Peerplays_Blockchain/peerplays_migrated
1
0
Fork 0
Code Issues 35 Pull requests 4 Projects Releases 20 Packages Wiki Activity Actions
peerplays_migrated/libraries/plugins/peerplays_sidechain/sidechain_net_handler.cpp
obucina 0f97241f1b
Replace raw with psbt transactions to support parital tx signing (#311) 
* RPC calls for PSBT, raw transactions replaced with PSBT
* Fix estimatesmartfeerate, extensive RPC calls logging for debugging purposes
* Remove dead code
* Partial signing functional for deposit and withdrawal
* Fix sidechain_type declarations
* Depositing Peerplays asset refactored
* Partial signing functional for primary wallet funds moving
* Prettier logs
* Refactor multiple SON support processing
* Serialize field complete from sidechain_transaction_sign_operation
* Refactor transaction signing in particular order, BTC only (maybe) need it
* Add number of required signatures parameter for addmultisigaddress
* Change default bitcoin node parameters
* Transaction signing only by scheduled son
* Removed scheduling log
* Prevent PW funds moving to the same address
* Refactor sidechain_transaction_object processing, code cleanup
* Remove obsolete tests
* Decrease logging
* Code readability
* When updated, import son wallet bitcoin address to bitcoin wallet
* When updated, recreate son wallet bitcoin address on each node
* Refactor on_changed_objects, move it into task
* Add check to prevent deposit/withdrawal double processing
* Improved check for sidechain transaction object creation
* Single sidechain transaction signature per block allowed only
* Unlock wallet on addmultisigaddress
* Import both address and redeem script on primary wallet change, fix some compiler warnings
* Fix invalid list of signers for PW funds transfer
2020-03-25 11:44:22 +01:00

327 lines
15 KiB
C++
Raw Blame History

#include <graphene/peerplays_sidechain/sidechain_net_handler.hpp>
#include <fc/log/logger.hpp>
#include <fc/smart_ref_fwd.hpp>
namespace graphene { namespace peerplays_sidechain {
sidechain_net_handler::sidechain_net_handler(peerplays_sidechain_plugin &_plugin, const boost::program_options::variables_map &options) :
plugin(_plugin),
database(_plugin.database()) {
}
sidechain_net_handler::~sidechain_net_handler() {
}
sidechain_type sidechain_net_handler::get_sidechain() {
return sidechain;
}
std::vector<std::string> sidechain_net_handler::get_sidechain_deposit_addresses() {
std::vector<std::string> result;
const auto &sidechain_addresses_idx = database.get_index_type<sidechain_address_index>();
const auto &sidechain_addresses_by_sidechain_idx = sidechain_addresses_idx.indices().get<by_sidechain>();
const auto &sidechain_addresses_by_sidechain_range = sidechain_addresses_by_sidechain_idx.equal_range(sidechain);
std::for_each(sidechain_addresses_by_sidechain_range.first, sidechain_addresses_by_sidechain_range.second,
[&result](const sidechain_address_object &sao) {
result.push_back(sao.deposit_address);
});
return result;
}
std::vector<std::string> sidechain_net_handler::get_sidechain_withdraw_addresses() {
std::vector<std::string> result;
const auto &sidechain_addresses_idx = database.get_index_type<sidechain_address_index>();
const auto &sidechain_addresses_by_sidechain_idx = sidechain_addresses_idx.indices().get<by_sidechain>();
const auto &sidechain_addresses_by_sidechain_range = sidechain_addresses_by_sidechain_idx.equal_range(sidechain);
std::for_each(sidechain_addresses_by_sidechain_range.first, sidechain_addresses_by_sidechain_range.second,
[&result](const sidechain_address_object &sao) {
result.push_back(sao.withdraw_address);
});
return result;
}
std::string sidechain_net_handler::get_private_key(std::string public_key) {
auto private_key_itr = private_keys.find(public_key);
if (private_key_itr != private_keys.end()) {
return private_key_itr->second;
}
return std::string();
}
void sidechain_net_handler::sidechain_event_data_received(const sidechain_event_data &sed) {
ilog("sidechain_event_data:");
ilog(" timestamp: ${timestamp}", ("timestamp", sed.timestamp));
ilog(" sidechain: ${sidechain}", ("sidechain", sed.sidechain));
ilog(" sidechain_uid: ${uid}", ("uid", sed.sidechain_uid));
ilog(" sidechain_transaction_id: ${transaction_id}", ("transaction_id", sed.sidechain_transaction_id));
ilog(" sidechain_from: ${from}", ("from", sed.sidechain_from));
ilog(" sidechain_to: ${to}", ("to", sed.sidechain_to));
ilog(" sidechain_currency: ${currency}", ("currency", sed.sidechain_currency));
ilog(" sidechain_amount: ${amount}", ("amount", sed.sidechain_amount));
ilog(" peerplays_from: ${peerplays_from}", ("peerplays_from", sed.peerplays_from));
ilog(" peerplays_to: ${peerplays_to}", ("peerplays_to", sed.peerplays_to));
ilog(" peerplays_asset: ${peerplays_asset}", ("peerplays_asset", sed.peerplays_asset));
const chain::global_property_object &gpo = database.get_global_properties();
// Deposit request
if ((sed.peerplays_to == gpo.parameters.son_account()) && (sed.sidechain_currency.compare("1.3.0") != 0)) {
son_wallet_deposit_create_operation op;
op.payer = gpo.parameters.son_account();
//op.son_id = ; // to be filled for each son
op.timestamp = sed.timestamp;
op.sidechain = sed.sidechain;
op.sidechain_uid = sed.sidechain_uid;
op.sidechain_transaction_id = sed.sidechain_transaction_id;
op.sidechain_from = sed.sidechain_from;
op.sidechain_to = sed.sidechain_to;
op.sidechain_currency = sed.sidechain_currency;
op.sidechain_amount = sed.sidechain_amount;
op.peerplays_from = sed.peerplays_from;
op.peerplays_to = sed.peerplays_to;
op.peerplays_asset = sed.peerplays_asset;
for (son_id_type son_id : plugin.get_sons()) {
if (plugin.is_active_son(son_id)) {
op.son_id = son_id;
proposal_create_operation proposal_op;
proposal_op.fee_paying_account = plugin.get_son_object(son_id).son_account;
proposal_op.proposed_ops.emplace_back(op);
uint32_t lifetime = (gpo.parameters.block_interval * gpo.active_witnesses.size()) * 3;
proposal_op.expiration_time = time_point_sec(database.head_block_time().sec_since_epoch() + lifetime);
signed_transaction trx = database.create_signed_transaction(plugin.get_private_key(son_id), proposal_op);
try {
database.push_transaction(trx, database::validation_steps::skip_block_size_check);
if (plugin.app().p2p_node())
plugin.app().p2p_node()->broadcast(net::trx_message(trx));
} catch (fc::exception e) {
elog("Sending proposal for son wallet deposit create operation by ${son} failed with exception ${e}", ("son", son_id)("e", e.what()));
}
}
}
return;
}
// Withdrawal request
if ((sed.peerplays_to == gpo.parameters.son_account()) && (sed.sidechain_currency.compare("1.3.0") == 0)) {
// BTC Payout only (for now)
const auto &sidechain_addresses_idx = database.get_index_type<sidechain_address_index>().indices().get<by_account_and_sidechain>();
const auto &addr_itr = sidechain_addresses_idx.find(std::make_tuple(sed.peerplays_from, sidechain_type::bitcoin));
if (addr_itr == sidechain_addresses_idx.end())
return;
son_wallet_withdraw_create_operation op;
op.payer = gpo.parameters.son_account();
//op.son_id = ; // to be filled for each son
op.timestamp = sed.timestamp;
op.sidechain = sed.sidechain;
op.peerplays_uid = sed.sidechain_uid;
op.peerplays_transaction_id = sed.sidechain_transaction_id;
op.peerplays_from = sed.peerplays_from;
op.peerplays_asset = sed.peerplays_asset;
op.withdraw_sidechain = sidechain_type::bitcoin; // BTC payout only (for now)
op.withdraw_address = addr_itr->withdraw_address; // BTC payout only (for now)
op.withdraw_currency = "BTC"; // BTC payout only (for now)
op.withdraw_amount = sed.peerplays_asset.amount * 1000; // BTC payout only (for now)
for (son_id_type son_id : plugin.get_sons()) {
if (plugin.is_active_son(son_id)) {
op.son_id = son_id;
proposal_create_operation proposal_op;
proposal_op.fee_paying_account = plugin.get_son_object(son_id).son_account;
proposal_op.proposed_ops.emplace_back(op);
uint32_t lifetime = (gpo.parameters.block_interval * gpo.active_witnesses.size()) * 3;
proposal_op.expiration_time = time_point_sec(database.head_block_time().sec_since_epoch() + lifetime);
signed_transaction trx = database.create_signed_transaction(plugin.get_private_key(son_id), proposal_op);
try {
database.push_transaction(trx, database::validation_steps::skip_block_size_check);
if (plugin.app().p2p_node())
plugin.app().p2p_node()->broadcast(net::trx_message(trx));
} catch (fc::exception e) {
elog("Sending proposal for son wallet withdraw create operation by ${son} failed with exception ${e}", ("son", son_id)("e", e.what()));
}
}
}
return;
}
FC_ASSERT(false, "Invalid sidechain event");
}
void sidechain_net_handler::process_deposits() {
const auto &idx = database.get_index_type<son_wallet_deposit_index>().indices().get<by_sidechain_and_processed>();
const auto &idx_range = idx.equal_range(std::make_tuple(sidechain, false));
std::for_each(idx_range.first, idx_range.second, [&](const son_wallet_deposit_object &swdo) {
ilog("Deposit to process: ${swdo}", ("swdo", swdo));
bool process_deposit_result = process_deposit(swdo);
if (!process_deposit_result) {
wlog("Deposit not processed: ${swdo}", ("swdo", swdo));
return;
}
const chain::global_property_object &gpo = database.get_global_properties();
son_wallet_deposit_process_operation swdp_op;
swdp_op.payer = gpo.parameters.son_account();
swdp_op.son_wallet_deposit_id = swdo.id;
transfer_operation t_op;
t_op.fee = asset(2000000);
t_op.from = swdo.peerplays_to; // gpo.parameters.son_account()
t_op.to = swdo.peerplays_from;
t_op.amount = swdo.peerplays_asset;
proposal_create_operation proposal_op;
proposal_op.fee_paying_account = plugin.get_current_son_object().son_account;
proposal_op.proposed_ops.emplace_back(swdp_op);
proposal_op.proposed_ops.emplace_back(t_op);
uint32_t lifetime = (gpo.parameters.block_interval * gpo.active_witnesses.size()) * 3;
proposal_op.expiration_time = time_point_sec(database.head_block_time().sec_since_epoch() + lifetime);
signed_transaction trx = database.create_signed_transaction(plugin.get_private_key(plugin.get_current_son_id()), proposal_op);
trx.validate();
try {
database.push_transaction(trx, database::validation_steps::skip_block_size_check);
if (plugin.app().p2p_node())
plugin.app().p2p_node()->broadcast(net::trx_message(trx));
} catch (fc::exception e) {
elog("Sending proposal for deposit sidechain transaction create operation failed with exception ${e}", ("e", e.what()));
}
});
}
void sidechain_net_handler::process_withdrawals() {
const auto &idx = database.get_index_type<son_wallet_withdraw_index>().indices().get<by_withdraw_sidechain_and_processed>();
const auto &idx_range = idx.equal_range(std::make_tuple(sidechain, false));
std::for_each(idx_range.first, idx_range.second, [&](const son_wallet_withdraw_object &swwo) {
ilog("Withdraw to process: ${swwo}", ("swwo", swwo));
bool process_withdrawal_result = process_withdrawal(swwo);
if (!process_withdrawal_result) {
wlog("Withdraw not processed: ${swwo}", ("swwo", swwo));
return;
}
const chain::global_property_object &gpo = database.get_global_properties();
son_wallet_withdraw_process_operation swwp_op;
swwp_op.payer = gpo.parameters.son_account();
swwp_op.son_wallet_withdraw_id = swwo.id;
proposal_create_operation proposal_op;
proposal_op.fee_paying_account = plugin.get_current_son_object().son_account;
proposal_op.proposed_ops.emplace_back(swwp_op);
uint32_t lifetime = (gpo.parameters.block_interval * gpo.active_witnesses.size()) * 3;
proposal_op.expiration_time = time_point_sec(database.head_block_time().sec_since_epoch() + lifetime);
signed_transaction trx = database.create_signed_transaction(plugin.get_private_key(plugin.get_current_son_id()), proposal_op);
trx.validate();
try {
database.push_transaction(trx, database::validation_steps::skip_block_size_check);
if (plugin.app().p2p_node())
plugin.app().p2p_node()->broadcast(net::trx_message(trx));
} catch (fc::exception e) {
elog("Sending proposal for withdraw sidechain transaction create operation failed with exception ${e}", ("e", e.what()));
}
});
}
void sidechain_net_handler::process_sidechain_transactions() {
const auto &idx = database.get_index_type<sidechain_transaction_index>().indices().get<by_sidechain_and_complete>();
const auto &idx_range = idx.equal_range(std::make_tuple(sidechain, false));
std::for_each(idx_range.first, idx_range.second, [&](const sidechain_transaction_object &sto) {
ilog("Sidechain transaction to process: ${sto}", ("sto", sto));
bool complete = false;
std::string processed_sidechain_tx = process_sidechain_transaction(sto, complete);
if (processed_sidechain_tx.empty()) {
wlog("Sidechain transaction not processed: ${sto}", ("sto", sto));
return;
}
sidechain_transaction_sign_operation sts_op;
sts_op.payer = plugin.get_current_son_object().son_account;
sts_op.sidechain_transaction_id = sto.id;
sts_op.transaction = processed_sidechain_tx;
sts_op.block = sto.block;
sts_op.complete = complete;
signed_transaction trx = database.create_signed_transaction(plugin.get_private_key(plugin.get_current_son_id()), sts_op);
trx.validate();
try {
database.push_transaction(trx, database::validation_steps::skip_block_size_check);
if (plugin.app().p2p_node())
plugin.app().p2p_node()->broadcast(net::trx_message(trx));
} catch (fc::exception e) {
elog("Sending proposal for sidechain transaction sign operation failed with exception ${e}", ("e", e.what()));
}
});
}
void sidechain_net_handler::send_sidechain_transactions() {
const auto &idx = database.get_index_type<sidechain_transaction_index>().indices().get<by_sidechain_and_complete_and_sent>();
const auto &idx_range = idx.equal_range(std::make_tuple(sidechain, true, false));
std::for_each(idx_range.first, idx_range.second, [&](const sidechain_transaction_object &sto) {
ilog("Sidechain transaction to send: ${sto}", ("sto", sto));
bool sent = send_sidechain_transaction(sto);
if (!sent) {
wlog("Sidechain transaction not sent: ${sto}", ("sto", sto));
return;
}
sidechain_transaction_send_operation sts_op;
sts_op.payer = plugin.get_current_son_object().son_account;
sts_op.sidechain_transaction_id = sto.id;
signed_transaction trx = database.create_signed_transaction(plugin.get_private_key(plugin.get_current_son_id()), sts_op);
trx.validate();
try {
database.push_transaction(trx, database::validation_steps::skip_block_size_check);
if (plugin.app().p2p_node())
plugin.app().p2p_node()->broadcast(net::trx_message(trx));
} catch (fc::exception e) {
elog("Sending proposal for sidechain transaction send operation failed with exception ${e}", ("e", e.what()));
}
});
}
void sidechain_net_handler::recreate_primary_wallet() {
FC_ASSERT(false, "recreate_primary_wallet not implemented");
}
bool sidechain_net_handler::process_deposit(const son_wallet_deposit_object &swdo) {
FC_ASSERT(false, "process_deposit not implemented");
}
bool sidechain_net_handler::process_withdrawal(const son_wallet_withdraw_object &swwo) {
FC_ASSERT(false, "process_withdrawal not implemented");
}
std::string sidechain_net_handler::process_sidechain_transaction(const sidechain_transaction_object &sto, bool &complete) {
FC_ASSERT(false, "process_sidechain_transaction not implemented");
}
bool sidechain_net_handler::send_sidechain_transaction(const sidechain_transaction_object &sto) {
FC_ASSERT(false, "send_sidechain_transaction not implemented");
}
}} // namespace graphene::peerplays_sidechain
Reference in a new issue View git blame Copy permalink