// Copyright (c) 2017-2018, The Monero Project
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification, are
// permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this list of
// conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice, this list
// of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its contributors may be
// used to endorse or promote products derived from this software without specific
// prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
// THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "daemon_handler.h"
// likely included by daemon_handler.h's includes,
// but including here for clarity
#include "cryptonote_core/cryptonote_core.h"
#include "cryptonote_basic/cryptonote_format_utils.h"
#include "cryptonote_basic/blobdatatype.h"
#include "ringct/rctSigs.h"
namespace cryptonote
{
namespace rpc
{
void DaemonHandler::handle(const GetHeight::Request& req, GetHeight::Response& res)
{
res.height = m_core.get_current_blockchain_height();
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetBlocksFast::Request& req, GetBlocksFast::Response& res)
{
std::vector<std::pair<std::pair<blobdata, crypto::hash>, std::vector<std::pair<crypto::hash, blobdata> > > > blocks;
if(!m_core.find_blockchain_supplement(req.start_height, req.block_ids, blocks, res.current_height, res.start_height, req.prune, true, COMMAND_RPC_GET_BLOCKS_FAST_MAX_COUNT))
{
res.status = Message::STATUS_FAILED;
res.error_details = "core::find_blockchain_supplement() returned false";
return;
}
res.blocks.resize(blocks.size());
res.output_indices.resize(blocks.size());
auto it = blocks.begin();
uint64_t block_count = 0;
while (it != blocks.end())
{
cryptonote::rpc::block_with_transactions& bwt = res.blocks[block_count];
if (!parse_and_validate_block_from_blob(it->first.first, bwt.block))
{
res.blocks.clear();
res.output_indices.clear();
res.status = Message::STATUS_FAILED;
res.error_details = "failed retrieving a requested block";
return;
}
if (it->second.size() != bwt.block.tx_hashes.size())
{
res.blocks.clear();
res.output_indices.clear();
res.status = Message::STATUS_FAILED;
res.error_details = "incorrect number of transactions retrieved for block";
return;
}
cryptonote::rpc::block_output_indices& indices = res.output_indices[block_count];
// miner tx output indices
{
cryptonote::rpc::tx_output_indices tx_indices;
if (!m_core.get_tx_outputs_gindexs(get_transaction_hash(bwt.block.miner_tx), tx_indices))
{
res.status = Message::STATUS_FAILED;
res.error_details = "core::get_tx_outputs_gindexs() returned false";
return;
}
indices.push_back(std::move(tx_indices));
}
auto hash_it = bwt.block.tx_hashes.begin();
bwt.transactions.reserve(it->second.size());
for (const auto& blob : it->second)
{
bwt.transactions.emplace_back();
if (!parse_and_validate_tx_from_blob(blob.second, bwt.transactions.back()))
{
res.blocks.clear();
res.output_indices.clear();
res.status = Message::STATUS_FAILED;
res.error_details = "failed retrieving a requested transaction";
return;
}
cryptonote::rpc::tx_output_indices tx_indices;
if (!m_core.get_tx_outputs_gindexs(*hash_it, tx_indices))
{
res.status = Message::STATUS_FAILED;
res.error_details = "core::get_tx_outputs_gindexs() returned false";
return;
}
indices.push_back(std::move(tx_indices));
++hash_it;
}
it++;
block_count++;
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetHashesFast::Request& req, GetHashesFast::Response& res)
{
res.start_height = req.start_height;
auto& chain = m_core.get_blockchain_storage();
if (!chain.find_blockchain_supplement(req.known_hashes, res.hashes, res.start_height, res.current_height))
{
res.status = Message::STATUS_FAILED;
res.error_details = "Blockchain::find_blockchain_supplement() returned false";
return;
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetTransactions::Request& req, GetTransactions::Response& res)
{
std::vector<cryptonote::transaction> found_txs_vec;
std::vector<crypto::hash> missed_vec;
bool r = m_core.get_transactions(req.tx_hashes, found_txs_vec, missed_vec);
// TODO: consider fixing core::get_transactions to not hide exceptions
if (!r)
{
res.status = Message::STATUS_FAILED;
res.error_details = "core::get_transactions() returned false (exception caught there)";
return;
}
size_t num_found = found_txs_vec.size();
std::vector<uint64_t> heights(num_found);
std::vector<bool> in_pool(num_found, false);
std::vector<crypto::hash> found_hashes(num_found);
for (size_t i=0; i < num_found; i++)
{
found_hashes[i] = get_transaction_hash(found_txs_vec[i]);
heights[i] = m_core.get_blockchain_storage().get_db().get_tx_block_height(found_hashes[i]);
}
// if any missing from blockchain, check in tx pool
if (!missed_vec.empty())
{
std::vector<cryptonote::transaction> pool_txs;
m_core.get_pool_transactions(pool_txs);
for (const auto& tx : pool_txs)
{
crypto::hash h = get_transaction_hash(tx);
auto itr = std::find(missed_vec.begin(), missed_vec.end(), h);
if (itr != missed_vec.end())
{
found_hashes.push_back(h);
found_txs_vec.push_back(tx);
heights.push_back(std::numeric_limits<uint64_t>::max());
in_pool.push_back(true);
missed_vec.erase(itr);
}
}
}
for (size_t i=0; i < found_hashes.size(); i++)
{
cryptonote::rpc::transaction_info info;
info.height = heights[i];
info.in_pool = in_pool[i];
info.transaction = std::move(found_txs_vec[i]);
res.txs.emplace(found_hashes[i], std::move(info));
}
res.missed_hashes = std::move(missed_vec);
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const KeyImagesSpent::Request& req, KeyImagesSpent::Response& res)
{
res.spent_status.resize(req.key_images.size(), KeyImagesSpent::STATUS::UNSPENT);
std::vector<bool> chain_spent_status;
std::vector<bool> pool_spent_status;
m_core.are_key_images_spent(req.key_images, chain_spent_status);
m_core.are_key_images_spent_in_pool(req.key_images, pool_spent_status);
if ((chain_spent_status.size() != req.key_images.size()) || (pool_spent_status.size() != req.key_images.size()))
{
res.status = Message::STATUS_FAILED;
res.error_details = "tx_pool::have_key_images_as_spent() gave vectors of wrong size(s).";
return;
}
for(size_t i=0; i < req.key_images.size(); i++)
{
if ( chain_spent_status[i] )
{
res.spent_status[i] = KeyImagesSpent::STATUS::SPENT_IN_BLOCKCHAIN;
}
else if ( pool_spent_status[i] )
{
res.spent_status[i] = KeyImagesSpent::STATUS::SPENT_IN_POOL;
}
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetTxGlobalOutputIndices::Request& req, GetTxGlobalOutputIndices::Response& res)
{
if (!m_core.get_tx_outputs_gindexs(req.tx_hash, res.output_indices))
{
res.status = Message::STATUS_FAILED;
res.error_details = "core::get_tx_outputs_gindexs() returned false";
return;
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const SendRawTx::Request& req, SendRawTx::Response& res)
{
auto tx_blob = cryptonote::tx_to_blob(req.tx);
cryptonote_connection_context fake_context = AUTO_VAL_INIT(fake_context);
tx_verification_context tvc = AUTO_VAL_INIT(tvc);
if(!m_core.handle_incoming_tx(tx_blob, tvc, false, false, !req.relay) || tvc.m_verifivation_failed)
{
if (tvc.m_verifivation_failed)
{
LOG_PRINT_L0("[on_send_raw_tx]: tx verification failed");
}
else
{
LOG_PRINT_L0("[on_send_raw_tx]: Failed to process tx");
}
res.status = Message::STATUS_FAILED;
res.error_details = "";
if (tvc.m_low_mixin)
{
res.error_details = "mixin too low";
}
if (tvc.m_double_spend)
{
if (!res.error_details.empty()) res.error_details += " and ";
res.error_details = "double spend";
}
if (tvc.m_invalid_input)
{
if (!res.error_details.empty()) res.error_details += " and ";
res.error_details = "invalid input";
}
if (tvc.m_invalid_output)
{
if (!res.error_details.empty()) res.error_details += " and ";
res.error_details = "invalid output";
}
if (tvc.m_too_big)
{
if (!res.error_details.empty()) res.error_details += " and ";
res.error_details = "too big";
}
if (tvc.m_overspend)
{
if (!res.error_details.empty()) res.error_details += " and ";
res.error_details = "overspend";
}
if (tvc.m_fee_too_low)
{
if (!res.error_details.empty()) res.error_details += " and ";
res.error_details = "fee too low";
}
if (tvc.m_not_rct)
{
if (!res.error_details.empty()) res.error_details += " and ";
res.error_details = "tx is not ringct";
}
if (res.error_details.empty())
{
res.error_details = "an unknown issue was found with the transaction";
}
return;
}
if(!tvc.m_should_be_relayed || !req.relay)
{
LOG_PRINT_L0("[on_send_raw_tx]: tx accepted, but not relayed");
res.error_details = "Not relayed";
res.relayed = false;
res.status = Message::STATUS_OK;
return;
}
NOTIFY_NEW_TRANSACTIONS::request r;
r.txs.push_back(tx_blob);
m_core.get_protocol()->relay_transactions(r, fake_context);
//TODO: make sure that tx has reached other nodes here, probably wait to receive reflections from other nodes
res.status = Message::STATUS_OK;
res.relayed = true;
return;
}
void DaemonHandler::handle(const StartMining::Request& req, StartMining::Response& res)
{
cryptonote::address_parse_info info;
if(!get_account_address_from_str(info, m_core.get_nettype(), req.miner_address))
{
res.error_details = "Failed, wrong address";
LOG_PRINT_L0(res.error_details);
res.status = Message::STATUS_FAILED;
return;
}
if (info.is_subaddress)
{
res.error_details = "Failed, mining to subaddress isn't supported yet";
LOG_PRINT_L0(res.error_details);
res.status = Message::STATUS_FAILED;
return;
}
unsigned int concurrency_count = boost::thread::hardware_concurrency() * 4;
// if we couldn't detect threads, set it to a ridiculously high number
if(concurrency_count == 0)
{
concurrency_count = 257;
}
// if there are more threads requested than the hardware supports
// then we fail and log that.
if(req.threads_count > concurrency_count)
{
res.error_details = "Failed, too many threads relative to CPU cores.";
LOG_PRINT_L0(res.error_details);
res.status = Message::STATUS_FAILED;
return;
}
boost::thread::attributes attrs;
attrs.set_stack_size(THREAD_STACK_SIZE);
if(!m_core.get_miner().start(info.address, static_cast<size_t>(req.threads_count), attrs, req.do_background_mining, req.ignore_battery))
{
res.error_details = "Failed, mining not started";
LOG_PRINT_L0(res.error_details);
res.status = Message::STATUS_FAILED;
return;
}
res.status = Message::STATUS_OK;
res.error_details = "";
}
void DaemonHandler::handle(const GetInfo::Request& req, GetInfo::Response& res)
{
res.info.height = m_core.get_current_blockchain_height();
res.info.target_height = m_core.get_target_blockchain_height();
if (res.info.height > res.info.target_height)
{
res.info.target_height = res.info.height;
}
auto& chain = m_core.get_blockchain_storage();
res.info.difficulty = chain.get_difficulty_for_next_block();
res.info.target = chain.get_difficulty_target();
res.info.tx_count = chain.get_total_transactions() - res.info.height; //without coinbase
res.info.tx_pool_size = m_core.get_pool_transactions_count();
res.info.alt_blocks_count = chain.get_alternative_blocks_count();
uint64_t total_conn = m_p2p.get_connections_count();
res.info.outgoing_connections_count = m_p2p.get_outgoing_connections_count();
res.info.incoming_connections_count = total_conn - res.info.outgoing_connections_count;
res.info.white_peerlist_size = m_p2p.get_peerlist_manager().get_white_peers_count();
res.info.grey_peerlist_size = m_p2p.get_peerlist_manager().get_gray_peers_count();
res.info.mainnet = m_core.get_nettype() == MAINNET;
res.info.testnet = m_core.get_nettype() == TESTNET;
res.info.stagenet = m_core.get_nettype() == STAGENET;
res.info.cumulative_difficulty = m_core.get_blockchain_storage().get_db().get_block_cumulative_difficulty(res.info.height - 1);
res.info.block_size_limit = res.info.block_weight_limit = m_core.get_blockchain_storage().get_current_cumulative_block_weight_limit();
res.info.block_size_median = res.info.block_weight_median = m_core.get_blockchain_storage().get_current_cumulative_block_weight_median();
res.info.start_time = (uint64_t)m_core.get_start_time();
res.status = Message::STATUS_OK;
res.error_details = "";
}
void DaemonHandler::handle(const StopMining::Request& req, StopMining::Response& res)
{
if(!m_core.get_miner().stop())
{
res.error_details = "Failed, mining not stopped";
LOG_PRINT_L0(res.error_details);
res.status = Message::STATUS_FAILED;
return;
}
res.status = Message::STATUS_OK;
res.error_details = "";
}
void DaemonHandler::handle(const MiningStatus::Request& req, MiningStatus::Response& res)
{
const cryptonote::miner& lMiner = m_core.get_miner();
res.active = lMiner.is_mining();
res.is_background_mining_enabled = lMiner.get_is_background_mining_enabled();
if ( lMiner.is_mining() ) {
res.speed = lMiner.get_speed();
res.threads_count = lMiner.get_threads_count();
const account_public_address& lMiningAdr = lMiner.get_mining_address();
res.address = get_account_address_as_str(m_core.get_nettype(), false, lMiningAdr);
}
res.status = Message::STATUS_OK;
res.error_details = "";
}
void DaemonHandler::handle(const SaveBC::Request& req, SaveBC::Response& res)
{
if (!m_core.get_blockchain_storage().store_blockchain())
{
res.status = Message::STATUS_FAILED;
res.error_details = "Error storing the blockchain";
}
else
{
res.status = Message::STATUS_OK;
}
}
void DaemonHandler::handle(const GetBlockHash::Request& req, GetBlockHash::Response& res)
{
if (m_core.get_current_blockchain_height() <= req.height)
{
res.hash = crypto::null_hash;
res.status = Message::STATUS_FAILED;
res.error_details = "height given is higher than current chain height";
return;
}
res.hash = m_core.get_block_id_by_height(req.height);
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetBlockTemplate::Request& req, GetBlockTemplate::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const SubmitBlock::Request& req, SubmitBlock::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const GetLastBlockHeader::Request& req, GetLastBlockHeader::Response& res)
{
const crypto::hash block_hash = m_core.get_tail_id();
if (!getBlockHeaderByHash(block_hash, res.header))
{
res.status = Message::STATUS_FAILED;
res.error_details = "Requested block does not exist";
return;
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetBlockHeaderByHash::Request& req, GetBlockHeaderByHash::Response& res)
{
if (!getBlockHeaderByHash(req.hash, res.header))
{
res.status = Message::STATUS_FAILED;
res.error_details = "Requested block does not exist";
return;
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetBlockHeaderByHeight::Request& req, GetBlockHeaderByHeight::Response& res)
{
const crypto::hash block_hash = m_core.get_block_id_by_height(req.height);
if (!getBlockHeaderByHash(block_hash, res.header))
{
res.status = Message::STATUS_FAILED;
res.error_details = "Requested block does not exist";
return;
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetBlockHeadersByHeight::Request& req, GetBlockHeadersByHeight::Response& res)
{
res.headers.resize(req.heights.size());
for (size_t i=0; i < req.heights.size(); i++)
{
const crypto::hash block_hash = m_core.get_block_id_by_height(req.heights[i]);
if (!getBlockHeaderByHash(block_hash, res.headers[i]))
{
res.status = Message::STATUS_FAILED;
res.error_details = "A requested block does not exist";
return;
}
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetBlock::Request& req, GetBlock::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const GetPeerList::Request& req, GetPeerList::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const SetLogHashRate::Request& req, SetLogHashRate::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const SetLogLevel::Request& req, SetLogLevel::Response& res)
{
if (req.level < 0 || req.level > 4)
{
res.status = Message::STATUS_FAILED;
res.error_details = "Error: log level not valid";
}
else
{
res.status = Message::STATUS_OK;
mlog_set_log_level(req.level);
}
}
void DaemonHandler::handle(const GetTransactionPool::Request& req, GetTransactionPool::Response& res)
{
bool r = m_core.get_pool_for_rpc(res.transactions, res.key_images);
if (!r) res.status = Message::STATUS_FAILED;
else res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetConnections::Request& req, GetConnections::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const GetBlockHeadersRange::Request& req, GetBlockHeadersRange::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const StopDaemon::Request& req, StopDaemon::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const StartSaveGraph::Request& req, StartSaveGraph::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const StopSaveGraph::Request& req, StopSaveGraph::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const HardForkInfo::Request& req, HardForkInfo::Response& res)
{
const Blockchain &blockchain = m_core.get_blockchain_storage();
uint8_t version = req.version > 0 ? req.version : blockchain.get_ideal_hard_fork_version();
res.info.version = blockchain.get_current_hard_fork_version();
res.info.enabled = blockchain.get_hard_fork_voting_info(version, res.info.window, res.info.votes, res.info.threshold, res.info.earliest_height, res.info.voting);
res.info.state = blockchain.get_hard_fork_state();
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetBans::Request& req, GetBans::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const SetBans::Request& req, SetBans::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const FlushTransactionPool::Request& req, FlushTransactionPool::Response& res)
{
res.status = Message::STATUS_FAILED;
res.error_details = "RPC method not yet implemented.";
}
void DaemonHandler::handle(const GetOutputHistogram::Request& req, GetOutputHistogram::Response& res)
{
std::map<uint64_t, std::tuple<uint64_t, uint64_t, uint64_t> > histogram;
try
{
histogram = m_core.get_blockchain_storage().get_output_histogram(req.amounts, req.unlocked, req.recent_cutoff);
}
catch (const std::exception &e)
{
res.status = Message::STATUS_FAILED;
res.error_details = e.what();
return;
}
res.histogram.clear();
res.histogram.reserve(histogram.size());
for (const auto &i: histogram)
{
if (std::get<0>(i.second) >= req.min_count && (std::get<0>(i.second) <= req.max_count || req.max_count == 0))
res.histogram.emplace_back(output_amount_count{i.first, std::get<0>(i.second), std::get<1>(i.second), std::get<2>(i.second)});
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetOutputKeys::Request& req, GetOutputKeys::Response& res)
{
try
{
for (const auto& i : req.outputs)
{
crypto::public_key key;
rct::key mask;
bool unlocked;
m_core.get_blockchain_storage().get_output_key_mask_unlocked(i.amount, i.index, key, mask, unlocked);
res.keys.emplace_back(output_key_mask_unlocked{key, mask, unlocked});
}
}
catch (const std::exception& e)
{
res.status = Message::STATUS_FAILED;
res.error_details = e.what();
return;
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetRPCVersion::Request& req, GetRPCVersion::Response& res)
{
res.version = DAEMON_RPC_VERSION_ZMQ;
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetFeeEstimate::Request& req, GetFeeEstimate::Response& res)
{
res.hard_fork_version = m_core.get_blockchain_storage().get_current_hard_fork_version();
res.estimated_base_fee = m_core.get_blockchain_storage().get_dynamic_base_fee_estimate(req.num_grace_blocks);
if (res.hard_fork_version < HF_VERSION_PER_BYTE_FEE)
{
res.size_scale = 1024; // per KiB fee
res.fee_mask = 1;
}
else
{
res.size_scale = 1; // per byte fee
res.fee_mask = Blockchain::get_fee_quantization_mask();
}
res.status = Message::STATUS_OK;
}
void DaemonHandler::handle(const GetOutputDistribution::Request& req, GetOutputDistribution::Response& res)
{
try
{
res.distributions.reserve(req.amounts.size());
const uint64_t req_to_height = req.to_height ? req.to_height : (m_core.get_current_blockchain_height() - 1);
for (std::uint64_t amount : req.amounts)
{
auto data = get_output_distribution(m_core, amount, req.from_height, req_to_height, req.cumulative);
if (!data)
{
res.distributions.clear();
res.status = Message::STATUS_FAILED;
res.error_details = "Failed to get output distribution";
return;
}
res.distributions.push_back(output_distribution{std::move(*data), amount, req.cumulative});
}
res.status = Message::STATUS_OK;
}
catch (const std::exception& e)
{
res.distributions.clear();
res.status = Message::STATUS_FAILED;
res.error_details = e.what();
}
}
bool DaemonHandler::getBlockHeaderByHash(const crypto::hash& hash_in, cryptonote::rpc::BlockHeaderResponse& header)
{
block b;
if (!m_core.get_block_by_hash(hash_in, b))
{
return false;
}
header.hash = hash_in;
if (b.miner_tx.vin.size() != 1 || b.miner_tx.vin.front().type() != typeid(txin_gen))
{
return false;
}
header.height = boost::get<txin_gen>(b.miner_tx.vin.front()).height;
header.major_version = b.major_version;
header.minor_version = b.minor_version;
header.timestamp = b.timestamp;
header.nonce = b.nonce;
header.prev_id = b.prev_id;
header.depth = m_core.get_current_blockchain_height() - header.height - 1;
header.reward = 0;
for (const auto& out : b.miner_tx.vout)
{
header.reward += out.amount;
}
header.difficulty = m_core.get_blockchain_storage().block_difficulty(header.height);
return true;
}
std::string DaemonHandler::handle(const std::string& request)
{
MDEBUG("Handling RPC request: " << request);
Message* resp_message = NULL;
try
{
FullMessage req_full(request, true);
rapidjson::Value& req_json = req_full.getMessage();
const std::string request_type = req_full.getRequestType();
// create correct Message subclass and call handle() on it
REQ_RESP_TYPES_MACRO(request_type, GetHeight, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetBlocksFast, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetHashesFast, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetTransactions, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, KeyImagesSpent, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetTxGlobalOutputIndices, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, SendRawTx, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetInfo, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, StartMining, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, StopMining, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, MiningStatus, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, SaveBC, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetBlockHash, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetLastBlockHeader, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetBlockHeaderByHash, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetBlockHeaderByHeight, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetBlockHeadersByHeight, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetPeerList, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, SetLogLevel, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetTransactionPool, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, HardForkInfo, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetOutputHistogram, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetOutputKeys, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetRPCVersion, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetFeeEstimate, req_json, resp_message, handle);
REQ_RESP_TYPES_MACRO(request_type, GetOutputDistribution, req_json, resp_message, handle);
// if none of the request types matches
if (resp_message == NULL)
{
return BAD_REQUEST(request_type, req_full.getID());
}
FullMessage resp_full = FullMessage::responseMessage(resp_message, req_full.getID());
const std::string response = resp_full.getJson();
delete resp_message;
resp_message = NULL;
MDEBUG("Returning RPC response: " << response);
return response;
}
catch (const std::exception& e)
{
if (resp_message)
{
delete resp_message;
}
return BAD_JSON(e.what());
}
}
} // namespace rpc
} // namespace cryptonote