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peerplays_migrated/libraries/app/database_api.cpp
obucinac a688bb93ed
son_wallet_object operations and multisig wallet recreation by RPC (#263) 
* Extend GPO.active_sons to contain votes and all public keys

* Introduce son_wallet_object
* son_wallet_object operations
* Create son_wallet_object on new set of SONs, to initiate primary wallet recreation
* son_wallet_object API and cli wallet commands
* Send RPC command to bitcoin node to recreate multisig wallet
* Updating wallet info through operation instead through database.modify() for persistance
* Update libraries/chain/include/graphene/chain/protocol/son_wallet.hpp
* Update libraries/chain/include/graphene/chain/protocol/son_wallet.hpp
* Fix #include <graphene/chain/son_wallet_transfer_object.hpp>
* Refactor primary wallet recreation
* PW recreation refactoring, prevent duplicated recreations, update wallet address through proposal
* Quickfix for checking payer in evaluator
* Fix failing son_wallet_tests
- Check for son_btc_account is temporarely disabled
* Remove redundant file
Co-authored-by: gladcow <jahr@yandex.ru>
2020-02-04 19:31:45 +01:00

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/*
* Copyright (c) 2015 Cryptonomex, Inc., and contributors.
*
* The MIT License
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <graphene/app/database_api.hpp>
#include <graphene/chain/get_config.hpp>
#include <graphene/chain/tournament_object.hpp>
#include <graphene/chain/account_object.hpp>
#include <fc/bloom_filter.hpp>
#include <fc/smart_ref_impl.hpp>
#include <fc/crypto/hex.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/rational.hpp>
#include <boost/multiprecision/cpp_int.hpp>
#include <cctype>
#include <cfenv>
#include <iostream>
#define GET_REQUIRED_FEES_MAX_RECURSION 4
typedef std::map< std::pair<graphene::chain::asset_id_type, graphene::chain::asset_id_type>, std::vector<fc::variant> > market_queue_type;
namespace graphene { namespace app {
class database_api_impl : public std::enable_shared_from_this<database_api_impl>
{
public:
database_api_impl( graphene::chain::database& db );
~database_api_impl();
// Objects
fc::variants get_objects(const vector<object_id_type>& ids)const;
// Subscriptions
void set_subscribe_callback( std::function<void(const variant&)> cb, bool notify_remove_create );
void set_pending_transaction_callback( std::function<void(const variant&)> cb );
void set_block_applied_callback( std::function<void(const variant& block_id)> cb );
void cancel_all_subscriptions();
// Blocks and transactions
optional<block_header> get_block_header(uint32_t block_num)const;
map<uint32_t, optional<block_header>> get_block_header_batch(const vector<uint32_t> block_nums)const;
optional<signed_block> get_block(uint32_t block_num)const;
processed_transaction get_transaction( uint32_t block_num, uint32_t trx_in_block )const;
// Globals
chain_property_object get_chain_properties()const;
global_property_object get_global_properties()const;
fc::variant_object get_config()const;
chain_id_type get_chain_id()const;
dynamic_global_property_object get_dynamic_global_properties()const;
global_betting_statistics_object get_global_betting_statistics() const;
// Keys
vector<vector<account_id_type>> get_key_references( vector<public_key_type> key )const;
bool is_public_key_registered(string public_key) const;
// Accounts
vector<optional<account_object>> get_accounts(const vector<account_id_type>& account_ids)const;
std::map<string,full_account> get_full_accounts( const vector<string>& names_or_ids, bool subscribe );
optional<account_object> get_account_by_name( string name )const;
vector<account_id_type> get_account_references( account_id_type account_id )const;
vector<optional<account_object>> lookup_account_names(const vector<string>& account_names)const;
map<string,account_id_type> lookup_accounts(const string& lower_bound_name, uint32_t limit)const;
uint64_t get_account_count()const;
// Balances
vector<asset> get_account_balances(account_id_type id, const flat_set<asset_id_type>& assets)const;
vector<asset> get_named_account_balances(const std::string& name, const flat_set<asset_id_type>& assets)const;
vector<balance_object> get_balance_objects( const vector<address>& addrs )const;
vector<asset> get_vested_balances( const vector<balance_id_type>& objs )const;
vector<vesting_balance_object> get_vesting_balances( account_id_type account_id )const;
// Assets
vector<optional<asset_object>> get_assets(const vector<asset_id_type>& asset_ids)const;
vector<asset_object> list_assets(const string& lower_bound_symbol, uint32_t limit)const;
vector<optional<asset_object>> lookup_asset_symbols(const vector<string>& symbols_or_ids)const;
uint64_t get_asset_count()const;
// Peerplays
vector<sport_object> list_sports() const;
vector<event_group_object> list_event_groups(sport_id_type sport_id) const;
vector<event_object> list_events_in_group(event_group_id_type event_group_id) const;
vector<betting_market_group_object> list_betting_market_groups(event_id_type) const;
vector<betting_market_object> list_betting_markets(betting_market_group_id_type) const;
vector<bet_object> get_unmatched_bets_for_bettor(betting_market_id_type, account_id_type) const;
vector<bet_object> get_all_unmatched_bets_for_bettor(account_id_type) const;
// Lottery Assets
vector<asset_object> get_lotteries( asset_id_type stop = asset_id_type(),
unsigned limit = 100,
asset_id_type start = asset_id_type() )const;
vector<asset_object> get_account_lotteries( account_id_type issuer,
asset_id_type stop,
unsigned limit,
asset_id_type start )const;
asset get_lottery_balance( asset_id_type lottery_id )const;
sweeps_vesting_balance_object get_sweeps_vesting_balance_object( account_id_type account )const;
asset get_sweeps_vesting_balance_available_for_claim( account_id_type account )const;
// Markets / feeds
vector<limit_order_object> get_limit_orders(asset_id_type a, asset_id_type b, uint32_t limit)const;
vector<call_order_object> get_call_orders(asset_id_type a, uint32_t limit)const;
vector<force_settlement_object> get_settle_orders(asset_id_type a, uint32_t limit)const;
vector<call_order_object> get_margin_positions( const account_id_type& id )const;
void subscribe_to_market(std::function<void(const variant&)> callback, asset_id_type a, asset_id_type b);
void unsubscribe_from_market(asset_id_type a, asset_id_type b);
market_ticker get_ticker( const string& base, const string& quote )const;
market_volume get_24_volume( const string& base, const string& quote )const;
order_book get_order_book( const string& base, const string& quote, unsigned limit = 50 )const;
vector<market_trade> get_trade_history( const string& base, const string& quote, fc::time_point_sec start, fc::time_point_sec stop, unsigned limit = 100 )const;
// Witnesses
vector<optional<witness_object>> get_witnesses(const vector<witness_id_type>& witness_ids)const;
fc::optional<witness_object> get_witness_by_account(account_id_type account)const;
map<string, witness_id_type> lookup_witness_accounts(const string& lower_bound_name, uint32_t limit)const;
uint64_t get_witness_count()const;
// Committee members
vector<optional<committee_member_object>> get_committee_members(const vector<committee_member_id_type>& committee_member_ids)const;
fc::optional<committee_member_object> get_committee_member_by_account(account_id_type account)const;
map<string, committee_member_id_type> lookup_committee_member_accounts(const string& lower_bound_name, uint32_t limit)const;
// SON members
vector<optional<son_object>> get_sons(const vector<son_id_type>& son_ids)const;
fc::optional<son_object> get_son_by_account(account_id_type account)const;
map<string, son_id_type> lookup_son_accounts(const string& lower_bound_name, uint32_t limit)const;
uint64_t get_son_count()const;
// SON wallets
optional<son_wallet_object> get_active_son_wallet();
optional<son_wallet_object> get_son_wallet_by_time_point(time_point_sec time_point);
vector<optional<son_wallet_object>> get_son_wallets(uint32_t limit);
// Sidechain addresses
vector<optional<sidechain_address_object>> get_sidechain_addresses(const vector<sidechain_address_id_type>& sidechain_address_ids)const;
vector<optional<sidechain_address_object>> get_sidechain_addresses_by_account(account_id_type account)const;
vector<optional<sidechain_address_object>> get_sidechain_addresses_by_sidechain(peerplays_sidechain::sidechain_type sidechain)const;
fc::optional<sidechain_address_object> get_sidechain_address_by_account_and_sidechain(account_id_type account, peerplays_sidechain::sidechain_type sidechain)const;
uint64_t get_sidechain_addresses_count()const;
// Votes
vector<variant> lookup_vote_ids( const vector<vote_id_type>& votes )const;
// Authority / validation
std::string get_transaction_hex(const signed_transaction& trx)const;
set<public_key_type> get_required_signatures( const signed_transaction& trx, const flat_set<public_key_type>& available_keys )const;
set<public_key_type> get_potential_signatures( const signed_transaction& trx )const;
set<address> get_potential_address_signatures( const signed_transaction& trx )const;
bool verify_authority( const signed_transaction& trx )const;
bool verify_account_authority( const string& name_or_id, const flat_set<public_key_type>& signers )const;
processed_transaction validate_transaction( const signed_transaction& trx )const;
vector< fc::variant > get_required_fees( const vector<operation>& ops, asset_id_type id )const;
// Proposed transactions
vector<proposal_object> get_proposed_transactions( account_id_type id )const;
// Blinded balances
vector<blinded_balance_object> get_blinded_balances( const flat_set<commitment_type>& commitments )const;
// Tournaments
vector<tournament_object> get_tournaments_in_state(tournament_state state, uint32_t limit) const;
vector<tournament_object> get_tournaments(tournament_id_type stop, unsigned limit, tournament_id_type start);
vector<tournament_object> get_tournaments_by_state(tournament_id_type stop, unsigned limit, tournament_id_type start, tournament_state state);
vector<tournament_id_type> get_registered_tournaments(account_id_type account_filter, uint32_t limit) const;
//private:
template<typename T>
void subscribe_to_item( const T& i )const
{
auto vec = fc::raw::pack(i);
if( !_subscribe_callback )
return;
if( !is_subscribed_to_item(i) )
{
_subscribe_filter.insert( vec.data(), vec.size() );//(vecconst char*)&i, sizeof(i) );
}
}
template<typename T>
bool is_subscribed_to_item( const T& i )const
{
if( !_subscribe_callback )
return false;
return _subscribe_filter.contains( i );
}
bool is_impacted_account( const flat_set<account_id_type>& accounts)
{
if( !_subscribed_accounts.size() || !accounts.size() )
return false;
return std::any_of(accounts.begin(), accounts.end(), [this](const account_id_type& account) {
return _subscribed_accounts.find(account) != _subscribed_accounts.end();
});
}
template<typename T>
void enqueue_if_subscribed_to_market(const object* obj, market_queue_type& queue, bool full_object=true)
{
const T* order = dynamic_cast<const T*>(obj);
FC_ASSERT( order != nullptr);
auto market = order->get_market();
auto sub = _market_subscriptions.find( market );
if( sub != _market_subscriptions.end() ) {
queue[market].emplace_back( full_object ? obj->to_variant() : fc::variant(obj->id, 1) );
}
}
void broadcast_updates( const vector<variant>& updates );
void broadcast_market_updates( const market_queue_type& queue);
void handle_object_changed(bool force_notify, bool full_object, const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts, std::function<const object*(object_id_type id)> find_object);
/** called every time a block is applied to report the objects that were changed */
void on_objects_new(const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts);
void on_objects_changed(const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts);
void on_objects_removed(const vector<object_id_type>& ids, const vector<const object*>& objs, const flat_set<account_id_type>& impacted_accounts);
void on_applied_block();
bool _notify_remove_create = false;
mutable fc::bloom_filter _subscribe_filter;
std::set<account_id_type> _subscribed_accounts;
std::function<void(const fc::variant&)> _subscribe_callback;
std::function<void(const fc::variant&)> _pending_trx_callback;
std::function<void(const fc::variant&)> _block_applied_callback;
boost::signals2::scoped_connection _new_connection;
boost::signals2::scoped_connection _change_connection;
boost::signals2::scoped_connection _removed_connection;
boost::signals2::scoped_connection _applied_block_connection;
boost::signals2::scoped_connection _pending_trx_connection;
map< pair<asset_id_type,asset_id_type>, std::function<void(const variant&)> > _market_subscriptions;
graphene::chain::database& _db;
};
//////////////////////////////////////////////////////////////////////
// //
// Constructors //
// //
//////////////////////////////////////////////////////////////////////
database_api::database_api( graphene::chain::database& db )
: my( new database_api_impl( db ) ) {}
database_api::~database_api() {}
database_api_impl::database_api_impl( graphene::chain::database& db ):_db(db)
{
wlog("creating database api ${x}", ("x",int64_t(this)) );
_new_connection = _db.new_objects.connect([this](const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts) {
on_objects_new(ids, impacted_accounts);
});
_change_connection = _db.changed_objects.connect([this](const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts) {
on_objects_changed(ids, impacted_accounts);
});
_removed_connection = _db.removed_objects.connect([this](const vector<object_id_type>& ids, const vector<const object*>& objs, const flat_set<account_id_type>& impacted_accounts) {
on_objects_removed(ids, objs, impacted_accounts);
});
_applied_block_connection = _db.applied_block.connect([this](const signed_block&){ on_applied_block(); });
_pending_trx_connection = _db.on_pending_transaction.connect([this](const signed_transaction& trx ){
if( _pending_trx_callback ) _pending_trx_callback( fc::variant(trx, GRAPHENE_MAX_NESTED_OBJECTS) );
});
}
database_api_impl::~database_api_impl()
{
elog("freeing database api ${x}", ("x",int64_t(this)) );
}
//////////////////////////////////////////////////////////////////////
// //
// Objects //
// //
//////////////////////////////////////////////////////////////////////
fc::variants database_api::get_objects(const vector<object_id_type>& ids)const
{
return my->get_objects( ids );
}
fc::variants database_api_impl::get_objects(const vector<object_id_type>& ids)const
{
if( _subscribe_callback ) {
for( auto id : ids )
{
if( id.type() == operation_history_object_type && id.space() == protocol_ids ) continue;
if( id.type() == impl_account_transaction_history_object_type && id.space() == implementation_ids ) continue;
this->subscribe_to_item( id );
}
}
fc::variants result;
result.reserve(ids.size());
std::transform(ids.begin(), ids.end(), std::back_inserter(result),
[this](object_id_type id) -> fc::variant {
if(auto obj = _db.find_object(id))
return obj->to_variant();
return {};
});
return result;
}
//////////////////////////////////////////////////////////////////////
// //
// Subscriptions //
// //
//////////////////////////////////////////////////////////////////////
void database_api::set_subscribe_callback( std::function<void(const variant&)> cb, bool notify_remove_create )
{
my->set_subscribe_callback( cb, notify_remove_create );
}
void database_api_impl::set_subscribe_callback( std::function<void(const variant&)> cb, bool notify_remove_create )
{
//edump((clear_filter));
_subscribe_callback = cb;
_notify_remove_create = notify_remove_create;
_subscribed_accounts.clear();
static fc::bloom_parameters param;
param.projected_element_count = 10000;
param.false_positive_probability = 1.0/100;
param.maximum_size = 1024*8*8*2;
param.compute_optimal_parameters();
_subscribe_filter = fc::bloom_filter(param);
}
void database_api::set_pending_transaction_callback( std::function<void(const variant&)> cb )
{
my->set_pending_transaction_callback( cb );
}
void database_api_impl::set_pending_transaction_callback( std::function<void(const variant&)> cb )
{
_pending_trx_callback = cb;
}
void database_api::set_block_applied_callback( std::function<void(const variant& block_id)> cb )
{
my->set_block_applied_callback( cb );
}
void database_api_impl::set_block_applied_callback( std::function<void(const variant& block_id)> cb )
{
_block_applied_callback = cb;
}
void database_api::cancel_all_subscriptions()
{
my->cancel_all_subscriptions();
}
void database_api_impl::cancel_all_subscriptions()
{
set_subscribe_callback( std::function<void(const fc::variant&)>(), true);
_market_subscriptions.clear();
}
//////////////////////////////////////////////////////////////////////
// //
// Blocks and transactions //
// //
//////////////////////////////////////////////////////////////////////
optional<block_header> database_api::get_block_header(uint32_t block_num)const
{
return my->get_block_header( block_num );
}
optional<block_header> database_api_impl::get_block_header(uint32_t block_num) const
{
auto result = _db.fetch_block_by_number(block_num);
if(result)
return *result;
return {};
}
map<uint32_t, optional<block_header>> database_api::get_block_header_batch(const vector<uint32_t> block_nums)const
{
return my->get_block_header_batch( block_nums );
}
map<uint32_t, optional<block_header>> database_api_impl::get_block_header_batch(const vector<uint32_t> block_nums) const
{
map<uint32_t, optional<block_header>> results;
for (const uint32_t block_num : block_nums)
{
results[block_num] = get_block_header(block_num);
}
return results;
}
optional<signed_block> database_api::get_block(uint32_t block_num)const
{
return my->get_block( block_num );
}
optional<signed_block> database_api_impl::get_block(uint32_t block_num)const
{
return _db.fetch_block_by_number(block_num);
}
processed_transaction database_api::get_transaction( uint32_t block_num, uint32_t trx_in_block )const
{
return my->get_transaction( block_num, trx_in_block );
}
optional<signed_transaction> database_api::get_recent_transaction_by_id( const transaction_id_type& id )const
{
try {
return my->_db.get_recent_transaction( id );
} catch ( ... ) {
return optional<signed_transaction>();
}
}
processed_transaction database_api_impl::get_transaction(uint32_t block_num, uint32_t trx_num)const
{
auto opt_block = _db.fetch_block_by_number(block_num);
FC_ASSERT( opt_block );
FC_ASSERT( opt_block->transactions.size() > trx_num );
return opt_block->transactions[trx_num];
}
//////////////////////////////////////////////////////////////////////
// //
// Globals //
// //
//////////////////////////////////////////////////////////////////////
chain_property_object database_api::get_chain_properties()const
{
return my->get_chain_properties();
}
chain_property_object database_api_impl::get_chain_properties()const
{
return _db.get(chain_property_id_type());
}
global_property_object database_api::get_global_properties()const
{
return my->get_global_properties();
}
global_property_object database_api_impl::get_global_properties()const
{
return _db.get(global_property_id_type());
}
fc::variant_object database_api::get_config()const
{
return my->get_config();
}
fc::variant_object database_api_impl::get_config()const
{
return graphene::chain::get_config();
}
chain_id_type database_api::get_chain_id()const
{
return my->get_chain_id();
}
chain_id_type database_api_impl::get_chain_id()const
{
return _db.get_chain_id();
}
dynamic_global_property_object database_api::get_dynamic_global_properties()const
{
return my->get_dynamic_global_properties();
}
dynamic_global_property_object database_api_impl::get_dynamic_global_properties()const
{
return _db.get(dynamic_global_property_id_type());
}
global_betting_statistics_object database_api::get_global_betting_statistics() const
{
return my->get_global_betting_statistics();
}
global_betting_statistics_object database_api_impl::get_global_betting_statistics() const
{
return _db.get(global_betting_statistics_id_type());
}
//////////////////////////////////////////////////////////////////////
// //
// Keys //
// //
//////////////////////////////////////////////////////////////////////
vector<vector<account_id_type>> database_api::get_key_references( vector<public_key_type> key )const
{
return my->get_key_references( key );
}
/**
* @return all accounts that referr to the key or account id in their owner or active authorities.
*/
vector<vector<account_id_type>> database_api_impl::get_key_references( vector<public_key_type> keys )const
{
wdump( (keys) );
const auto& idx = _db.get_index_type<account_index>();
const auto& aidx = dynamic_cast<const base_primary_index&>(idx);
const auto& refs = aidx.get_secondary_index<graphene::chain::account_member_index>();
vector< vector<account_id_type> > final_result;
final_result.reserve(keys.size());
for( auto& key : keys )
{
address a1( pts_address(key, false, 56) );
address a2( pts_address(key, true, 56) );
address a3( pts_address(key, false, 0) );
address a4( pts_address(key, true, 0) );
address a5( key );
subscribe_to_item( key );
subscribe_to_item( a1 );
subscribe_to_item( a2 );
subscribe_to_item( a3 );
subscribe_to_item( a4 );
subscribe_to_item( a5 );
vector<account_id_type> result;
for( auto& a : {a1,a2,a3,a4,a5} )
{
auto itr = refs.account_to_address_memberships.find(a);
if( itr != refs.account_to_address_memberships.end() )
{
result.reserve( result.size() + itr->second.size() );
for( auto item : itr->second )
{
wdump((a)(item)(item(_db).name));
result.push_back(item);
}
}
}
auto itr = refs.account_to_key_memberships.find(key);
if( itr != refs.account_to_key_memberships.end() )
{
result.reserve( result.size() + itr->second.size() );
for( auto item : itr->second ) result.push_back(item);
}
final_result.emplace_back( std::move(result) );
}
for( auto i : final_result )
subscribe_to_item(i);
return final_result;
}
bool database_api::is_public_key_registered(string public_key) const
{
return my->is_public_key_registered(public_key);
}
bool database_api_impl::is_public_key_registered(string public_key) const
{
// Short-circuit
if (public_key.empty()) {
return false;
}
// Search among all keys using an existing map of *current* account keys
public_key_type key;
try {
key = public_key_type(public_key);
} catch ( ... ) {
// An invalid public key was detected
return false;
}
const auto& idx = _db.get_index_type<account_index>();
const auto& aidx = dynamic_cast<const base_primary_index&>(idx);
const auto& refs = aidx.get_secondary_index<graphene::chain::account_member_index>();
auto itr = refs.account_to_key_memberships.find(key);
bool is_known = itr != refs.account_to_key_memberships.end();
return is_known;
}
//////////////////////////////////////////////////////////////////////
// //
// Accounts //
// //
//////////////////////////////////////////////////////////////////////
vector<optional<account_object>> database_api::get_accounts(const vector<account_id_type>& account_ids)const
{
return my->get_accounts( account_ids );
}
vector<optional<account_object>> database_api_impl::get_accounts(const vector<account_id_type>& account_ids)const
{
vector<optional<account_object>> result; result.reserve(account_ids.size());
std::transform(account_ids.begin(), account_ids.end(), std::back_inserter(result),
[this](account_id_type id) -> optional<account_object> {
if(auto o = _db.find(id))
{
subscribe_to_item( id );
return *o;
}
return {};
});
return result;
}
std::map<string,full_account> database_api::get_full_accounts( const vector<string>& names_or_ids, bool subscribe )
{
return my->get_full_accounts( names_or_ids, subscribe );
}
std::map<std::string, full_account> database_api_impl::get_full_accounts( const vector<std::string>& names_or_ids, bool subscribe)
{
const auto& proposal_idx = _db.get_index_type<proposal_index>();
const auto& pidx = dynamic_cast<const base_primary_index&>(proposal_idx);
const auto& proposals_by_account = pidx.get_secondary_index<graphene::chain::required_approval_index>();
std::map<std::string, full_account> results;
for (const std::string& account_name_or_id : names_or_ids)
{
const account_object* account = nullptr;
if (std::isdigit(account_name_or_id[0]))
account = _db.find(fc::variant(account_name_or_id, 1).as<account_id_type>(1));
else
{
const auto& idx = _db.get_index_type<account_index>().indices().get<by_name>();
auto itr = idx.find(account_name_or_id);
if (itr != idx.end())
account = &*itr;
}
if (account == nullptr)
continue;
if( subscribe )
{
FC_ASSERT( std::distance(_subscribed_accounts.begin(), _subscribed_accounts.end()) <= 100 );
_subscribed_accounts.insert( account->get_id() );
subscribe_to_item( account->id );
}
full_account acnt;
acnt.account = *account;
acnt.statistics = account->statistics(_db);
acnt.registrar_name = account->registrar(_db).name;
acnt.referrer_name = account->referrer(_db).name;
acnt.lifetime_referrer_name = account->lifetime_referrer(_db).name;
acnt.votes = lookup_vote_ids( vector<vote_id_type>(account->options.votes.begin(),account->options.votes.end()) );
if (account->cashback_vb)
{
acnt.cashback_balance = account->cashback_balance(_db);
}
// Add the account's proposals
auto required_approvals_itr = proposals_by_account._account_to_proposals.find( account->id );
if( required_approvals_itr != proposals_by_account._account_to_proposals.end() )
{
acnt.proposals.reserve( required_approvals_itr->second.size() );
for( auto proposal_id : required_approvals_itr->second )
acnt.proposals.push_back( proposal_id(_db) );
}
// Add the account's balances
const auto& balances = _db.get_index_type< primary_index< account_balance_index > >().get_secondary_index< balances_by_account_index >().get_account_balances( account->id );
for( const auto balance : balances )
acnt.balances.emplace_back( *balance.second );
// Add the account's vesting balances
auto vesting_range = _db.get_index_type<vesting_balance_index>().indices().get<by_account>().equal_range(account->id);
std::for_each(vesting_range.first, vesting_range.second,
[&acnt](const vesting_balance_object& balance) {
acnt.vesting_balances.emplace_back(balance);
});
// Add the account's orders
auto order_range = _db.get_index_type<limit_order_index>().indices().get<by_account>().equal_range(account->id);
std::for_each(order_range.first, order_range.second,
[&acnt] (const limit_order_object& order) {
acnt.limit_orders.emplace_back(order);
});
auto call_range = _db.get_index_type<call_order_index>().indices().get<by_account>().equal_range(account->id);
std::for_each(call_range.first, call_range.second,
[&acnt] (const call_order_object& call) {
acnt.call_orders.emplace_back(call);
});
auto settle_range = _db.get_index_type<force_settlement_index>().indices().get<by_account>().equal_range(account->id);
std::for_each(settle_range.first, settle_range.second,
[&acnt] (const force_settlement_object& settle) {
acnt.settle_orders.emplace_back(settle);
});
// get assets issued by user
auto asset_range = _db.get_index_type<asset_index>().indices().get<by_issuer>().equal_range(account->id);
std::for_each(asset_range.first, asset_range.second,
[&acnt] (const asset_object& asset) {
acnt.assets.emplace_back(asset.id);
});
// get withdraws permissions
auto withdraw_range = _db.get_index_type<withdraw_permission_index>().indices().get<by_from>().equal_range(account->id);
std::for_each(withdraw_range.first, withdraw_range.second,
[&acnt] (const withdraw_permission_object& withdraw) {
acnt.withdraws.emplace_back(withdraw);
});
auto pending_payouts_range =
_db.get_index_type<pending_dividend_payout_balance_for_holder_object_index>().indices().get<by_account_dividend_payout>().equal_range(boost::make_tuple(account->id));
std::copy(pending_payouts_range.first, pending_payouts_range.second, std::back_inserter(acnt.pending_dividend_payments));
results[account_name_or_id] = acnt;
}
return results;
}
optional<account_object> database_api::get_account_by_name( string name )const
{
return my->get_account_by_name( name );
}
optional<account_object> database_api_impl::get_account_by_name( string name )const
{
const auto& idx = _db.get_index_type<account_index>().indices().get<by_name>();
auto itr = idx.find(name);
if (itr != idx.end())
return *itr;
return optional<account_object>();
}
vector<account_id_type> database_api::get_account_references( account_id_type account_id )const
{
return my->get_account_references( account_id );
}
vector<account_id_type> database_api_impl::get_account_references( account_id_type account_id )const
{
const auto& idx = _db.get_index_type<account_index>();
const auto& aidx = dynamic_cast<const base_primary_index&>(idx);
const auto& refs = aidx.get_secondary_index<graphene::chain::account_member_index>();
auto itr = refs.account_to_account_memberships.find(account_id);
vector<account_id_type> result;
if( itr != refs.account_to_account_memberships.end() )
{
result.reserve( itr->second.size() );
for( auto item : itr->second ) result.push_back(item);
}
return result;
}
vector<optional<account_object>> database_api::lookup_account_names(const vector<string>& account_names)const
{
return my->lookup_account_names( account_names );
}
vector<optional<account_object>> database_api_impl::lookup_account_names(const vector<string>& account_names)const
{
const auto& accounts_by_name = _db.get_index_type<account_index>().indices().get<by_name>();
vector<optional<account_object> > result;
result.reserve(account_names.size());
std::transform(account_names.begin(), account_names.end(), std::back_inserter(result),
[&accounts_by_name](const string& name) -> optional<account_object> {
auto itr = accounts_by_name.find(name);
return itr == accounts_by_name.end()? optional<account_object>() : *itr;
});
return result;
}
map<string,account_id_type> database_api::lookup_accounts(const string& lower_bound_name, uint32_t limit)const
{
return my->lookup_accounts( lower_bound_name, limit );
}
map<string,account_id_type> database_api_impl::lookup_accounts(const string& lower_bound_name, uint32_t limit)const
{
FC_ASSERT( limit <= 1000 );
const auto& accounts_by_name = _db.get_index_type<account_index>().indices().get<by_name>();
map<string,account_id_type> result;
for( auto itr = accounts_by_name.lower_bound(lower_bound_name);
limit-- && itr != accounts_by_name.end();
++itr )
{
result.insert(make_pair(itr->name, itr->get_id()));
if( limit == 1 )
subscribe_to_item( itr->get_id() );
}
return result;
}
uint64_t database_api::get_account_count()const
{
return my->get_account_count();
}
uint64_t database_api_impl::get_account_count()const
{
return _db.get_index_type<account_index>().indices().size();
}
//////////////////////////////////////////////////////////////////////
// //
// Balances //
// //
//////////////////////////////////////////////////////////////////////
vector<asset> database_api::get_account_balances(account_id_type id, const flat_set<asset_id_type>& assets)const
{
return my->get_account_balances( id, assets );
}
vector<asset> database_api_impl::get_account_balances(account_id_type acnt, const flat_set<asset_id_type>& assets)const
{
vector<asset> result;
if (assets.empty())
{
// if the caller passes in an empty list of assets, return balances for all assets the account owns
const auto& balance_index = _db.get_index_type< primary_index< account_balance_index > >();
const auto& balances = balance_index.get_secondary_index< balances_by_account_index >().get_account_balances( acnt );
for( const auto balance : balances )
result.push_back( balance.second->get_balance() );
}
else
{
result.reserve(assets.size());
std::transform(assets.begin(), assets.end(), std::back_inserter(result),
[this, acnt](asset_id_type id) { return _db.get_balance(acnt, id); });
}
return result;
}
vector<asset> database_api::get_named_account_balances(const std::string& name, const flat_set<asset_id_type>& assets)const
{
return my->get_named_account_balances( name, assets );
}
vector<asset> database_api_impl::get_named_account_balances(const std::string& name, const flat_set<asset_id_type>& assets) const
{
const auto& accounts_by_name = _db.get_index_type<account_index>().indices().get<by_name>();
auto itr = accounts_by_name.find(name);
FC_ASSERT( itr != accounts_by_name.end() );
return get_account_balances(itr->get_id(), assets);
}
vector<balance_object> database_api::get_balance_objects( const vector<address>& addrs )const
{
return my->get_balance_objects( addrs );
}
vector<balance_object> database_api_impl::get_balance_objects( const vector<address>& addrs )const
{
try
{
const auto& bal_idx = _db.get_index_type<balance_index>();
const auto& by_owner_idx = bal_idx.indices().get<by_owner>();
vector<balance_object> result;
for( const auto& owner : addrs )
{
subscribe_to_item( owner );
auto itr = by_owner_idx.lower_bound( boost::make_tuple( owner, asset_id_type(0) ) );
while( itr != by_owner_idx.end() && itr->owner == owner )
{
result.push_back( *itr );
++itr;
}
}
return result;
}
FC_CAPTURE_AND_RETHROW( (addrs) )
}
vector<asset> database_api::get_vested_balances( const vector<balance_id_type>& objs )const
{
return my->get_vested_balances( objs );
}
vector<asset> database_api_impl::get_vested_balances( const vector<balance_id_type>& objs )const
{
try
{
vector<asset> result;
result.reserve( objs.size() );
auto now = _db.head_block_time();
for( auto obj : objs )
result.push_back( obj(_db).available( now ) );
return result;
} FC_CAPTURE_AND_RETHROW( (objs) )
}
vector<vesting_balance_object> database_api::get_vesting_balances( account_id_type account_id )const
{
return my->get_vesting_balances( account_id );
}
vector<vesting_balance_object> database_api_impl::get_vesting_balances( account_id_type account_id )const
{
try
{
vector<vesting_balance_object> result;
auto vesting_range = _db.get_index_type<vesting_balance_index>().indices().get<by_account>().equal_range(account_id);
std::for_each(vesting_range.first, vesting_range.second,
[&result](const vesting_balance_object& balance) {
result.emplace_back(balance);
});
return result;
}
FC_CAPTURE_AND_RETHROW( (account_id) );
}
//////////////////////////////////////////////////////////////////////
// //
// Assets //
// //
//////////////////////////////////////////////////////////////////////
vector<optional<asset_object>> database_api::get_assets(const vector<asset_id_type>& asset_ids)const
{
return my->get_assets( asset_ids );
}
vector<optional<asset_object>> database_api_impl::get_assets(const vector<asset_id_type>& asset_ids)const
{
vector<optional<asset_object>> result; result.reserve(asset_ids.size());
std::transform(asset_ids.begin(), asset_ids.end(), std::back_inserter(result),
[this](asset_id_type id) -> optional<asset_object> {
if(auto o = _db.find(id))
{
subscribe_to_item( id );
return *o;
}
return {};
});
return result;
}
vector<asset_object> database_api::list_assets(const string& lower_bound_symbol, uint32_t limit)const
{
return my->list_assets( lower_bound_symbol, limit );
}
vector<asset_object> database_api_impl::list_assets(const string& lower_bound_symbol, uint32_t limit)const
{
FC_ASSERT( limit <= 100 );
const auto& assets_by_symbol = _db.get_index_type<asset_index>().indices().get<by_symbol>();
vector<asset_object> result;
result.reserve(limit);
auto itr = assets_by_symbol.lower_bound(lower_bound_symbol);
if( lower_bound_symbol == "" )
itr = assets_by_symbol.begin();
while(limit-- && itr != assets_by_symbol.end())
result.emplace_back(*itr++);
return result;
}
vector<optional<asset_object>> database_api::lookup_asset_symbols(const vector<string>& symbols_or_ids)const
{
return my->lookup_asset_symbols( symbols_or_ids );
}
vector<optional<asset_object>> database_api_impl::lookup_asset_symbols(const vector<string>& symbols_or_ids)const
{
const auto& assets_by_symbol = _db.get_index_type<asset_index>().indices().get<by_symbol>();
vector<optional<asset_object> > result;
result.reserve(symbols_or_ids.size());
std::transform(symbols_or_ids.begin(), symbols_or_ids.end(), std::back_inserter(result),
[this, &assets_by_symbol](const string& symbol_or_id) -> optional<asset_object> {
if( !symbol_or_id.empty() && std::isdigit(symbol_or_id[0]) )
{
auto ptr = _db.find(variant(symbol_or_id, 1).as<asset_id_type>(1));
return ptr == nullptr? optional<asset_object>() : *ptr;
}
auto itr = assets_by_symbol.find(symbol_or_id);
return itr == assets_by_symbol.end()? optional<asset_object>() : *itr;
});
return result;
}
uint64_t database_api::get_asset_count()const
{
return my->get_asset_count();
}
uint64_t database_api_impl::get_asset_count()const
{
return _db.get_index_type<asset_index>().indices().size();
}
////////////////////
// Lottery Assets //
////////////////////
vector<asset_object> database_api::get_lotteries( asset_id_type stop,
unsigned limit,
asset_id_type start )const
{
return my->get_lotteries( stop, limit, start );
}
vector<asset_object> database_api_impl::get_lotteries( asset_id_type stop,
unsigned limit,
asset_id_type start )const
{
vector<asset_object> result;
if( limit > 100 ) limit = 100;
const auto& assets = _db.get_index_type<asset_index>().indices().get<by_lottery>();
const auto range = assets.equal_range( boost::make_tuple( true ) );
for( const auto& a : boost::make_iterator_range( range.first, range.second ) )
{
if( start == asset_id_type() || (a.get_id().instance.value <= start.instance.value) )
result.push_back( a );
if( a.get_id().instance.value < stop.instance.value || result.size() >= limit )
break;
}
return result;
}
vector<asset_object> database_api::get_account_lotteries( account_id_type issuer,
asset_id_type stop,
unsigned limit,
asset_id_type start )const
{
return my->get_account_lotteries( issuer, stop, limit, start );
}
vector<asset_object> database_api_impl::get_account_lotteries( account_id_type issuer,
asset_id_type stop,
unsigned limit,
asset_id_type start )const
{
vector<asset_object> result;
if( limit > 100 ) limit = 100;
const auto& assets = _db.get_index_type<asset_index>().indices().get<by_lottery_owner>();
const auto range = assets.equal_range( boost::make_tuple( true, issuer.instance.value ) );
for( const auto& a : boost::make_iterator_range( range.first, range.second ) )
{
if( start == asset_id_type() || (a.get_id().instance.value <= start.instance.value) )
result.push_back( a );
if( a.get_id().instance.value < stop.instance.value || result.size() >= limit )
break;
}
return result;
}
asset database_api::get_lottery_balance( asset_id_type lottery_id )const
{
return my->get_lottery_balance( lottery_id );
}
asset database_api_impl::get_lottery_balance( asset_id_type lottery_id )const
{
auto lottery_asset = lottery_id( _db );
FC_ASSERT( lottery_asset.is_lottery() );
return _db.get_balance( lottery_id );
}
sweeps_vesting_balance_object database_api::get_sweeps_vesting_balance_object( account_id_type account )const
{
return my->get_sweeps_vesting_balance_object( account );
}
sweeps_vesting_balance_object database_api_impl::get_sweeps_vesting_balance_object( account_id_type account )const
{
const auto& vesting_idx = _db.get_index_type<sweeps_vesting_balance_index>().indices().get<by_owner>();
auto account_balance = vesting_idx.find(account);
FC_ASSERT( account_balance != vesting_idx.end(), "NO SWEEPS VESTING BALANCE" );
return *account_balance;
}
asset database_api::get_sweeps_vesting_balance_available_for_claim( account_id_type account )const
{
return my->get_sweeps_vesting_balance_available_for_claim( account );
}
asset database_api_impl::get_sweeps_vesting_balance_available_for_claim( account_id_type account )const
{
const auto& vesting_idx = _db.get_index_type<sweeps_vesting_balance_index>().indices().get<by_owner>();
auto account_balance = vesting_idx.find(account);
FC_ASSERT( account_balance != vesting_idx.end(), "NO SWEEPS VESTING BALANCE" );
return account_balance->available_for_claim();
}
//////////////////////////////////////////////////////////////////////
// Peerplays //
//////////////////////////////////////////////////////////////////////
vector<sport_object> database_api::list_sports() const
{
return my->list_sports();
}
vector<sport_object> database_api_impl::list_sports() const
{
const auto& sport_object_idx = _db.get_index_type<sport_object_index>().indices().get<by_id>();
return boost::copy_range<vector<sport_object> >(sport_object_idx);
}
vector<event_group_object> database_api::list_event_groups(sport_id_type sport_id) const
{
return my->list_event_groups(sport_id);
}
vector<event_group_object> database_api_impl::list_event_groups(sport_id_type sport_id) const
{
const auto& event_group_idx = _db.get_index_type<event_group_object_index>().indices().get<by_sport_id>();
return boost::copy_range<vector<event_group_object> >(event_group_idx.equal_range(sport_id));
}
vector<event_object> database_api::list_events_in_group(event_group_id_type event_group_id) const
{
return my->list_events_in_group(event_group_id);
}
vector<event_object> database_api_impl::list_events_in_group(event_group_id_type event_group_id) const
{
const auto& event_idx = _db.get_index_type<event_object_index>().indices().get<by_event_group_id>();
return boost::copy_range<vector<event_object> >(event_idx.equal_range(event_group_id));
}
vector<betting_market_group_object> database_api::list_betting_market_groups(event_id_type event_id) const
{
return my->list_betting_market_groups(event_id);
}
vector<betting_market_group_object> database_api_impl::list_betting_market_groups(event_id_type event_id) const
{
const auto& betting_market_group_idx = _db.get_index_type<betting_market_group_object_index>().indices().get<by_event_id>();
return boost::copy_range<vector<betting_market_group_object> >(betting_market_group_idx.equal_range(event_id));
}
vector<betting_market_object> database_api::list_betting_markets(betting_market_group_id_type betting_market_group_id) const
{
return my->list_betting_markets(betting_market_group_id);
}
vector<betting_market_object> database_api_impl::list_betting_markets(betting_market_group_id_type betting_market_group_id) const
{
const auto& betting_market_idx = _db.get_index_type<betting_market_object_index>().indices().get<by_betting_market_group_id>();
return boost::copy_range<vector<betting_market_object> >(betting_market_idx.equal_range(betting_market_group_id));
}
vector<bet_object> database_api::get_unmatched_bets_for_bettor(betting_market_id_type betting_market_id, account_id_type bettor_id) const
{
return my->get_unmatched_bets_for_bettor(betting_market_id, bettor_id);
}
vector<bet_object> database_api_impl::get_unmatched_bets_for_bettor(betting_market_id_type betting_market_id, account_id_type bettor_id) const
{
const auto& bet_idx = _db.get_index_type<bet_object_index>().indices().get<by_bettor_and_odds>();
return boost::copy_range<vector<bet_object> >(bet_idx.equal_range(std::make_tuple(bettor_id, betting_market_id)));
}
vector<bet_object> database_api::get_all_unmatched_bets_for_bettor(account_id_type bettor_id) const
{
return my->get_all_unmatched_bets_for_bettor(bettor_id);
}
vector<bet_object> database_api_impl::get_all_unmatched_bets_for_bettor(account_id_type bettor_id) const
{
const auto& bet_idx = _db.get_index_type<bet_object_index>().indices().get<by_bettor_and_odds>();
return boost::copy_range<vector<bet_object> >(bet_idx.equal_range(std::make_tuple(bettor_id)));
}
//////////////////////////////////////////////////////////////////////
// //
// Markets / feeds //
// //
//////////////////////////////////////////////////////////////////////
vector<limit_order_object> database_api::get_limit_orders(asset_id_type a, asset_id_type b, uint32_t limit)const
{
return my->get_limit_orders( a, b, limit );
}
/**
* @return the limit orders for both sides of the book for the two assets specified up to limit number on each side.
*/
vector<limit_order_object> database_api_impl::get_limit_orders(asset_id_type a, asset_id_type b, uint32_t limit)const
{
const auto& limit_order_idx = _db.get_index_type<limit_order_index>();
const auto& limit_price_idx = limit_order_idx.indices().get<by_price>();
vector<limit_order_object> result;
uint32_t count = 0;
auto limit_itr = limit_price_idx.lower_bound(price::max(a,b));
auto limit_end = limit_price_idx.upper_bound(price::min(a,b));
while(limit_itr != limit_end && count < limit)
{
result.push_back(*limit_itr);
++limit_itr;
++count;
}
count = 0;
limit_itr = limit_price_idx.lower_bound(price::max(b,a));
limit_end = limit_price_idx.upper_bound(price::min(b,a));
while(limit_itr != limit_end && count < limit)
{
result.push_back(*limit_itr);
++limit_itr;
++count;
}
return result;
}
vector<call_order_object> database_api::get_call_orders(asset_id_type a, uint32_t limit)const
{
return my->get_call_orders( a, limit );
}
vector<call_order_object> database_api_impl::get_call_orders(asset_id_type a, uint32_t limit)const
{
const auto& call_index = _db.get_index_type<call_order_index>().indices().get<by_price>();
const asset_object& mia = _db.get(a);
price index_price = price::min(mia.bitasset_data(_db).options.short_backing_asset, mia.get_id());
return vector<call_order_object>(call_index.lower_bound(index_price.min()),
call_index.lower_bound(index_price.max()));
}
vector<force_settlement_object> database_api::get_settle_orders(asset_id_type a, uint32_t limit)const
{
return my->get_settle_orders( a, limit );
}
vector<force_settlement_object> database_api_impl::get_settle_orders(asset_id_type a, uint32_t limit)const
{
const auto& settle_index = _db.get_index_type<force_settlement_index>().indices().get<by_expiration>();
const asset_object& mia = _db.get(a);
return vector<force_settlement_object>(settle_index.lower_bound(mia.get_id()),
settle_index.upper_bound(mia.get_id()));
}
vector<call_order_object> database_api::get_margin_positions( const account_id_type& id )const
{
return my->get_margin_positions( id );
}
vector<call_order_object> database_api_impl::get_margin_positions( const account_id_type& id )const
{
try
{
const auto& idx = _db.get_index_type<call_order_index>();
const auto& aidx = idx.indices().get<by_account>();
auto start = aidx.lower_bound( boost::make_tuple( id, asset_id_type(0) ) );
auto end = aidx.lower_bound( boost::make_tuple( id+1, asset_id_type(0) ) );
vector<call_order_object> result;
while( start != end )
{
result.push_back(*start);
++start;
}
return result;
} FC_CAPTURE_AND_RETHROW( (id) )
}
void database_api::subscribe_to_market(std::function<void(const variant&)> callback, asset_id_type a, asset_id_type b)
{
my->subscribe_to_market( callback, a, b );
}
void database_api_impl::subscribe_to_market(std::function<void(const variant&)> callback, asset_id_type a, asset_id_type b)
{
if(a > b) std::swap(a,b);
FC_ASSERT(a != b);
_market_subscriptions[ std::make_pair(a,b) ] = callback;
}
void database_api::unsubscribe_from_market(asset_id_type a, asset_id_type b)
{
my->unsubscribe_from_market( a, b );
}
void database_api_impl::unsubscribe_from_market(asset_id_type a, asset_id_type b)
{
if(a > b) std::swap(a,b);
FC_ASSERT(a != b);
_market_subscriptions.erase(std::make_pair(a,b));
}
market_ticker database_api::get_ticker( const string& base, const string& quote )const
{
return my->get_ticker( base, quote );
}
market_ticker database_api_impl::get_ticker( const string& base, const string& quote )const
{
const auto assets = lookup_asset_symbols( {base, quote} );
FC_ASSERT( assets[0], "Invalid base asset symbol: ${s}", ("s",base) );
FC_ASSERT( assets[1], "Invalid quote asset symbol: ${s}", ("s",quote) );
market_ticker result;
result.base = base;
result.quote = quote;
result.latest = 0;
result.lowest_ask = 0;
result.highest_bid = 0;
result.percent_change = 0;
result.base_volume = 0;
result.quote_volume = 0;
try {
const fc::time_point_sec now = fc::time_point::now();
const fc::time_point_sec yesterday = fc::time_point_sec( now.sec_since_epoch() - 86400 );
const auto batch_size = 100;
vector<market_trade> trades = get_trade_history( base, quote, now, yesterday, batch_size );
if( !trades.empty() )
{
result.latest = trades[0].price;
while( !trades.empty() )
{
for( const market_trade& t: trades )
{
result.base_volume += t.value;
result.quote_volume += t.amount;
}
trades = get_trade_history( base, quote, trades.back().date, yesterday, batch_size );
}
const auto last_trade_yesterday = get_trade_history( base, quote, yesterday, fc::time_point_sec(), 1 );
if( !last_trade_yesterday.empty() )
{
const auto price_yesterday = last_trade_yesterday[0].price;
result.percent_change = ( (result.latest / price_yesterday) - 1 ) * 100;
}
}
else
{
const auto last_trade = get_trade_history( base, quote, now, fc::time_point_sec(), 1 );
if( !last_trade.empty() )
result.latest = last_trade[0].price;
}
const auto orders = get_order_book( base, quote, 1 );
if( !orders.asks.empty() ) result.lowest_ask = orders.asks[0].price;
if( !orders.bids.empty() ) result.highest_bid = orders.bids[0].price;
} FC_CAPTURE_AND_RETHROW( (base)(quote) )
return result;
}
market_volume database_api::get_24_volume( const string& base, const string& quote )const
{
return my->get_24_volume( base, quote );
}
market_volume database_api_impl::get_24_volume( const string& base, const string& quote )const
{
const auto ticker = get_ticker( base, quote );
market_volume result;
result.base = ticker.base;
result.quote = ticker.quote;
result.base_volume = ticker.base_volume;
result.quote_volume = ticker.quote_volume;
return result;
}
order_book database_api::get_order_book( const string& base, const string& quote, unsigned limit )const
{
return my->get_order_book( base, quote, limit);
}
order_book database_api_impl::get_order_book( const string& base, const string& quote, unsigned limit )const
{
using boost::multiprecision::uint128_t;
FC_ASSERT( limit <= 50 );
order_book result;
result.base = base;
result.quote = quote;
auto assets = lookup_asset_symbols( {base, quote} );
FC_ASSERT( assets[0], "Invalid base asset symbol: ${s}", ("s",base) );
FC_ASSERT( assets[1], "Invalid quote asset symbol: ${s}", ("s",quote) );
auto base_id = assets[0]->id;
auto quote_id = assets[1]->id;
auto orders = get_limit_orders( base_id, quote_id, limit );
auto asset_to_real = [&]( const asset& a, int p ) { return double(a.amount.value)/pow( 10, p ); };
auto price_to_real = [&]( const price& p )
{
if( p.base.asset_id == base_id )
return asset_to_real( p.base, assets[0]->precision ) / asset_to_real( p.quote, assets[1]->precision );
else
return asset_to_real( p.quote, assets[0]->precision ) / asset_to_real( p.base, assets[1]->precision );
};
for( const auto& o : orders )
{
if( o.sell_price.base.asset_id == base_id )
{
order ord;
ord.price = price_to_real( o.sell_price );
ord.quote = asset_to_real( share_type( ( uint128_t( o.for_sale.value ) * o.sell_price.quote.amount.value ) / o.sell_price.base.amount.value ), assets[1]->precision );
ord.base = asset_to_real( o.for_sale, assets[0]->precision );
result.bids.push_back( ord );
}
else
{
order ord;
ord.price = price_to_real( o.sell_price );
ord.quote = asset_to_real( o.for_sale, assets[1]->precision );
ord.base = asset_to_real( share_type( ( uint128_t( o.for_sale.value ) * o.sell_price.quote.amount.value ) / o.sell_price.base.amount.value ), assets[0]->precision );
result.asks.push_back( ord );
}
}
return result;
}
vector<market_trade> database_api::get_trade_history( const string& base,
const string& quote,
fc::time_point_sec start,
fc::time_point_sec stop,
unsigned limit )const
{
return my->get_trade_history( base, quote, start, stop, limit );
}
vector<market_trade> database_api_impl::get_trade_history( const string& base,
const string& quote,
fc::time_point_sec start,
fc::time_point_sec stop,
unsigned limit )const
{
FC_ASSERT( limit <= 100 );
auto assets = lookup_asset_symbols( {base, quote} );
FC_ASSERT( assets[0], "Invalid base asset symbol: ${s}", ("s",base) );
FC_ASSERT( assets[1], "Invalid quote asset symbol: ${s}", ("s",quote) );
auto base_id = assets[0]->id;
auto quote_id = assets[1]->id;
if( base_id > quote_id ) std::swap( base_id, quote_id );
const auto& history_idx = _db.get_index_type<graphene::market_history::history_index>().indices().get<by_key>();
history_key hkey;
hkey.base = base_id;
hkey.quote = quote_id;
hkey.sequence = std::numeric_limits<int64_t>::min();
auto price_to_real = [&]( const share_type a, int p ) { return double( a.value ) / pow( 10, p ); };
if ( start.sec_since_epoch() == 0 )
start = fc::time_point_sec( fc::time_point::now() );
uint32_t count = 0;
auto itr = history_idx.lower_bound( hkey );
vector<market_trade> result;
while( itr != history_idx.end() && count < limit && !( itr->key.base != base_id || itr->key.quote != quote_id || itr->time < stop ) )
{
if( itr->time < start )
{
market_trade trade;
if( assets[0]->id == itr->op.receives.asset_id )
{
trade.amount = price_to_real( itr->op.pays.amount, assets[1]->precision );
trade.value = price_to_real( itr->op.receives.amount, assets[0]->precision );
}
else
{
trade.amount = price_to_real( itr->op.receives.amount, assets[1]->precision );
trade.value = price_to_real( itr->op.pays.amount, assets[0]->precision );
}
trade.date = itr->time;
trade.price = trade.value / trade.amount;
result.push_back( trade );
++count;
}
// Trades are tracked in each direction.
++itr;
++itr;
}
return result;
}
//////////////////////////////////////////////////////////////////////
// //
// Witnesses //
// //
//////////////////////////////////////////////////////////////////////
vector<optional<witness_object>> database_api::get_witnesses(const vector<witness_id_type>& witness_ids)const
{
return my->get_witnesses( witness_ids );
}
vector<worker_object> database_api::get_workers_by_account(account_id_type account)const
{
const auto& idx = my->_db.get_index_type<worker_index>().indices().get<by_account>();
auto itr = idx.find(account);
vector<worker_object> result;
if( itr != idx.end() && itr->worker_account == account )
{
result.emplace_back( *itr );
++itr;
}
return result;
}
vector<optional<witness_object>> database_api_impl::get_witnesses(const vector<witness_id_type>& witness_ids)const
{
vector<optional<witness_object>> result; result.reserve(witness_ids.size());
std::transform(witness_ids.begin(), witness_ids.end(), std::back_inserter(result),
[this](witness_id_type id) -> optional<witness_object> {
if(auto o = _db.find(id))
return *o;
return {};
});
return result;
}
fc::optional<witness_object> database_api::get_witness_by_account(account_id_type account)const
{
return my->get_witness_by_account( account );
}
fc::optional<witness_object> database_api_impl::get_witness_by_account(account_id_type account) const
{
const auto& idx = _db.get_index_type<witness_index>().indices().get<by_account>();
auto itr = idx.find(account);
if( itr != idx.end() )
return *itr;
return {};
}
map<string, witness_id_type> database_api::lookup_witness_accounts(const string& lower_bound_name, uint32_t limit)const
{
return my->lookup_witness_accounts( lower_bound_name, limit );
}
map<string, witness_id_type> database_api_impl::lookup_witness_accounts(const string& lower_bound_name, uint32_t limit)const
{
FC_ASSERT( limit <= 1000 );
const auto& witnesses_by_id = _db.get_index_type<witness_index>().indices().get<by_id>();
// we want to order witnesses by account name, but that name is in the account object
// so the witness_index doesn't have a quick way to access it.
// get all the names and look them all up, sort them, then figure out what
// records to return. This could be optimized, but we expect the
// number of witnesses to be few and the frequency of calls to be rare
std::map<std::string, witness_id_type> witnesses_by_account_name;
for (const witness_object& witness : witnesses_by_id)
if (auto account_iter = _db.find(witness.witness_account))
if (account_iter->name >= lower_bound_name) // we can ignore anything below lower_bound_name
witnesses_by_account_name.insert(std::make_pair(account_iter->name, witness.id));
auto end_iter = witnesses_by_account_name.begin();
while (end_iter != witnesses_by_account_name.end() && limit--)
++end_iter;
witnesses_by_account_name.erase(end_iter, witnesses_by_account_name.end());
return witnesses_by_account_name;
}
uint64_t database_api::get_witness_count()const
{
return my->get_witness_count();
}
uint64_t database_api_impl::get_witness_count()const
{
return _db.get_index_type<witness_index>().indices().size();
}
//////////////////////////////////////////////////////////////////////
// //
// Committee members //
// //
//////////////////////////////////////////////////////////////////////
vector<optional<committee_member_object>> database_api::get_committee_members(const vector<committee_member_id_type>& committee_member_ids)const
{
return my->get_committee_members( committee_member_ids );
}
vector<optional<committee_member_object>> database_api_impl::get_committee_members(const vector<committee_member_id_type>& committee_member_ids)const
{
vector<optional<committee_member_object>> result; result.reserve(committee_member_ids.size());
std::transform(committee_member_ids.begin(), committee_member_ids.end(), std::back_inserter(result),
[this](committee_member_id_type id) -> optional<committee_member_object> {
if(auto o = _db.find(id))
return *o;
return {};
});
return result;
}
fc::optional<committee_member_object> database_api::get_committee_member_by_account(account_id_type account)const
{
return my->get_committee_member_by_account( account );
}
fc::optional<committee_member_object> database_api_impl::get_committee_member_by_account(account_id_type account) const
{
const auto& idx = _db.get_index_type<committee_member_index>().indices().get<by_account>();
auto itr = idx.find(account);
if( itr != idx.end() )
return *itr;
return {};
}
map<string, committee_member_id_type> database_api::lookup_committee_member_accounts(const string& lower_bound_name, uint32_t limit)const
{
return my->lookup_committee_member_accounts( lower_bound_name, limit );
}
map<string, committee_member_id_type> database_api_impl::lookup_committee_member_accounts(const string& lower_bound_name, uint32_t limit)const
{
FC_ASSERT( limit <= 1000 );
const auto& committee_members_by_id = _db.get_index_type<committee_member_index>().indices().get<by_id>();
// we want to order committee_members by account name, but that name is in the account object
// so the committee_member_index doesn't have a quick way to access it.
// get all the names and look them all up, sort them, then figure out what
// records to return. This could be optimized, but we expect the
// number of committee_members to be few and the frequency of calls to be rare
std::map<std::string, committee_member_id_type> committee_members_by_account_name;
for (const committee_member_object& committee_member : committee_members_by_id)
if (auto account_iter = _db.find(committee_member.committee_member_account))
if (account_iter->name >= lower_bound_name) // we can ignore anything below lower_bound_name
committee_members_by_account_name.insert(std::make_pair(account_iter->name, committee_member.id));
auto end_iter = committee_members_by_account_name.begin();
while (end_iter != committee_members_by_account_name.end() && limit--)
++end_iter;
committee_members_by_account_name.erase(end_iter, committee_members_by_account_name.end());
return committee_members_by_account_name;
}
//////////////////////////////////////////////////////////////////////
// //
// SON members //
// //
//////////////////////////////////////////////////////////////////////
vector<optional<son_object>> database_api::get_sons(const vector<son_id_type>& son_ids)const
{
return my->get_sons( son_ids );
}
vector<optional<son_object>> database_api_impl::get_sons(const vector<son_id_type>& son_ids)const
{
vector<optional<son_object>> result; result.reserve(son_ids.size());
std::transform(son_ids.begin(), son_ids.end(), std::back_inserter(result),
[this](son_id_type id) -> optional<son_object> {
if(auto o = _db.find(id))
return *o;
return {};
});
return result;
}
fc::optional<son_object> database_api::get_son_by_account(account_id_type account)const
{
return my->get_son_by_account( account );
}
fc::optional<son_object> database_api_impl::get_son_by_account(account_id_type account) const
{
const auto& idx = _db.get_index_type<son_index>().indices().get<by_account>();
auto itr = idx.find(account);
if( itr != idx.end() )
return *itr;
return {};
}
map<string, son_id_type> database_api::lookup_son_accounts(const string& lower_bound_name, uint32_t limit)const
{
return my->lookup_son_accounts( lower_bound_name, limit );
}
map<string, son_id_type> database_api_impl::lookup_son_accounts(const string& lower_bound_name, uint32_t limit)const
{
FC_ASSERT( limit <= 1000 );
const auto& sons_by_id = _db.get_index_type<son_index>().indices().get<by_id>();
// we want to order sons by account name, but that name is in the account object
// so the son_index doesn't have a quick way to access it.
// get all the names and look them all up, sort them, then figure out what
// records to return. This could be optimized, but we expect the
// number of witnesses to be few and the frequency of calls to be rare
std::map<std::string, son_id_type> sons_by_account_name;
for (const son_object& son : sons_by_id)
if (auto account_iter = _db.find(son.son_account))
if (account_iter->name >= lower_bound_name) // we can ignore anything below lower_bound_name
sons_by_account_name.insert(std::make_pair(account_iter->name, son.id));
auto end_iter = sons_by_account_name.begin();
while (end_iter != sons_by_account_name.end() && limit--)
++end_iter;
sons_by_account_name.erase(end_iter, sons_by_account_name.end());
return sons_by_account_name;
}
uint64_t database_api::get_son_count()const
{
return my->get_son_count();
}
uint64_t database_api_impl::get_son_count()const
{
return _db.get_index_type<son_index>().indices().size();
}
//////////////////////////////////////////////////////////////////////
// //
// SON Wallets //
// //
//////////////////////////////////////////////////////////////////////
optional<son_wallet_object> database_api::get_active_son_wallet()
{
return my->get_active_son_wallet();
}
optional<son_wallet_object> database_api_impl::get_active_son_wallet()
{
const auto& idx = _db.get_index_type<son_wallet_index>().indices().get<by_id>();
auto obj = idx.rbegin();
if (obj != idx.rend()) {
return *obj;
}
return {};
}
optional<son_wallet_object> database_api::get_son_wallet_by_time_point(time_point_sec time_point)
{
return my->get_son_wallet_by_time_point(time_point);
}
optional<son_wallet_object> database_api_impl::get_son_wallet_by_time_point(time_point_sec time_point)
{
const auto& son_wallets_by_id = _db.get_index_type<son_wallet_index>().indices().get<by_id>();
for (const son_wallet_object& swo : son_wallets_by_id) {
if ((time_point >= swo.valid_from) && (time_point < swo.expires))
return swo;
}
return {};
}
vector<optional<son_wallet_object>> database_api::get_son_wallets(uint32_t limit)
{
return my->get_son_wallets(limit);
}
vector<optional<son_wallet_object>> database_api_impl::get_son_wallets(uint32_t limit)
{
FC_ASSERT( limit <= 1000 );
vector<optional<son_wallet_object>> result;
const auto& son_wallets_by_id = _db.get_index_type<son_wallet_index>().indices().get<by_id>();
for (const son_wallet_object& swo : son_wallets_by_id)
result.push_back(swo);
return result;
}
//////////////////////////////////////////////////////////////////////
// //
// Sidechain Accounts //
// //
//////////////////////////////////////////////////////////////////////
vector<optional<sidechain_address_object>> database_api::get_sidechain_addresses(const vector<sidechain_address_id_type>& sidechain_address_ids)const
{
return my->get_sidechain_addresses( sidechain_address_ids );
}
vector<optional<sidechain_address_object>> database_api_impl::get_sidechain_addresses(const vector<sidechain_address_id_type>& sidechain_address_ids)const
{
vector<optional<sidechain_address_object>> result; result.reserve(sidechain_address_ids.size());
std::transform(sidechain_address_ids.begin(), sidechain_address_ids.end(), std::back_inserter(result),
[this](sidechain_address_id_type id) -> optional<sidechain_address_object> {
if(auto o = _db.find(id))
return *o;
return {};
});
return result;
}
vector<optional<sidechain_address_object>> database_api::get_sidechain_addresses_by_account(account_id_type account)const
{
return my->get_sidechain_addresses_by_account( account );
}
vector<optional<sidechain_address_object>> database_api_impl::get_sidechain_addresses_by_account(account_id_type account)const
{
vector<optional<sidechain_address_object>> result;
const auto& sidechain_addresses_range = _db.get_index_type<sidechain_address_index>().indices().get<by_account>().equal_range(account);
std::for_each(sidechain_addresses_range.first, sidechain_addresses_range.second,
[&result] (const sidechain_address_object& sao) {
result.push_back(sao);
});
return result;
}
vector<optional<sidechain_address_object>> database_api::get_sidechain_addresses_by_sidechain(peerplays_sidechain::sidechain_type sidechain)const
{
return my->get_sidechain_addresses_by_sidechain( sidechain );
}
vector<optional<sidechain_address_object>> database_api_impl::get_sidechain_addresses_by_sidechain(peerplays_sidechain::sidechain_type sidechain)const
{
vector<optional<sidechain_address_object>> result;
const auto& sidechain_addresses_range = _db.get_index_type<sidechain_address_index>().indices().get<by_sidechain>().equal_range(sidechain);
std::for_each(sidechain_addresses_range.first, sidechain_addresses_range.second,
[&result] (const sidechain_address_object& sao) {
result.push_back(sao);
});
return result;
}
fc::optional<sidechain_address_object> database_api::get_sidechain_address_by_account_and_sidechain(account_id_type account, peerplays_sidechain::sidechain_type sidechain)const
{
return my->get_sidechain_address_by_account_and_sidechain( account, sidechain );
}
fc::optional<sidechain_address_object> database_api_impl::get_sidechain_address_by_account_and_sidechain(account_id_type account, peerplays_sidechain::sidechain_type sidechain)const
{
const auto& idx = _db.get_index_type<sidechain_address_index>().indices().get<by_account_and_sidechain>();
auto itr = idx.find( boost::make_tuple( account, sidechain ) );
if( itr != idx.end() )
return *itr;
return {};
}
uint64_t database_api::get_sidechain_addresses_count()const
{
return my->get_sidechain_addresses_count();
}
uint64_t database_api_impl::get_sidechain_addresses_count()const
{
return _db.get_index_type<sidechain_address_index>().indices().size();
}
//////////////////////////////////////////////////////////////////////
// //
// Votes //
// //
//////////////////////////////////////////////////////////////////////
vector<variant> database_api::lookup_vote_ids( const vector<vote_id_type>& votes )const
{
return my->lookup_vote_ids( votes );
}
vector<variant> database_api_impl::lookup_vote_ids( const vector<vote_id_type>& votes )const
{
FC_ASSERT( votes.size() < 1000, "Only 1000 votes can be queried at a time" );
const auto& witness_idx = _db.get_index_type<witness_index>().indices().get<by_vote_id>();
const auto& committee_idx = _db.get_index_type<committee_member_index>().indices().get<by_vote_id>();
const auto& for_worker_idx = _db.get_index_type<worker_index>().indices().get<by_vote_for>();
const auto& against_worker_idx = _db.get_index_type<worker_index>().indices().get<by_vote_against>();
const auto& son_idx = _db.get_index_type<son_index>().indices().get<by_vote_id>();
vector<variant> result;
result.reserve( votes.size() );
for( auto id : votes )
{
switch( id.type() )
{
case vote_id_type::committee:
{
auto itr = committee_idx.find( id );
if( itr != committee_idx.end() )
result.emplace_back( variant( *itr, 1 ) );
else
result.emplace_back( variant() );
break;
}
case vote_id_type::witness:
{
auto itr = witness_idx.find( id );
if( itr != witness_idx.end() )
result.emplace_back( variant( *itr, 1 ) );
else
result.emplace_back( variant() );
break;
}
case vote_id_type::worker:
{
auto itr = for_worker_idx.find( id );
if( itr != for_worker_idx.end() ) {
result.emplace_back( variant( *itr, 1 ) );
}
else {
auto itr = against_worker_idx.find( id );
if( itr != against_worker_idx.end() ) {
result.emplace_back( variant( *itr, 1 ) );
}
else {
result.emplace_back( variant() );
}
}
break;
}
case vote_id_type::son:
{
auto itr = son_idx.find( id );
if( itr != son_idx.end() )
result.emplace_back( variant( *itr, 1 ) );
else
result.emplace_back( variant() );
break;
}
case vote_id_type::VOTE_TYPE_COUNT: break; // supress unused enum value warnings
default:
FC_CAPTURE_AND_THROW( fc::out_of_range_exception, (id) );
}
}
return result;
}
//////////////////////////////////////////////////////////////////////
// //
// Authority / validation //
// //
//////////////////////////////////////////////////////////////////////
std::string database_api::get_transaction_hex(const signed_transaction& trx)const
{
return my->get_transaction_hex( trx );
}
std::string database_api_impl::get_transaction_hex(const signed_transaction& trx)const
{
return fc::to_hex(fc::raw::pack(trx));
}
set<public_key_type> database_api::get_required_signatures( const signed_transaction& trx, const flat_set<public_key_type>& available_keys )const
{
return my->get_required_signatures( trx, available_keys );
}
set<public_key_type> database_api_impl::get_required_signatures( const signed_transaction& trx, const flat_set<public_key_type>& available_keys )const
{
wdump((trx)(available_keys));
auto result = trx.get_required_signatures( _db.get_chain_id(),
available_keys,
[&]( account_id_type id ){ return &id(_db).active; },
[&]( account_id_type id ){ return &id(_db).owner; },
_db.get_global_properties().parameters.max_authority_depth );
wdump((result));
return result;
}
set<public_key_type> database_api::get_potential_signatures( const signed_transaction& trx )const
{
return my->get_potential_signatures( trx );
}
set<address> database_api::get_potential_address_signatures( const signed_transaction& trx )const
{
return my->get_potential_address_signatures( trx );
}
set<public_key_type> database_api_impl::get_potential_signatures( const signed_transaction& trx )const
{
wdump((trx));
set<public_key_type> result;
trx.get_required_signatures(
_db.get_chain_id(),
flat_set<public_key_type>(),
[&]( account_id_type id )
{
const auto& auth = id(_db).active;
for( const auto& k : auth.get_keys() )
result.insert(k);
return &auth;
},
[&]( account_id_type id )
{
const auto& auth = id(_db).owner;
for( const auto& k : auth.get_keys() )
result.insert(k);
return &auth;
},
_db.get_global_properties().parameters.max_authority_depth
);
wdump((result));
return result;
}
set<address> database_api_impl::get_potential_address_signatures( const signed_transaction& trx )const
{
set<address> result;
trx.get_required_signatures(
_db.get_chain_id(),
flat_set<public_key_type>(),
[&]( account_id_type id )
{
const auto& auth = id(_db).active;
for( const auto& k : auth.get_addresses() )
result.insert(k);
return &auth;
},
[&]( account_id_type id )
{
const auto& auth = id(_db).owner;
for( const auto& k : auth.get_addresses() )
result.insert(k);
return &auth;
},
_db.get_global_properties().parameters.max_authority_depth
);
return result;
}
bool database_api::verify_authority( const signed_transaction& trx )const
{
return my->verify_authority( trx );
}
bool database_api_impl::verify_authority( const signed_transaction& trx )const
{
trx.verify_authority( _db.get_chain_id(),
[this]( account_id_type id ){ return &id(_db).active; },
[this]( account_id_type id ){ return &id(_db).owner; },
_db.get_global_properties().parameters.max_authority_depth );
return true;
}
bool database_api::verify_account_authority( const string& name_or_id, const flat_set<public_key_type>& signers )const
{
return my->verify_account_authority( name_or_id, signers );
}
bool database_api_impl::verify_account_authority( const string& name_or_id, const flat_set<public_key_type>& keys )const
{
FC_ASSERT( name_or_id.size() > 0);
const account_object* account = nullptr;
if (std::isdigit(name_or_id[0]))
account = _db.find(fc::variant(name_or_id, 1).as<account_id_type>(1));
else
{
const auto& idx = _db.get_index_type<account_index>().indices().get<by_name>();
auto itr = idx.find(name_or_id);
if (itr != idx.end())
account = &*itr;
}
FC_ASSERT( account, "no such account" );
/// reuse trx.verify_authority by creating a dummy transfer
signed_transaction trx;
transfer_operation op;
op.from = account->id;
trx.operations.emplace_back(op);
return verify_authority( trx );
}
processed_transaction database_api::validate_transaction( const signed_transaction& trx )const
{
return my->validate_transaction( trx );
}
processed_transaction database_api_impl::validate_transaction( const signed_transaction& trx )const
{
return _db.validate_transaction(trx);
}
vector< fc::variant > database_api::get_required_fees( const vector<operation>& ops, asset_id_type id )const
{
return my->get_required_fees( ops, id );
}
/**
* Container method for mutually recursive functions used to
* implement get_required_fees() with potentially nested proposals.
*/
struct get_required_fees_helper
{
get_required_fees_helper(
const fee_schedule& _current_fee_schedule,
const price& _core_exchange_rate,
uint32_t _max_recursion
)
: current_fee_schedule(_current_fee_schedule),
core_exchange_rate(_core_exchange_rate),
max_recursion(_max_recursion)
{}
fc::variant set_op_fees( operation& op )
{
if( op.which() == operation::tag<proposal_create_operation>::value )
{
return set_proposal_create_op_fees( op );
}
else
{
asset fee = current_fee_schedule.set_fee( op, core_exchange_rate );
fc::variant result;
fc::to_variant( fee, result, GRAPHENE_NET_MAX_NESTED_OBJECTS );
return result;
}
}
fc::variant set_proposal_create_op_fees( operation& proposal_create_op )
{
proposal_create_operation& op = proposal_create_op.get<proposal_create_operation>();
std::pair< asset, fc::variants > result;
for( op_wrapper& prop_op : op.proposed_ops )
{
FC_ASSERT( current_recursion < max_recursion );
++current_recursion;
result.second.push_back( set_op_fees( prop_op.op ) );
--current_recursion;
}
// we need to do this on the boxed version, which is why we use
// two mutually recursive functions instead of a visitor
result.first = current_fee_schedule.set_fee( proposal_create_op, core_exchange_rate );
fc::variant vresult;
fc::to_variant( result, vresult, GRAPHENE_NET_MAX_NESTED_OBJECTS );
return vresult;
}
const fee_schedule& current_fee_schedule;
const price& core_exchange_rate;
uint32_t max_recursion;
uint32_t current_recursion = 0;
};
vector< fc::variant > database_api_impl::get_required_fees( const vector<operation>& ops, asset_id_type id )const
{
vector< operation > _ops = ops;
//
// we copy the ops because we need to mutate an operation to reliably
// determine its fee, see #435
//
vector< fc::variant > result;
result.reserve(ops.size());
const asset_object& a = id(_db);
get_required_fees_helper helper(
_db.current_fee_schedule(),
a.options.core_exchange_rate,
GET_REQUIRED_FEES_MAX_RECURSION );
for( operation& op : _ops )
{
result.push_back( helper.set_op_fees( op ) );
}
return result;
}
//////////////////////////////////////////////////////////////////////
// //
// Proposed transactions //
// //
//////////////////////////////////////////////////////////////////////
vector<proposal_object> database_api::get_proposed_transactions( account_id_type id )const
{
return my->get_proposed_transactions( id );
}
/** TODO: add secondary index that will accelerate this process */
vector<proposal_object> database_api_impl::get_proposed_transactions( account_id_type id )const
{
const auto& idx = _db.get_index_type<proposal_index>();
vector<proposal_object> result;
idx.inspect_all_objects( [&](const object& obj){
const proposal_object& p = static_cast<const proposal_object&>(obj);
if( p.required_active_approvals.find( id ) != p.required_active_approvals.end() )
result.push_back(p);
else if ( p.required_owner_approvals.find( id ) != p.required_owner_approvals.end() )
result.push_back(p);
else if ( p.available_active_approvals.find( id ) != p.available_active_approvals.end() )
result.push_back(p);
});
return result;
}
//////////////////////////////////////////////////////////////////////
// //
// Blinded balances //
// //
//////////////////////////////////////////////////////////////////////
vector<blinded_balance_object> database_api::get_blinded_balances( const flat_set<commitment_type>& commitments )const
{
return my->get_blinded_balances( commitments );
}
vector<blinded_balance_object> database_api_impl::get_blinded_balances( const flat_set<commitment_type>& commitments )const
{
vector<blinded_balance_object> result; result.reserve(commitments.size());
const auto& bal_idx = _db.get_index_type<blinded_balance_index>();
const auto& by_commitment_idx = bal_idx.indices().get<by_commitment>();
for( const auto& c : commitments )
{
auto itr = by_commitment_idx.find( c );
if( itr != by_commitment_idx.end() )
result.push_back( *itr );
}
return result;
}
//////////////////////////////////////////////////////////////////////
// //
// Tournament methods //
// //
//////////////////////////////////////////////////////////////////////
vector<tournament_object> database_api::get_tournaments_in_state(tournament_state state, uint32_t limit) const
{
return my->get_tournaments_in_state(state, limit);
}
vector<tournament_object> database_api_impl::get_tournaments_in_state(tournament_state state, uint32_t limit) const
{
vector<tournament_object> result;
const auto& registration_deadline_index = _db.get_index_type<tournament_index>().indices().get<by_registration_deadline>();
const auto range = registration_deadline_index.equal_range(boost::make_tuple(state));
for (const tournament_object& tournament_obj : boost::make_iterator_range(range.first, range.second))
{
result.emplace_back(tournament_obj);
subscribe_to_item( tournament_obj.id );
if (result.size() >= limit)
break;
}
return result;
}
vector<tournament_object> database_api::get_tournaments(tournament_id_type stop,
unsigned limit,
tournament_id_type start)
{
return my->get_tournaments(stop, limit, start);
}
vector<tournament_object> database_api_impl::get_tournaments(tournament_id_type stop,
unsigned limit,
tournament_id_type start)
{
vector<tournament_object> result;
const auto& tournament_idx = _db.get_index_type<tournament_index>().indices().get<by_id>();
for (auto elem: tournament_idx) {
if( result.size() >= limit ) break;
if( ( (elem.get_id().instance.value <= start.instance.value) || start == tournament_id_type()) &&
( (elem.get_id().instance.value >= stop.instance.value) || stop == tournament_id_type()))
result.push_back( elem );
}
return result;
}
vector<tournament_object> database_api::get_tournaments_by_state(tournament_id_type stop,
unsigned limit,
tournament_id_type start,
tournament_state state)
{
return my->get_tournaments_by_state(stop, limit, start, state);
}
vector<tournament_object> database_api_impl::get_tournaments_by_state(tournament_id_type stop,
unsigned limit,
tournament_id_type start,
tournament_state state)
{
vector<tournament_object> result;
const auto& tournament_idx = _db.get_index_type<tournament_index>().indices().get<by_id>();
for (auto elem: tournament_idx) {
if( result.size() >= limit ) break;
if( ( (elem.get_id().instance.value <= start.instance.value) || start == tournament_id_type()) &&
( (elem.get_id().instance.value >= stop.instance.value) || stop == tournament_id_type()) &&
elem.get_state() == state )
result.push_back( elem );
}
return result;
}
vector<tournament_id_type> database_api::get_registered_tournaments(account_id_type account_filter, uint32_t limit) const
{
return my->get_registered_tournaments(account_filter, limit);
}
vector<tournament_id_type> database_api_impl::get_registered_tournaments(account_id_type account_filter, uint32_t limit) const
{
const auto& tournament_details_idx = _db.get_index_type<tournament_details_index>();
const auto& tournament_details_primary_idx = dynamic_cast<const primary_index<tournament_details_index>&>(tournament_details_idx);
const auto& players_idx = tournament_details_primary_idx.get_secondary_index<graphene::chain::tournament_players_index>();
vector<tournament_id_type> tournament_ids = players_idx.get_registered_tournaments_for_account(account_filter);
if (tournament_ids.size() >= limit)
tournament_ids.resize(limit);
return tournament_ids;
}
//////////////////////////////////////////////////////////////////////
// //
// Private methods //
// //
//////////////////////////////////////////////////////////////////////
void database_api_impl::broadcast_updates( const vector<variant>& updates )
{
if( updates.size() && _subscribe_callback ) {
auto capture_this = shared_from_this();
fc::async([capture_this,updates](){
if(capture_this->_subscribe_callback)
capture_this->_subscribe_callback( fc::variant(updates) );
});
}
}
void database_api_impl::broadcast_market_updates( const market_queue_type& queue)
{
if( queue.size() )
{
auto capture_this = shared_from_this();
fc::async([capture_this, this, queue](){
for( const auto& item : queue )
{
auto sub = _market_subscriptions.find(item.first);
if( sub != _market_subscriptions.end() )
sub->second( fc::variant(item.second ) );
}
});
}
}
void database_api_impl::on_objects_removed( const vector<object_id_type>& ids, const vector<const object*>& objs, const flat_set<account_id_type>& impacted_accounts)
{
handle_object_changed(_notify_remove_create, false, ids, impacted_accounts,
[objs](object_id_type id) -> const object* {
auto it = std::find_if(
objs.begin(), objs.end(),
[id](const object* o) {return o != nullptr && o->id == id;});
if (it != objs.end())
return *it;
return nullptr;
}
);
}
void database_api_impl::on_objects_new(const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts)
{
handle_object_changed(_notify_remove_create, true, ids, impacted_accounts,
std::bind(&object_database::find_object, &_db, std::placeholders::_1)
);
}
void database_api_impl::on_objects_changed(const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts)
{
handle_object_changed(false, true, ids, impacted_accounts,
std::bind(&object_database::find_object, &_db, std::placeholders::_1)
);
}
void database_api_impl::handle_object_changed(bool force_notify, bool full_object, const vector<object_id_type>& ids, const flat_set<account_id_type>& impacted_accounts, std::function<const object*(object_id_type id)> find_object)
{
if( _subscribe_callback )
{
vector<variant> updates;
for(auto id : ids)
{
if( force_notify || is_subscribed_to_item(id) || is_impacted_account(impacted_accounts) )
{
if( full_object )
{
auto obj = find_object(id);
if( obj )
{
updates.emplace_back( obj->to_variant() );
}
}
else
{
updates.emplace_back( fc::variant( id, 1 ) );
}
}
}
broadcast_updates(updates);
}
if( _market_subscriptions.size() )
{
market_queue_type broadcast_queue;
/// pushing the future back / popping the prior future if it is complete.
/// if a connection hangs then this could get backed up and result in
/// a failure to exit cleanly.
//fc::async([capture_this,this,updates,market_broadcast_queue](){
//if( _subscribe_callback )
// _subscribe_callback( updates );
for(auto id : ids)
{
if( id.is<call_order_object>() )
{
enqueue_if_subscribed_to_market<call_order_object>( find_object(id), broadcast_queue, full_object );
}
else if( id.is<limit_order_object>() )
{
enqueue_if_subscribed_to_market<limit_order_object>( find_object(id), broadcast_queue, full_object );
}
}
broadcast_market_updates(broadcast_queue);
}
}
/** note: this method cannot yield because it is called in the middle of
* apply a block.
*/
void database_api_impl::on_applied_block()
{
if (_block_applied_callback)
{
auto capture_this = shared_from_this();
block_id_type block_id = _db.head_block_id();
fc::async([this,capture_this,block_id](){
_block_applied_callback(fc::variant(block_id, 1));
});
}
if(_market_subscriptions.size() == 0)
return;
const auto& ops = _db.get_applied_operations();
map< std::pair<asset_id_type,asset_id_type>, vector<pair<operation, operation_result>> > subscribed_markets_ops;
for(const optional< operation_history_object >& o_op : ops)
{
if( !o_op.valid() )
continue;
const operation_history_object& op = *o_op;
std::pair<asset_id_type,asset_id_type> market;
switch(op.op.which())
{
/* This is sent via the object_changed callback
case operation::tag<limit_order_create_operation>::value:
market = op.op.get<limit_order_create_operation>().get_market();
break;
*/
case operation::tag<fill_order_operation>::value:
market = op.op.get<fill_order_operation>().get_market();
break;
/*
case operation::tag<limit_order_cancel_operation>::value:
*/
default: break;
}
if(_market_subscriptions.count(market))
subscribed_markets_ops[market].push_back(std::make_pair(op.op, op.result));
}
/// we need to ensure the database_api is not deleted for the life of the async operation
auto capture_this = shared_from_this();
fc::async([this,capture_this,subscribed_markets_ops](){
for(auto item : subscribed_markets_ops)
{
auto itr = _market_subscriptions.find(item.first);
if(itr != _market_subscriptions.end())
itr->second(fc::variant(item.second, GRAPHENE_NET_MAX_NESTED_OBJECTS));
}
});
}
} } // graphene::app
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