin_tx))
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{
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throw std::runtime_error("Cant get tx: "
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+ pod_to_hex(mixin_tx_hash));
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}
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// use Output universal identifier to identify our outputs
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// in a mixin tx
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auto identifier = make_identifier(
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mixin_tx,
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make_unique<Output>(get_address(), get_viewkey()));
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identifier.identify();
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for (auto const& found_output: identifier.get<Output>()->get())
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{
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// generate key_image using this output
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// to check for sure if the given key image is ours
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// or not
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crypto::key_image key_img_generated;
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if (!xmreg::generate_key_image(found_output.derivation,
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found_output.idx_in_tx, /* position in the tx */
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*spendkey,
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get_address()->address.m_spend_public_key,
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key_img_generated))
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{
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throw std::runtime_error("Cant generate key image for output: "
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+ pod_to_hex(found_output.pub_key));
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}
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// now check if current key image in the tx which we
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// analyze matches generated key image
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if (in_key.k_image == key_img_generated)
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{
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// this is our key image if they are equal!
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key_image_info.reset(new info {key_img_generated,
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found_output.amount,
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found_output.pub_key});
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break;
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}
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} // auto const& found_output: identifier.get<Output>()->get_outputs()
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// if key_image_info has been populated, there is no
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// reason to keep check remaning outputs in the mixin tx
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// instead add its info to identified_inputs and move on
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// to the next key image
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if (key_image_info)
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{
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identified_inputs.push_back(*key_image_info);
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total_xmr += key_image_info->amount;
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break;
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}
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} // for (auto const& txi : indices)
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} // for (auto i = 0u; i < input_no; ++i)
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}
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}
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