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peerplays_migrated/libraries/wallet/wallet.cpp
Milos Milosevic 1a5cab9965 Try move num_son init from do_apply
2023-02-28 08:11:26 +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 <algorithm>
#include <cctype>
#include <iomanip>
#include <iostream>
#include <iterator>
#include <sstream>
#include <string>
#include <list>
#include <random>
#include <boost/version.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <boost/multiprecision/integer.hpp>
#include <boost/algorithm/string/join.hpp>
#include <boost/range/adaptor/map.hpp>
#include <boost/range/algorithm_ext/erase.hpp>
#include <boost/range/algorithm/unique.hpp>
#include <boost/range/algorithm/sort.hpp>
#include <boost/multi_index_container.hpp>
#include <boost/multi_index/ordered_index.hpp>
#include <boost/multi_index/mem_fun.hpp>
#include <boost/multi_index/member.hpp>
#include <boost/multi_index/random_access_index.hpp>
#include <boost/multi_index/tag.hpp>
#include <boost/multi_index/sequenced_index.hpp>
#include <boost/multi_index/hashed_index.hpp>
#include <fc/git_revision.hpp>
#include <fc/io/fstream.hpp>
#include <fc/io/json.hpp>
#include <fc/io/stdio.hpp>
#include <fc/network/http/websocket.hpp>
#include <fc/rpc/api_connection.hpp>
#include <fc/rpc/cli.hpp>
#include <fc/rpc/websocket_api.hpp>
#include <fc/crypto/aes.hpp>
#include <fc/crypto/hex.hpp>
#include <fc/thread/mutex.hpp>
#include <fc/thread/scoped_lock.hpp>
#include <graphene/app/api.hpp>
#include <graphene/chain/asset_object.hpp>
#include <graphene/chain/tournament_object.hpp>
#include <graphene/chain/match_object.hpp>
#include <graphene/chain/game_object.hpp>
#include <graphene/chain/protocol/rock_paper_scissors.hpp>
#include <graphene/chain/rock_paper_scissors.hpp>
#include <graphene/bookie/bookie_api.hpp>
#include <graphene/chain/sidechain_defs.hpp>
#include <graphene/chain/protocol/fee_schedule.hpp>
#include <graphene/utilities/git_revision.hpp>
#include <graphene/utilities/key_conversion.hpp>
#include <graphene/utilities/words.hpp>
#include <graphene/wallet/wallet.hpp>
#include <graphene/wallet/api_documentation.hpp>
#include <graphene/wallet/reflect_util.hpp>
#include <graphene/debug_witness/debug_api.hpp>
#include <graphene/peerplays_sidechain/sidechain_api.hpp>
#ifndef WIN32
# include <sys/types.h>
# include <sys/stat.h>
#endif
template class fc::api<graphene::wallet::wallet_api>;
#define BRAIN_KEY_WORD_COUNT 16
namespace graphene { namespace wallet {
namespace detail {
struct operation_result_printer
{
public:
explicit operation_result_printer( const wallet_api_impl& w )
: _wallet(w) {}
const wallet_api_impl& _wallet;
typedef std::string result_type;
std::string operator()(const void_result& x) const;
std::string operator()(const object_id_type& oid);
std::string operator()(const asset& a);
};
// BLOCK TRX OP VOP
struct operation_printer
{
private:
ostream& out;
const wallet_api_impl& wallet;
operation_result result;
std::string fee(const asset& a) const;
public:
operation_printer( ostream& out, const wallet_api_impl& wallet, const operation_result& r = operation_result() )
: out(out),
wallet(wallet),
result(r)
{}
typedef std::string result_type;
template<typename T>
std::string operator()(const T& op)const;
std::string operator()(const transfer_operation& op)const;
std::string operator()(const account_create_operation& op)const;
std::string operator()(const account_update_operation& op)const;
std::string operator()(const asset_create_operation& op)const;
std::string operator()(const lottery_asset_create_operation& op)const;
std::string operator()(const asset_dividend_distribution_operation& op)const;
std::string operator()(const tournament_payout_operation& op)const;
std::string operator()(const bet_place_operation& op)const;
std::string operator()(const bet_matched_operation& op)const;
std::string operator()(const bet_canceled_operation& op)const;
std::string operator()(const bet_adjusted_operation& op)const;
};
template<class T>
optional<T> maybe_id( const string& name_or_id )
{
if( std::isdigit( name_or_id.front() ) )
{
try
{
return fc::variant(name_or_id, 1).as<T>(1);
}
catch (const fc::exception&)
{ // not an ID
}
}
return optional<T>();
}
string address_to_shorthash( const address& addr )
{
uint32_t x = addr.addr._hash[0];
static const char hd[] = "0123456789abcdef";
string result;
result += hd[(x >> 0x1c) & 0x0f];
result += hd[(x >> 0x18) & 0x0f];
result += hd[(x >> 0x14) & 0x0f];
result += hd[(x >> 0x10) & 0x0f];
result += hd[(x >> 0x0c) & 0x0f];
result += hd[(x >> 0x08) & 0x0f];
result += hd[(x >> 0x04) & 0x0f];
result += hd[(x ) & 0x0f];
return result;
}
fc::ecc::private_key derive_private_key( const std::string& prefix_string,
int sequence_number )
{
std::string sequence_string = std::to_string(sequence_number);
fc::sha512 h = fc::sha512::hash(prefix_string + " " + sequence_string);
fc::ecc::private_key derived_key = fc::ecc::private_key::regenerate(fc::sha256::hash(h));
return derived_key;
}
string normalize_brain_key( string s )
{
size_t i = 0, n = s.length();
std::string result;
char c;
result.reserve( n );
bool preceded_by_whitespace = false;
bool non_empty = false;
while( i < n )
{
c = s[i++];
switch( c )
{
case ' ': case '\t': case '\r': case '\n': case '\v': case '\f':
preceded_by_whitespace = true;
continue;
case 'a': c = 'A'; break;
case 'b': c = 'B'; break;
case 'c': c = 'C'; break;
case 'd': c = 'D'; break;
case 'e': c = 'E'; break;
case 'f': c = 'F'; break;
case 'g': c = 'G'; break;
case 'h': c = 'H'; break;
case 'i': c = 'I'; break;
case 'j': c = 'J'; break;
case 'k': c = 'K'; break;
case 'l': c = 'L'; break;
case 'm': c = 'M'; break;
case 'n': c = 'N'; break;
case 'o': c = 'O'; break;
case 'p': c = 'P'; break;
case 'q': c = 'Q'; break;
case 'r': c = 'R'; break;
case 's': c = 'S'; break;
case 't': c = 'T'; break;
case 'u': c = 'U'; break;
case 'v': c = 'V'; break;
case 'w': c = 'W'; break;
case 'x': c = 'X'; break;
case 'y': c = 'Y'; break;
case 'z': c = 'Z'; break;
default:
break;
}
if( preceded_by_whitespace && non_empty )
result.push_back(' ');
result.push_back(c);
preceded_by_whitespace = false;
non_empty = true;
}
return result;
}
struct op_prototype_visitor
{
typedef void result_type;
int t = 0;
flat_map< std::string, operation >& name2op;
op_prototype_visitor(
int _t,
flat_map< std::string, operation >& _prototype_ops
):t(_t), name2op(_prototype_ops) {}
template<typename Type>
result_type operator()( const Type& op )const
{
string name = fc::get_typename<Type>::name();
size_t p = name.rfind(':');
if( p != string::npos )
name = name.substr( p+1 );
name2op[ name ] = Type();
}
};
class wallet_api_impl
{
public:
api_documentation method_documentation;
private:
void claim_registered_account(const account_object& account)
{
bool import_keys = false;
auto it = _wallet.pending_account_registrations.find( account.name );
FC_ASSERT( it != _wallet.pending_account_registrations.end() );
for (const std::string& wif_key : it->second)
if( !import_key( account.name, wif_key ) )
{
// somebody else beat our pending registration, there is
// nothing we can do except log it and move on
elog( "account ${name} registered by someone else first!",
("name", account.name) );
// might as well remove it from pending regs,
// because there is now no way this registration
// can become valid (even in the extremely rare
// possibility of migrating to a fork where the
// name is available, the user can always
// manually re-register)
} else {
import_keys = true;
}
_wallet.pending_account_registrations.erase( it );
if (import_keys)
save_wallet_file();
}
// after a witness registration succeeds, this saves the private key in the wallet permanently
//
void claim_registered_witness(const std::string& witness_name)
{
auto iter = _wallet.pending_witness_registrations.find(witness_name);
FC_ASSERT(iter != _wallet.pending_witness_registrations.end());
std::string wif_key = iter->second;
// get the list key id this key is registered with in the chain
fc::optional<fc::ecc::private_key> witness_private_key = wif_to_key(wif_key);
FC_ASSERT(witness_private_key);
auto pub_key = witness_private_key->get_public_key();
_keys[pub_key] = wif_key;
_wallet.pending_witness_registrations.erase(iter);
}
fc::mutex _resync_mutex;
void resync()
{
fc::scoped_lock<fc::mutex> lock(_resync_mutex);
// this method is used to update wallet_data annotations
// e.g. wallet has been restarted and was not notified
// of events while it was down
//
// everything that is done "incremental style" when a push
// notification is received, should also be done here
// "batch style" by querying the blockchain
if( !_wallet.pending_account_registrations.empty() )
{
// make a vector of the account names pending registration
std::vector<string> pending_account_names = boost::copy_range<std::vector<string> >(boost::adaptors::keys(_wallet.pending_account_registrations));
// look those up on the blockchain
std::vector<fc::optional<graphene::chain::account_object >>
pending_account_objects = _remote_db->lookup_account_names( pending_account_names );
// if any of them exist, claim them
for( const fc::optional<graphene::chain::account_object>& optional_account : pending_account_objects )
if( optional_account )
claim_registered_account(*optional_account);
}
if (!_wallet.pending_witness_registrations.empty())
{
// make a vector of the owner accounts for witnesses pending registration
std::vector<string> pending_witness_names = boost::copy_range<std::vector<string> >(boost::adaptors::keys(_wallet.pending_witness_registrations));
// look up the owners on the blockchain
std::vector<fc::optional<graphene::chain::account_object>> owner_account_objects = _remote_db->lookup_account_names(pending_witness_names);
// if any of them have registered witnesses, claim them
for( const fc::optional<graphene::chain::account_object>& optional_account : owner_account_objects )
if (optional_account)
{
std::string account_id = account_id_to_string(optional_account->id);
fc::optional<witness_object> witness_obj = _remote_db->get_witness_by_account(account_id);
if (witness_obj)
claim_registered_witness(optional_account->name);
}
}
}
// return true if any of my_accounts are players in this tournament
bool tournament_is_relevant_to_my_accounts(const tournament_object& tournament_obj)
{
tournament_details_object tournament_details = get_object<tournament_details_object>(tournament_obj.tournament_details_id);
for (const account_object& account_obj : _wallet.my_accounts)
if (tournament_details.registered_players.find(account_obj.id) != tournament_details.registered_players.end())
return true;
return false;
}
fc::mutex _subscribed_object_changed_mutex;
void subscribed_object_changed(const variant& changed_objects_variant)
{
fc::scoped_lock<fc::mutex> lock(_resync_mutex);
fc::variants changed_objects = changed_objects_variant.get_array();
for (const variant& changed_object_variant : changed_objects)
{
// changed_object_variant is either the object, or just the id if the object was removed
if (changed_object_variant.is_object())
{
try
{
object_id_type id = changed_object_variant["id"].as<tournament_id_type>( GRAPHENE_MAX_NESTED_OBJECTS );
tournament_object current_tournament_obj = changed_object_variant.as<tournament_object>( GRAPHENE_MAX_NESTED_OBJECTS );
auto tournament_cache_iter = tournament_cache.find(id);
if (tournament_cache_iter != tournament_cache.end())
{
const tournament_object& cached_tournament_obj = *tournament_cache_iter;
if (cached_tournament_obj.get_state() != current_tournament_obj.get_state())
{
ilog("Tournament ${id} changed state from ${old} to ${new}",
("id", id)
("old", cached_tournament_obj.get_state())
("new", current_tournament_obj.get_state()));
if (current_tournament_obj.get_state() == tournament_state::in_progress)
monitor_matches_in_tournament(current_tournament_obj);
}
tournament_cache.modify(tournament_cache_iter, [&](tournament_object& obj) { obj = current_tournament_obj; });
}
else if (tournament_is_relevant_to_my_accounts(current_tournament_obj))
{
ilog ("We were just notified about an in-progress tournament ${id} relevant to our accounts",
("id", current_tournament_obj.id));
tournament_cache.insert(current_tournament_obj);
if (current_tournament_obj.get_state() == tournament_state::in_progress)
monitor_matches_in_tournament(current_tournament_obj);
}
continue;
}
catch (const fc::exception& e)
{
// idump((e));
}
try
{
object_id_type id = changed_object_variant["id"].as<match_id_type>( GRAPHENE_MAX_NESTED_OBJECTS );
match_object current_match_obj = changed_object_variant.as<match_object>( GRAPHENE_MAX_NESTED_OBJECTS );
auto match_cache_iter = match_cache.find(id);
if (match_cache_iter != match_cache.end())
{
const match_object& cached_match_obj = *match_cache_iter;
if (cached_match_obj.get_state() != current_match_obj.get_state() ||
cached_match_obj.games.size() != current_match_obj.games.size())
{
ilog("match ${id} changed state from ${old} to ${new}",
("id", id)
("old", cached_match_obj.get_state())
("new", current_match_obj.get_state()));
match_in_new_state(current_match_obj);
}
match_cache.modify(match_cache_iter, [&](match_object& obj) { obj = current_match_obj; });
}
continue;
}
catch (const fc::exception& e)
{
// idump((e));
}
try
{
object_id_type id = changed_object_variant["id"].as<game_id_type>( GRAPHENE_MAX_NESTED_OBJECTS );
game_object current_game_obj = changed_object_variant.as<game_object>( GRAPHENE_MAX_NESTED_OBJECTS );
auto game_cache_iter = game_cache.find(id);
if (game_cache_iter != game_cache.end())
{
const game_object& cached_game_obj = *game_cache_iter;
if (cached_game_obj.get_state() != current_game_obj.get_state())
{
ilog("game ${id} changed state from ${old} to ${new}",
("id", id)
("old", cached_game_obj.get_state())
("new", current_game_obj.get_state()));
game_in_new_state(current_game_obj);
}
game_cache.modify(game_cache_iter, [&](game_object& obj) { obj = current_game_obj; });
}
continue;
}
catch (const fc::exception& e)
{
// idump((e));
}
try
{
object_id_type id = changed_object_variant["id"].as<account_id_type>( GRAPHENE_MAX_NESTED_OBJECTS );
if (_wallet.my_accounts.find(id) != _wallet.my_accounts.end())
{
account_object account = changed_object_variant.as<account_object>( GRAPHENE_MAX_NESTED_OBJECTS );
_wallet.update_account(account);
}
continue;
}
catch (const fc::exception& e)
{
// idump((e));
}
}
}
}
void enable_umask_protection()
{
#ifdef __unix__
_old_umask = umask( S_IRWXG | S_IRWXO );
#endif
}
void disable_umask_protection()
{
#ifdef __unix__
umask( _old_umask );
#endif
}
void init_prototype_ops()
{
operation op;
for( int t=0; t<op.count(); t++ )
{
op.set_which( t );
op.visit( op_prototype_visitor(t, _prototype_ops) );
}
return;
}
map<transaction_handle_type, signed_transaction> _builder_transactions;
// if the user executes the same command twice in quick succession,
// we might generate the same transaction id, and cause the second
// transaction to be rejected. This can be avoided by altering the
// second transaction slightly (bumping up the expiration time by
// a second). Keep track of recent transaction ids we've generated
// so we can know if we need to do this
struct recently_generated_transaction_record
{
fc::time_point_sec generation_time;
graphene::chain::transaction_id_type transaction_id;
};
struct timestamp_index{};
typedef boost::multi_index_container<recently_generated_transaction_record,
boost::multi_index::indexed_by<boost::multi_index::hashed_unique<boost::multi_index::member<recently_generated_transaction_record,
graphene::chain::transaction_id_type,
&recently_generated_transaction_record::transaction_id>,
std::hash<graphene::chain::transaction_id_type> >,
boost::multi_index::ordered_non_unique<boost::multi_index::tag<timestamp_index>,
boost::multi_index::member<recently_generated_transaction_record, fc::time_point_sec, &recently_generated_transaction_record::generation_time> > > > recently_generated_transaction_set_type;
recently_generated_transaction_set_type _recently_generated_transactions;
public:
wallet_api& self;
wallet_api_impl( wallet_api& s, const wallet_data& initial_data, fc::api<login_api> rapi )
: self(s),
_chain_id(initial_data.chain_id),
_remote_api(rapi),
_remote_db(rapi->database()),
_remote_net_broadcast(rapi->network_broadcast()),
_remote_hist(rapi->history()),
_remote_bookie(rapi->bookie())
{
chain_id_type remote_chain_id = _remote_db->get_chain_id();
if( remote_chain_id != _chain_id )
{
FC_THROW( "Remote server gave us an unexpected chain_id",
("remote_chain_id", remote_chain_id)
("chain_id", _chain_id) );
}
init_prototype_ops();
_remote_db->set_block_applied_callback( [this](const variant& block_id )
{
on_block_applied( block_id );
} );
_remote_db->set_subscribe_callback( [this](const variant& object )
{
on_subscribe_callback( object );
}, false );
_wallet.chain_id = _chain_id;
_wallet.ws_server = initial_data.ws_server;
_wallet.ws_user = initial_data.ws_user;
_wallet.ws_password = initial_data.ws_password;
}
virtual ~wallet_api_impl()
{
try
{
_remote_db->cancel_all_subscriptions();
}
catch (const fc::exception& e)
{
// Right now the wallet_api has no way of knowing if the connection to the
// witness has already disconnected (via the witness node exiting first).
// If it has exited, cancel_all_subscriptsions() will throw and there's
// nothing we can do about it.
// dlog("Caught exception ${e} while canceling database subscriptions", ("e", e));
}
}
void encrypt_keys()
{
if( !is_locked() )
{
plain_keys data;
data.keys = _keys;
data.checksum = _checksum;
auto plain_txt = fc::raw::pack(data);
_wallet.cipher_keys = fc::aes_encrypt( data.checksum, plain_txt );
}
}
void on_block_applied( const variant& block_id )
{
fc::async([this]{resync();}, "Resync after block");
}
void on_subscribe_callback( const variant& object )
{
//idump((object));
fc::async([this, object]{subscribed_object_changed(object);}, "Object changed");
}
void quit()
{
ilog( "Quitting Cli Wallet ..." );
throw fc::canceled_exception();
}
bool copy_wallet_file( string destination_filename )
{
fc::path src_path = get_wallet_filename();
if( !fc::exists( src_path ) )
return false;
fc::path dest_path = destination_filename + _wallet_filename_extension;
int suffix = 0;
while( fc::exists(dest_path) )
{
++suffix;
dest_path = destination_filename + "-" + to_string( suffix ) + _wallet_filename_extension;
}
wlog( "backing up wallet ${src} to ${dest}",
("src", src_path)
("dest", dest_path) );
fc::path dest_parent = fc::absolute(dest_path).parent_path();
try
{
enable_umask_protection();
if( !fc::exists( dest_parent ) )
fc::create_directories( dest_parent );
fc::copy( src_path, dest_path );
disable_umask_protection();
}
catch(...)
{
disable_umask_protection();
throw;
}
return true;
}
bool is_locked()const
{
return _checksum == fc::sha512();
}
template<typename T>
T get_object(object_id<T::space_id, T::type_id, T> id)const
{
auto ob = _remote_db->get_objects({id}).front();
return ob.template as<T>( GRAPHENE_MAX_NESTED_OBJECTS );
}
void set_operation_fees( signed_transaction& tx, std::shared_ptr<fee_schedule> s )
{
for( auto& op : tx.operations )
s->set_fee(op);
}
variant info() const
{
auto chain_props = get_chain_properties();
auto global_props = get_global_properties();
auto dynamic_props = get_dynamic_global_properties();
fc::mutable_variant_object result;
result["head_block_num"] = dynamic_props.head_block_number;
result["head_block_id"] = fc::variant(dynamic_props.head_block_id, 1);
result["head_block_age"] = fc::get_approximate_relative_time_string(dynamic_props.time,
time_point_sec(time_point::now()),
" old");
result["next_maintenance_time"] = fc::get_approximate_relative_time_string(dynamic_props.next_maintenance_time);
result["chain_id"] = chain_props.chain_id;
result["participation"] = (100*dynamic_props.recent_slots_filled.popcount()) / 128.0;
result["active_witnesses"] = fc::variant(global_props.active_witnesses, GRAPHENE_MAX_NESTED_OBJECTS);
result["active_committee_members"] = fc::variant(global_props.active_committee_members, GRAPHENE_MAX_NESTED_OBJECTS);
result["active_sons"] = fc::variant(global_props.active_sons, GRAPHENE_MAX_NESTED_OBJECTS);
result["entropy"] = fc::variant(dynamic_props.random, GRAPHENE_MAX_NESTED_OBJECTS);
return result;
}
variant_object about() const
{
string client_version( graphene::utilities::git_revision_description );
const size_t pos = client_version.find( '/' );
if( pos != string::npos && client_version.size() > pos )
client_version = client_version.substr( pos + 1 );
fc::mutable_variant_object result;
//result["blockchain_name"] = BLOCKCHAIN_NAME;
//result["blockchain_description"] = BTS_BLOCKCHAIN_DESCRIPTION;
result["client_version"] = client_version;
result["graphene_revision"] = graphene::utilities::git_revision_sha;
result["graphene_revision_age"] = fc::get_approximate_relative_time_string( fc::time_point_sec( graphene::utilities::git_revision_unix_timestamp ) );
result["fc_revision"] = fc::git_revision_sha;
result["fc_revision_age"] = fc::get_approximate_relative_time_string( fc::time_point_sec( fc::git_revision_unix_timestamp ) );
result["compile_date"] = "compiled on " __DATE__ " at " __TIME__;
result["boost_version"] = boost::replace_all_copy(std::string(BOOST_LIB_VERSION), "_", ".");
result["openssl_version"] = OPENSSL_VERSION_TEXT;
std::string bitness = boost::lexical_cast<std::string>(8 * sizeof(int*)) + "-bit";
#if defined(__APPLE__)
std::string os = "osx";
#elif defined(__linux__)
std::string os = "linux";
#elif defined(_MSC_VER)
std::string os = "win32";
#else
std::string os = "other";
#endif
result["build"] = os + " " + bitness;
return result;
}
chain_property_object get_chain_properties() const
{
return _remote_db->get_chain_properties();
}
global_property_object get_global_properties() const
{
return _remote_db->get_global_properties();
}
dynamic_global_property_object get_dynamic_global_properties() const
{
return _remote_db->get_dynamic_global_properties();
}
std::string object_id_to_string(object_id_type id) const
{
std::string object_id = fc::to_string(id.space())
+ "." + fc::to_string(id.type())
+ "." + fc::to_string(id.instance());
return object_id;
}
std::string account_id_to_string(account_id_type id) const
{
return object_id_to_string(id);
}
account_object get_account(account_id_type id) const
{
std::string account_id = account_id_to_string(id);
auto rec = _remote_db->get_accounts({account_id}).front();
FC_ASSERT(rec, "Accout id: ${account_id} doesn't exist", ("account_id", account_id));
return *rec;
}
account_object get_account(string account_name_or_id) const
{
FC_ASSERT( account_name_or_id.size() > 0 );
if( auto id = maybe_id<account_id_type>(account_name_or_id) )
{
// It's an ID
return get_account(*id);
} else {
auto rec = _remote_db->lookup_account_names({account_name_or_id}).front();
FC_ASSERT( rec && rec->name == account_name_or_id, "Account name or id: ${account_name_or_id} doesn't exist", ("account_name_or_id",account_name_or_id ) );
return *rec;
}
}
account_id_type get_account_id(string account_name_or_id) const
{
return get_account(account_name_or_id).get_id();
}
std::string asset_id_to_string(asset_id_type id) const
{
std::string asset_id = fc::to_string(id.space_id) +
"." + fc::to_string(id.type_id) +
"." + fc::to_string(id.instance.value);
return asset_id;
}
optional<asset_object> find_asset(asset_id_type id)const
{
auto rec = _remote_db->get_assets({asset_id_to_string(id)}).front();
if( rec )
_asset_cache[id] = *rec;
return rec;
}
optional<asset_object> find_asset(string asset_symbol_or_id)const
{
FC_ASSERT( asset_symbol_or_id.size() > 0 );
if( auto id = maybe_id<asset_id_type>(asset_symbol_or_id) )
{
// It's an ID
return find_asset(*id);
} else {
// It's a symbol
auto rec = _remote_db->lookup_asset_symbols({asset_symbol_or_id}).front();
if( rec )
{
if( rec->symbol != asset_symbol_or_id )
return optional<asset_object>();
_asset_cache[rec->get_id()] = *rec;
}
return rec;
}
}
asset_object get_asset(asset_id_type id)const
{
auto opt = find_asset(id);
FC_ASSERT(opt);
return *opt;
}
asset_object get_asset(string asset_symbol_or_id)const
{
auto opt = find_asset(asset_symbol_or_id);
FC_ASSERT(opt);
return *opt;
}
asset_id_type get_asset_id(string asset_symbol_or_id) const
{
FC_ASSERT( asset_symbol_or_id.size() > 0 );
vector<optional<asset_object>> opt_asset;
if( std::isdigit( asset_symbol_or_id.front() ) )
return fc::variant(asset_symbol_or_id, 1).as<asset_id_type>( 1 );
opt_asset = _remote_db->lookup_asset_symbols( {asset_symbol_or_id} );
FC_ASSERT( (opt_asset.size() > 0) && (opt_asset[0].valid()) );
return opt_asset[0]->id;
}
string get_wallet_filename() const
{
return _wallet_filename;
}
fc::ecc::private_key get_private_key(const public_key_type& id)const
{
auto it = _keys.find(id);
FC_ASSERT( it != _keys.end() );
fc::optional< fc::ecc::private_key > privkey = wif_to_key( it->second );
FC_ASSERT( privkey );
return *privkey;
}
fc::ecc::private_key get_private_key_for_account(const account_object& account)const
{
vector<public_key_type> active_keys = account.active.get_keys();
if (active_keys.size() != 1)
FC_THROW("Expecting a simple authority with one active key");
return get_private_key(active_keys.front());
}
// imports the private key into the wallet, and associate it in some way (?) with the
// given account name.
// @returns true if the key matches a current active/owner/memo key for the named
// account, false otherwise (but it is stored either way)
bool import_key(string account_name_or_id, string wif_key)
{
fc::scoped_lock<fc::mutex> lock(_resync_mutex);
fc::optional<fc::ecc::private_key> optional_private_key = wif_to_key(wif_key);
if (!optional_private_key)
FC_THROW("Invalid private key");
graphene::chain::public_key_type wif_pub_key = optional_private_key->get_public_key();
account_object account = get_account( account_name_or_id );
// make a list of all current public keys for the named account
flat_set<public_key_type> all_keys_for_account;
std::vector<public_key_type> active_keys = account.active.get_keys();
std::vector<public_key_type> owner_keys = account.owner.get_keys();
std::copy(active_keys.begin(), active_keys.end(), std::inserter(all_keys_for_account, all_keys_for_account.end()));
std::copy(owner_keys.begin(), owner_keys.end(), std::inserter(all_keys_for_account, all_keys_for_account.end()));
all_keys_for_account.insert(account.options.memo_key);
_keys[wif_pub_key] = wif_key;
_wallet.update_account(account);
_wallet.extra_keys[account.id].insert(wif_pub_key);
return all_keys_for_account.find(wif_pub_key) != all_keys_for_account.end();
}
vector< signed_transaction > import_balance( string name_or_id, const vector<string>& wif_keys, bool broadcast );
void game_in_new_state(const game_object& game_obj)
{ try {
if (game_obj.get_state() == game_state::expecting_commit_moves)
{
if (game_obj.players.size() != 2) // we only support RPS, a 2 player game
return;
const rock_paper_scissors_game_details& rps_details = game_obj.game_details.get<rock_paper_scissors_game_details>();
for (unsigned i = 0; i < 2; ++i)
{
if (!rps_details.commit_moves.at(i)) // if this player hasn't committed their move
{
const account_id_type& account_id = game_obj.players[i];
if (_wallet.my_accounts.find(account_id) != _wallet.my_accounts.end()) // and they're us
{
ilog("Game ${game_id}: it is ${account_name}'s turn to commit their move",
("game_id", game_obj.id)
("account_name", get_account(account_id).name));
}
}
}
}
else if (game_obj.get_state() == game_state::expecting_reveal_moves)
{
if (game_obj.players.size() != 2) // we only support RPS, a 2 player game
return;
const rock_paper_scissors_game_details& rps_details = game_obj.game_details.get<rock_paper_scissors_game_details>();
for (unsigned i = 0; i < 2; ++i)
{
if (rps_details.commit_moves.at(i) &&
!rps_details.reveal_moves.at(i)) // if this player has committed but not revealed
{
const account_id_type& account_id = game_obj.players[i];
if (_wallet.my_accounts.find(account_id) != _wallet.my_accounts.end()) // and they're us
{
if (self.is_locked())
ilog("Game ${game_id}: unable to broadcast ${account_name}'s reveal because the wallet is locked",
("game_id", game_obj.id)
("account_name", get_account(account_id).name));
else
{
ilog("Game ${game_id}: it is ${account_name}'s turn to reveal their move",
("game_id", game_obj.id)
("account_name", get_account(account_id).name));
auto iter = _wallet.committed_game_moves.find(*rps_details.commit_moves.at(i));
if (iter != _wallet.committed_game_moves.end())
{
const rock_paper_scissors_throw_reveal& reveal = iter->second;
game_move_operation move_operation;
move_operation.game_id = game_obj.id;
move_operation.player_account_id = account_id;
move_operation.move = reveal;
signed_transaction trx;
trx.operations = {move_operation};
set_operation_fees( trx, _remote_db->get_global_properties().parameters.current_fees);
trx.validate();
ilog("Broadcasting reveal...");
trx = sign_transaction(trx, true);
ilog("Reveal broadcast, transaction id is ${id}", ("id", trx.id()));
}
}
}
}
}
}
} FC_RETHROW_EXCEPTIONS(warn, "") }
void match_in_new_state(const match_object& match_obj)
{ try {
if (match_obj.get_state() == match_state::match_in_progress)
{
for (const account_id_type& account_id : match_obj.players)
{
if (_wallet.my_accounts.find(account_id) != _wallet.my_accounts.end())
{
ilog("Match ${match} is now in progress for player ${account}",
("match", match_obj.id)("account", get_account(account_id).name));
for (const game_id_type& game_id : match_obj.games)
{
game_object game_obj = get_object<game_object>(game_id);
auto insert_result = game_cache.insert(game_obj);
if (insert_result.second)
game_in_new_state(game_obj);
}
}
}
}
} FC_RETHROW_EXCEPTIONS(warn, "") }
// Cache all matches in the tournament, which will also register us for
// updates on those matches
void monitor_matches_in_tournament(const tournament_object& tournament_obj)
{ try {
tournament_details_object tournament_details = get_object<tournament_details_object>(tournament_obj.tournament_details_id);
for (const match_id_type& match_id : tournament_details.matches)
{
match_object match_obj = get_object<match_object>(match_id);
auto insert_result = match_cache.insert(match_obj);
if (insert_result.second)
match_in_new_state(match_obj);
}
} FC_RETHROW_EXCEPTIONS(warn, "") }
void resync_active_tournaments()
{
// check to see if any of our accounts are registered for tournaments
// the real purpose of this is to ensure that we are subscribed for callbacks on these tournaments
ilog("Checking my accounts for active tournaments",);
tournament_cache.clear();
match_cache.clear();
game_cache.clear();
for (const account_object& my_account : _wallet.my_accounts)
{
std::vector<tournament_id_type> tournament_ids = _remote_db->get_registered_tournaments(my_account.id, 100);
for (const tournament_id_type& tournament_id : tournament_ids)
{
try
{
tournament_object tournament = get_object<tournament_object>(tournament_id);
auto insert_result = tournament_cache.insert(tournament);
if (insert_result.second)
{
// then this is the first time we've seen this tournament
monitor_matches_in_tournament(tournament);
}
tournament_ids.push_back(tournament.id);
}
catch (const fc::exception& e)
{
edump((e)(tournament_id));
}
}
if (!tournament_ids.empty())
ilog("Account ${my_account} is registered for tournaments: ${tournaments}", ("my_account", my_account.name)("tournaments", tournament_ids));
else
ilog("Account ${my_account} is not registered for any tournaments", ("my_account", my_account.name));
}
}
bool load_wallet_file(string wallet_filename = "")
{
// TODO: Merge imported wallet with existing wallet,
// instead of replacing it
if( wallet_filename == "" )
wallet_filename = _wallet_filename;
if( ! fc::exists( wallet_filename ) )
return false;
_wallet = fc::json::from_file( wallet_filename ).as< wallet_data >( 2 * GRAPHENE_MAX_NESTED_OBJECTS );
if( _wallet.chain_id != _chain_id )
FC_THROW( "Wallet chain ID does not match",
("wallet.chain_id", _wallet.chain_id)
("chain_id", _chain_id) );
size_t account_pagination = 100;
vector< std::string > account_ids_to_send;
size_t n = _wallet.my_accounts.size();
account_ids_to_send.reserve( std::min( account_pagination, n ) );
auto it = _wallet.my_accounts.begin();
for( size_t start=0; start<n; start+=account_pagination )
{
size_t end = std::min( start+account_pagination, n );
assert( end > start );
account_ids_to_send.clear();
std::vector< account_object > old_accounts;
for( size_t i=start; i<end; i++ )
{
assert( it != _wallet.my_accounts.end() );
old_accounts.push_back( *it );
std::string account_id = account_id_to_string(old_accounts.back().id);
account_ids_to_send.push_back( account_id );
++it;
}
std::vector< optional< account_object > > accounts = _remote_db->get_accounts(account_ids_to_send);
// server response should be same length as request
FC_ASSERT( accounts.size() == account_ids_to_send.size() );
size_t i = 0;
for( const optional< account_object >& acct : accounts )
{
account_object& old_acct = old_accounts[i];
if( !acct.valid() )
{
elog( "Could not find account ${id} : \"${name}\" does not exist on the chain!", ("id", old_acct.id)("name", old_acct.name) );
i++;
continue;
}
// this check makes sure the server didn't send results
// in a different order, or accounts we didn't request
FC_ASSERT( acct->id == old_acct.id );
if( fc::json::to_string(*acct) != fc::json::to_string(old_acct) )
{
wlog( "Account ${id} : \"${name}\" updated on chain", ("id", acct->id)("name", acct->name) );
}
_wallet.update_account( *acct );
i++;
}
}
resync_active_tournaments();
return true;
}
void save_wallet_file(string wallet_filename = "")
{
//
// Serialize in memory, then save to disk
//
// This approach lessens the risk of a partially written wallet
// if exceptions are thrown in serialization
//
encrypt_keys();
if( wallet_filename == "" )
wallet_filename = _wallet_filename;
ilog( "saving wallet to file ${fn}", ("fn", wallet_filename) );
string data = fc::json::to_pretty_string( _wallet );
try
{
enable_umask_protection();
//
// Parentheses on the following declaration fails to compile,
// due to the Most Vexing Parse. Thanks, C++
//
// http://en.wikipedia.org/wiki/Most_vexing_parse
//
std::string tmp_wallet_filename = wallet_filename + ".tmp";
fc::ofstream outfile{ fc::path( tmp_wallet_filename ) };
outfile.write( data.c_str(), data.length() );
outfile.flush();
outfile.close();
ilog( "saved successfully wallet to tmp file ${fn}", ("fn", tmp_wallet_filename) );
std::string wallet_file_content;
fc::read_file_contents(tmp_wallet_filename, wallet_file_content);
if (wallet_file_content == data) {
dlog( "validated successfully tmp wallet file ${fn}", ("fn", tmp_wallet_filename) );
fc::rename( tmp_wallet_filename, wallet_filename );
dlog( "renamed successfully tmp wallet file ${fn}", ("fn", tmp_wallet_filename) );
}
else
{
FC_THROW("tmp wallet file cannot be validated ${fn}", ("fn", tmp_wallet_filename) );
}
ilog( "successfully saved wallet to file ${fn}", ("fn", wallet_filename) );
disable_umask_protection();
}
catch(...)
{
string ws_password = _wallet.ws_password;
_wallet.ws_password = "";
elog("wallet file content is: ${data}", ("data", fc::json::to_pretty_string( _wallet ) ) );
_wallet.ws_password = ws_password;
disable_umask_protection();
throw;
}
}
transaction_handle_type begin_builder_transaction()
{
int trx_handle = _builder_transactions.empty()? 0
: (--_builder_transactions.end())->first + 1;
_builder_transactions[trx_handle];
return trx_handle;
}
void add_operation_to_builder_transaction(transaction_handle_type transaction_handle, const operation& op)
{
FC_ASSERT(_builder_transactions.count(transaction_handle));
_builder_transactions[transaction_handle].operations.emplace_back(op);
}
void replace_operation_in_builder_transaction(transaction_handle_type handle,
uint32_t operation_index,
const operation& new_op)
{
FC_ASSERT(_builder_transactions.count(handle));
signed_transaction& trx = _builder_transactions[handle];
FC_ASSERT( operation_index < trx.operations.size());
trx.operations[operation_index] = new_op;
}
asset set_fees_on_builder_transaction(transaction_handle_type handle, string fee_asset = GRAPHENE_SYMBOL)
{
FC_ASSERT(_builder_transactions.count(handle));
auto fee_asset_obj = get_asset(fee_asset);
asset total_fee = fee_asset_obj.amount(0);
auto gprops = _remote_db->get_global_properties().parameters;
if( fee_asset_obj.get_id() != asset_id_type() )
{
for( auto& op : _builder_transactions[handle].operations )
total_fee += gprops.current_fees->set_fee( op, fee_asset_obj.options.core_exchange_rate );
FC_ASSERT((total_fee * fee_asset_obj.options.core_exchange_rate).amount <=
get_object<asset_dynamic_data_object>(fee_asset_obj.dynamic_asset_data_id).fee_pool,
"Cannot pay fees in ${asset}, as this asset's fee pool is insufficiently funded.",
("asset", fee_asset_obj.symbol));
} else {
for( auto& op : _builder_transactions[handle].operations )
total_fee += gprops.current_fees->set_fee( op );
}
return total_fee;
}
transaction preview_builder_transaction(transaction_handle_type handle)
{
FC_ASSERT(_builder_transactions.count(handle));
return _builder_transactions[handle];
}
signed_transaction sign_builder_transaction(transaction_handle_type transaction_handle, bool broadcast = true)
{
FC_ASSERT(_builder_transactions.count(transaction_handle));
return _builder_transactions[transaction_handle] = sign_transaction(_builder_transactions[transaction_handle], broadcast);
}
pair<transaction_id_type,signed_transaction> broadcast_transaction(signed_transaction tx)
{
try {
_remote_net_broadcast->broadcast_transaction(tx);
}
catch (const fc::exception& e) {
elog("Caught exception while broadcasting tx ${id}: ${e}",
("id", tx.id().str())("e", e.to_detail_string()));
throw;
}
return std::make_pair(tx.id(),tx);
}
signed_transaction propose_builder_transaction(
transaction_handle_type handle,
time_point_sec expiration = time_point::now() + fc::minutes(1),
uint32_t review_period_seconds = 0, bool broadcast = true)
{
FC_ASSERT(_builder_transactions.count(handle));
proposal_create_operation op;
op.expiration_time = expiration;
signed_transaction& trx = _builder_transactions[handle];
std::transform(trx.operations.begin(), trx.operations.end(), std::back_inserter(op.proposed_ops),
[](const operation& op) -> op_wrapper { return op; });
if( review_period_seconds )
op.review_period_seconds = review_period_seconds;
trx.operations = {op};
_remote_db->get_global_properties().parameters.current_fees->set_fee( trx.operations.front() );
return trx = sign_transaction(trx, broadcast);
}
signed_transaction propose_builder_transaction2(
transaction_handle_type handle,
string account_name_or_id,
time_point_sec expiration = time_point::now() + fc::minutes(1),
uint32_t review_period_seconds = 0, bool broadcast = true)
{
FC_ASSERT(_builder_transactions.count(handle));
proposal_create_operation op;
op.fee_paying_account = get_account(account_name_or_id).get_id();
op.expiration_time = expiration;
signed_transaction& trx = _builder_transactions[handle];
std::transform(trx.operations.begin(), trx.operations.end(), std::back_inserter(op.proposed_ops),
[](const operation& op) -> op_wrapper { return op; });
if( review_period_seconds )
op.review_period_seconds = review_period_seconds;
trx.operations = {op};
_remote_db->get_global_properties().parameters.current_fees->set_fee( trx.operations.front() );
return trx = sign_transaction(trx, broadcast);
}
void remove_builder_transaction(transaction_handle_type handle)
{
_builder_transactions.erase(handle);
}
signed_transaction register_account(string name,
public_key_type owner,
public_key_type active,
string registrar_account,
string referrer_account,
uint32_t referrer_percent,
bool broadcast = false)
{ try {
FC_ASSERT( !self.is_locked() );
FC_ASSERT( is_valid_name(name) );
account_create_operation account_create_op;
// #449 referrer_percent is on 0-100 scale, if user has larger
// number it means their script is using GRAPHENE_100_PERCENT scale
// instead of 0-100 scale.
FC_ASSERT( referrer_percent <= 100 );
// TODO: process when pay_from_account is ID
account_object registrar_account_object =
this->get_account( registrar_account );
FC_ASSERT( registrar_account_object.is_lifetime_member() );
account_id_type registrar_account_id = registrar_account_object.id;
account_object referrer_account_object =
this->get_account( referrer_account );
account_create_op.referrer = referrer_account_object.id;
account_create_op.referrer_percent = uint16_t( referrer_percent * GRAPHENE_1_PERCENT );
account_create_op.registrar = registrar_account_id;
account_create_op.name = name;
account_create_op.owner = authority(1, owner, 1);
account_create_op.active = authority(1, active, 1);
account_create_op.options.memo_key = active;
signed_transaction tx;
tx.operations.push_back( account_create_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
vector<public_key_type> paying_keys = registrar_account_object.active.get_keys();
auto dyn_props = get_dynamic_global_properties();
tx.set_reference_block( dyn_props.head_block_id );
tx.set_expiration( dyn_props.time + fc::seconds(30) );
tx.validate();
for( public_key_type& key : paying_keys )
{
auto it = _keys.find(key);
if( it != _keys.end() )
{
fc::optional< fc::ecc::private_key > privkey = wif_to_key( it->second );
if( !privkey.valid() )
{
FC_ASSERT( false, "Malformed private key in _keys" );
}
tx.sign( *privkey, _chain_id );
}
}
if( broadcast )
_remote_net_broadcast->broadcast_transaction( tx );
return tx;
} FC_CAPTURE_AND_RETHROW( (name)(owner)(active)(registrar_account)(referrer_account)(referrer_percent)(broadcast) ) }
signed_transaction update_account_keys(string name,
public_key_type old_owner,
public_key_type new_owner,
public_key_type old_active,
public_key_type new_active,
bool broadcast)
{ try {
FC_ASSERT( !self.is_locked() );
account_object account_obj = get_account(name);
authority owner = account_obj.owner;
owner.key_auths[new_owner] = owner.key_auths[old_owner];
owner.key_auths.erase(old_owner);
authority active = account_obj.active;
active.key_auths[new_active] = active.key_auths[old_active];
active.key_auths.erase(old_active);
signed_transaction tx;
account_update_operation op;
op.account = account_obj.get_id();
op.owner = owner;
op.active = active;
ilog("account_update_operation: ${op}", ("op", op));
tx.operations = {op};
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (name) ) }
signed_transaction update_account_auth_key(string account_name,
authority_type type,
public_key_type key,
weight_type weight,
bool broadcast)
{
FC_ASSERT( !is_locked() );
account_object account_obj = get_account(account_name);
account_update_operation op;
op.account = account_obj.get_id();
authority new_auth;
switch( type )
{
case( owner ):
new_auth = account_obj.owner;
break;
case( active ):
new_auth = account_obj.active;
break;
}
if( weight == 0 ) // Remove the key
{
new_auth.key_auths.erase( key );
}
else
{
new_auth.add_authority( key, weight );
}
if( new_auth.is_impossible() )
{
if ( type == owner )
{
FC_ASSERT( false, "Owner authority change would render account irrecoverable." );
}
wlog( "Authority is now impossible." );
}
switch( type )
{
case( owner ):
op.owner = new_auth;
break;
case( active ):
op.active = new_auth;
break;
}
signed_transaction tx;
tx.operations.push_back(op);
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
}
signed_transaction upgrade_account(string name, bool broadcast)
{ try {
FC_ASSERT( !self.is_locked() );
account_object account_obj = get_account(name);
FC_ASSERT( !account_obj.is_lifetime_member() );
signed_transaction tx;
account_upgrade_operation op;
op.account_to_upgrade = account_obj.get_id();
op.upgrade_to_lifetime_member = true;
tx.operations = {op};
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (name) ) }
// This function generates derived keys starting with index 0 and keeps incrementing
// the index until it finds a key that isn't registered in the block chain. To be
// safer, it continues checking for a few more keys to make sure there wasn't a short gap
// caused by a failed registration or the like.
int find_first_unused_derived_key_index(const fc::ecc::private_key& parent_key)
{
int first_unused_index = 0;
int number_of_consecutive_unused_keys = 0;
for (int key_index = 0; ; ++key_index)
{
fc::ecc::private_key derived_private_key = derive_private_key(key_to_wif(parent_key), key_index);
graphene::chain::public_key_type derived_public_key = derived_private_key.get_public_key();
if( _keys.find(derived_public_key) == _keys.end() )
{
if (number_of_consecutive_unused_keys)
{
++number_of_consecutive_unused_keys;
if (number_of_consecutive_unused_keys > 5)
return first_unused_index;
}
else
{
first_unused_index = key_index;
number_of_consecutive_unused_keys = 1;
}
}
else
{
// key_index is used
first_unused_index = 0;
number_of_consecutive_unused_keys = 0;
}
}
}
signed_transaction create_account_with_private_key(fc::ecc::private_key owner_privkey,
string account_name,
string registrar_account,
string referrer_account,
bool broadcast = false,
bool save_wallet = true)
{ try {
fc::scoped_lock<fc::mutex> lock(_resync_mutex);
int active_key_index = find_first_unused_derived_key_index(owner_privkey);
fc::ecc::private_key active_privkey = derive_private_key( key_to_wif(owner_privkey), active_key_index);
int memo_key_index = find_first_unused_derived_key_index(active_privkey);
fc::ecc::private_key memo_privkey = derive_private_key( key_to_wif(active_privkey), memo_key_index);
graphene::chain::public_key_type owner_pubkey = owner_privkey.get_public_key();
graphene::chain::public_key_type active_pubkey = active_privkey.get_public_key();
graphene::chain::public_key_type memo_pubkey = memo_privkey.get_public_key();
account_create_operation account_create_op;
// TODO: process when pay_from_account is ID
account_object registrar_account_object = get_account( registrar_account );
account_id_type registrar_account_id = registrar_account_object.id;
account_object referrer_account_object = get_account( referrer_account );
account_create_op.referrer = referrer_account_object.id;
account_create_op.referrer_percent = referrer_account_object.referrer_rewards_percentage;
account_create_op.registrar = registrar_account_id;
account_create_op.name = account_name;
account_create_op.owner = authority(1, owner_pubkey, 1);
account_create_op.active = authority(1, active_pubkey, 1);
account_create_op.options.memo_key = memo_pubkey;
// current_fee_schedule()
// find_account(pay_from_account)
// account_create_op.fee = account_create_op.calculate_fee(db.current_fee_schedule());
signed_transaction tx;
tx.operations.push_back( account_create_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
vector<public_key_type> paying_keys = registrar_account_object.active.get_keys();
auto dyn_props = get_dynamic_global_properties();
tx.set_reference_block( dyn_props.head_block_id );
tx.set_expiration( dyn_props.time + fc::seconds(30) );
tx.validate();
for( public_key_type& key : paying_keys )
{
auto it = _keys.find(key);
if( it != _keys.end() )
{
fc::optional< fc::ecc::private_key > privkey = wif_to_key( it->second );
FC_ASSERT( privkey.valid(), "Malformed private key in _keys" );
tx.sign( *privkey, _chain_id );
}
}
// we do not insert owner_privkey here because
// it is intended to only be used for key recovery
_wallet.pending_account_registrations[account_name].push_back(key_to_wif( active_privkey ));
_wallet.pending_account_registrations[account_name].push_back(key_to_wif( memo_privkey ));
if( save_wallet )
save_wallet_file();
if( broadcast )
_remote_net_broadcast->broadcast_transaction( tx );
return tx;
} FC_CAPTURE_AND_RETHROW( (account_name)(registrar_account)(referrer_account)(broadcast) ) }
signed_transaction create_account_with_brain_key(string brain_key,
string account_name,
string registrar_account,
string referrer_account,
bool broadcast = false,
bool save_wallet = true)
{ try {
FC_ASSERT( !self.is_locked() );
string normalized_brain_key = normalize_brain_key( brain_key );
// TODO: scan blockchain for accounts that exist with same brain key
fc::ecc::private_key owner_privkey = derive_private_key( normalized_brain_key, 0 );
return create_account_with_private_key(owner_privkey, account_name, registrar_account, referrer_account, broadcast, save_wallet);
} FC_CAPTURE_AND_RETHROW( (account_name)(registrar_account)(referrer_account) ) }
signed_transaction create_asset(string issuer,
string symbol,
uint8_t precision,
asset_options common,
fc::optional<bitasset_options> bitasset_opts,
bool broadcast = false)
{ try {
account_object issuer_account = get_account( issuer );
FC_ASSERT(!find_asset(symbol).valid(), "Asset with that symbol already exists!");
asset_create_operation create_op;
create_op.issuer = issuer_account.id;
create_op.symbol = symbol;
create_op.precision = precision;
create_op.common_options = common;
create_op.bitasset_opts = bitasset_opts;
signed_transaction tx;
tx.operations.push_back( create_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (issuer)(symbol)(precision)(common)(bitasset_opts)(broadcast) ) }
signed_transaction create_lottery(string issuer,
string symbol,
asset_options common,
lottery_asset_options lottery_opts,
bool broadcast = false)
{ try {
account_object issuer_account = get_account( issuer );
FC_ASSERT(!find_asset(symbol).valid(), "Asset with that symbol already exists!");
lottery_asset_create_operation create_op;
create_op.issuer = issuer_account.id;
create_op.symbol = symbol;
create_op.precision = 0;
create_op.common_options = common;
create_op.extensions = lottery_opts;
signed_transaction tx;
tx.operations.push_back( create_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (issuer)(symbol)(common)(broadcast) ) }
signed_transaction buy_ticket( asset_id_type lottery, account_id_type buyer, uint64_t tickets_to_buy )
{ try {
auto asset_obj = get_asset( lottery );
FC_ASSERT( asset_obj.is_lottery() );
ticket_purchase_operation top;
top.lottery = lottery;
top.buyer = buyer;
top.tickets_to_buy = tickets_to_buy;
top.amount = asset( asset_obj.lottery_options->ticket_price.amount * tickets_to_buy, asset_obj.lottery_options->ticket_price.asset_id );
signed_transaction tx;
tx.operations.push_back( top );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, true );
} FC_CAPTURE_AND_RETHROW( (lottery)(tickets_to_buy) ) }
signed_transaction update_asset(string symbol,
optional<string> new_issuer,
asset_options new_options,
bool broadcast /* = false */)
{ try {
optional<asset_object> asset_to_update = find_asset(symbol);
if (!asset_to_update)
FC_THROW("No asset with that symbol exists!");
optional<account_id_type> new_issuer_account_id;
if (new_issuer)
{
account_object new_issuer_account = get_account(*new_issuer);
new_issuer_account_id = new_issuer_account.id;
}
asset_update_operation update_op;
update_op.issuer = asset_to_update->issuer;
update_op.asset_to_update = asset_to_update->id;
update_op.new_issuer = new_issuer_account_id;
update_op.new_options = new_options;
signed_transaction tx;
tx.operations.push_back( update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (symbol)(new_issuer)(new_options)(broadcast) ) }
signed_transaction update_bitasset(string symbol,
bitasset_options new_options,
bool broadcast /* = false */)
{ try {
optional<asset_object> asset_to_update = find_asset(symbol);
if (!asset_to_update)
FC_THROW("No asset with that symbol exists!");
asset_update_bitasset_operation update_op;
update_op.issuer = asset_to_update->issuer;
update_op.asset_to_update = asset_to_update->id;
update_op.new_options = new_options;
signed_transaction tx;
tx.operations.push_back( update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (symbol)(new_options)(broadcast) ) }
signed_transaction update_dividend_asset(string symbol,
dividend_asset_options new_options,
bool broadcast /* = false */)
{ try {
optional<asset_object> asset_to_update = find_asset(symbol);
if (!asset_to_update)
FC_THROW("No asset with that symbol exists!");
asset_update_dividend_operation update_op;
update_op.issuer = asset_to_update->issuer;
update_op.asset_to_update = asset_to_update->id;
update_op.new_options = new_options;
signed_transaction tx;
tx.operations.push_back( update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (symbol)(new_options)(broadcast) ) }
signed_transaction update_asset_feed_producers(string symbol,
flat_set<string> new_feed_producers,
bool broadcast /* = false */)
{ try {
optional<asset_object> asset_to_update = find_asset(symbol);
if (!asset_to_update)
FC_THROW("No asset with that symbol exists!");
asset_update_feed_producers_operation update_op;
update_op.issuer = asset_to_update->issuer;
update_op.asset_to_update = asset_to_update->id;
update_op.new_feed_producers.reserve(new_feed_producers.size());
std::transform(new_feed_producers.begin(), new_feed_producers.end(),
std::inserter(update_op.new_feed_producers, update_op.new_feed_producers.end()),
[this](const std::string& account_name_or_id){ return get_account_id(account_name_or_id); });
signed_transaction tx;
tx.operations.push_back( update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (symbol)(new_feed_producers)(broadcast) ) }
signed_transaction publish_asset_feed(string publishing_account,
string symbol,
price_feed feed,
bool broadcast /* = false */)
{ try {
optional<asset_object> asset_to_update = find_asset(symbol);
if (!asset_to_update)
FC_THROW("No asset with that symbol exists!");
asset_publish_feed_operation publish_op;
publish_op.publisher = get_account_id(publishing_account);
publish_op.asset_id = asset_to_update->id;
publish_op.feed = feed;
signed_transaction tx;
tx.operations.push_back( publish_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (publishing_account)(symbol)(feed)(broadcast) ) }
signed_transaction fund_asset_fee_pool(string from,
string symbol,
string amount,
bool broadcast /* = false */)
{ try {
account_object from_account = get_account(from);
optional<asset_object> asset_to_fund = find_asset(symbol);
if (!asset_to_fund)
FC_THROW("No asset with that symbol exists!");
asset_object core_asset = get_asset(asset_id_type());
asset_fund_fee_pool_operation fund_op;
fund_op.from_account = from_account.id;
fund_op.asset_id = asset_to_fund->id;
fund_op.amount = core_asset.amount_from_string(amount).amount;
signed_transaction tx;
tx.operations.push_back( fund_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (from)(symbol)(amount)(broadcast) ) }
signed_transaction reserve_asset(string from,
string amount,
string symbol,
bool broadcast /* = false */)
{ try {
account_object from_account = get_account(from);
optional<asset_object> asset_to_reserve = find_asset(symbol);
if (!asset_to_reserve)
FC_THROW("No asset with that symbol exists!");
asset_reserve_operation reserve_op;
reserve_op.payer = from_account.id;
reserve_op.amount_to_reserve = asset_to_reserve->amount_from_string(amount);
signed_transaction tx;
tx.operations.push_back( reserve_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (from)(amount)(symbol)(broadcast) ) }
signed_transaction global_settle_asset(string symbol,
price settle_price,
bool broadcast /* = false */)
{ try {
optional<asset_object> asset_to_settle = find_asset(symbol);
if (!asset_to_settle)
FC_THROW("No asset with that symbol exists!");
asset_global_settle_operation settle_op;
settle_op.issuer = asset_to_settle->issuer;
settle_op.asset_to_settle = asset_to_settle->id;
settle_op.settle_price = settle_price;
signed_transaction tx;
tx.operations.push_back( settle_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (symbol)(settle_price)(broadcast) ) }
signed_transaction settle_asset(string account_to_settle,
string amount_to_settle,
string symbol,
bool broadcast /* = false */)
{ try {
optional<asset_object> asset_to_settle = find_asset(symbol);
if (!asset_to_settle)
FC_THROW("No asset with that symbol exists!");
asset_settle_operation settle_op;
settle_op.account = get_account_id(account_to_settle);
settle_op.amount = asset_to_settle->amount_from_string(amount_to_settle);
signed_transaction tx;
tx.operations.push_back( settle_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (account_to_settle)(amount_to_settle)(symbol)(broadcast) ) }
signed_transaction whitelist_account(string authorizing_account,
string account_to_list,
account_whitelist_operation::account_listing new_listing_status,
bool broadcast /* = false */)
{ try {
account_whitelist_operation whitelist_op;
whitelist_op.authorizing_account = get_account_id(authorizing_account);
whitelist_op.account_to_list = get_account_id(account_to_list);
whitelist_op.new_listing = new_listing_status;
signed_transaction tx;
tx.operations.push_back( whitelist_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (authorizing_account)(account_to_list)(new_listing_status)(broadcast) ) }
signed_transaction create_committee_member(string owner_account, string url,
bool broadcast /* = false */)
{ try {
committee_member_create_operation committee_member_create_op;
committee_member_create_op.committee_member_account = get_account_id(owner_account);
committee_member_create_op.url = url;
if (_remote_db->get_committee_member_by_account(owner_account))
FC_THROW("Account ${owner_account} is already a committee_member", ("owner_account", owner_account));
signed_transaction tx;
tx.operations.push_back( committee_member_create_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account)(broadcast) ) }
witness_object get_witness(string owner_account)
{
try
{
fc::optional<witness_id_type> witness_id = maybe_id<witness_id_type>(owner_account);
if (witness_id)
{
std::vector<witness_id_type> ids_to_get;
ids_to_get.push_back(*witness_id);
std::vector<fc::optional<witness_object>> witness_objects = _remote_db->get_witnesses(ids_to_get);
if (witness_objects.front())
return *witness_objects.front();
FC_THROW("No witness is registered for id ${id}", ("id", owner_account));
}
else
{
// then maybe it's the owner account
try
{
std::string owner_account_id = account_id_to_string(get_account_id(owner_account));
fc::optional<witness_object> witness = _remote_db->get_witness_by_account(owner_account_id);
if (witness)
return *witness;
else
FC_THROW("No witness is registered for account ${account}", ("account", owner_account));
}
catch (const fc::exception&)
{
FC_THROW("No account or witness named ${account}", ("account", owner_account));
}
}
}
FC_CAPTURE_AND_RETHROW( (owner_account) )
}
son_object get_son(string owner_account)
{
try
{
fc::optional<son_id_type> son_id = maybe_id<son_id_type>(owner_account);
if (son_id)
{
std::vector<son_id_type> ids_to_get;
ids_to_get.push_back(*son_id);
std::vector<fc::optional<son_object>> son_objects = _remote_db->get_sons(ids_to_get);
if (son_objects.front())
return *son_objects.front();
FC_THROW("No SON is registered for id ${id}", ("id", owner_account));
}
else
{
// then maybe it's the owner account
try
{
account_id_type owner_account_id = get_account_id(owner_account);
fc::optional<son_object> son = _remote_db->get_son_by_account_id(owner_account_id);
if (son)
return *son;
else
FC_THROW("No SON is registered for account ${account}", ("account", owner_account));
}
catch (const fc::exception&)
{
FC_THROW("No account or SON named ${account}", ("account", owner_account));
}
}
}
FC_CAPTURE_AND_RETHROW( (owner_account) )
}
vector<worker_object> get_workers(string owner_account)
{
try
{
fc::optional<worker_id_type> worker_id = maybe_id<worker_id_type>(owner_account);
if (worker_id)
{
std::vector<worker_id_type> ids_to_get;
ids_to_get.push_back(*worker_id);
std::vector<fc::optional<worker_object>> worker_objects = _remote_db->get_workers(ids_to_get);
if(!worker_objects.empty()) {
std::vector<worker_object> result;
for (const auto &worker_object : worker_objects) {
if (worker_object)
result.emplace_back(*worker_object);
}
return result;
}
else
FC_THROW("No workers is registered for id ${id}", ("id", owner_account));
}
else
{
// then maybe it's the owner account
try
{
std::string owner_account_id = account_id_to_string(get_account_id(owner_account));
auto workers = _remote_db->get_workers_by_account(owner_account_id);
if (!workers.empty())
return workers;
else
FC_THROW("No workers is registered for account ${account}", ("account", owner_account));
}
catch (const fc::exception&)
{
FC_THROW("No account or worker named ${account}", ("account", owner_account));
}
}
}
FC_CAPTURE_AND_RETHROW( (owner_account) )
}
bool is_witness(string owner_account)
{
try
{
fc::optional<witness_id_type> witness_id = maybe_id<witness_id_type>(owner_account);
if (witness_id)
{
std::vector<witness_id_type> ids_to_get;
ids_to_get.push_back(*witness_id);
std::vector<fc::optional<witness_object>> witness_objects = _remote_db->get_witnesses(ids_to_get);
if (witness_objects.front())
return true;
else
return false;
}
else
{
// then maybe it's the owner account
try
{
std::string owner_account_id = account_id_to_string(get_account_id(owner_account));
fc::optional<witness_object> witness = _remote_db->get_witness_by_account(owner_account_id);
if (witness)
return true;
else
return false;
}
catch (const fc::exception&)
{
return false;
}
}
}
FC_CAPTURE_AND_RETHROW( (owner_account) )
}
committee_member_object get_committee_member(string owner_account)
{
try
{
fc::optional<committee_member_id_type> committee_member_id = maybe_id<committee_member_id_type>(owner_account);
if (committee_member_id)
{
std::vector<committee_member_id_type> ids_to_get;
ids_to_get.push_back(*committee_member_id);
std::vector<fc::optional<committee_member_object>> committee_member_objects = _remote_db->get_committee_members(ids_to_get);
if (committee_member_objects.front())
return *committee_member_objects.front();
FC_THROW("No committee_member is registered for id ${id}", ("id", owner_account));
}
else
{
// then maybe it's the owner account
try
{
fc::optional<committee_member_object> committee_member = _remote_db->get_committee_member_by_account(owner_account);
if (committee_member)
return *committee_member;
else
FC_THROW("No committee_member is registered for account ${account}", ("account", owner_account));
}
catch (const fc::exception&)
{
FC_THROW("No account or committee_member named ${account}", ("account", owner_account));
}
}
}
FC_CAPTURE_AND_RETHROW( (owner_account) )
}
signed_transaction create_son(string owner_account,
string url,
vesting_balance_id_type deposit_id,
vesting_balance_id_type pay_vb_id,
flat_map<sidechain_type, string> sidechain_public_keys,
bool broadcast /* = false */)
{ try {
fc::scoped_lock<fc::mutex> lock(_resync_mutex);
account_object son_account = get_account(owner_account);
auto son_public_key = son_account.active.get_keys()[0];
bool deposit_vb_ok = false;
bool pay_vb_ok = false;
vector<vesting_balance_object_with_info> vbs = get_vesting_balances(owner_account);
for(const auto& vb: vbs)
{
if (vb.id == deposit_id) {
deposit_vb_ok = (vb.balance_type == vesting_balance_type::son) &&
(vb.get_asset_amount() >= _remote_db->get_global_properties().parameters.son_vesting_amount()) &&
(vb.policy.which() == vesting_policy::tag<dormant_vesting_policy>::value);
}
if (vb.id == pay_vb_id) {
pay_vb_ok = (vb.balance_type == vesting_balance_type::normal) &&
(vb.policy.which() == vesting_policy::tag<linear_vesting_policy>::value);
}
}
if (deposit_vb_ok == false) {
FC_THROW("Deposit vesting balance ${deposit_id} must be of SON type, with minimum amount of ${son_vesting_amount}",
("deposit_id", deposit_id) ("son_vesting_amount", _remote_db->get_global_properties().parameters.son_vesting_amount()));
}
if (pay_vb_ok == false) {
FC_THROW("Payment vesting balance ${pay_vb_id} must be of NORMAL type",
("pay_vb_id", pay_vb_id));
}
son_create_operation son_create_op;
son_create_op.owner_account = son_account.id;
son_create_op.signing_key = son_public_key;
son_create_op.url = url;
son_create_op.deposit = deposit_id;
son_create_op.pay_vb = pay_vb_id;
son_create_op.sidechain_public_keys = sidechain_public_keys;
if (_remote_db->get_son_by_account_id(son_create_op.owner_account))
FC_THROW("Account ${owner_account} is already a SON", ("owner_account", owner_account));
signed_transaction tx;
tx.operations.push_back( son_create_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account)(broadcast) ) }
signed_transaction update_son(string owner_account,
string url,
string block_signing_key,
flat_map<sidechain_type, string> sidechain_public_keys,
bool broadcast /* = false */)
{ try {
son_object son = get_son(owner_account);
son_update_operation son_update_op;
son_update_op.son_id = son.id;
son_update_op.owner_account = son.son_account;
if( url != "" )
son_update_op.new_url = url;
if( block_signing_key != "" ) {
son_update_op.new_signing_key = public_key_type( block_signing_key );
}
if( !sidechain_public_keys.empty() ) {
son_update_op.new_sidechain_public_keys = sidechain_public_keys;
}
signed_transaction tx;
tx.operations.push_back( son_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account)(url)(block_signing_key)(broadcast) ) }
signed_transaction activate_deregistered_son(const string & owner_account,
bool broadcast /* = false */)
{ try {
son_object son = get_son(owner_account);
son_update_operation son_update_op;
son_update_op.son_id = son.id;
son_update_op.owner_account = son.son_account;
signed_transaction tx;
tx.operations.push_back( son_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account)(broadcast) ) }
signed_transaction update_son_vesting_balances(string owner_account,
optional<vesting_balance_id_type> new_deposit,
optional<vesting_balance_id_type> new_pay_vb,
bool broadcast /* = false */)
{ try {
son_object son = get_son(owner_account);
son_update_operation son_update_op;
son_update_op.son_id = son.id;
son_update_op.owner_account = son.son_account;
if (new_deposit.valid())
son_update_op.new_deposit = new_deposit;
if (new_pay_vb.valid())
son_update_op.new_pay_vb = new_pay_vb;
signed_transaction tx;
tx.operations.push_back( son_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account)(new_deposit)(new_pay_vb)(broadcast) ) }
signed_transaction request_son_maintenance(string owner_account,
bool broadcast)
{ try {
son_object son = get_son(owner_account);
son_maintenance_operation op;
op.owner_account = son.son_account;
op.son_id = son.id;
op.request_type = son_maintenance_request_type::request_maintenance;
signed_transaction tx;
tx.operations.push_back( op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account) ) }
signed_transaction cancel_request_son_maintenance(string owner_account,
bool broadcast)
{ try {
son_object son = get_son(owner_account);
son_maintenance_operation op;
op.owner_account = son.son_account;
op.son_id = son.id;
op.request_type = son_maintenance_request_type::cancel_request_maintenance;
signed_transaction tx;
tx.operations.push_back( op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account) ) }
flat_map<sidechain_type, vector<son_sidechain_info>> get_active_sons()
{ try {
return _remote_db->get_active_sons();
} FC_CAPTURE_AND_RETHROW() }
vector<son_sidechain_info> get_active_sons_by_sidechain(sidechain_type sidechain)
{ try {
return _remote_db->get_active_sons_by_sidechain(sidechain);
} FC_CAPTURE_AND_RETHROW() }
map<sidechain_type, map<son_id_type, string>> get_son_network_status()
{ try {
return _remote_db->get_son_network_status();
} FC_CAPTURE_AND_RETHROW() }
map<son_id_type, string> get_son_network_status_by_sidechain(sidechain_type sidechain)
{ try {
return _remote_db->get_son_network_status_by_sidechain(sidechain);
} FC_CAPTURE_AND_RETHROW() }
optional<son_wallet_object> get_active_son_wallet()
{ try {
return _remote_db->get_active_son_wallet();
} FC_CAPTURE_AND_RETHROW() }
optional<son_wallet_object> get_son_wallet_by_time_point(time_point_sec time_point)
{ try {
return _remote_db->get_son_wallet_by_time_point(time_point);
} FC_CAPTURE_AND_RETHROW() }
vector<optional<son_wallet_object>> get_son_wallets(uint32_t limit)
{ try {
return _remote_db->get_son_wallets(limit);
} FC_CAPTURE_AND_RETHROW() }
signed_transaction add_sidechain_address(string account,
sidechain_type sidechain,
string deposit_public_key,
string deposit_address,
string withdraw_public_key,
string withdraw_address,
bool broadcast /* = false */)
{ try {
account_id_type sidechain_address_account_id = get_account_id(account);
sidechain_address_add_operation op;
op.payer = sidechain_address_account_id;
op.sidechain_address_account = sidechain_address_account_id;
op.sidechain = sidechain;
op.deposit_public_key = deposit_public_key;
op.deposit_address = deposit_address;
op.withdraw_public_key = withdraw_public_key;
op.withdraw_address = withdraw_address;
signed_transaction tx;
tx.operations.push_back( op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW() }
signed_transaction delete_sidechain_address(string account,
sidechain_type sidechain,
bool broadcast /* = false */)
{ try {
account_id_type sidechain_address_account_id = get_account_id(account);
fc::optional<sidechain_address_object> sao = _remote_db->get_sidechain_address_by_account_and_sidechain(sidechain_address_account_id, sidechain);
if (!sao)
FC_THROW("No sidechain address for account ${account} and sidechain ${sidechain}", ("account", sidechain_address_account_id)("sidechain", sidechain));
sidechain_address_delete_operation op;
op.payer = sidechain_address_account_id;
op.sidechain_address_id = sao->id;
op.sidechain_address_account = sidechain_address_account_id;
op.sidechain = sidechain;
signed_transaction tx;
tx.operations.push_back( op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW() }
signed_transaction sidechain_withdrawal_transaction(const string &son_name_or_id,
uint32_t block_num,
const sidechain_type& sidechain,
const std::string &peerplays_uid,
const std::string &peerplays_transaction_id,
const chain::account_id_type &peerplays_from,
const sidechain_type& withdraw_sidechain,
const std::string &withdraw_address,
const std::string &withdraw_currency,
const string &withdraw_amount)
{ try{
const global_property_object& gpo = get_global_properties();
const auto dynamic_props = get_dynamic_global_properties();
const auto son_obj = get_son(son_name_or_id);
fc::optional<asset_object> peerplays_asset = get_asset(withdraw_currency);
FC_ASSERT(peerplays_asset, "Could not find asset matching ${asset}", ("asset", peerplays_asset));
const auto asset_val = peerplays_asset->amount_from_string(withdraw_amount);
const auto asset_price = peerplays_asset->options.core_exchange_rate;
price withdraw_currency_price = {};
if ("BTC" == withdraw_currency) {
fc::optional<asset_object> a = get_asset( gpo.parameters.btc_asset());
withdraw_currency_price = a->options.core_exchange_rate;
} else
if ("HBD" == withdraw_currency) {
fc::optional<asset_object> a = get_asset( gpo.parameters.hbd_asset());
withdraw_currency_price = a->options.core_exchange_rate;
} else
if ("HIVE" == withdraw_currency) {
fc::optional<asset_object> a = get_asset( gpo.parameters.hive_asset());
withdraw_currency_price = a->options.core_exchange_rate;
} else {
FC_THROW("withdraw_currency ${withdraw_currency}", ("withdraw_currency", withdraw_currency));
}
//! Create transaction
signed_transaction son_wallet_withdraw_create_transaction;
son_wallet_withdraw_create_operation op;
op.payer = son_obj.son_account;
op.son_id = son_obj.id;
op.timestamp = dynamic_props.time;
op.block_num = block_num;
op.sidechain = sidechain;
op.peerplays_uid = peerplays_uid;
op.peerplays_transaction_id = peerplays_transaction_id;
op.peerplays_from = peerplays_from;
op.peerplays_asset = asset(asset_val.amount * asset_price.base.amount / asset_price.quote.amount);
op.withdraw_sidechain = withdraw_sidechain;
op.withdraw_address = withdraw_address;
op.withdraw_currency = withdraw_currency;
op.withdraw_amount = asset_val.amount;
son_wallet_withdraw_create_transaction.operations.push_back(op);
return sign_transaction(son_wallet_withdraw_create_transaction, true);
} FC_CAPTURE_AND_RETHROW( (withdraw_currency) ) }
signed_transaction create_witness(string owner_account,
string url,
bool broadcast /* = false */)
{ try {
fc::scoped_lock<fc::mutex> lock(_resync_mutex);
account_object witness_account = get_account(owner_account);
fc::ecc::private_key active_private_key = get_private_key_for_account(witness_account);
int witness_key_index = find_first_unused_derived_key_index(active_private_key);
fc::ecc::private_key witness_private_key = derive_private_key(key_to_wif(active_private_key), witness_key_index);
graphene::chain::public_key_type witness_public_key = witness_private_key.get_public_key();
witness_create_operation witness_create_op;
witness_create_op.witness_account = witness_account.id;
witness_create_op.block_signing_key = witness_public_key;
witness_create_op.url = url;
secret_hash_type::encoder enc;
fc::raw::pack(enc, witness_private_key);
fc::raw::pack(enc, secret_hash_type());
witness_create_op.initial_secret = enc.result();
if (_remote_db->get_witness_by_account(account_id_to_string(witness_create_op.witness_account)))
FC_THROW("Account ${owner_account} is already a witness", ("owner_account", owner_account));
signed_transaction tx;
tx.operations.push_back( witness_create_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
_wallet.pending_witness_registrations[owner_account] = key_to_wif(witness_private_key);
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account)(broadcast) ) }
signed_transaction update_witness(string witness_name,
string url,
string block_signing_key,
bool broadcast /* = false */)
{ try {
witness_object witness = get_witness(witness_name);
account_object witness_account = get_account( witness.witness_account );
witness_update_operation witness_update_op;
witness_update_op.witness = witness.id;
witness_update_op.witness_account = witness_account.id;
if( url != "" )
witness_update_op.new_url = url;
if( block_signing_key != "" ) {
witness_update_op.new_signing_key = public_key_type( block_signing_key );
witness_update_op.new_initial_secret = secret_hash_type::hash(secret_hash_type());
}
signed_transaction tx;
tx.operations.push_back( witness_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (witness_name)(url)(block_signing_key)(broadcast) ) }
template<typename WorkerInit>
static WorkerInit _create_worker_initializer( const variant& worker_settings )
{
WorkerInit result;
from_variant( worker_settings, result, GRAPHENE_MAX_NESTED_OBJECTS );
return result;
}
signed_transaction create_worker(
string owner_account,
time_point_sec work_begin_date,
time_point_sec work_end_date,
share_type daily_pay,
string name,
string url,
variant worker_settings,
bool broadcast
)
{
worker_initializer init;
std::string wtype = worker_settings["type"].get_string();
// TODO: Use introspection to do this dispatch
if( wtype == "burn" )
init = _create_worker_initializer< burn_worker_initializer >( worker_settings );
else if( wtype == "refund" )
init = _create_worker_initializer< refund_worker_initializer >( worker_settings );
else if( wtype == "vesting" )
init = _create_worker_initializer< vesting_balance_worker_initializer >( worker_settings );
else
{
FC_ASSERT( false, "unknown worker[\"type\"] value" );
}
worker_create_operation op;
op.owner = get_account( owner_account ).id;
op.work_begin_date = work_begin_date;
op.work_end_date = work_end_date;
op.daily_pay = daily_pay;
op.name = name;
op.url = url;
op.initializer = init;
signed_transaction tx;
tx.operations.push_back( op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
}
signed_transaction update_worker_votes(
string account,
worker_vote_delta delta,
bool broadcast
)
{
account_object acct = get_account( account );
// you could probably use a faster algorithm for this, but flat_set is fast enough :)
flat_set< worker_id_type > merged;
merged.reserve( delta.vote_for.size() + delta.vote_against.size() + delta.vote_abstain.size() );
for( const worker_id_type& wid : delta.vote_for )
{
bool inserted = merged.insert( wid ).second;
FC_ASSERT( inserted, "worker ${wid} specified multiple times", ("wid", wid) );
}
for( const worker_id_type& wid : delta.vote_against )
{
bool inserted = merged.insert( wid ).second;
FC_ASSERT( inserted, "worker ${wid} specified multiple times", ("wid", wid) );
}
for( const worker_id_type& wid : delta.vote_abstain )
{
bool inserted = merged.insert( wid ).second;
FC_ASSERT( inserted, "worker ${wid} specified multiple times", ("wid", wid) );
}
// should be enforced by FC_ASSERT's above
assert( merged.size() == delta.vote_for.size() + delta.vote_against.size() + delta.vote_abstain.size() );
vector< object_id_type > query_ids;
for( const worker_id_type& wid : merged )
query_ids.push_back( wid );
flat_set<vote_id_type> new_votes( acct.options.votes );
fc::variants objects = _remote_db->get_objects( query_ids );
for( const variant& obj : objects )
{
worker_object wo;
from_variant( obj, wo, GRAPHENE_MAX_NESTED_OBJECTS );
new_votes.erase( wo.vote_for );
new_votes.erase( wo.vote_against );
if( delta.vote_for.find( wo.id ) != delta.vote_for.end() )
new_votes.insert( wo.vote_for );
else if( delta.vote_against.find( wo.id ) != delta.vote_against.end() )
new_votes.insert( wo.vote_against );
else
assert( delta.vote_abstain.find( wo.id ) != delta.vote_abstain.end() );
}
account_update_operation update_op;
update_op.account = acct.id;
update_op.new_options = acct.options;
update_op.new_options->votes = new_votes;
signed_transaction tx;
tx.operations.push_back( update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
}
signed_transaction create_vesting_balance(string owner_account,
string amount,
string asset_symbol,
vesting_balance_type vesting_type,
bool broadcast /* = false */)
{ try {
FC_ASSERT( !is_locked() );
account_object user_account = get_account(owner_account);
fc::optional<asset_object> asset_obj = get_asset(asset_symbol);
FC_ASSERT(asset_obj, "Invalid asset symbol {asst}", ("asst", asset_symbol));
vesting_balance_create_operation op;
op.creator = user_account.get_id();
op.owner = user_account.get_id();
op.amount = asset_obj->amount_from_string(amount);
op.balance_type = vesting_type;
if (op.balance_type == vesting_balance_type::son)
op.policy = dormant_vesting_policy_initializer {};
signed_transaction tx;
tx.operations.push_back( op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (owner_account)(broadcast) ) }
vector< vesting_balance_object_with_info > get_vesting_balances( string account_name )
{ try {
fc::optional<vesting_balance_id_type> vbid = maybe_id<vesting_balance_id_type>( account_name );
std::vector<vesting_balance_object_with_info> result;
fc::time_point_sec now = _remote_db->get_dynamic_global_properties().time;
if( vbid )
{
result.emplace_back( get_object<vesting_balance_object>(*vbid), now );
return result;
}
vector< vesting_balance_object > vbos = _remote_db->get_vesting_balances( account_name );
if( vbos.size() == 0 )
return result;
for( const vesting_balance_object& vbo : vbos )
result.emplace_back( vbo, now );
return result;
} FC_CAPTURE_AND_RETHROW( (account_name) )
}
signed_transaction withdraw_vesting(
string witness_name,
string amount,
string asset_symbol,
bool broadcast = false )
{ try {
asset_object asset_obj = get_asset( asset_symbol );
fc::optional<vesting_balance_id_type> vbid = maybe_id<vesting_balance_id_type>(witness_name);
if( !vbid )
{
if (is_witness(witness_name))
{
witness_object wit = get_witness( witness_name );
FC_ASSERT( wit.pay_vb, "Account ${account} has no core Token ${TOKEN} vested and thus its not allowed to withdraw.", ("account", witness_name)("TOKEN", GRAPHENE_SYMBOL));
vbid = wit.pay_vb;
}
else
FC_THROW("Account ${account} has no core Token ${TOKEN} vested and thus its not allowed to withdraw.", ("account", witness_name)("TOKEN", GRAPHENE_SYMBOL));
}
vesting_balance_object vbo = get_object< vesting_balance_object >( *vbid );
if(vbo.balance_type == vesting_balance_type::gpos)
FC_THROW("Allowed to withdraw only Normal and Son type vest balances with this method");
vesting_balance_withdraw_operation vesting_balance_withdraw_op;
vesting_balance_withdraw_op.vesting_balance = *vbid;
vesting_balance_withdraw_op.owner = vbo.owner;
vesting_balance_withdraw_op.amount = asset_obj.amount_from_string(amount);
signed_transaction tx;
tx.operations.push_back( vesting_balance_withdraw_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (witness_name)(amount) )
}
signed_transaction withdraw_GPOS_vesting_balance(
string account_name,
string amount,
string asset_symbol,
bool broadcast = false)
{ try {
//Can be deleted after GPOS hardfork time
time_point_sec now = time_point::now();
if(now < HARDFORK_GPOS_TIME)
FC_THROW("GPOS related functionality is not avaiable until next Spring");
asset_object asset_obj = get_asset( asset_symbol );
vector< vesting_balance_object > vbos;
vesting_balance_object vbo;
fc::optional<vesting_balance_id_type> vbid = maybe_id<vesting_balance_id_type>(account_name);
if( !vbid )
{
vbos = _remote_db->get_vesting_balances( account_name );
if( vbos.size() == 0 )
FC_THROW("Account ${account} has no core TOKEN vested and thus its not allowed to withdraw.", ("account", account_name));
}
//whether it is a witness or user, keep it in a container and iterate over to process all vesting balances and types
if(!vbos.size())
vbos.emplace_back( get_object<vesting_balance_object>(*vbid) );
for (const vesting_balance_object& vesting_balance_obj: vbos) {
if(vesting_balance_obj.balance_type == vesting_balance_type::gpos)
{
vbo = vesting_balance_obj;
break;
}
}
vesting_balance_withdraw_operation vesting_balance_withdraw_op;
vesting_balance_withdraw_op.vesting_balance = vbo.id;
vesting_balance_withdraw_op.owner = vbo.owner;
vesting_balance_withdraw_op.amount = asset_obj.amount_from_string(amount);
signed_transaction tx;
tx.operations.push_back( vesting_balance_withdraw_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (account_name)(amount) )
}
signed_transaction vote_for_committee_member(string voting_account,
string committee_member,
bool approve,
bool broadcast /* = false */)
{ try {
std::vector<vesting_balance_object_with_info> vbo_info = get_vesting_balances(voting_account);
time_point_sec now = time_point::now();
if(now >= HARDFORK_GPOS_TIME) //can be removed after GPOS HARDFORK time pass
{
std::vector<vesting_balance_object_with_info>::iterator vbo_iter;
vbo_iter = std::find_if(vbo_info.begin(), vbo_info.end(), [](vesting_balance_object_with_info const& obj){return obj.balance_type == vesting_balance_type::gpos;});
if( vbo_info.size() == 0 || vbo_iter == vbo_info.end())
FC_THROW("Account ${account} has no core Token ${TOKEN} vested and will not be allowed to vote for the committee member", ("account", voting_account)("TOKEN", GRAPHENE_SYMBOL));
}
account_object voting_account_object = get_account(voting_account);
fc::optional<committee_member_object> committee_member_obj = _remote_db->get_committee_member_by_account(committee_member);
if (!committee_member_obj)
FC_THROW("Account ${committee_member} is not registered as a committee_member", ("committee_member", committee_member));
bool update_vote_time = false;
if (approve)
{
auto insert_result = voting_account_object.options.votes.insert(committee_member_obj->vote_id);
if(now >= HARDFORK_GPOS_TIME) //can be removed after GPOS HARDFORK time pass
{
account_id_type stake_account = get_account_id(voting_account);
const auto gpos_info = _remote_db->get_gpos_info(stake_account);
const auto vesting_subperiod = _remote_db->get_global_properties().parameters.gpos_subperiod();
const auto gpos_start_time = fc::time_point_sec(_remote_db->get_global_properties().parameters.gpos_period_start());
const auto subperiod_start_time = gpos_start_time.sec_since_epoch() + (gpos_info.current_subperiod - 1) * vesting_subperiod;
if (!insert_result.second && (gpos_info.last_voted_time.sec_since_epoch() >= subperiod_start_time))
FC_THROW("Account ${account} was already voting for committee_member ${committee_member} in the current GPOS sub-period", ("account", voting_account)("committee_member", committee_member));
else
update_vote_time = true; //Allow user to vote in each sub-period(Update voting time, which is reference in calculating VF)
}
else
{
if (!insert_result.second)
FC_THROW("Account ${account} was already voting for committee_member ${committee_member}", ("account", voting_account)("committee_member", committee_member));
}
}
else
{
unsigned votes_removed = voting_account_object.options.votes.erase(committee_member_obj->vote_id);
if (!votes_removed)
FC_THROW("Account ${account} is already not voting for committee_member ${committee_member}", ("account", voting_account)("committee_member", committee_member));
}
account_update_operation account_update_op;
account_update_op.account = voting_account_object.id;
account_update_op.new_options = voting_account_object.options;
account_update_op.extensions.value.update_last_voting_time = update_vote_time;
signed_transaction tx;
tx.operations.push_back( account_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (voting_account)(committee_member)(approve)(broadcast) ) }
signed_transaction vote_for_son(string voting_account,
string son,
sidechain_type sidechain,
bool approve,
bool broadcast /* = false */)
{ try {
std::vector<vesting_balance_object_with_info> vbo_info = get_vesting_balances(voting_account);
std::vector<vesting_balance_object_with_info>::iterator vbo_iter;
vbo_iter = std::find_if(vbo_info.begin(), vbo_info.end(), [](vesting_balance_object_with_info const& obj){return obj.balance_type == vesting_balance_type::gpos;});
if( vbo_info.size() == 0 || vbo_iter == vbo_info.end())
FC_THROW("Account ${account} has no core Token ${TOKEN} vested and will not be allowed to vote for the SON account", ("account", voting_account)("TOKEN", GRAPHENE_SYMBOL));
account_object voting_account_object = get_account(voting_account);
account_id_type son_account_id = get_account_id(son);
fc::optional<son_object> son_obj = _remote_db->get_son_by_account_id(son_account_id);
FC_ASSERT(son_obj, "Account ${son} is not registered as a son", ("son", son));
FC_ASSERT(sidechain == sidechain_type::bitcoin || sidechain == sidechain_type::hive || sidechain == sidechain_type::ethereum, "Unexpected sidechain type");
if (approve)
{
FC_ASSERT(son_obj->get_sidechain_vote_id(sidechain).valid(), "Invalid vote id, sidechain: ${sidechain}, son: ${son}", ("sidechain", sidechain)("son", *son_obj));
auto insert_result = voting_account_object.options.votes.insert(*son_obj->get_sidechain_vote_id(sidechain));
if (!insert_result.second)
FC_THROW("Account ${account} has already voted for son ${son} for sidechain ${sidechain}", ("account", voting_account)("son", son)("sidechain", sidechain));
}
else
{
FC_ASSERT(son_obj->get_sidechain_vote_id(sidechain).valid(), "Invalid vote id, sidechain: ${sidechain}, son: ${son}", ("sidechain", sidechain)("son", *son_obj));
unsigned votes_removed = voting_account_object.options.votes.erase(*son_obj->get_sidechain_vote_id(sidechain));
if (!votes_removed)
FC_THROW("Account ${account} has already unvoted for son ${son} for sidechain ${sidechain}", ("account", voting_account)("son", son)("sidechain", sidechain));
}
account_update_operation account_update_op;
account_update_op.account = voting_account_object.id;
account_update_op.new_options = voting_account_object.options;
signed_transaction tx;
tx.operations.push_back( account_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (voting_account)(son)(approve)(broadcast) ) }
signed_transaction update_son_votes(string voting_account,
std::vector<std::string> sons_to_approve,
std::vector<std::string> sons_to_reject,
sidechain_type sidechain,
uint16_t desired_number_of_sons,
bool broadcast /* = false */)
{ try {
FC_ASSERT(sons_to_approve.size() || sons_to_reject.size(), "Both accepted and rejected lists can't be empty simultaneously");
std::vector<vesting_balance_object_with_info> vbo_info = get_vesting_balances(voting_account);
std::vector<vesting_balance_object_with_info>::iterator vbo_iter;
vbo_iter = std::find_if(vbo_info.begin(), vbo_info.end(), [](vesting_balance_object_with_info const& obj){return obj.balance_type == vesting_balance_type::gpos;});
if( vbo_info.size() == 0 || vbo_iter == vbo_info.end())
FC_THROW("Account ${account} has no core Token ${TOKEN} vested and will not be allowed to vote for the SON account", ("account", voting_account)("TOKEN", GRAPHENE_SYMBOL));
account_object voting_account_object = get_account(voting_account);
for (const std::string& son : sons_to_approve)
{
account_id_type son_owner_account_id = get_account_id(son);
fc::optional<son_object> son_obj = _remote_db->get_son_by_account_id(son_owner_account_id);
FC_ASSERT(son_obj, "Account ${son} is not registered as a son", ("son", son));
FC_ASSERT(sidechain == sidechain_type::bitcoin || sidechain == sidechain_type::hive || sidechain == sidechain_type::ethereum, "Unexpected sidechain type");
FC_ASSERT(son_obj->get_sidechain_vote_id(sidechain).valid(), "Invalid vote id, sidechain: ${sidechain}, son: ${son}", ("sidechain", sidechain)("son", *son_obj));
auto insert_result = voting_account_object.options.votes.insert(*son_obj->get_sidechain_vote_id(sidechain));
if (!insert_result.second)
FC_THROW("Account ${account} was already voting for SON ${son}", ("account", voting_account)("son", son));
}
for (const std::string& son : sons_to_reject)
{
account_id_type son_owner_account_id = get_account_id(son);
fc::optional<son_object> son_obj = _remote_db->get_son_by_account_id(son_owner_account_id);
FC_ASSERT(son_obj, "Account ${son} is not registered as a son", ("son", son));
FC_ASSERT(sidechain == sidechain_type::bitcoin || sidechain == sidechain_type::hive || sidechain == sidechain_type::ethereum, "Unexpected sidechain type");
FC_ASSERT(son_obj->get_sidechain_vote_id(sidechain).valid(), "Invalid vote id, sidechain: ${sidechain}, son: ${son}", ("sidechain", sidechain)("son", *son_obj));
unsigned votes_removed = voting_account_object.options.votes.erase(*son_obj->get_sidechain_vote_id(sidechain));
if (!votes_removed)
FC_THROW("Account ${account} is already not voting for SON ${son}", ("account", voting_account)("son", son));
}
auto active_sidechains = active_sidechain_types(time_point::now());
auto num_son_map = *voting_account_object.options.extensions.value.num_son;
if ( num_son_map.size() != active_sidechains.size())
{
for (const auto& num_sidechain_son : num_son_map)
{
FC_ASSERT(active_sidechains.find(num_sidechain_son.first) != active_sidechains.end());
active_sidechains.erase(num_sidechain_son.first);
}
for (auto missing_num_son : active_sidechains)
{
num_son_map[missing_num_son] = 0;
}
}
FC_ASSERT( voting_account_object.options.extensions.value.num_son.valid() , "Invalid son number" );
num_son_map[sidechain] = desired_number_of_sons;
account_update_operation account_update_op;
account_update_op.account = voting_account_object.id;
account_update_op.new_options = voting_account_object.options;
signed_transaction tx;
tx.operations.push_back( account_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (voting_account)(sons_to_approve)(sons_to_reject)(desired_number_of_sons)(broadcast) ) }
signed_transaction sidechain_deposit_transaction( const string &son_name_or_id,
const sidechain_type& sidechain,
const string &transaction_id,
uint32_t operation_index,
const string &sidechain_from,
const string &sidechain_to,
const string &sidechain_currency,
int64_t sidechain_amount,
const string &peerplays_from_name_or_id,
const string &peerplays_to_name_or_id )
{
//! Get data we need to procced transaction
const auto dynamic_global_props = get_dynamic_global_properties();
const auto global_props = get_global_properties();
const auto son_obj = get_son(son_name_or_id);
const std::string sidechain_str = [&sidechain](){
switch (sidechain) {
case sidechain_type::peerplays : return "peerplays";
case sidechain_type::bitcoin : return "bitcoin";
case sidechain_type::hive : return "hive";
case sidechain_type::ethereum : return "ethereum";
default:
FC_THROW("Wrong sidechain type: ${sidechain}", ("sidechain", sidechain));
}
}();
const auto peerplays_from_obj = get_account(peerplays_from_name_or_id);
const auto peerplays_to_obj = get_account(peerplays_to_name_or_id);
const price sidechain_currency_price = [this, &sidechain_currency, &global_props](){
if(sidechain_currency == "BTC")
{
fc::optional<asset_object> asset_obj = get_asset(object_id_to_string(global_props.parameters.btc_asset()));
FC_ASSERT(asset_obj, "Could not find asset matching ${asset}", ("asset", "BTC"));
return asset_obj->options.core_exchange_rate;
}
else if(sidechain_currency == "HBD")
{
fc::optional<asset_object> asset_obj = get_asset(object_id_to_string(global_props.parameters.hbd_asset()));
FC_ASSERT(asset_obj, "Could not find asset matching ${asset}", ("asset", "HBD"));
return asset_obj->options.core_exchange_rate;
}
else if(sidechain_currency == "HIVE")
{
fc::optional<asset_object> asset_obj = get_asset(object_id_to_string(global_props.parameters.hive_asset()));
FC_ASSERT(asset_obj, "Could not find asset matching ${asset}", ("asset", "HIVE"));
return asset_obj->options.core_exchange_rate;
}
else
{
fc::optional<asset_object> asset_obj = get_asset(sidechain_currency);
FC_ASSERT(asset_obj, "Could not find asset matching ${asset}", ("asset", sidechain_currency));
return asset_obj->options.core_exchange_rate;
}
}();
//! Create transaction
signed_transaction son_wallet_deposit_create_transaction;
son_wallet_deposit_create_operation op;
op.payer = son_obj.son_account;
op.son_id = son_obj.id;
op.timestamp = dynamic_global_props.time;
op.block_num = dynamic_global_props.head_block_number;
op.sidechain = sidechain;
op.sidechain_uid = sidechain_str + "-" + transaction_id + "-" + std::to_string(operation_index);
op.sidechain_transaction_id = transaction_id;
op.sidechain_from = sidechain_from;
op.sidechain_to = sidechain_to;
op.sidechain_currency = sidechain_currency;
op.sidechain_amount = sidechain_amount;
op.peerplays_from = peerplays_from_obj.id;
op.peerplays_to = peerplays_to_obj.id;
op.peerplays_asset = asset(op.sidechain_amount * sidechain_currency_price.base.amount / sidechain_currency_price.quote.amount);
son_wallet_deposit_create_transaction.operations.push_back(op);
return sign_transaction(son_wallet_deposit_create_transaction, true);
}
signed_transaction vote_for_witness(string voting_account,
string witness,
bool approve,
bool broadcast /* = false */)
{ try {
std::vector<vesting_balance_object_with_info> vbo_info = get_vesting_balances(voting_account);
time_point_sec now = time_point::now();
if(now >= HARDFORK_GPOS_TIME) //can be removed after GPOS HARDFORK time pass
{
std::vector<vesting_balance_object_with_info>::iterator vbo_iter;
vbo_iter = std::find_if(vbo_info.begin(), vbo_info.end(), [](vesting_balance_object_with_info const& obj){return obj.balance_type == vesting_balance_type::gpos;});
if( vbo_info.size() == 0 || vbo_iter == vbo_info.end())
FC_THROW("Account ${account} has no core Token ${TOKEN} vested and will not be allowed to vote for the witness", ("account", voting_account)("TOKEN", GRAPHENE_SYMBOL));
}
account_object voting_account_object = get_account(voting_account);
fc::optional<witness_object> witness_obj = _remote_db->get_witness_by_account(witness);
if (!witness_obj)
FC_THROW("Account ${witness} is not registered as a witness", ("witness", witness));
bool update_vote_time = false;
if (approve)
{
auto insert_result = voting_account_object.options.votes.insert(witness_obj->vote_id);
if(now >= HARDFORK_GPOS_TIME) //can be removed after GPOS HARDFORK time pass
{
account_id_type stake_account = get_account_id(voting_account);
const auto gpos_info = _remote_db->get_gpos_info(stake_account);
const auto vesting_subperiod = _remote_db->get_global_properties().parameters.gpos_subperiod();
const auto gpos_start_time = fc::time_point_sec(_remote_db->get_global_properties().parameters.gpos_period_start());
const auto subperiod_start_time = gpos_start_time.sec_since_epoch() + (gpos_info.current_subperiod - 1) * vesting_subperiod;
if (!insert_result.second && (gpos_info.last_voted_time.sec_since_epoch() >= subperiod_start_time))
FC_THROW("Account ${account} was already voting for witness ${witness} in the current GPOS sub-period", ("account", voting_account)("witness", witness));
else
update_vote_time = true; //Allow user to vote in each sub-period(Update voting time, which is reference in calculating VF)
}
else
{
if (!insert_result.second)
FC_THROW("Account ${account} was already voting for witness ${witness}", ("account", voting_account)("witness", witness));
}
}
else
{
unsigned votes_removed = voting_account_object.options.votes.erase(witness_obj->vote_id);
if (!votes_removed)
FC_THROW("Account ${account} has not voted for witness ${witness}", ("account", voting_account)("witness", witness));
}
account_update_operation account_update_op;
account_update_op.account = voting_account_object.id;
account_update_op.new_options = voting_account_object.options;
account_update_op.extensions.value.update_last_voting_time = update_vote_time;
signed_transaction tx;
tx.operations.push_back( account_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (voting_account)(witness)(approve)(broadcast) ) }
signed_transaction update_witness_votes(string voting_account,
std::vector<std::string> witnesses_to_approve,
std::vector<std::string> witnesses_to_reject,
uint16_t desired_number_of_witnesses,
bool broadcast /* = false */)
{ try {
account_object voting_account_object = get_account(voting_account);
for (const std::string& witness : witnesses_to_approve)
{
fc::optional<witness_object> witness_obj = _remote_db->get_witness_by_account(witness);
if (!witness_obj)
FC_THROW("Account ${witness} is not registered as a witness", ("witness", witness));
auto insert_result = voting_account_object.options.votes.insert(witness_obj->vote_id);
if (!insert_result.second)
FC_THROW("Account ${account} was already voting for witness ${witness}", ("account", voting_account)("witness", witness));
}
for (const std::string& witness : witnesses_to_reject)
{
fc::optional<witness_object> witness_obj = _remote_db->get_witness_by_account(witness);
if (!witness_obj)
FC_THROW("Account ${witness} is not registered as a witness", ("witness", witness));
unsigned votes_removed = voting_account_object.options.votes.erase(witness_obj->vote_id);
if (!votes_removed)
FC_THROW("Account ${account} is already not voting for witness ${witness}", ("account", voting_account)("witness", witness));
}
voting_account_object.options.num_witness = desired_number_of_witnesses;
account_update_operation account_update_op;
account_update_op.account = voting_account_object.id;
account_update_op.new_options = voting_account_object.options;
signed_transaction tx;
tx.operations.push_back( account_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (voting_account)(witnesses_to_approve)(witnesses_to_reject)(desired_number_of_witnesses)(broadcast) ) }
signed_transaction set_voting_proxy(string account_to_modify,
optional<string> voting_account,
bool broadcast /* = false */)
{ try {
account_object account_object_to_modify = get_account(account_to_modify);
if (voting_account)
{
account_id_type new_voting_account_id = get_account_id(*voting_account);
if (account_object_to_modify.options.voting_account == new_voting_account_id)
FC_THROW("Voting proxy for ${account} is already set to ${voter}", ("account", account_to_modify)("voter", *voting_account));
account_object_to_modify.options.voting_account = new_voting_account_id;
}
else
{
if (account_object_to_modify.options.voting_account == GRAPHENE_PROXY_TO_SELF_ACCOUNT)
FC_THROW("Account ${account} is already voting for itself", ("account", account_to_modify));
account_object_to_modify.options.voting_account = GRAPHENE_PROXY_TO_SELF_ACCOUNT;
}
account_update_operation account_update_op;
account_update_op.account = account_object_to_modify.id;
account_update_op.new_options = account_object_to_modify.options;
signed_transaction tx;
tx.operations.push_back( account_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (account_to_modify)(voting_account)(broadcast) ) }
signed_transaction set_desired_witness_and_committee_member_count(string account_to_modify,
uint16_t desired_number_of_witnesses,
uint16_t desired_number_of_committee_members,
bool broadcast /* = false */)
{ try {
account_object account_object_to_modify = get_account(account_to_modify);
if (account_object_to_modify.options.num_witness == desired_number_of_witnesses &&
account_object_to_modify.options.num_committee == desired_number_of_committee_members)
FC_THROW("Account ${account} is already voting for ${witnesses} witnesses and ${committee_members} committee_members",
("account", account_to_modify)("witnesses", desired_number_of_witnesses)("committee_members",desired_number_of_witnesses));
account_object_to_modify.options.num_witness = desired_number_of_witnesses;
account_object_to_modify.options.num_committee = desired_number_of_committee_members;
account_update_operation account_update_op;
account_update_op.account = account_object_to_modify.id;
account_update_op.new_options = account_object_to_modify.options;
signed_transaction tx;
tx.operations.push_back( account_update_op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
} FC_CAPTURE_AND_RETHROW( (account_to_modify)(desired_number_of_witnesses)(desired_number_of_committee_members)(broadcast) ) }
signed_transaction sign_transaction(signed_transaction tx, bool broadcast = false)
{
set<public_key_type> pks = _remote_db->get_potential_signatures(tx);
flat_set<public_key_type> owned_keys;
owned_keys.reserve(pks.size());
std::copy_if(pks.begin(), pks.end(), std::inserter(owned_keys, owned_keys.end()),
[this](const public_key_type &pk) { return _keys.find(pk) != _keys.end(); });
tx.clear_signatures();
set<public_key_type> approving_key_set = _remote_db->get_required_signatures(tx, owned_keys);
auto dyn_props = get_dynamic_global_properties();
tx.set_reference_block(dyn_props.head_block_id);
// first, some bookkeeping, expire old items from _recently_generated_transactions
// since transactions include the head block id, we just need the index for keeping transactions unique
// when there are multiple transactions in the same block. choose a time period that should be at
// least one block long, even in the worst case. 2 minutes ought to be plenty.
fc::time_point_sec oldest_transaction_ids_to_track(dyn_props.time - fc::minutes(2));
auto oldest_transaction_record_iter = _recently_generated_transactions.get<timestamp_index>().lower_bound(oldest_transaction_ids_to_track);
auto begin_iter = _recently_generated_transactions.get<timestamp_index>().begin();
_recently_generated_transactions.get<timestamp_index>().erase(begin_iter, oldest_transaction_record_iter);
uint32_t expiration_time_offset = 0;
for (;;)
{
tx.set_expiration( dyn_props.time + fc::seconds(30 + expiration_time_offset) );
tx.clear_signatures();
for (const public_key_type &key : approving_key_set)
tx.sign(get_private_key(key), _chain_id);
graphene::chain::transaction_id_type this_transaction_id = tx.id();
auto iter = _recently_generated_transactions.find(this_transaction_id);
if (iter == _recently_generated_transactions.end())
{
// we haven't generated this transaction before, the usual case
recently_generated_transaction_record this_transaction_record;
this_transaction_record.generation_time = dyn_props.time;
this_transaction_record.transaction_id = this_transaction_id;
_recently_generated_transactions.insert(this_transaction_record);
break;
}
// else we've generated a dupe, increment expiration time and re-sign it
++expiration_time_offset;
}
if( broadcast )
{
try
{
_remote_net_broadcast->broadcast_transaction(tx);
}
catch (const fc::exception& e)
{
elog("Caught exception while broadcasting tx ${id}: ${e}", ("id", tx.id().str())("e", e.to_detail_string()));
throw;
}
}
return tx;
}
flat_set<public_key_type> get_transaction_signers(const signed_transaction &tx) const
{
return tx.get_signature_keys(_chain_id);
}
vector<vector<account_id_type>> get_key_references(const vector<public_key_type> &keys) const
{
return _remote_db->get_key_references(keys);
}
/**
* Get the required public keys to sign the transaction which had been
* owned by us
*
* NOTE, if `erase_existing_sigs` set to true, the original trasaction's
* signatures will be erased
*
* @param tx The transaction to be signed
* @param erase_existing_sigs
* The transaction could have been partially signed already,
* if set to false, the corresponding public key of existing
* signatures won't be returned.
* If set to true, the existing signatures will be erased and
* all required keys returned.
*/
set<public_key_type> get_owned_required_keys( signed_transaction &tx,
bool erase_existing_sigs = true)
{
set<public_key_type> pks = _remote_db->get_potential_signatures( tx );
flat_set<public_key_type> owned_keys;
owned_keys.reserve( pks.size() );
std::copy_if( pks.begin(), pks.end(),
std::inserter( owned_keys, owned_keys.end() ),
[this]( const public_key_type &pk ) {
return _keys.find( pk ) != _keys.end();
} );
if ( erase_existing_sigs )
tx.signatures.clear();
return _remote_db->get_required_signatures( tx, owned_keys );
}
signed_transaction add_transaction_signature( signed_transaction tx,
bool broadcast )
{
set<public_key_type> approving_key_set = get_owned_required_keys(tx, false);
if ( ( ( tx.ref_block_num == 0 && tx.ref_block_prefix == 0 ) ||
tx.expiration == fc::time_point_sec() ) &&
tx.signatures.empty() )
{
auto dyn_props = get_dynamic_global_properties();
auto parameters = get_global_properties().parameters;
fc::time_point_sec now = dyn_props.time;
tx.set_reference_block( dyn_props.head_block_id );
tx.set_expiration( now + parameters.maximum_time_until_expiration );
}
for ( const public_key_type &key : approving_key_set )
tx.sign( get_private_key( key ), _chain_id );
if ( broadcast )
{
try
{
_remote_net_broadcast->broadcast_transaction( tx );
}
catch ( const fc::exception &e )
{
elog( "Caught exception while broadcasting tx ${id}: ${e}",
( "id", tx.id().str() )( "e", e.to_detail_string() ) );
FC_THROW( "Caught exception while broadcasting tx" );
}
}
return tx;
}
signed_transaction sell_asset(string seller_account,
string amount_to_sell,
string symbol_to_sell,
string min_to_receive,
string symbol_to_receive,
uint32_t timeout_sec = 0,
bool fill_or_kill = false,
bool broadcast = false)
{
account_object seller = get_account( seller_account );
limit_order_create_operation op;
op.seller = seller.id;
op.amount_to_sell = get_asset(symbol_to_sell).amount_from_string(amount_to_sell);
op.min_to_receive = get_asset(symbol_to_receive).amount_from_string(min_to_receive);
if( timeout_sec )
op.expiration = fc::time_point::now() + fc::seconds(timeout_sec);
op.fill_or_kill = fill_or_kill;
signed_transaction tx;
tx.operations.push_back(op);
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction( tx, broadcast );
}
signed_transaction borrow_asset(string seller_name, string amount_to_borrow, string asset_symbol,
string amount_of_collateral, bool broadcast = false)
{
account_object seller = get_account(seller_name);
asset_object mia = get_asset(asset_symbol);
FC_ASSERT(mia.is_market_issued());
asset_object collateral = get_asset(get_object(*mia.bitasset_data_id).options.short_backing_asset);
call_order_update_operation op;
op.funding_account = seller.id;
op.delta_debt = mia.amount_from_string(amount_to_borrow);
op.delta_collateral = collateral.amount_from_string(amount_of_collateral);
signed_transaction trx;
trx.operations = {op};
set_operation_fees( trx, _remote_db->get_global_properties().parameters.current_fees);
trx.validate();
return sign_transaction(trx, broadcast);
}
signed_transaction cancel_order(object_id_type order_id, bool broadcast = false)
{ try {
FC_ASSERT(!is_locked());
FC_ASSERT(order_id.space() == protocol_ids, "Invalid order ID ${id}", ("id", order_id));
signed_transaction trx;
limit_order_cancel_operation op;
op.fee_paying_account = get_object<limit_order_object>(order_id).seller;
op.order = order_id;
trx.operations = {op};
set_operation_fees( trx, _remote_db->get_global_properties().parameters.current_fees);
trx.validate();
return sign_transaction(trx, broadcast);
} FC_CAPTURE_AND_RETHROW((order_id)) }
sidechain_type get_sidechain_type_from_asset(asset_id_type asset_id) const
{
const auto& gpo = _remote_db->get_global_properties();
if(asset_id == gpo.parameters.btc_asset())
return sidechain_type::bitcoin;
if(asset_id == gpo.parameters.eth_asset())
return sidechain_type::ethereum;
if(asset_id == gpo.parameters.hbd_asset())
return sidechain_type::hive;
if(asset_id == gpo.parameters.hive_asset())
return sidechain_type::hive;
return sidechain_type::unknown;
}
signed_transaction transfer(string from, string to, string amount,
string asset_symbol, string memo, bool broadcast = false)
{ try {
FC_ASSERT( !self.is_locked() );
fc::optional<asset_object> asset_obj = get_asset(asset_symbol);
FC_ASSERT(asset_obj, "Could not find asset matching ${asset}", ("asset", asset_symbol));
account_object from_account = get_account(from);
account_object to_account = get_account(to);
account_id_type from_id = from_account.id;
account_id_type to_id = get_account_id(to);
transfer_operation xfer_op;
xfer_op.from = from_id;
xfer_op.to = to_id;
xfer_op.amount = asset_obj->amount_from_string(amount);
if( memo.size() )
{
xfer_op.memo = memo_data();
xfer_op.memo->from = from_account.options.memo_key;
xfer_op.memo->to = to_account.options.memo_key;
xfer_op.memo->set_message(get_private_key(from_account.options.memo_key),
to_account.options.memo_key, memo);
}
signed_transaction tx;
tx.operations.push_back(xfer_op);
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees);
tx.validate();
//! For sidechain withdrawal check if amount is greater than fee
if(to_id == _remote_db->get_global_properties().parameters.son_account()) {
const auto sidechain = get_sidechain_type_from_asset(asset_obj->id);
const auto transaction_fee = estimate_withdrawal_transaction_fee(sidechain);
if(transaction_fee) {
if (*transaction_fee >= xfer_op.amount) {
FC_THROW("Transaction fee: ${sidechain_fee}, is greater than or equal to the transferred amount ${amount}",
("sidechain_fee", get_asset(transaction_fee->asset_id).amount_to_pretty_string(transaction_fee->amount))("amount", get_asset(xfer_op.amount.asset_id).amount_to_pretty_string(xfer_op.amount.amount)));
}
}
}
return sign_transaction(tx, broadcast);
} FC_CAPTURE_AND_RETHROW( (from)(to)(amount)(asset_symbol)(memo)(broadcast) ) }
signed_transaction issue_asset(string to_account, string amount, string symbol,
string memo, bool broadcast = false)
{
auto asset_obj = get_asset(symbol);
account_object to = get_account(to_account);
account_object issuer = get_account(asset_obj.issuer);
asset_issue_operation issue_op;
issue_op.issuer = asset_obj.issuer;
issue_op.asset_to_issue = asset_obj.amount_from_string(amount);
issue_op.issue_to_account = to.id;
if( memo.size() )
{
issue_op.memo = memo_data();
issue_op.memo->from = issuer.options.memo_key;
issue_op.memo->to = to.options.memo_key;
issue_op.memo->set_message(get_private_key(issuer.options.memo_key),
to.options.memo_key, memo);
}
signed_transaction tx;
tx.operations.push_back(issue_op);
set_operation_fees(tx,_remote_db->get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
std::map<string,std::function<string(fc::variant,const fc::variants&)>> get_result_formatters() const
{
std::map<string,std::function<string(fc::variant,const fc::variants&)> > m;
m["help"] = [](variant result, const fc::variants& a)
{
return result.get_string();
};
m["gethelp"] = [](variant result, const fc::variants& a)
{
return result.get_string();
};
m["get_account_history"] = [this](variant result, const fc::variants& a)
{
auto r = result.as<vector<operation_detail>>( GRAPHENE_MAX_NESTED_OBJECTS );
std::stringstream ss;
for( operation_detail& d : r )
{
operation_history_object& i = d.op;
auto b = _remote_db->get_block_header(i.block_num);
FC_ASSERT(b);
ss << b->timestamp.to_iso_string() << " ";
i.op.visit(operation_printer(ss, *this, i.result));
ss << " \n";
}
return ss.str();
};
m["get_relative_account_history"] = [this](variant result, const fc::variants& a)
{
auto r = result.as<vector<operation_detail>>( GRAPHENE_MAX_NESTED_OBJECTS );
std::stringstream ss;
for( operation_detail& d : r )
{
operation_history_object& i = d.op;
auto b = _remote_db->get_block_header(i.block_num);
FC_ASSERT(b);
ss << b->timestamp.to_iso_string() << " ";
i.op.visit(operation_printer(ss, *this, i.result));
ss << " \n";
}
return ss.str();
};
m["list_account_balances"] = [this](variant result, const fc::variants& a)
{
auto r = result.as<vector<asset>>( GRAPHENE_MAX_NESTED_OBJECTS );
vector<asset_object> asset_recs;
std::transform(r.begin(), r.end(), std::back_inserter(asset_recs), [this](const asset& a) {
return get_asset(a.asset_id);
});
std::stringstream ss;
for( unsigned i = 0; i < asset_recs.size(); ++i )
ss << asset_recs[i].amount_to_pretty_string(r[i]) << "\n";
return ss.str();
};
m["list_core_accounts"] = [this](variant result, const fc::variants& a)
{
std::stringstream ss;
auto balances = result.as<vector<account_balance_object>>( GRAPHENE_MAX_NESTED_OBJECTS );
for (const account_balance_object& balance: balances)
{
const account_object& account = get_account(balance.owner);
//ss << account.name << " " << std::string(balance.id) << " " << balance.balance.value << "\n";
ss << account.name << " " << std::string(balance.id) << " " << get_asset(balance.asset_type).amount_to_pretty_string(balance.balance) << "\n";
}
return ss.str();
};
m["get_upcoming_tournaments"] = m["get_tournaments"] = m["get_tournaments_by_state"] = [this](variant result, const fc::variants& a)
{
const vector<tournament_object> tournaments = result.as<vector<tournament_object> >( GRAPHENE_MAX_NESTED_OBJECTS );
std::stringstream ss;
ss << "ID GAME BUY IN PLAYERS\n";
ss << "====================================================================================\n";
for( const tournament_object& tournament_obj : tournaments )
{
asset_object buy_in_asset = get_asset(tournament_obj.options.buy_in.asset_id);
ss << fc::variant(tournament_obj.id, 1).as<std::string>( 1 ) << " "
<< buy_in_asset.amount_to_pretty_string(tournament_obj.options.buy_in.amount) << " "
<< tournament_obj.options.number_of_players << " players\n";
switch (tournament_obj.get_state())
{
case tournament_state::accepting_registrations:
{
ss << " Waiting for players, " << tournament_obj.registered_players << " of " << tournament_obj.options.number_of_players << " have registered\n";
ss << " If enough players register, the game will start ";
if (tournament_obj.options.start_time)
ss << "at " << tournament_obj.options.start_time->to_iso_string() << "\n";
else
ss << *tournament_obj.options.start_delay << " seconds after the last player registers\n";
break;
}
case tournament_state::awaiting_start:
{
ss << " All players have registered, tournament will start at " << tournament_obj.start_time->to_iso_string() << "\n";
break;
}
case tournament_state::in_progress:
{
ss << " Tournament started at " << tournament_obj.start_time->to_iso_string() << "\n";
break;
}
case tournament_state::registration_period_expired:
{
ss << " Tournament was canceled at " << tournament_obj.options.registration_deadline.to_iso_string() << ", not enough players registered\n";
break;
}
case tournament_state::concluded:
{
ss << " Tournament finished at " << tournament_obj.end_time->to_iso_string() << "\n";
break;
}
}
}
return ss.str();
};
m["get_tournament"] = [this](variant result, const fc::variants& a)
{
std::stringstream ss;
tournament_object tournament = result.as<tournament_object>( GRAPHENE_MAX_NESTED_OBJECTS );
tournament_details_object tournament_details = _remote_db->get_objects({result["tournament_details_id"].as<object_id_type>( 5 )})[0].as<tournament_details_object>( 5 );
tournament_state state = tournament.get_state();
if (state == tournament_state::accepting_registrations)
{
ss << "Tournament is accepting registrations\n";
ss << "Players " << tournament.registered_players << "/" << tournament.options.number_of_players << ":\n";
for (const account_id_type& player : tournament_details.registered_players)
ss << "\t" << get_account(player).name << "\n";
}
else if (state == tournament_state::registration_period_expired)
{
ss << "Tournament registration period expired\n";
ss << "Players " << tournament.registered_players << "/" << tournament.options.number_of_players << ":\n";
for (const account_id_type& player : tournament_details.registered_players)
ss << "\t" << get_account(player).name << "\n";
}
else if (state == tournament_state::awaiting_start)
{
ss << "Tournament starts at " << tournament.start_time->to_iso_string() << "\n";
ss << "Players:\n";
for (const account_id_type& player : tournament_details.registered_players)
ss << "\t" << get_account(player).name << "\n";
}
else if (state == tournament_state::in_progress ||
state == tournament_state::concluded)
{
unsigned num_matches = tournament_details.matches.size();
uint32_t num_rounds = boost::multiprecision::detail::find_msb(tournament_details.matches.size() + 1);
unsigned num_rows = (num_matches + 1) * 2 - 1;
for (unsigned row = 0; row < num_rows; ++row)
{
for (unsigned round = 0; round <= num_rounds; ++round)
{
unsigned row_offset = (1 << round) - 1;
unsigned row_vertical_spacing = 1 << (round + 1);
if (row >= row_offset &&
(row - row_offset) % row_vertical_spacing == 0)
{
unsigned player_number_in_round = (row - row_offset) / row_vertical_spacing;
unsigned first_player_in_round = (num_matches - (num_matches >> round)) * 2;
unsigned player_number = first_player_in_round + player_number_in_round;
unsigned match_number = player_number / 2;
unsigned player_in_match = player_number % 2;
std::string player_name;
if (round == num_rounds)
{
match_object match = get_object<match_object>(tournament_details.matches[num_matches - 1]);
if (match.get_state() == match_state::match_complete &&
!match.match_winners.empty())
{
assert(match.match_winners.size() == 1);
player_name = get_account(*match.match_winners.begin()).name;
}
}
else
{
match_object match = get_object<match_object>(tournament_details.matches[match_number]);
if (!match.players.empty())
{
if (player_in_match < match.players.size())
player_name = get_account(match.players[player_in_match]).name;
else
player_name = "[bye]";
}
}
ss << "__";
ss << std::setfill('_') << std::setw(10) << player_name.substr(0,10);
ss << "__";
}
else
ss << " ";
if (round != num_rounds)
{
unsigned round_horizontal_spacing = 1 << round;
unsigned next_row_vertical_spacing = 1 << (round + 2);
for (unsigned i = 0; i < round_horizontal_spacing; ++i)
{
if ((row - 1 - i - row_offset) % next_row_vertical_spacing == 0)
ss << "\\";
else if ((row - row_vertical_spacing + i - row_offset) % next_row_vertical_spacing == 0)
ss << "/";
else
ss << " ";
}
}
}
ss << "\n";
}
}
return ss.str();
};
m["get_order_book"] = [this](variant result, const fc::variants& a)
{
auto orders = result.as<order_book>( GRAPHENE_MAX_NESTED_OBJECTS );
auto bids = orders.bids;
auto asks = orders.asks;
std::stringstream ss;
std::stringstream sum_stream;
sum_stream << "Sum(" << orders.base << ')';
double bid_sum = 0;
double ask_sum = 0;
const int spacing = 20;
auto prettify_num = [&ss]( double n )
{
if (abs( round( n ) - n ) < 0.00000000001 )
{
ss << (int) n;
}
else if (n - floor(n) < 0.000001)
{
ss << setiosflags( ios::fixed ) << setprecision(10) << n;
}
else
{
ss << setiosflags( ios::fixed ) << setprecision(6) << n;
}
};
ss << setprecision( 8 ) << setiosflags( ios::fixed ) << setiosflags( ios::left );
ss << ' ' << setw( (spacing * 4) + 6 ) << "BUY ORDERS" << "SELL ORDERS\n"
<< ' ' << setw( spacing + 1 ) << "Price" << setw( spacing ) << orders.quote << ' ' << setw( spacing )
<< orders.base << ' ' << setw( spacing ) << sum_stream.str()
<< " " << setw( spacing + 1 ) << "Price" << setw( spacing ) << orders.quote << ' ' << setw( spacing )
<< orders.base << ' ' << setw( spacing ) << sum_stream.str()
<< "\n====================================================================================="
<< "|=====================================================================================\n";
for (unsigned i = 0; i < bids.size() || i < asks.size() ; i++)
{
if ( i < bids.size() )
{
bid_sum += bids[i].base;
ss << ' ' << setw( spacing );
prettify_num( bids[i].price );
ss << ' ' << setw( spacing );
prettify_num( bids[i].quote );
ss << ' ' << setw( spacing );
prettify_num( bids[i].base );
ss << ' ' << setw( spacing );
prettify_num( bid_sum );
ss << ' ';
}
else
{
ss << setw( (spacing * 4) + 5 ) << ' ';
}
ss << '|';
if ( i < asks.size() )
{
ask_sum += asks[i].base;
ss << ' ' << setw( spacing );
prettify_num( asks[i].price );
ss << ' ' << setw( spacing );
prettify_num( asks[i].quote );
ss << ' ' << setw( spacing );
prettify_num( asks[i].base );
ss << ' ' << setw( spacing );
prettify_num( ask_sum );
}
ss << '\n';
}
ss << endl
<< "Buy Total: " << bid_sum << ' ' << orders.base << endl
<< "Sell Total: " << ask_sum << ' ' << orders.base << endl;
return ss.str();
};
return m;
}
signed_transaction propose_parameter_change(
const string& proposing_account,
fc::time_point_sec expiration_time,
const variant_object& changed_values,
bool broadcast = false)
{
FC_ASSERT( !changed_values.contains("current_fees") );
const chain_parameters& current_params = get_global_properties().parameters;
chain_parameters new_params = current_params;
fc::reflector<chain_parameters>::visit(
fc::from_variant_visitor<chain_parameters>( changed_values, new_params, GRAPHENE_MAX_NESTED_OBJECTS )
);
committee_member_update_global_parameters_operation update_op;
update_op.new_parameters = new_params;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
set_operation_fees(tx, current_params.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction propose_fee_change(
const string& proposing_account,
fc::time_point_sec expiration_time,
const variant_object& changed_fees,
bool broadcast = false)
{
const chain_parameters& current_params = get_global_properties().parameters;
const fee_schedule_type& current_fees = *(current_params.current_fees);
flat_map< int, fee_parameters > fee_map;
fee_map.reserve( current_fees.parameters.size() );
for( const fee_parameters& op_fee : current_fees.parameters )
fee_map[ op_fee.which() ] = op_fee;
uint32_t scale = current_fees.scale;
for( const auto& item : changed_fees )
{
const string& key = item.key();
if( key == "scale" )
{
int64_t _scale = item.value().as_int64();
FC_ASSERT( _scale >= 0 );
FC_ASSERT( _scale <= std::numeric_limits<uint32_t>::max() );
scale = uint32_t( _scale );
continue;
}
// is key a number?
auto is_numeric = [&key]() -> bool
{
size_t n = key.size();
for( size_t i=0; i<n; i++ )
{
if( !isdigit( key[i] ) )
return false;
}
return true;
};
int which;
if( is_numeric() )
which = std::stoi( key );
else
{
const auto& n2w = _operation_which_map.name_to_which;
auto it = n2w.find( key );
FC_ASSERT( it != n2w.end(), "unknown operation" );
which = it->second;
}
fee_parameters fp = from_which_variant< fee_parameters >( which, item.value(), GRAPHENE_MAX_NESTED_OBJECTS );
fee_map[ which ] = fp;
}
fee_schedule_type new_fees;
for( const std::pair< int, fee_parameters >& item : fee_map )
new_fees.parameters.insert( item.second );
new_fees.scale = scale;
chain_parameters new_params = current_params;
new_params.current_fees = std::make_shared<fee_schedule>(new_fees);
committee_member_update_global_parameters_operation update_op;
update_op.new_parameters = new_params;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
set_operation_fees(tx, current_params.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction propose_dividend_asset_update(
const string& proposing_account,
fc::time_point_sec expiration_time,
const variant_object& changed_values,
bool broadcast = false)
{
FC_ASSERT( changed_values.contains("asset_to_update") );
const chain_parameters& current_params = get_global_properties().parameters;
asset_update_dividend_operation changed_op;
fc::reflector<asset_update_dividend_operation>::visit(
fc::from_variant_visitor<asset_update_dividend_operation>( changed_values, changed_op, GRAPHENE_MAX_NESTED_OBJECTS )
);
optional<asset_object> asset_to_update = find_asset(changed_op.asset_to_update);
if (!asset_to_update)
FC_THROW("No asset with that symbol exists!");
asset_update_dividend_operation update_op;
update_op.issuer = asset_to_update->issuer;
update_op.asset_to_update = asset_to_update->id;
update_op.new_options = changed_op.new_options;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
set_operation_fees(tx, current_params.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction approve_proposal(
const string& fee_paying_account,
const string& proposal_id,
const approval_delta& delta,
bool broadcast = false)
{
proposal_update_operation update_op;
update_op.fee_paying_account = get_account(fee_paying_account).id;
update_op.proposal = fc::variant(proposal_id, 1).as<proposal_id_type>( 1 );
// make sure the proposal exists
get_object( update_op.proposal );
for( const std::string& name : delta.active_approvals_to_add )
update_op.active_approvals_to_add.insert( get_account( name ).id );
for( const std::string& name : delta.active_approvals_to_remove )
update_op.active_approvals_to_remove.insert( get_account( name ).id );
for( const std::string& name : delta.owner_approvals_to_add )
update_op.owner_approvals_to_add.insert( get_account( name ).id );
for( const std::string& name : delta.owner_approvals_to_remove )
update_op.owner_approvals_to_remove.insert( get_account( name ).id );
for( const std::string& k : delta.key_approvals_to_add )
update_op.key_approvals_to_add.insert( public_key_type( k ) );
for( const std::string& k : delta.key_approvals_to_remove )
update_op.key_approvals_to_remove.insert( public_key_type( k ) );
signed_transaction tx;
tx.operations.push_back(update_op);
set_operation_fees(tx, get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction create_custom_permission(string owner,
string permission_name,
authority auth,
bool broadcast)
{
custom_permission_create_operation create_op;
create_op.owner_account = get_account(owner).id;
create_op.permission_name = permission_name;
create_op.auth = auth;
signed_transaction tx;
tx.operations.push_back(create_op);
set_operation_fees(tx, get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction update_custom_permission(string owner,
custom_permission_id_type permission_id,
fc::optional<authority> new_auth,
bool broadcast)
{
custom_permission_update_operation update_op;
update_op.owner_account = get_account(owner).id;
update_op.permission_id = permission_id;
update_op.new_auth = new_auth;
signed_transaction tx;
tx.operations.push_back(update_op);
set_operation_fees(tx, get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction delete_custom_permission(string owner,
custom_permission_id_type permission_id,
bool broadcast)
{
custom_permission_delete_operation delete_op;
delete_op.owner_account = get_account(owner).id;
delete_op.permission_id = permission_id;
signed_transaction tx;
tx.operations.push_back(delete_op);
set_operation_fees(tx, get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction create_custom_account_authority(string owner,
custom_permission_id_type permission_id,
int operation_type,
fc::time_point_sec valid_from,
fc::time_point_sec valid_to,
bool broadcast)
{
custom_account_authority_create_operation create_op;
create_op.owner_account = get_account(owner).id;
create_op.permission_id = permission_id;
create_op.operation_type = operation_type;
create_op.valid_from = valid_from;
create_op.valid_to = valid_to;
signed_transaction tx;
tx.operations.push_back(create_op);
set_operation_fees(tx, get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction update_custom_account_authority(string owner,
custom_account_authority_id_type auth_id,
fc::optional<fc::time_point_sec> new_valid_from,
fc::optional<fc::time_point_sec> new_valid_to,
bool broadcast)
{
custom_account_authority_update_operation update_op;
update_op.owner_account = get_account(owner).id;
update_op.auth_id = auth_id;
update_op.new_valid_from = new_valid_from;
update_op.new_valid_to = new_valid_to;
signed_transaction tx;
tx.operations.push_back(update_op);
set_operation_fees(tx, get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
signed_transaction delete_custom_account_authority(string owner,
custom_account_authority_id_type auth_id,
bool broadcast)
{
custom_account_authority_delete_operation delete_op;
delete_op.owner_account = get_account(owner).id;
delete_op.auth_id = auth_id;
signed_transaction tx;
tx.operations.push_back(delete_op);
set_operation_fees(tx, get_global_properties().parameters.current_fees);
tx.validate();
return sign_transaction(tx, broadcast);
}
vector<custom_permission_object> get_custom_permissions(string owner) const
{
return _remote_db->get_custom_permissions(get_account(owner).id);
}
fc::optional<custom_permission_object> get_custom_permission_by_name(string owner, string permission_name) const
{
return _remote_db->get_custom_permission_by_name(get_account(owner).id, permission_name);
}
vector<custom_account_authority_object> get_custom_account_authorities(string owner) const
{
return _remote_db->get_custom_account_authorities(get_account(owner).id);
}
vector<custom_account_authority_object> get_custom_account_authorities_by_permission_id(custom_permission_id_type permission_id) const
{
return _remote_db->get_custom_account_authorities_by_permission_id(permission_id);
}
vector<custom_account_authority_object> get_custom_account_authorities_by_permission_name(string owner, string permission_name) const
{
return _remote_db->get_custom_account_authorities_by_permission_name(get_account(owner).id, permission_name);
}
vector<authority> get_active_custom_account_authorities_by_operation(string owner, int operation_type) const
{
return _remote_db->get_active_custom_account_authorities_by_operation(get_account(owner).id, operation_type);
}
void dbg_make_uia(string creator, string symbol)
{
asset_options opts;
opts.flags &= ~(white_list | disable_force_settle | global_settle);
opts.issuer_permissions = opts.flags;
opts.core_exchange_rate = price(asset(1), asset(1,asset_id_type(1)));
create_asset(get_account(creator).name, symbol, 2, opts, {}, true);
}
void dbg_make_mia(string creator, string symbol)
{
asset_options opts;
opts.flags &= ~white_list;
opts.issuer_permissions = opts.flags;
opts.core_exchange_rate = price(asset(1), asset(1,asset_id_type(1)));
bitasset_options bopts;
create_asset(get_account(creator).name, symbol, 2, opts, bopts, true);
}
void dbg_push_blocks( const std::string& src_filename, uint32_t count )
{
use_debug_api();
(*_remote_debug)->debug_push_blocks( src_filename, count );
(*_remote_debug)->debug_stream_json_objects_flush();
}
void dbg_generate_blocks( const std::string& debug_wif_key, uint32_t count )
{
use_debug_api();
(*_remote_debug)->debug_generate_blocks( debug_wif_key, count );
(*_remote_debug)->debug_stream_json_objects_flush();
}
void dbg_stream_json_objects( const std::string& filename )
{
use_debug_api();
(*_remote_debug)->debug_stream_json_objects( filename );
(*_remote_debug)->debug_stream_json_objects_flush();
}
void dbg_update_object( const fc::variant_object& update )
{
use_debug_api();
(*_remote_debug)->debug_update_object( update );
(*_remote_debug)->debug_stream_json_objects_flush();
}
void use_network_node_api()
{
if( _remote_net_node )
return;
try
{
_remote_net_node = _remote_api->network_node();
}
catch( const fc::exception& e )
{
std::cerr << "\nCouldn't get network node API. You probably are not configured\n"
"to access the network API on the witness_node you are\n"
"connecting to. Please follow the instructions in README.md to set up an apiaccess file.\n"
"\n";
throw(e);
}
}
void use_debug_api()
{
if( _remote_debug )
return;
try
{
_remote_debug = _remote_api->debug();
}
catch( const fc::exception& e )
{
std::cerr << "\nCouldn't get debug node API. You probably are not configured\n"
"to access the debug API on the node you are connecting to.\n"
"\n"
"To fix this problem:\n"
"- Please ensure you enable debug_witness plugin in witness_node.\n"
"- Please follow the instructions in README.md to set up an apiaccess file.\n"
"\n";
}
}
void use_sidechain_api()
{
if( _remote_sidechain )
return;
try
{
_remote_sidechain = _remote_api->sidechain();
}
catch( const fc::exception& e )
{
std::cerr << "\nCouldn't get sidechain API. You probably are not configured\n"
"to access the sidechain API on the node you are connecting to.\n"
"\n"
"To fix this problem:\n"
"- Please ensure peerplays_sidechain plugin is enabled.\n"
"- Please follow the instructions in README.md to set up an apiaccess file.\n"
"\n";
}
}
void network_add_nodes( const vector<string>& nodes )
{
use_network_node_api();
for( const string& node_address : nodes )
{
(*_remote_net_node)->add_node( fc::ip::endpoint::from_string( node_address ) );
}
}
vector< variant > network_get_connected_peers()
{
use_network_node_api();
const auto peers = (*_remote_net_node)->get_connected_peers();
vector< variant > result;
result.reserve( peers.size() );
for( const auto& peer : peers )
{
variant v;
fc::to_variant( peer, v, GRAPHENE_MAX_NESTED_OBJECTS );
result.push_back( v );
}
return result;
}
void flood_network(string prefix, uint32_t number_of_transactions)
{
try
{
const account_object& master = *_wallet.my_accounts.get<by_name>().lower_bound("import");
int number_of_accounts = number_of_transactions / 3;
number_of_transactions -= number_of_accounts;
try {
dbg_make_uia(master.name, "SHILL");
} catch(...) {/* Ignore; the asset probably already exists.*/}
fc::time_point start = fc::time_point::now();
for( int i = 0; i < number_of_accounts; ++i )
{
std::ostringstream brain_key;
brain_key << "brain key for account " << prefix << i;
signed_transaction trx = create_account_with_brain_key(brain_key.str(), prefix + fc::to_string(i), master.name, master.name, /* broadcast = */ true, /* save wallet = */ false);
}
fc::time_point end = fc::time_point::now();
ilog("Created ${n} accounts in ${time} milliseconds",
("n", number_of_accounts)("time", (end - start).count() / 1000));
start = fc::time_point::now();
for( int i = 0; i < number_of_accounts; ++i )
{
signed_transaction trx = transfer(master.name, prefix + fc::to_string(i), "10", "CORE", "", true);
trx = transfer(master.name, prefix + fc::to_string(i), "1", "CORE", "", true);
}
end = fc::time_point::now();
ilog("Transferred to ${n} accounts in ${time} milliseconds",
("n", number_of_accounts*2)("time", (end - start).count() / 1000));
start = fc::time_point::now();
for( int i = 0; i < number_of_accounts; ++i )
{
signed_transaction trx = issue_asset(prefix + fc::to_string(i), "1000", "SHILL", "", true);
}
end = fc::time_point::now();
ilog("Issued to ${n} accounts in ${time} milliseconds",
("n", number_of_accounts)("time", (end - start).count() / 1000));
}
catch (...)
{
throw;
}
}
operation get_prototype_operation( string operation_name )
{
auto it = _prototype_ops.find( operation_name );
if( it == _prototype_ops.end() )
FC_THROW("Unsupported operation: \"${operation_name}\"", ("operation_name", operation_name));
return it->second;
}
vector<vote_id_type> get_votes_ids(const string &account_name_or_id) const
{
try
{
return _remote_db->get_votes_ids(account_name_or_id);
}
FC_CAPTURE_AND_RETHROW( (account_name_or_id) )
}
votes_info get_votes(const string &account_name_or_id) const
{
try
{
return _remote_db->get_votes(account_name_or_id);
}
FC_CAPTURE_AND_RETHROW( (account_name_or_id) )
}
vector<account_object> get_voters_by_id(const vote_id_type &vote_id) const
{
try
{
return _remote_db->get_voters_by_id(vote_id);
}
FC_CAPTURE_AND_RETHROW( (vote_id) )
}
voters_info get_voters(const string &account_name_or_id) const
{
try
{
return _remote_db->get_voters(account_name_or_id);
}
FC_CAPTURE_AND_RETHROW( (account_name_or_id) )
}
std::map<sidechain_type, std::vector<std::string>> get_son_listener_log()
{
use_sidechain_api();
try
{
return (*_remote_sidechain)->get_son_listener_log();
}
FC_CAPTURE_AND_RETHROW()
}
optional<asset> estimate_withdrawal_transaction_fee(sidechain_type sidechain)
{
use_sidechain_api();
try
{
return (*_remote_sidechain)->estimate_withdrawal_transaction_fee(sidechain);
}
FC_CAPTURE_AND_RETHROW()
}
std::string eth_estimate_withdrawal_transaction_fee()
{
try
{
const auto transaction_fee = estimate_withdrawal_transaction_fee(sidechain_type::ethereum);
if(transaction_fee)
{
return get_asset(transaction_fee->asset_id).amount_to_pretty_string(transaction_fee->amount);
}
return "Can't get fee value";
}
FC_CAPTURE_AND_RETHROW()
}
string _wallet_filename;
wallet_data _wallet;
map<public_key_type,string> _keys;
fc::sha512 _checksum;
chain_id_type _chain_id;
fc::api<login_api> _remote_api;
fc::api<database_api> _remote_db;
fc::api<network_broadcast_api> _remote_net_broadcast;
fc::api<history_api> _remote_hist;
fc::api<bookie_api> _remote_bookie;
optional< fc::api<network_node_api> > _remote_net_node;
optional< fc::api<graphene::debug_witness::debug_api> > _remote_debug;
optional< fc::api<graphene::peerplays_sidechain::sidechain_api> > _remote_sidechain;
flat_map<string, operation> _prototype_ops;
static_variant_map _operation_which_map = create_static_variant_map< operation >();
typedef multi_index_container<
tournament_object,
indexed_by<
ordered_unique< tag<by_id>, member< object, object_id_type, &object::id > > > > tournament_index_type;
tournament_index_type tournament_cache;
typedef multi_index_container<
match_object,
indexed_by<
ordered_unique< tag<by_id>, member< object, object_id_type, &object::id > > > > match_index_type;
match_index_type match_cache;
typedef multi_index_container<
game_object,
indexed_by<
ordered_unique< tag<by_id>, member< object, object_id_type, &object::id > > > > game_index_type;
game_index_type game_cache;
#ifdef __unix__
mode_t _old_umask;
#endif
const string _wallet_filename_extension = ".wallet";
mutable map<asset_id_type, asset_object> _asset_cache;
};
std::string operation_printer::fee(const asset& a)const {
out << " (Fee: " << wallet.get_asset(a.asset_id).amount_to_pretty_string(a) << ")";
return "";
}
template<typename T>
std::string operation_printer::operator()(const T& op)const
{
//balance_accumulator acc;
//op.get_balance_delta( acc, result );
auto a = wallet.get_asset( op.fee.asset_id );
auto payer = wallet.get_account( op.fee_payer() );
string op_name = fc::get_typename<T>::name();
if( op_name.find_last_of(':') != string::npos )
op_name.erase(0, op_name.find_last_of(':')+1);
out << op_name <<" ";
// out << "balance delta: " << fc::json::to_string(acc.balance) <<" ";
out << payer.name << " fee: " << a.amount_to_pretty_string( op.fee );
operation_result_printer rprinter(wallet);
std::string str_result = result.visit(rprinter);
if( str_result != "" )
out << " result: " << str_result;
return "";
}
string operation_printer::operator()(const transfer_operation& op) const
{
out << "Transfer " << wallet.get_asset(op.amount.asset_id).amount_to_pretty_string(op.amount)
<< " from " << wallet.get_account(op.from).name << " to " << wallet.get_account(op.to).name;
std::string memo;
if( op.memo )
{
bool is_encrypted = ((op.memo->from != public_key_type()) && (op.memo->to != public_key_type()));
if (is_encrypted) {
if( wallet.is_locked() )
{
out << " -- Unlock wallet to see memo.";
} else {
try {
FC_ASSERT(wallet._keys.count(op.memo->to) || wallet._keys.count(op.memo->from), "Memo is encrypted to a key ${to} or ${from} not in this wallet.", ("to", op.memo->to)("from",op.memo->from));
if( wallet._keys.count(op.memo->to) ) {
auto my_key = wif_to_key(wallet._keys.at(op.memo->to));
FC_ASSERT(my_key, "Unable to recover private key to decrypt memo. Wallet may be corrupted.");
memo = op.memo->get_message(*my_key, op.memo->from);
out << " -- Memo: " << memo;
} else {
auto my_key = wif_to_key(wallet._keys.at(op.memo->from));
FC_ASSERT(my_key, "Unable to recover private key to decrypt memo. Wallet may be corrupted.");
memo = op.memo->get_message(*my_key, op.memo->to);
out << " -- Memo: " << memo;
}
} catch (const fc::exception& e) {
out << " -- could not decrypt memo";
elog("Error when decrypting memo: ${e}", ("e", e.to_detail_string()));
}
}
} else {
memo = op.memo->get_message(private_key_type(), public_key_type());
out << " -- Memo: " << memo;
}
}
fee(op.fee);
return memo;
}
std::string operation_printer::operator()(const account_create_operation& op) const
{
out << "Create Account '" << op.name << "'";
return fee(op.fee);
}
std::string operation_printer::operator()(const account_update_operation& op) const
{
out << "Update Account '" << wallet.get_account(op.account).name << "'";
return fee(op.fee);
}
std::string operation_printer::operator()(const asset_create_operation& op) const
{
out << "Create ";
if( op.bitasset_opts.valid() )
out << "BitAsset ";
else
out << "User-Issued Asset ";
out << "'" << op.symbol << "' with issuer " << wallet.get_account(op.issuer).name;
return fee(op.fee);
}
std::string operation_printer::operator()(const lottery_asset_create_operation& op) const
{
out << "Create ";
if( op.bitasset_opts.valid() )
out << "BitAsset ";
else
out << "User-Issued Asset ";
out << "'" << op.symbol << "' with issuer " << wallet.get_account(op.issuer).name;
return fee(op.fee);
}
std::string operation_printer::operator()(const asset_dividend_distribution_operation& op)const
{
asset_object dividend_paying_asset = wallet.get_asset(op.dividend_asset_id);
account_object receiver = wallet.get_account(op.account_id);
out << receiver.name << " received dividend payments for " << dividend_paying_asset.symbol << ": ";
std::vector<std::string> pretty_payout_amounts;
for (const asset& payment : op.amounts)
{
asset_object payout_asset = wallet.get_asset(payment.asset_id);
pretty_payout_amounts.push_back(payout_asset.amount_to_pretty_string(payment));
}
out << boost::algorithm::join(pretty_payout_amounts, ", ");
return "";
}
std::string operation_printer::operator()(const tournament_payout_operation& op)const
{
asset_object payout_asset = wallet.get_asset(op.payout_amount.asset_id);
out << "Tournament #" << std::string(object_id_type(op.tournament_id)) << " Payout : "
<< "Account '" << wallet.get_account(op.payout_account_id).name
<< "', Amount " << payout_asset.amount_to_pretty_string(op.payout_amount) << ", Type "
<< (op.type == payout_type::buyin_refund ? "buyin refund" : (op.type == payout_type::rake_fee ? "rake fee" : "prize award"))
<< ".";
return "";
}
std::string operation_printer::operator()(const bet_place_operation& op)const
{
auto fee_asset = wallet.get_asset(op.fee.asset_id);
auto asset = wallet.get_asset(op.amount_to_bet.asset_id);
auto bettor = wallet.get_account(op.bettor_id);
out << bettor.name << " placed a " << fc::json::to_string(op.back_or_lay) << " bet for "
<< asset.amount_to_pretty_string(op.amount_to_bet) << " at odds " << ((double)op.backer_multiplier / GRAPHENE_BETTING_ODDS_PRECISION)
<< " on market " << fc::json::to_string(op.betting_market_id)
<< " fee: " << fee_asset.amount_to_pretty_string(op.fee);
return "";
}
std::string operation_printer::operator()(const bet_matched_operation& op)const
{
auto asset = wallet.get_asset(op.amount_bet.asset_id);
auto bettor = wallet.get_account(op.bettor_id);
out << " " << bettor.name << "'s bet " << fc::json::to_string(op.bet_id) << " matched " << asset.amount_to_pretty_string(op.amount_bet) << " at odds " << ((double)op.backer_multiplier / GRAPHENE_BETTING_ODDS_PRECISION);
return "";
}
std::string operation_printer::operator()(const bet_canceled_operation& op)const
{
auto asset = wallet.get_asset(op.stake_returned.asset_id);
auto bettor = wallet.get_account(op.bettor_id);
out << " " << bettor.name << "'s bet " << fc::json::to_string(op.bet_id) << " was canceled, " << asset.amount_to_pretty_string(op.stake_returned) << " returned";
return "";
}
std::string operation_printer::operator()(const bet_adjusted_operation& op)const
{
auto asset = wallet.get_asset(op.stake_returned.asset_id);
auto bettor = wallet.get_account(op.bettor_id);
out << " " << bettor.name << "'s bet " << fc::json::to_string(op.bet_id) << " was adjusted, " << asset.amount_to_pretty_string(op.stake_returned) << " returned";
return "";
}
std::string operation_result_printer::operator()(const void_result& x) const
{
return "";
}
std::string operation_result_printer::operator()(const object_id_type& oid)
{
return std::string(oid);
}
std::string operation_result_printer::operator()(const asset& a)
{
return _wallet.get_asset(a.asset_id).amount_to_pretty_string(a);
}
}}}
namespace graphene { namespace wallet {
vector<brain_key_info> utility::derive_owner_keys_from_brain_key(string brain_key, int number_of_desired_keys)
{
// Safety-check
FC_ASSERT( number_of_desired_keys >= 1 );
// Create as many derived owner keys as requested
vector<brain_key_info> results;
brain_key = graphene::wallet::detail::normalize_brain_key(brain_key);
for (int i = 0; i < number_of_desired_keys; ++i) {
fc::ecc::private_key priv_key = graphene::wallet::detail::derive_private_key( brain_key, i );
brain_key_info result;
result.brain_priv_key = brain_key;
result.wif_priv_key = key_to_wif( priv_key );
result.pub_key = priv_key.get_public_key();
results.push_back(result);
}
return results;
}
}}
namespace graphene { namespace wallet {
wallet_api::wallet_api(const wallet_data& initial_data, fc::api<login_api> rapi)
: my(new detail::wallet_api_impl(*this, initial_data, rapi))
{
}
wallet_api::~wallet_api()
{
}
bool wallet_api::copy_wallet_file(string destination_filename)
{
return my->copy_wallet_file(destination_filename);
}
optional<signed_block> wallet_api::get_block(uint32_t num)
{
return my->_remote_db->get_block(num);
}
optional<signed_block_with_info> wallet_api::get_block2(uint32_t num)
{
return my->_remote_db->get_block2(num);
}
vector<optional<signed_block>> wallet_api::get_blocks(uint32_t block_num_from, uint32_t block_num_to) const
{
return my->_remote_db->get_blocks(block_num_from, block_num_to);
}
uint64_t wallet_api::get_account_count() const
{
return my->_remote_db->get_account_count();
}
vector<account_object> wallet_api::list_my_accounts()
{
return vector<account_object>(my->_wallet.my_accounts.begin(), my->_wallet.my_accounts.end());
}
map<string,account_id_type> wallet_api::list_accounts(const string& lowerbound, uint32_t limit)
{
return my->_remote_db->lookup_accounts(lowerbound, limit);
}
vector<asset> wallet_api::list_account_balances(const string& id)
{
if( auto real_id = detail::maybe_id<account_id_type>(id) )
return my->_remote_db->get_account_balances(id, flat_set<asset_id_type>());
return my->_remote_db->get_account_balances(id, flat_set<asset_id_type>());
}
vector<asset_object> wallet_api::list_assets(const string& lowerbound, uint32_t limit)const
{
return my->_remote_db->list_assets( lowerbound, limit );
}
uint64_t wallet_api::get_asset_count()const
{
return my->_remote_db->get_asset_count();
}
vector<asset_object> wallet_api::get_lotteries( asset_id_type stop,
unsigned limit,
asset_id_type start )const
{
return my->_remote_db->get_lotteries( stop, limit, start );
}
vector<asset_object> wallet_api::get_account_lotteries( account_id_type issuer,
asset_id_type stop,
unsigned limit,
asset_id_type start )const
{
return my->_remote_db->get_account_lotteries( issuer, stop, limit, start );
}
asset wallet_api::get_lottery_balance( asset_id_type lottery_id )const
{
return my->_remote_db->get_lottery_balance( lottery_id );
}
vector<operation_detail> wallet_api::get_account_history(string name, int limit) const
{
FC_ASSERT(my->get_account(name).name == name, "Account name: ${account_name} doesn't exist", ("account_name", name));
vector<operation_detail> result;
while (limit > 0)
{
bool skip_first_row = false;
operation_history_id_type start;
if (result.size())
{
start = result.back().op.id;
if (start == operation_history_id_type()) // no more data
break;
start = start + (-1);
if (start == operation_history_id_type()) // will return most recent history if directly call remote API with this
{
start = start + 1;
skip_first_row = true;
}
}
int page_limit = skip_first_row ? std::min(100, limit + 1) : std::min(100, limit);
vector<operation_history_object> current = my->_remote_hist->get_account_history(name, operation_history_id_type(),
page_limit, start);
bool first_row = true;
for (auto &o : current)
{
if (first_row)
{
first_row = false;
if (skip_first_row)
{
continue;
}
}
std::stringstream ss;
auto memo = o.op.visit(detail::operation_printer(ss, *my, o.result));
result.push_back(operation_detail{memo, ss.str(), o});
}
if (int(current.size()) < page_limit)
break;
limit -= current.size();
if (skip_first_row)
++limit;
}
return result;
}
vector<operation_detail> wallet_api::get_relative_account_history(string name, uint32_t stop, int limit, uint32_t start)const
{
FC_ASSERT( start > 0 || limit <= 100 );
FC_ASSERT(my->get_account(name).name == name, "Account name: ${account_name} doesn't exist", ("account_name", name));
vector<operation_detail> result;
while( limit > 0 )
{
vector <operation_history_object> current = my->_remote_hist->get_relative_account_history(name, stop, std::min<uint32_t>(100, limit), start);
for (auto &o : current) {
std::stringstream ss;
auto memo = o.op.visit(detail::operation_printer(ss, *my, o.result));
result.push_back(operation_detail{memo, ss.str(), o});
}
if (current.size() < std::min<uint32_t>(100, limit))
break;
limit -= current.size();
start -= 100;
if( start == 0 ) break;
}
return result;
}
vector<account_balance_object> wallet_api::list_core_accounts()const
{
return my->_remote_hist->list_core_accounts();
}
vector<bucket_object> wallet_api::get_market_history( string symbol1, string symbol2, uint32_t bucket , fc::time_point_sec start, fc::time_point_sec end )const
{
return my->_remote_hist->get_market_history( symbol1, symbol2, bucket, start, end );
}
vector<limit_order_object> wallet_api::get_limit_orders(string a, string b, uint32_t limit)const
{
return my->_remote_db->get_limit_orders(a, b, limit);
}
vector<call_order_object> wallet_api::get_call_orders(string a, uint32_t limit)const
{
return my->_remote_db->get_call_orders(a, limit);
}
vector<force_settlement_object> wallet_api::get_settle_orders(string a, uint32_t limit)const
{
return my->_remote_db->get_settle_orders(a, limit);
}
brain_key_info wallet_api::suggest_brain_key()const
{
brain_key_info result;
// create a private key for secure entropy
fc::sha256 sha_entropy1 = fc::ecc::private_key::generate().get_secret();
fc::sha256 sha_entropy2 = fc::ecc::private_key::generate().get_secret();
fc::bigint entropy1( sha_entropy1.data(), sha_entropy1.data_size() );
fc::bigint entropy2( sha_entropy2.data(), sha_entropy2.data_size() );
fc::bigint entropy(entropy1);
entropy <<= 8*sha_entropy1.data_size();
entropy += entropy2;
string brain_key = "";
for( int i=0; i<BRAIN_KEY_WORD_COUNT; i++ )
{
fc::bigint choice = entropy % graphene::words::word_list_size;
entropy /= graphene::words::word_list_size;
if( i > 0 )
brain_key += " ";
brain_key += graphene::words::word_list[ choice.to_int64() ];
}
brain_key = normalize_brain_key(brain_key);
fc::ecc::private_key priv_key = derive_private_key( brain_key, 0 );
result.brain_priv_key = brain_key;
result.wif_priv_key = key_to_wif( priv_key );
result.pub_key = priv_key.get_public_key();
return result;
}
vector<brain_key_info> wallet_api::derive_owner_keys_from_brain_key(string brain_key, int number_of_desired_keys) const
{
return graphene::wallet::utility::derive_owner_keys_from_brain_key(brain_key, number_of_desired_keys);
}
bool wallet_api::is_public_key_registered(string public_key) const
{
bool is_known = my->_remote_db->is_public_key_registered(public_key);
return is_known;
}
pair<public_key_type,string> wallet_api::get_private_key_from_password( string account, string role, string password )const {
auto seed = password + account + role;
FC_ASSERT( seed.size() );
auto secret = fc::sha256::hash( seed.c_str(), seed.size() );
auto priv = fc::ecc::private_key::regenerate( secret );
return std::make_pair( public_key_type( priv.get_public_key() ), key_to_wif( priv ) );
}
string wallet_api::serialize_transaction( signed_transaction tx )const
{
return fc::to_hex(fc::raw::pack(tx));
}
variant wallet_api::get_object( object_id_type id ) const
{
return my->_remote_db->get_objects({id});
}
string wallet_api::get_wallet_filename() const
{
return my->get_wallet_filename();
}
transaction_handle_type wallet_api::begin_builder_transaction()
{
return my->begin_builder_transaction();
}
void wallet_api::add_operation_to_builder_transaction(transaction_handle_type transaction_handle, const operation& op)
{
my->add_operation_to_builder_transaction(transaction_handle, op);
}
void wallet_api::replace_operation_in_builder_transaction(transaction_handle_type handle, unsigned operation_index, const operation& new_op)
{
my->replace_operation_in_builder_transaction(handle, operation_index, new_op);
}
asset wallet_api::set_fees_on_builder_transaction(transaction_handle_type handle, string fee_asset)
{
return my->set_fees_on_builder_transaction(handle, fee_asset);
}
transaction wallet_api::preview_builder_transaction(transaction_handle_type handle)
{
return my->preview_builder_transaction(handle);
}
signed_transaction wallet_api::sign_builder_transaction(transaction_handle_type transaction_handle, bool broadcast)
{
return my->sign_builder_transaction(transaction_handle, broadcast);
}
pair<transaction_id_type,signed_transaction> wallet_api::broadcast_transaction(signed_transaction tx)
{
return my->broadcast_transaction(tx);
}
signed_transaction wallet_api::propose_builder_transaction(
transaction_handle_type handle,
time_point_sec expiration,
uint32_t review_period_seconds,
bool broadcast)
{
return my->propose_builder_transaction(handle, expiration, review_period_seconds, broadcast);
}
signed_transaction wallet_api::propose_builder_transaction2(
transaction_handle_type handle,
string account_name_or_id,
time_point_sec expiration,
uint32_t review_period_seconds,
bool broadcast)
{
return my->propose_builder_transaction2(handle, account_name_or_id, expiration, review_period_seconds, broadcast);
}
void wallet_api::remove_builder_transaction(transaction_handle_type handle)
{
return my->remove_builder_transaction(handle);
}
account_object wallet_api::get_account(string account_name_or_id) const
{
return my->get_account(account_name_or_id);
}
asset_object wallet_api::get_asset(string asset_name_or_id) const
{
auto a = my->find_asset(asset_name_or_id);
FC_ASSERT(a, "Asset name or id: ${asset_name_or_id} doesn't exist", ("asset_name_or_id", asset_name_or_id) );
return *a;
}
asset_bitasset_data_object wallet_api::get_bitasset_data(string asset_name_or_id) const
{
auto asset = get_asset(asset_name_or_id);
FC_ASSERT(asset.is_market_issued() && asset.bitasset_data_id);
return my->get_object<asset_bitasset_data_object>(*asset.bitasset_data_id);
}
account_id_type wallet_api::get_account_id(string account_name_or_id) const
{
return my->get_account_id(account_name_or_id);
}
asset_id_type wallet_api::get_asset_id(string asset_symbol_or_id) const
{
return my->get_asset_id(asset_symbol_or_id);
}
bool wallet_api::import_key(string account_name_or_id, string wif_key)
{
FC_ASSERT(!is_locked(), "Wallet is locked, please unlock to get all operations available");
// backup wallet
fc::optional<fc::ecc::private_key> optional_private_key = wif_to_key(wif_key);
if (!optional_private_key)
FC_THROW("Invalid private key");
string shorthash = detail::address_to_shorthash(optional_private_key->get_public_key());
copy_wallet_file( "before-import-key-" + shorthash );
if( my->import_key(account_name_or_id, wif_key) )
{
save_wallet_file();
copy_wallet_file( "after-import-key-" + shorthash );
return true;
}
return false;
}
map<string, bool> wallet_api::import_accounts( string filename, string password )
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
FC_ASSERT( fc::exists( filename ) );
const auto imported_keys = fc::json::from_file<exported_keys>( filename );
const auto password_hash = fc::sha512::hash( password );
FC_ASSERT( fc::sha512::hash( password_hash ) == imported_keys.password_checksum );
map<string, bool> result;
for( const auto& item : imported_keys.account_keys )
{
const auto import_this_account = [ & ]() -> bool
{
try
{
const account_object account = get_account( item.account_name );
const auto& owner_keys = account.owner.get_keys();
const auto& active_keys = account.active.get_keys();
for( const auto& public_key : item.public_keys )
{
if( std::find( owner_keys.begin(), owner_keys.end(), public_key ) != owner_keys.end() )
return true;
if( std::find( active_keys.begin(), active_keys.end(), public_key ) != active_keys.end() )
return true;
}
}
catch( ... )
{
}
return false;
};
const auto should_proceed = import_this_account();
result[ item.account_name ] = should_proceed;
if( should_proceed )
{
uint32_t import_successes = 0;
uint32_t import_failures = 0;
// TODO: First check that all private keys match public keys
for( const auto& encrypted_key : item.encrypted_private_keys )
{
try
{
const auto plain_text = fc::aes_decrypt( password_hash, encrypted_key );
const auto private_key = fc::raw::unpack<private_key_type>( plain_text );
import_key( item.account_name, string( graphene::utilities::key_to_wif( private_key ) ) );
++import_successes;
}
catch( const fc::exception& e )
{
elog( "Couldn't import key due to exception ${e}", ("e", e.to_detail_string()) );
++import_failures;
}
}
ilog( "successfully imported ${n} keys for account ${name}", ("n", import_successes)("name", item.account_name) );
if( import_failures > 0 )
elog( "failed to import ${n} keys for account ${name}", ("n", import_failures)("name", item.account_name) );
}
}
return result;
}
bool wallet_api::import_account_keys( string filename, string password, string src_account_name, string dest_account_name )
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
FC_ASSERT( fc::exists( filename ) );
bool is_my_account = false;
const auto accounts = list_my_accounts();
for( const auto& account : accounts )
{
if( account.name == dest_account_name )
{
is_my_account = true;
break;
}
}
FC_ASSERT( is_my_account );
const auto imported_keys = fc::json::from_file<exported_keys>( filename );
const auto password_hash = fc::sha512::hash( password );
FC_ASSERT( fc::sha512::hash( password_hash ) == imported_keys.password_checksum );
bool found_account = false;
for( const auto& item : imported_keys.account_keys )
{
if( item.account_name != src_account_name )
continue;
found_account = true;
for( const auto& encrypted_key : item.encrypted_private_keys )
{
const auto plain_text = fc::aes_decrypt( password_hash, encrypted_key );
const auto private_key = fc::raw::unpack<private_key_type>( plain_text );
my->import_key( dest_account_name, string( graphene::utilities::key_to_wif( private_key ) ) );
}
return true;
}
save_wallet_file();
FC_ASSERT( found_account );
return false;
}
string wallet_api::normalize_brain_key(string s) const
{
return detail::normalize_brain_key( s );
}
variant wallet_api::info()
{
return my->info();
}
variant_object wallet_api::about() const
{
return my->about();
}
fc::ecc::private_key wallet_api::derive_private_key(const std::string& prefix_string, int sequence_number) const
{
return detail::derive_private_key( prefix_string, sequence_number );
}
signed_transaction wallet_api::register_account(string name,
public_key_type owner_pubkey,
public_key_type active_pubkey,
string registrar_account,
string referrer_account,
uint32_t referrer_percent,
bool broadcast)
{
return my->register_account( name, owner_pubkey, active_pubkey, registrar_account, referrer_account, referrer_percent, broadcast );
}
signed_transaction wallet_api::create_account_with_brain_key(string brain_key, string account_name,
string registrar_account, string referrer_account,
bool broadcast /* = false */)
{
return my->create_account_with_brain_key(
brain_key, account_name, registrar_account,
referrer_account, broadcast
);
}
signed_transaction wallet_api::issue_asset(string to_account, string amount, string symbol,
string memo, bool broadcast)
{
return my->issue_asset(to_account, amount, symbol, memo, broadcast);
}
signed_transaction wallet_api::transfer(string from, string to, string amount,
string asset_symbol, string memo, bool broadcast /* = false */)
{
return my->transfer(from, to, amount, asset_symbol, memo, broadcast);
}
signed_transaction wallet_api::create_asset(string issuer,
string symbol,
uint8_t precision,
asset_options common,
fc::optional<bitasset_options> bitasset_opts,
bool broadcast)
{
return my->create_asset(issuer, symbol, precision, common, bitasset_opts, broadcast);
}
signed_transaction wallet_api::create_lottery(string issuer,
string symbol,
asset_options common,
lottery_asset_options lottery_opts,
bool broadcast)
{
return my->create_lottery(issuer, symbol, common, lottery_opts, broadcast);
}
signed_transaction wallet_api::buy_ticket( asset_id_type lottery, account_id_type buyer, uint64_t tickets_to_buy )
{
return my->buy_ticket(lottery, buyer, tickets_to_buy);
}
signed_transaction wallet_api::update_asset(string symbol,
optional<string> new_issuer,
asset_options new_options,
bool broadcast /* = false */)
{
return my->update_asset(symbol, new_issuer, new_options, broadcast);
}
signed_transaction wallet_api::update_bitasset(string symbol,
bitasset_options new_options,
bool broadcast /* = false */)
{
return my->update_bitasset(symbol, new_options, broadcast);
}
signed_transaction wallet_api::update_dividend_asset(string symbol,
dividend_asset_options new_options,
bool broadcast /* = false */)
{
return my->update_dividend_asset(symbol, new_options, broadcast);
}
signed_transaction wallet_api::update_asset_feed_producers(string symbol,
flat_set<string> new_feed_producers,
bool broadcast /* = false */)
{
return my->update_asset_feed_producers(symbol, new_feed_producers, broadcast);
}
signed_transaction wallet_api::publish_asset_feed(string publishing_account,
string symbol,
price_feed feed,
bool broadcast /* = false */)
{
return my->publish_asset_feed(publishing_account, symbol, feed, broadcast);
}
signed_transaction wallet_api::fund_asset_fee_pool(string from,
string symbol,
string amount,
bool broadcast /* = false */)
{
return my->fund_asset_fee_pool(from, symbol, amount, broadcast);
}
signed_transaction wallet_api::reserve_asset(string from,
string amount,
string symbol,
bool broadcast /* = false */)
{
return my->reserve_asset(from, amount, symbol, broadcast);
}
signed_transaction wallet_api::global_settle_asset(string symbol,
price settle_price,
bool broadcast /* = false */)
{
return my->global_settle_asset(symbol, settle_price, broadcast);
}
signed_transaction wallet_api::settle_asset(string account_to_settle,
string amount_to_settle,
string symbol,
bool broadcast /* = false */)
{
return my->settle_asset(account_to_settle, amount_to_settle, symbol, broadcast);
}
signed_transaction wallet_api::whitelist_account(string authorizing_account,
string account_to_list,
account_whitelist_operation::account_listing new_listing_status,
bool broadcast /* = false */)
{
return my->whitelist_account(authorizing_account, account_to_list, new_listing_status, broadcast);
}
signed_transaction wallet_api::create_committee_member(string owner_account, string url,
bool broadcast /* = false */)
{
return my->create_committee_member(owner_account, url, broadcast);
}
map<string,witness_id_type> wallet_api::list_witnesses(const string& lowerbound, uint32_t limit)
{
return my->_remote_db->lookup_witness_accounts(lowerbound, limit);
}
map<string,committee_member_id_type> wallet_api::list_committee_members(const string& lowerbound, uint32_t limit)
{
return my->_remote_db->lookup_committee_member_accounts(lowerbound, limit);
}
map<string, worker_id_type> wallet_api::list_workers(const string& lowerbound, uint32_t limit)
{
return my->_remote_db->lookup_worker_accounts(lowerbound, limit);
}
son_object wallet_api::get_son(string owner_account)
{
return my->get_son(owner_account);
}
witness_object wallet_api::get_witness(string owner_account)
{
return my->get_witness(owner_account);
}
bool wallet_api::is_witness(string owner_account)
{
return my->is_witness(owner_account);
}
committee_member_object wallet_api::get_committee_member(string owner_account)
{
return my->get_committee_member(owner_account);
}
vector<worker_object> wallet_api::get_workers(string owner_account)
{
return my->get_workers(owner_account);
}
signed_transaction wallet_api::create_vesting_balance(string owner_account,
string amount,
string asset_symbol,
vesting_balance_type vesting_type,
bool broadcast /* = false */)
{
return my->create_vesting_balance(owner_account, amount, asset_symbol, vesting_type, broadcast);
}
signed_transaction wallet_api::create_son(string owner_account,
string url,
vesting_balance_id_type deposit_id,
vesting_balance_id_type pay_vb_id,
flat_map<sidechain_type, string> sidechain_public_keys,
bool broadcast /* = false */)
{
return my->create_son(owner_account, url, deposit_id, pay_vb_id, sidechain_public_keys, broadcast);
}
signed_transaction wallet_api::try_create_son(string owner_account,
string url,
flat_map<sidechain_type, string> sidechain_public_keys,
bool broadcast /* = false */)
{
vesting_balance_id_type deposit_id;
bool deposit_found = false;
vesting_balance_id_type pay_vb_id;
bool pay_vb_found = false;
vector<vesting_balance_object_with_info> vbs = get_vesting_balances(owner_account);
for(const auto& vb: vbs)
{
if ((vb.balance_type == vesting_balance_type::son) &&
(vb.get_asset_amount() >= my->get_global_properties().parameters.son_vesting_amount()) &&
(vb.policy.which() == vesting_policy::tag<dormant_vesting_policy>::value))
{
deposit_found = true;
deposit_id = vb.id;
}
if ((vb.balance_type == vesting_balance_type::normal) &&
(vb.policy.which() == vesting_policy::tag<linear_vesting_policy>::value))
{
pay_vb_found = true;
pay_vb_id = vb.id;
}
}
if (!deposit_found || !pay_vb_found)
FC_THROW("Failed to find vesting balance objects");
return my->create_son(owner_account, url, deposit_id, pay_vb_id, sidechain_public_keys, broadcast);
}
signed_transaction wallet_api::update_son(string owner_account,
string url,
string block_signing_key,
flat_map<sidechain_type, string> sidechain_public_keys,
bool broadcast /* = false */)
{
return my->update_son(owner_account, url, block_signing_key, sidechain_public_keys, broadcast);
}
signed_transaction wallet_api::activate_deregistered_son(const string & owner_account, bool broadcast) {
return my->activate_deregistered_son(owner_account, broadcast);
}
signed_transaction wallet_api::update_son_vesting_balances(string owner_account,
optional<vesting_balance_id_type> new_deposit,
optional<vesting_balance_id_type> new_pay_vb,
bool broadcast /* = false */)
{
return my->update_son_vesting_balances(owner_account, new_deposit, new_pay_vb, broadcast);
}
signed_transaction wallet_api::request_son_maintenance(string owner_account, bool broadcast)
{
return my->request_son_maintenance(owner_account, broadcast);
}
signed_transaction wallet_api::cancel_request_son_maintenance(string owner_account, bool broadcast)
{
return my->cancel_request_son_maintenance(owner_account, broadcast);
}
map<string, son_id_type> wallet_api::list_sons(const string& lowerbound, uint32_t limit)
{
return my->_remote_db->lookup_son_accounts(lowerbound, limit);
}
flat_map<sidechain_type, vector<son_sidechain_info>> wallet_api::get_active_sons()
{
return my->get_active_sons();
}
vector<son_sidechain_info> wallet_api::get_active_sons_by_sidechain(sidechain_type sidechain)
{
return my->get_active_sons_by_sidechain(sidechain);
}
map<sidechain_type, map<son_id_type, string>> wallet_api::get_son_network_status()
{
return my->get_son_network_status();
}
map<son_id_type, string> wallet_api::get_son_network_status_by_sidechain(sidechain_type sidechain)
{
return my->get_son_network_status_by_sidechain(sidechain);
}
optional<son_wallet_object> wallet_api::get_active_son_wallet()
{
return my->get_active_son_wallet();
}
optional<son_wallet_object> wallet_api::get_son_wallet_by_time_point(time_point_sec time_point)
{
return my->get_son_wallet_by_time_point(time_point);
}
vector<optional<son_wallet_object>> wallet_api::get_son_wallets(uint32_t limit)
{
return my->get_son_wallets(limit);
}
signed_transaction wallet_api::add_sidechain_address(string account,
sidechain_type sidechain,
string deposit_public_key,
string deposit_address,
string withdraw_public_key,
string withdraw_address,
bool broadcast /* = false */)
{
return my->add_sidechain_address(account, sidechain, deposit_public_key, deposit_address, withdraw_public_key, withdraw_address, broadcast);
}
signed_transaction wallet_api::delete_sidechain_address(string account,
sidechain_type sidechain,
bool broadcast /* = false */)
{
return my->delete_sidechain_address(account, sidechain, broadcast);
}
signed_transaction wallet_api::sidechain_withdrawal_transaction(const string &son_name_or_id,
uint32_t block_num,
const sidechain_type& sidechain,
const std::string &peerplays_uid,
const std::string &peerplays_transaction_id,
const chain::account_id_type &peerplays_from,
const sidechain_type& withdraw_sidechain,
const std::string &withdraw_address,
const std::string &withdraw_currency,
const string &withdraw_amount)
{
return my->sidechain_withdrawal_transaction(son_name_or_id,
block_num,
sidechain,
peerplays_uid,
peerplays_transaction_id,
peerplays_from,
withdraw_sidechain,
withdraw_address,
withdraw_currency,
withdraw_amount);
}
vector<optional<sidechain_address_object>> wallet_api::get_sidechain_addresses_by_account(string account)
{
account_id_type account_id = get_account_id(account);
return my->_remote_db->get_sidechain_addresses_by_account(account_id);
}
vector<optional<sidechain_address_object>> wallet_api::get_sidechain_addresses_by_sidechain(sidechain_type sidechain)
{
return my->_remote_db->get_sidechain_addresses_by_sidechain(sidechain);
}
fc::optional<sidechain_address_object> wallet_api::get_sidechain_address_by_account_and_sidechain(string account, sidechain_type sidechain)
{
account_id_type account_id = get_account_id(account);
return my->_remote_db->get_sidechain_address_by_account_and_sidechain(account_id, sidechain);
}
uint64_t wallet_api::get_sidechain_addresses_count()
{
return my->_remote_db->get_sidechain_addresses_count();
}
signed_transaction wallet_api::create_witness(string owner_account,
string url,
bool broadcast /* = false */)
{
return my->create_witness(owner_account, url, broadcast);
}
signed_transaction wallet_api::create_worker(
string owner_account,
time_point_sec work_begin_date,
time_point_sec work_end_date,
share_type daily_pay,
string name,
string url,
variant worker_settings,
bool broadcast /* = false */)
{
return my->create_worker( owner_account, work_begin_date, work_end_date,
daily_pay, name, url, worker_settings, broadcast );
}
signed_transaction wallet_api::update_worker_votes(
string owner_account,
worker_vote_delta delta,
bool broadcast /* = false */)
{
return my->update_worker_votes( owner_account, delta, broadcast );
}
signed_transaction wallet_api::update_witness(
string witness_name,
string url,
string block_signing_key,
bool broadcast /* = false */)
{
return my->update_witness(witness_name, url, block_signing_key, broadcast);
}
vector< vesting_balance_object_with_info > wallet_api::get_vesting_balances( string account_name )
{
return my->get_vesting_balances( account_name );
}
signed_transaction wallet_api::withdraw_vesting(
string witness_name,
string amount,
string asset_symbol,
bool broadcast)
{
return my->withdraw_vesting( witness_name, amount, asset_symbol, broadcast );
}
signed_transaction wallet_api::withdraw_GPOS_vesting_balance(
string account_name,
string amount,
string asset_symbol,
bool broadcast)
{
return my->withdraw_GPOS_vesting_balance( account_name, amount, asset_symbol, broadcast );
}
signed_transaction wallet_api::vote_for_committee_member(string voting_account,
string witness,
bool approve,
bool broadcast /* = false */)
{
return my->vote_for_committee_member(voting_account, witness, approve, broadcast);
}
signed_transaction wallet_api::vote_for_son(string voting_account,
string son,
sidechain_type sidechain,
bool approve,
bool broadcast /* = false */)
{
return my->vote_for_son(voting_account, son, sidechain, approve, broadcast);
}
signed_transaction wallet_api::update_son_votes(string voting_account,
std::vector<std::string> sons_to_approve,
std::vector<std::string> sons_to_reject,
sidechain_type sidechain,
uint16_t desired_number_of_sons,
bool broadcast /* = false */)
{
return my->update_son_votes(voting_account, sons_to_approve, sons_to_reject, sidechain, desired_number_of_sons, broadcast);
}
signed_transaction wallet_api::sidechain_deposit_transaction( const string &son_name_or_id,
const sidechain_type& sidechain,
const string &transaction_id,
uint32_t operation_index,
const string &sidechain_from,
const string &sidechain_to,
const string &sidechain_currency,
int64_t sidechain_amount,
const string &peerplays_from_name_or_id,
const string &peerplays_to_name_or_id)
{
return my->sidechain_deposit_transaction(son_name_or_id,
sidechain,
transaction_id,
operation_index,
sidechain_from,
sidechain_to,
sidechain_currency,
sidechain_amount,
peerplays_from_name_or_id,
peerplays_to_name_or_id);
}
signed_transaction wallet_api::vote_for_witness(string voting_account,
string witness,
bool approve,
bool broadcast /* = false */)
{
return my->vote_for_witness(voting_account, witness, approve, broadcast);
}
signed_transaction wallet_api::update_witness_votes(string voting_account,
std::vector<std::string> witnesses_to_approve,
std::vector<std::string> witnesses_to_reject,
uint16_t desired_number_of_witnesses,
bool broadcast /* = false */)
{
return my->update_witness_votes(voting_account, witnesses_to_approve, witnesses_to_reject, desired_number_of_witnesses, broadcast);
}
signed_transaction wallet_api::set_voting_proxy(string account_to_modify,
optional<string> voting_account,
bool broadcast /* = false */)
{
return my->set_voting_proxy(account_to_modify, voting_account, broadcast);
}
signed_transaction wallet_api::set_desired_witness_and_committee_member_count(string account_to_modify,
uint16_t desired_number_of_witnesses,
uint16_t desired_number_of_committee_members,
bool broadcast /* = false */)
{
return my->set_desired_witness_and_committee_member_count(account_to_modify, desired_number_of_witnesses,
desired_number_of_committee_members, broadcast);
}
void wallet_api::set_wallet_filename(string wallet_filename)
{
my->_wallet_filename = wallet_filename;
}
signed_transaction wallet_api::sign_transaction(signed_transaction tx, bool broadcast /* = false */)
{ try {
return my->sign_transaction( tx, broadcast);
} FC_CAPTURE_AND_RETHROW( (tx) ) }
signed_transaction wallet_api::add_transaction_signature( signed_transaction tx,
bool broadcast )
{
return my->add_transaction_signature( tx, broadcast );
}
flat_set<public_key_type> wallet_api::get_transaction_signers(const signed_transaction &tx) const
{ try {
return my->get_transaction_signers(tx);
} FC_CAPTURE_AND_RETHROW( (tx) ) }
vector<vector<account_id_type>> wallet_api::get_key_references(const vector<public_key_type> &keys) const
{ try {
return my->get_key_references(keys);
} FC_CAPTURE_AND_RETHROW( (keys) ) }
operation wallet_api::get_prototype_operation(string operation_name)
{
return my->get_prototype_operation( operation_name );
}
void wallet_api::dbg_make_uia(string creator, string symbol)
{
FC_ASSERT(!is_locked(), "Wallet is locked, please unlock to get all operations available");
my->dbg_make_uia(creator, symbol);
}
void wallet_api::dbg_make_mia(string creator, string symbol)
{
FC_ASSERT(!is_locked(), "Wallet is locked, please unlock to get all operations available");
my->dbg_make_mia(creator, symbol);
}
void wallet_api::dbg_push_blocks( std::string src_filename, uint32_t count )
{
my->dbg_push_blocks( src_filename, count );
}
void wallet_api::dbg_generate_blocks( std::string debug_wif_key, uint32_t count )
{
my->dbg_generate_blocks( debug_wif_key, count );
}
void wallet_api::dbg_stream_json_objects( const std::string& filename )
{
my->dbg_stream_json_objects( filename );
}
void wallet_api::dbg_update_object( fc::variant_object update )
{
my->dbg_update_object( update );
}
void wallet_api::network_add_nodes( const vector<string>& nodes )
{
my->network_add_nodes( nodes );
}
vector< variant > wallet_api::network_get_connected_peers()
{
return my->network_get_connected_peers();
}
void wallet_api::flood_network(string prefix, uint32_t number_of_transactions)
{
FC_ASSERT(!is_locked(), "Wallet is locked, please unlock to get all operations available");
my->flood_network(prefix, number_of_transactions);
}
signed_transaction wallet_api::propose_parameter_change(
const string& proposing_account,
fc::time_point_sec expiration_time,
const variant_object& changed_values,
bool broadcast /* = false */
)
{
return my->propose_parameter_change( proposing_account, expiration_time, changed_values, broadcast );
}
signed_transaction wallet_api::propose_fee_change(
const string& proposing_account,
fc::time_point_sec expiration_time,
const variant_object& changed_fees,
bool broadcast /* = false */
)
{
return my->propose_fee_change( proposing_account, expiration_time, changed_fees, broadcast );
}
signed_transaction wallet_api::propose_dividend_asset_update(
const string& proposing_account,
fc::time_point_sec expiration_time,
const variant_object& changed_fees,
bool broadcast /* = false */
)
{
return my->propose_dividend_asset_update( proposing_account, expiration_time, changed_fees, broadcast );
}
signed_transaction wallet_api::approve_proposal(
const string& fee_paying_account,
const string& proposal_id,
const approval_delta& delta,
bool broadcast /* = false */
)
{
return my->approve_proposal( fee_paying_account, proposal_id, delta, broadcast );
}
signed_transaction wallet_api::create_custom_permission(string owner,
string permission_name,
authority auth,
bool broadcast)
{
return my->create_custom_permission(owner, permission_name, auth, broadcast);
}
signed_transaction wallet_api::update_custom_permission(string owner,
custom_permission_id_type permission_id,
fc::optional<authority> new_auth,
bool broadcast)
{
return my->update_custom_permission(owner, permission_id, new_auth, broadcast);
}
signed_transaction wallet_api::delete_custom_permission(string owner,
custom_permission_id_type permission_id,
bool broadcast)
{
return my->delete_custom_permission(owner, permission_id, broadcast);
}
signed_transaction wallet_api::create_custom_account_authority(string owner,
custom_permission_id_type permission_id,
int operation_type,
fc::time_point_sec valid_from,
fc::time_point_sec valid_to,
bool broadcast)
{
return my->create_custom_account_authority(owner, permission_id, operation_type, valid_from, valid_to, broadcast);
}
signed_transaction wallet_api::update_custom_account_authority(string owner,
custom_account_authority_id_type auth_id,
fc::optional<fc::time_point_sec> new_valid_from,
fc::optional<fc::time_point_sec> new_valid_to,
bool broadcast)
{
return my->update_custom_account_authority(owner, auth_id, new_valid_from, new_valid_to, broadcast);
}
signed_transaction wallet_api::delete_custom_account_authority(string owner,
custom_account_authority_id_type auth_id,
bool broadcast)
{
return my->delete_custom_account_authority(owner, auth_id, broadcast);
}
vector<custom_permission_object> wallet_api::get_custom_permissions(string owner) const
{
return my->get_custom_permissions(owner);
}
fc::optional<custom_permission_object> wallet_api::get_custom_permission_by_name(string owner, string permission_name) const
{
return my->get_custom_permission_by_name(owner, permission_name);
}
vector<custom_account_authority_object> wallet_api::get_custom_account_authorities(string owner) const
{
return my->get_custom_account_authorities(owner);
}
vector<custom_account_authority_object> wallet_api::get_custom_account_authorities_by_permission_id(custom_permission_id_type permission_id) const
{
return my->get_custom_account_authorities_by_permission_id(permission_id);
}
vector<custom_account_authority_object> wallet_api::get_custom_account_authorities_by_permission_name(string owner, string permission_name) const
{
return my->get_custom_account_authorities_by_permission_name(owner, permission_name);
}
vector<authority> wallet_api::get_active_custom_account_authorities_by_operation(string owner, int operation_type) const
{
return my->get_active_custom_account_authorities_by_operation(owner, operation_type);
}
global_property_object wallet_api::get_global_properties() const
{
return my->get_global_properties();
}
dynamic_global_property_object wallet_api::get_dynamic_global_properties() const
{
return my->get_dynamic_global_properties();
}
string wallet_api::help()const
{
std::vector<std::string> method_names = my->method_documentation.get_method_names();
std::stringstream ss;
for (const std::string method_name : method_names)
{
try
{
ss << my->method_documentation.get_brief_description(method_name);
}
catch (const fc::key_not_found_exception&)
{
ss << method_name << " (no help available)\n";
}
}
return ss.str();
}
string wallet_api::gethelp(const string& method)const
{
fc::api<wallet_api> tmp;
std::stringstream ss;
ss << "\n";
std::string doxygenHelpString = my->method_documentation.get_detailed_description(method);
if (!doxygenHelpString.empty())
ss << doxygenHelpString;
else
ss << "No help defined for method " << method << "\n";
return ss.str();
}
bool wallet_api::load_wallet_file( string wallet_filename )
{
return my->load_wallet_file( wallet_filename );
}
void wallet_api::quit()
{
my->quit();
}
void wallet_api::save_wallet_file( string wallet_filename )
{
my->save_wallet_file( wallet_filename );
}
std::map<string,std::function<string(fc::variant,const fc::variants&)> >
wallet_api::get_result_formatters() const
{
return my->get_result_formatters();
}
bool wallet_api::is_locked()const
{
return my->is_locked();
}
bool wallet_api::is_new()const
{
return my->_wallet.cipher_keys.size() == 0;
}
void wallet_api::encrypt_keys()
{
my->encrypt_keys();
}
void wallet_api::lock()
{ try {
FC_ASSERT( !is_locked() );
encrypt_keys();
for( auto key : my->_keys )
key.second = key_to_wif(fc::ecc::private_key());
my->_keys.clear();
my->_checksum = fc::sha512();
my->self.lock_changed(true);
} FC_CAPTURE_AND_RETHROW() }
void wallet_api::unlock(string password)
{ try {
FC_ASSERT(password.size() > 0);
auto pw = fc::sha512::hash(password.c_str(), password.size());
vector<char> decrypted = fc::aes_decrypt(pw, my->_wallet.cipher_keys);
auto pk = fc::raw::unpack<plain_keys>(decrypted);
FC_ASSERT(pk.checksum == pw);
my->_keys = std::move(pk.keys);
my->_checksum = pk.checksum;
my->self.lock_changed(false);
my->resync_active_tournaments();
} FC_CAPTURE_AND_RETHROW() }
void wallet_api::set_password( string password )
{
if( !is_new() )
FC_ASSERT( !is_locked(), "The wallet must be unlocked before the password can be set" );
my->_checksum = fc::sha512::hash( password.c_str(), password.size() );
lock();
}
vector< signed_transaction > wallet_api::import_balance( string name_or_id, const vector<string>& wif_keys, bool broadcast )
{
return my->import_balance( name_or_id, wif_keys, broadcast );
}
namespace detail {
vector< signed_transaction > wallet_api_impl::import_balance( string name_or_id, const vector<string>& wif_keys, bool broadcast )
{ try {
FC_ASSERT(!is_locked());
const dynamic_global_property_object& dpo = _remote_db->get_dynamic_global_properties();
account_object claimer = get_account( name_or_id );
uint32_t max_ops_per_tx = 30;
map< address, private_key_type > keys; // local index of address -> private key
vector< address > addrs;
bool has_wildcard = false;
addrs.reserve( wif_keys.size() );
for( const string& wif_key : wif_keys )
{
if( wif_key == "*" )
{
if( has_wildcard )
continue;
for( const public_key_type& pub : _wallet.extra_keys[ claimer.id ] )
{
addrs.push_back( pub );
auto it = _keys.find( pub );
if( it != _keys.end() )
{
fc::optional< fc::ecc::private_key > privkey = wif_to_key( it->second );
FC_ASSERT( privkey );
keys[ addrs.back() ] = *privkey;
}
else
{
wlog( "Somehow _keys has no private key for extra_keys public key ${k}", ("k", pub) );
}
}
has_wildcard = true;
}
else
{
optional< private_key_type > key = wif_to_key( wif_key );
FC_ASSERT( key.valid(), "Invalid private key" );
fc::ecc::public_key pk = key->get_public_key();
addrs.push_back( pk );
keys[addrs.back()] = *key;
// see chain/balance_evaluator.cpp
addrs.push_back( pts_address( pk, false, 56 ) );
keys[addrs.back()] = *key;
addrs.push_back( pts_address( pk, true, 56 ) );
keys[addrs.back()] = *key;
addrs.push_back( pts_address( pk, false, 0 ) );
keys[addrs.back()] = *key;
addrs.push_back( pts_address( pk, true, 0 ) );
keys[addrs.back()] = *key;
}
}
vector< balance_object > balances = _remote_db->get_balance_objects( addrs );
wdump((balances));
addrs.clear();
set<asset_id_type> bal_types;
for( auto b : balances ) bal_types.insert( b.balance.asset_id );
struct claim_tx
{
vector< balance_claim_operation > ops;
set< address > addrs;
};
vector< claim_tx > claim_txs;
for( const asset_id_type& a : bal_types )
{
balance_claim_operation op;
op.deposit_to_account = claimer.id;
for( const balance_object& b : balances )
{
if( b.balance.asset_id == a )
{
op.total_claimed = b.available( dpo.time );
if( op.total_claimed.amount == 0 )
continue;
op.balance_to_claim = b.id;
op.balance_owner_key = keys[b.owner].get_public_key();
if( (claim_txs.empty()) || (claim_txs.back().ops.size() >= max_ops_per_tx) )
claim_txs.emplace_back();
claim_txs.back().ops.push_back(op);
claim_txs.back().addrs.insert(b.owner);
}
}
}
vector< signed_transaction > result;
for( const claim_tx& ctx : claim_txs )
{
signed_transaction tx;
tx.operations.reserve( ctx.ops.size() );
for( const balance_claim_operation& op : ctx.ops )
tx.operations.emplace_back( op );
set_operation_fees( tx, _remote_db->get_global_properties().parameters.current_fees );
tx.validate();
signed_transaction signed_tx = sign_transaction( tx, false );
for( const address& addr : ctx.addrs )
signed_tx.sign( keys[addr], _chain_id );
// if the key for a balance object was the same as a key for the account we're importing it into,
// we may end up with duplicate signatures, so remove those
boost::erase(signed_tx.signatures, boost::unique<boost::return_found_end>(boost::sort(signed_tx.signatures)));
result.push_back( signed_tx );
if( broadcast )
_remote_net_broadcast->broadcast_transaction(signed_tx);
}
return result;
} FC_CAPTURE_AND_RETHROW( (name_or_id) ) }
}
map<public_key_type, string> wallet_api::dump_private_keys()
{
FC_ASSERT(!is_locked());
return my->_keys;
}
signed_transaction wallet_api::update_account_keys(string name,
public_key_type old_owner,
public_key_type new_owner,
public_key_type old_active,
public_key_type new_active,
bool broadcast )
{
return my->update_account_keys(name, old_owner, new_owner, old_active, new_active, broadcast);
}
signed_transaction wallet_api::update_account_auth_key(string account_name,
authority_type type,
public_key_type key,
weight_type weight,
bool broadcast)
{
return my->update_account_auth_key(account_name, type, key, weight, broadcast);
}
signed_transaction wallet_api::upgrade_account( string name, bool broadcast )
{
return my->upgrade_account(name,broadcast);
}
signed_transaction wallet_api::sell_asset(string seller_account,
string amount_to_sell,
string symbol_to_sell,
string min_to_receive,
string symbol_to_receive,
uint32_t expiration,
bool fill_or_kill,
bool broadcast)
{
return my->sell_asset(seller_account, amount_to_sell, symbol_to_sell, min_to_receive,
symbol_to_receive, expiration, fill_or_kill, broadcast);
}
signed_transaction wallet_api::sell( string seller_account,
string base,
string quote,
double rate,
double amount,
bool broadcast )
{
std::stringstream ss;
ss.str(std::string());
ss << std::noshowpoint << amount;
std::string amount_to_sell = ss.str();
ss.str(std::string());
ss << std::noshowpoint << rate * amount;
std::string min_to_receive = ss.str();
return my->sell_asset( seller_account, amount_to_sell, base,
min_to_receive, quote, 0, false, broadcast );
}
signed_transaction wallet_api::buy( string buyer_account,
string base,
string quote,
double rate,
double amount,
bool broadcast )
{
std::stringstream ss;
ss.str(std::string());
ss << std::noshowpoint << rate * amount;
std::string amount_to_sell = ss.str();
ss.str(std::string());
ss << std::noshowpoint << amount;
std::string min_to_receive = ss.str();
return my->sell_asset( buyer_account, amount_to_sell, quote,
min_to_receive, base, 0, false, broadcast );
}
signed_transaction wallet_api::borrow_asset(string seller_name, string amount_to_sell,
string asset_symbol, string amount_of_collateral, bool broadcast)
{
FC_ASSERT(!is_locked(), "Wallet is locked, please unlock to get all operations available");
return my->borrow_asset(seller_name, amount_to_sell, asset_symbol, amount_of_collateral, broadcast);
}
signed_transaction wallet_api::cancel_order(object_id_type order_id, bool broadcast)
{
FC_ASSERT(!is_locked(), "Wallet is locked, please unlock to get all operations available");
return my->cancel_order(order_id, broadcast);
}
string wallet_api::get_key_label( public_key_type key )const
{
auto key_itr = my->_wallet.labeled_keys.get<by_key>().find(key);
if( key_itr != my->_wallet.labeled_keys.get<by_key>().end() )
return key_itr->label;
return string();
}
string wallet_api::get_private_key( public_key_type pubkey )const
{
return key_to_wif( my->get_private_key( pubkey ) );
}
public_key_type wallet_api::get_public_key( string label )const
{
try { return fc::variant(label, 1).as<public_key_type>( 1 ); } catch ( ... ){}
auto key_itr = my->_wallet.labeled_keys.get<by_label>().find(label);
if( key_itr != my->_wallet.labeled_keys.get<by_label>().end() )
return key_itr->key;
return public_key_type();
}
bool wallet_api::set_key_label( public_key_type key, string label )
{
auto result = my->_wallet.labeled_keys.insert( key_label{label,key} );
if( result.second ) return true;
auto key_itr = my->_wallet.labeled_keys.get<by_key>().find(key);
auto label_itr = my->_wallet.labeled_keys.get<by_label>().find(label);
if( label_itr == my->_wallet.labeled_keys.get<by_label>().end() )
{
if( key_itr != my->_wallet.labeled_keys.get<by_key>().end() )
return my->_wallet.labeled_keys.get<by_key>().modify( key_itr, [&]( key_label& obj ){ obj.label = label; } );
}
return false;
}
///////////////
// peerplays //
///////////////
vector<sport_object> wallet_api::list_sports() const
{
return my->_remote_db->list_sports();
}
vector<event_group_object> wallet_api::list_event_groups(sport_id_type sport_id) const
{
return my->_remote_db->list_event_groups(sport_id);
}
vector<betting_market_group_object> wallet_api::list_betting_market_groups(event_id_type event_id) const
{
return my->_remote_db->list_betting_market_groups(event_id);
}
vector<betting_market_object> wallet_api::list_betting_markets(betting_market_group_id_type betting_market_group_id) const
{
return my->_remote_db->list_betting_markets(betting_market_group_id);
}
global_betting_statistics_object wallet_api::get_global_betting_statistics() const
{
return my->_remote_db->get_global_betting_statistics();
}
vector<event_object> wallet_api::list_events_in_group(event_group_id_type event_group_id) const
{
return my->_remote_db->list_events_in_group(event_group_id);
}
vector<bet_object> wallet_api::get_unmatched_bets_for_bettor(betting_market_id_type betting_market_id, account_id_type account_id) const
{
return my->_remote_db->get_unmatched_bets_for_bettor(betting_market_id, account_id);
}
vector<bet_object> wallet_api::get_all_unmatched_bets_for_bettor(account_id_type account_id) const
{
return my->_remote_db->get_all_unmatched_bets_for_bettor(account_id);
}
signed_transaction wallet_api::propose_create_sport(
const string& proposing_account,
fc::time_point_sec expiration_time,
internationalized_string_type name,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
sport_create_operation sport_create_op;
sport_create_op.name = name;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( sport_create_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_update_sport(
const string& proposing_account,
fc::time_point_sec expiration_time,
sport_id_type sport_id,
fc::optional<internationalized_string_type> name,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
sport_update_operation sport_update_op;
sport_update_op.sport_id = sport_id;
sport_update_op.new_name = name;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( sport_update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_delete_sport(
const string& proposing_account,
fc::time_point_sec expiration_time,
sport_id_type sport_id,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
sport_delete_operation sport_delete_op;
sport_delete_op.sport_id = sport_id;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( sport_delete_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_create_event_group(
const string& proposing_account,
fc::time_point_sec expiration_time,
internationalized_string_type name,
sport_id_type sport_id,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
event_group_create_operation event_group_create_op;
event_group_create_op.name = name;
event_group_create_op.sport_id = sport_id;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( event_group_create_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_update_event_group(
const string& proposing_account,
fc::time_point_sec expiration_time,
event_group_id_type event_group,
fc::optional<object_id_type> sport_id,
fc::optional<internationalized_string_type> name,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
event_group_update_operation event_group_update_op;
event_group_update_op.new_sport_id = sport_id;
event_group_update_op.new_name = name;
event_group_update_op.event_group_id = event_group;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( event_group_update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_delete_event_group(
const string& proposing_account,
fc::time_point_sec expiration_time,
event_group_id_type event_group,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
event_group_delete_operation event_group_delete_op;
event_group_delete_op.event_group_id = event_group;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( event_group_delete_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_create_event(
const string& proposing_account,
fc::time_point_sec expiration_time,
internationalized_string_type name,
internationalized_string_type season,
fc::optional<time_point_sec> start_time,
event_group_id_type event_group_id,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
event_create_operation event_create_op;
event_create_op.start_time = start_time;
event_create_op.name = name;
event_create_op.season = season;
event_create_op.event_group_id = event_group_id;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( event_create_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_update_event(
const string& proposing_account,
fc::time_point_sec expiration_time,
event_id_type event_id,
fc::optional<object_id_type> event_group_id,
fc::optional<internationalized_string_type> name,
fc::optional<internationalized_string_type> season,
fc::optional<event_status> status,
fc::optional<time_point_sec> start_time,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
event_update_operation event_update_op;
event_update_op.event_id = event_id;
event_update_op.new_event_group_id = event_group_id;
event_update_op.new_start_time = start_time;
event_update_op.new_name = name;
event_update_op.new_season = season;
event_update_op.new_status = status;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( event_update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_create_betting_market_rules(
const string& proposing_account,
fc::time_point_sec expiration_time,
internationalized_string_type name,
internationalized_string_type description,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_rules_create_operation betting_market_rules_create_op;
betting_market_rules_create_op.name = name;
betting_market_rules_create_op.description = description;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_rules_create_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_update_betting_market_rules(
const string& proposing_account,
fc::time_point_sec expiration_time,
betting_market_rules_id_type rules_id,
fc::optional<internationalized_string_type> name,
fc::optional<internationalized_string_type> description,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_rules_update_operation betting_market_rules_update_op;
betting_market_rules_update_op.betting_market_rules_id = rules_id;
betting_market_rules_update_op.new_name = name;
betting_market_rules_update_op.new_description = description;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_rules_update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_create_betting_market_group(
const string& proposing_account,
fc::time_point_sec expiration_time,
internationalized_string_type description,
event_id_type event_id,
betting_market_rules_id_type rules_id,
asset_id_type asset_id,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_group_create_operation betting_market_group_create_op;
betting_market_group_create_op.description = description;
betting_market_group_create_op.event_id = event_id;
betting_market_group_create_op.rules_id = rules_id;
betting_market_group_create_op.asset_id = asset_id;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_group_create_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_update_betting_market_group(
const string& proposing_account,
fc::time_point_sec expiration_time,
betting_market_group_id_type betting_market_group_id,
fc::optional<internationalized_string_type> description,
fc::optional<object_id_type> rules_id,
fc::optional<betting_market_group_status> status,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_group_update_operation betting_market_group_update_op;
betting_market_group_update_op.betting_market_group_id = betting_market_group_id;
betting_market_group_update_op.new_description = description;
betting_market_group_update_op.new_rules_id = rules_id;
betting_market_group_update_op.status = status;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_group_update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_create_betting_market(
const string& proposing_account,
fc::time_point_sec expiration_time,
betting_market_group_id_type group_id,
internationalized_string_type description,
internationalized_string_type payout_condition,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_create_operation betting_market_create_op;
betting_market_create_op.group_id = group_id;
betting_market_create_op.description = description;
betting_market_create_op.payout_condition = payout_condition;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_create_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_update_betting_market(
const string& proposing_account,
fc::time_point_sec expiration_time,
betting_market_id_type market_id,
fc::optional<object_id_type> group_id,
fc::optional<internationalized_string_type> description,
fc::optional<internationalized_string_type> payout_condition,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked() , "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_update_operation betting_market_update_op;
betting_market_update_op.betting_market_id = market_id;
betting_market_update_op.new_group_id = group_id;
betting_market_update_op.new_description = description;
betting_market_update_op.new_payout_condition = payout_condition;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_update_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::place_bet(string betting_account,
betting_market_id_type betting_market_id,
bet_type back_or_lay,
string amount,
string asset_symbol,
double backer_multiplier,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
fc::optional<asset_object> asset_obj = get_asset(asset_symbol);
FC_ASSERT(asset_obj, "Could not find asset matching ${asset}", ("asset", asset_symbol));
const chain_parameters& current_params = get_global_properties().parameters;
bet_place_operation bet_place_op;
bet_place_op.bettor_id = get_account(betting_account).id;
bet_place_op.betting_market_id = betting_market_id;
bet_place_op.amount_to_bet = asset_obj->amount_from_string(amount);
bet_place_op.backer_multiplier = (bet_multiplier_type)(backer_multiplier * GRAPHENE_BETTING_ODDS_PRECISION);
bet_place_op.back_or_lay = back_or_lay;
signed_transaction tx;
tx.operations.push_back(bet_place_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::cancel_bet(string betting_account,
bet_id_type bet_id,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
bet_cancel_operation bet_cancel_op;
bet_cancel_op.bettor_id = get_account(betting_account).id;
bet_cancel_op.bet_to_cancel = bet_id;
signed_transaction tx;
tx.operations.push_back(bet_cancel_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_resolve_betting_market_group(
const string& proposing_account,
fc::time_point_sec expiration_time,
betting_market_group_id_type betting_market_group_id,
const std::map<betting_market_id_type, betting_market_resolution_type>& resolutions,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_group_resolve_operation betting_market_group_resolve_op;
betting_market_group_resolve_op.betting_market_group_id = betting_market_group_id;
betting_market_group_resolve_op.resolutions = resolutions;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_group_resolve_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::propose_cancel_betting_market_group(
const string& proposing_account,
fc::time_point_sec expiration_time,
betting_market_group_id_type betting_market_group_id,
bool broadcast /*= false*/)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
const chain_parameters& current_params = get_global_properties().parameters;
betting_market_group_cancel_unmatched_bets_operation betting_market_group_cancel_unmatched_bets_op;
betting_market_group_cancel_unmatched_bets_op.betting_market_group_id = betting_market_group_id;
proposal_create_operation prop_op;
prop_op.expiration_time = expiration_time;
prop_op.review_period_seconds = current_params.committee_proposal_review_period;
prop_op.fee_paying_account = get_account(proposing_account).id;
prop_op.proposed_ops.emplace_back( betting_market_group_cancel_unmatched_bets_op );
current_params.current_fees->set_fee( prop_op.proposed_ops.back().op );
signed_transaction tx;
tx.operations.push_back(prop_op);
my->set_operation_fees(tx, current_params.current_fees);
tx.validate();
return my->sign_transaction(tx, broadcast);
}
signed_transaction wallet_api::tournament_create( string creator, tournament_options options, bool broadcast )
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
account_object creator_account_obj = get_account(creator);
signed_transaction tx;
tournament_create_operation op;
op.creator = creator_account_obj.get_id();
op.options = options;
tx.operations = {op};
my->set_operation_fees( tx, my->_remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return my->sign_transaction( tx, broadcast );
}
signed_transaction wallet_api::tournament_join( string payer_account,
string player_account,
tournament_id_type tournament_id,
string buy_in_amount,
string buy_in_asset_symbol,
bool broadcast )
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
account_object payer_account_obj = get_account(payer_account);
account_object player_account_obj = get_account(player_account);
//graphene::chain::tournament_object tournament_obj = my->get_object<graphene::chain::tournament_object>(tournament_id);
fc::optional<asset_object> buy_in_asset_obj = get_asset(buy_in_asset_symbol);
FC_ASSERT(buy_in_asset_obj, "Could not find asset matching ${asset}", ("asset", buy_in_asset_symbol));
signed_transaction tx;
tournament_join_operation op;
op.payer_account_id = payer_account_obj.get_id();
op.player_account_id = player_account_obj.get_id();
op.tournament_id = tournament_id;
op.buy_in = buy_in_asset_obj->amount_from_string(buy_in_amount);
tx.operations = {op};
my->set_operation_fees( tx, my->_remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return my->sign_transaction( tx, broadcast );
}
signed_transaction wallet_api::tournament_leave( string canceling_account,
string player_account,
tournament_id_type tournament_id,
bool broadcast)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
account_object player_account_obj = get_account(player_account);
account_object canceling_account_obj = get_account(canceling_account);
//graphene::chain::tournament_object tournament_obj = my->get_object<graphene::chain::tournament_object>(tournament_id);
signed_transaction tx;
tournament_leave_operation op;
op.canceling_account_id = canceling_account_obj.get_id();
op.player_account_id = player_account_obj.get_id();
op.tournament_id = tournament_id;
tx.operations = {op};
my->set_operation_fees( tx, my->_remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return my->sign_transaction( tx, broadcast );
}
vector<tournament_object> wallet_api::get_upcoming_tournaments(uint32_t limit)
{
return my->_remote_db->get_tournaments_in_state(tournament_state::accepting_registrations, limit);
}
vector<tournament_object> wallet_api::get_tournaments(tournament_id_type stop,
unsigned limit,
tournament_id_type start) {
return my->_remote_db->get_tournaments(stop, limit, start);
}
vector<tournament_object> wallet_api::get_tournaments_by_state(tournament_id_type stop,
unsigned limit,
tournament_id_type start,
tournament_state state) {
return my->_remote_db->get_tournaments_by_state(stop, limit, start, state);
}
tournament_object wallet_api::get_tournament(tournament_id_type id)
{
return my->_remote_db->get_objects({id})[0].as<tournament_object>( GRAPHENE_MAX_NESTED_OBJECTS );
}
signed_transaction wallet_api::rps_throw(game_id_type game_id,
string player_account,
rock_paper_scissors_gesture gesture,
bool broadcast)
{
FC_ASSERT( !is_locked(), "Wallet is locked, please unlock to get all operations available" );
// check whether the gesture is appropriate for the game we're playing
graphene::chain::game_object game_obj = my->get_object<graphene::chain::game_object>(game_id);
graphene::chain::match_object match_obj = my->get_object<graphene::chain::match_object>(game_obj.match_id);
graphene::chain::tournament_object tournament_obj = my->get_object<graphene::chain::tournament_object>(match_obj.tournament_id);
graphene::chain::rock_paper_scissors_game_options game_options =
tournament_obj.options.game_options.get<graphene::chain::rock_paper_scissors_game_options>();
if ((int)gesture >= game_options.number_of_gestures)
FC_THROW("Gesture ${gesture} not supported in this game", ("gesture", gesture));
account_object player_account_obj = get_account(player_account);
// construct the complete throw, the commit, and reveal
rock_paper_scissors_throw full_throw;
std::random_device rd;
std::mt19937_64 gen(rd());
std::uniform_int_distribution<uint64_t> dis;
full_throw.nonce1 = dis(gen);
full_throw.nonce2 = dis(gen);
full_throw.gesture = gesture;
rock_paper_scissors_throw_commit commit_throw;
commit_throw.nonce1 = full_throw.nonce1;
std::vector<char> full_throw_packed(fc::raw::pack(full_throw));
commit_throw.throw_hash = fc::sha256::hash(full_throw_packed.data(), full_throw_packed.size());
rock_paper_scissors_throw_reveal reveal_throw;
reveal_throw.nonce2 = full_throw.nonce2;
reveal_throw.gesture = full_throw.gesture;
// store off the reveal for transmitting after both players commit
my->_wallet.committed_game_moves[commit_throw] = reveal_throw;
// broadcast the commit
signed_transaction tx;
game_move_operation move_operation;
move_operation.game_id = game_id;
move_operation.player_account_id = player_account_obj.id;
move_operation.move = commit_throw;
tx.operations = {move_operation};
my->set_operation_fees( tx, my->_remote_db->get_global_properties().parameters.current_fees );
tx.validate();
return my->sign_transaction( tx, broadcast );
}
signed_transaction wallet_api::nft_metadata_create(string owner_account_id_or_name,
string name,
string symbol,
string base_uri,
optional<string> revenue_partner,
optional<uint16_t> revenue_split,
bool is_transferable,
bool is_sellable,
optional<account_role_id_type> role_id,
optional<share_type> max_supply,
optional<nft_lottery_options> lottery_options,
bool broadcast)
{
account_object owner_account = my->get_account(owner_account_id_or_name);
nft_metadata_create_operation op;
op.owner = owner_account.id;
op.name = name;
op.symbol = symbol;
op.base_uri = base_uri;
if( revenue_partner )
{
account_object partner_account = my->get_account(*revenue_partner);
op.revenue_partner = partner_account.id;
uint16_t rev_split = 0;
if( revenue_split )
{
rev_split = *revenue_split;
}
op.revenue_split = rev_split;
}
op.is_transferable = is_transferable;
op.is_sellable = is_sellable;
op.account_role = role_id;
op.max_supply = max_supply;
op.lottery_options = lottery_options;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::nft_metadata_update(string owner_account_id_or_name,
nft_metadata_id_type nft_metadata_id,
optional<string> name,
optional<string> symbol,
optional<string> base_uri,
optional<string> revenue_partner,
optional<uint16_t> revenue_split,
optional<bool> is_transferable,
optional<bool> is_sellable,
optional<account_role_id_type> role_id,
bool broadcast)
{
account_object owner_account = my->get_account(owner_account_id_or_name);
nft_metadata_update_operation op;
op.nft_metadata_id = nft_metadata_id;
op.owner = owner_account.id;
op.name = name;
op.symbol = symbol;
op.base_uri = base_uri;
if( revenue_partner )
{
account_object partner_account = my->get_account(*revenue_partner);
op.revenue_partner = partner_account.id;
uint16_t rev_split = 0;
if( revenue_split )
{
rev_split = *revenue_split;
}
op.revenue_split = rev_split;
}
op.is_transferable = is_transferable;
op.is_sellable = is_sellable;
op.account_role = role_id;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::nft_create(string metadata_owner_account_id_or_name,
nft_metadata_id_type metadata_id,
string owner_account_id_or_name,
string approved_account_id_or_name,
string token_uri,
bool broadcast)
{
account_object metadata_owner_account = my->get_account(metadata_owner_account_id_or_name);
account_object owner_account = my->get_account(owner_account_id_or_name);
account_object approved_account = my->get_account(approved_account_id_or_name);
nft_mint_operation op;
op.payer = metadata_owner_account.id;
op.nft_metadata_id = metadata_id;
op.owner = owner_account.id;
op.approved = approved_account.id;
op.token_uri = token_uri;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
uint64_t wallet_api::nft_get_balance(string owner_account_id_or_name) const
{
account_object owner_account = my->get_account(owner_account_id_or_name);
return my->_remote_db->nft_get_balance(owner_account.id);
}
optional<account_id_type> wallet_api::nft_owner_of(const nft_id_type token_id) const
{
return my->_remote_db->nft_owner_of(token_id);
}
signed_transaction wallet_api::nft_safe_transfer_from(string operator_account_id_or_name,
string from_account_id_or_name,
string to_account_id_or_name,
nft_id_type token_id,
string data,
bool broadcast)
{
account_object operator_account = my->get_account(operator_account_id_or_name);
account_object from_account = my->get_account(from_account_id_or_name);
account_object to_account = my->get_account(to_account_id_or_name);
nft_safe_transfer_from_operation op;
op.operator_ = operator_account.id;
op.from = from_account.id;
op.to = to_account.id;
op.token_id = token_id;
op.data = data;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::nft_transfer_from(string operator_account_id_or_name,
string from_account_id_or_name,
string to_account_id_or_name,
nft_id_type token_id,
bool broadcast)
{
return nft_safe_transfer_from(operator_account_id_or_name, from_account_id_or_name, to_account_id_or_name, token_id, "", broadcast);
}
signed_transaction wallet_api::nft_approve(string operator_account_id_or_name,
string approved_account_id_or_name,
nft_id_type token_id,
bool broadcast)
{
account_object operator_account = my->get_account(operator_account_id_or_name);
account_object approved_account = my->get_account(approved_account_id_or_name);
nft_approve_operation op;
op.operator_ = operator_account.id;
op.approved = approved_account.id;
op.token_id = token_id;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::nft_set_approval_for_all(string owner_account_id_or_name,
string operator_account_id_or_name,
bool approved,
bool broadcast)
{
account_object owner_account = my->get_account(owner_account_id_or_name);
account_object operator_account = my->get_account(operator_account_id_or_name);
nft_set_approval_for_all_operation op;
op.owner = owner_account.id;
op.operator_ = operator_account.id;
op.approved = approved;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
optional<account_id_type> wallet_api::nft_get_approved(const nft_id_type token_id) const
{
return my->_remote_db->nft_get_approved(token_id);
}
bool wallet_api::nft_is_approved_for_all(string owner_account_id_or_name, string operator_account_id_or_name) const
{
account_object owner_account = my->get_account(owner_account_id_or_name);
account_object operator_account = my->get_account(operator_account_id_or_name);
return my->_remote_db->nft_is_approved_for_all(owner_account.id, operator_account.id);
}
vector<nft_object> wallet_api::nft_get_all_tokens(uint32_t limit, optional<nft_id_type> lower_id) const
{
nft_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->nft_get_all_tokens(lb_id, limit);
}
vector<nft_object> wallet_api::nft_get_tokens_by_owner(account_id_type owner, uint32_t limit, optional<nft_id_type> lower_id) const
{
nft_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->nft_get_tokens_by_owner(owner, lb_id, limit);
}
vector<nft_metadata_object> wallet_api::nft_get_metadata_by_owner(account_id_type owner, uint32_t limit, optional<nft_metadata_id_type> lower_id) const
{
nft_metadata_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->nft_get_metadata_by_owner(owner, lb_id, limit);
}
signed_transaction wallet_api::nft_lottery_buy_ticket( nft_metadata_id_type lottery, account_id_type buyer, uint64_t tickets_to_buy, bool broadcast )
{
nft_lottery_token_purchase_operation op;
op.lottery_id = lottery;
op.buyer = buyer;
op.tickets_to_buy = tickets_to_buy;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::create_offer(set<nft_id_type> item_ids,
string issuer_accound_id_or_name,
asset minimum_price,
asset maximum_price,
bool buying_item,
time_point_sec offer_expiration_date,
optional<memo_data> memo,
bool broadcast)
{
account_object issuer_account = my->get_account(issuer_accound_id_or_name);
offer_operation op;
op.item_ids = item_ids;
op.issuer = issuer_account.id;
op.minimum_price = minimum_price;
op.maximum_price = maximum_price;
op.buying_item = buying_item;
op.offer_expiration_date = offer_expiration_date;
op.memo = memo;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::create_bid(string bidder_account_id_or_name,
asset bid_price,
offer_id_type offer_id,
bool broadcast)
{
account_object bidder_account = my->get_account(bidder_account_id_or_name);
bid_operation op;
op.bidder = bidder_account.id;
op.offer_id = offer_id;
op.bid_price = bid_price;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::cancel_offer(string issuer_account_id_or_name,
offer_id_type offer_id,
bool broadcast)
{
account_object issuer_account = my->get_account(issuer_account_id_or_name);
cancel_offer_operation op;
op.issuer = issuer_account.id;
op.offer_id = offer_id;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
vector<offer_object> wallet_api::list_offers(uint32_t limit, optional<offer_id_type> lower_id) const
{
offer_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->list_offers(lb_id, limit);
}
vector<offer_object> wallet_api::list_sell_offers(uint32_t limit, optional<offer_id_type> lower_id) const
{
offer_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->list_sell_offers(lb_id, limit);
}
vector<offer_object> wallet_api::list_buy_offers(uint32_t limit, optional<offer_id_type> lower_id) const
{
offer_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->list_buy_offers(lb_id, limit);
}
vector<offer_history_object> wallet_api::list_offer_history(uint32_t limit, optional<offer_history_id_type> lower_id) const
{
offer_history_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->list_offer_history(lb_id, limit);
}
vector<offer_object> wallet_api::get_offers_by_issuer(string issuer_account_id_or_name,
uint32_t limit, optional<offer_id_type> lower_id) const
{
offer_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
account_object issuer_account = my->get_account(issuer_account_id_or_name);
return my->_remote_db->get_offers_by_issuer(lb_id, issuer_account.id, limit);
}
vector<offer_object> wallet_api::get_offers_by_item(const nft_id_type item, uint32_t limit, optional<offer_id_type> lower_id) const
{
offer_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->get_offers_by_item(lb_id, item, limit);
}
vector<offer_history_object> wallet_api::get_offer_history_by_issuer(string issuer_account_id_or_name, uint32_t limit, optional<offer_history_id_type> lower_id) const
{
offer_history_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
account_object issuer_account = my->get_account(issuer_account_id_or_name);
return my->_remote_db->get_offer_history_by_issuer(lb_id, issuer_account.id, limit);
}
vector<offer_history_object> wallet_api::get_offer_history_by_item(const nft_id_type item, uint32_t limit, optional<offer_history_id_type> lower_id) const
{
offer_history_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
return my->_remote_db->get_offer_history_by_item(lb_id, item, limit);
}
vector<offer_history_object> wallet_api::get_offer_history_by_bidder(string bidder_account_id_or_name, uint32_t limit, optional<offer_history_id_type> lower_id) const
{
offer_history_id_type lb_id;
if(lower_id)
lb_id = *lower_id;
account_object bidder_account = my->get_account(bidder_account_id_or_name);
return my->_remote_db->get_offer_history_by_bidder(lb_id, bidder_account.id, limit);
}
signed_transaction wallet_api::create_account_role(string owner_account_id_or_name,
string name,
string metadata,
flat_set<int> allowed_operations,
flat_set<account_id_type> whitelisted_accounts,
time_point_sec valid_to,
bool broadcast)
{
account_object owner_account = my->get_account(owner_account_id_or_name);
account_role_create_operation op;
op.owner = owner_account.id;
op.name = name;
op.metadata = metadata;
op.allowed_operations = allowed_operations;
op.whitelisted_accounts = whitelisted_accounts;
op.valid_to = valid_to;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::update_account_role(string owner_account_id_or_name,
account_role_id_type role_id,
optional<string> name,
optional<string> metadata,
flat_set<int> operations_to_add,
flat_set<int> operations_to_remove,
flat_set<account_id_type> accounts_to_add,
flat_set<account_id_type> accounts_to_remove,
optional<time_point_sec> valid_to,
bool broadcast)
{
account_object owner_account = my->get_account(owner_account_id_or_name);
account_role_update_operation op;
op.owner = owner_account.id;
op.account_role_id = role_id;
op.name = name;
op.metadata = metadata;
op.allowed_operations_to_add = operations_to_add;
op.allowed_operations_to_remove = operations_to_remove;
op.accounts_to_add = accounts_to_add;
op.accounts_to_remove = accounts_to_remove;
op.valid_to = valid_to;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
signed_transaction wallet_api::delete_account_role(string owner_account_id_or_name,
account_role_id_type role_id,
bool broadcast)
{
account_object owner_account = my->get_account(owner_account_id_or_name);
account_role_delete_operation op;
op.owner = owner_account.id;
op.account_role_id = role_id;
signed_transaction trx;
trx.operations.push_back(op);
my->set_operation_fees( trx, my->_remote_db->get_global_properties().parameters.current_fees );
trx.validate();
return my->sign_transaction( trx, broadcast );
}
vector<account_role_object> wallet_api::get_account_roles_by_owner(string owner_account_id_or_name) const
{
account_object owner_account = my->get_account(owner_account_id_or_name);
return my->_remote_db->get_account_roles_by_owner(owner_account.id);
}
order_book wallet_api::get_order_book( const string& base, const string& quote, unsigned limit )
{
return( my->_remote_db->get_order_book( base, quote, limit ) );
}
asset wallet_api::get_total_matched_bet_amount_for_betting_market_group(betting_market_group_id_type group_id)
{
return( my->_remote_bookie->get_total_matched_bet_amount_for_betting_market_group(group_id) );
}
std::vector<event_object> wallet_api::get_events_containing_sub_string(const std::string& sub_string, const std::string& language)
{
return( my->_remote_bookie->get_events_containing_sub_string(sub_string, language) );
}
binned_order_book wallet_api::get_binned_order_book(graphene::chain::betting_market_id_type betting_market_id, int32_t precision)
{
return( my->_remote_bookie->get_binned_order_book(betting_market_id, precision) );
}
std::vector<matched_bet_object> wallet_api::get_matched_bets_for_bettor(account_id_type bettor_id) const
{
return( my->_remote_bookie->get_matched_bets_for_bettor(bettor_id) );
}
std::vector<matched_bet_object> wallet_api::get_all_matched_bets_for_bettor(account_id_type bettor_id, bet_id_type start, unsigned limit) const
{
return( my->_remote_bookie->get_all_matched_bets_for_bettor(bettor_id, start, limit) );
}
vector<vote_id_type> wallet_api::get_votes_ids(const string &account_name_or_id) const
{
return my->get_votes_ids(account_name_or_id);
}
votes_info wallet_api::get_votes(const string &account_name_or_id) const
{
return my->get_votes(account_name_or_id);
}
vector<account_object> wallet_api::get_voters_by_id(const vote_id_type &vote_id) const
{
return my->get_voters_by_id(vote_id);
}
voters_info wallet_api::get_voters(const string &account_name_or_id) const
{
return my->get_voters(account_name_or_id);
}
std::map<sidechain_type, std::vector<std::string>> wallet_api::get_son_listener_log() const
{
return my->get_son_listener_log();
}
optional<asset> wallet_api::estimate_withdrawal_transaction_fee(sidechain_type sidechain) const
{
return my->estimate_withdrawal_transaction_fee(sidechain);
}
std::string wallet_api::eth_estimate_withdrawal_transaction_fee() const
{
return my->eth_estimate_withdrawal_transaction_fee();
}
vesting_balance_object_with_info::vesting_balance_object_with_info()
: vesting_balance_object()
{
}
vesting_balance_object_with_info::vesting_balance_object_with_info( const vesting_balance_object& vbo, fc::time_point_sec now )
: vesting_balance_object( vbo )
{
allowed_withdraw = get_allowed_withdraw( now );
if(vbo.balance_type == vesting_balance_type::gpos ||
((vbo.balance_type == vesting_balance_type::son) && (vbo.policy.which() == vesting_policy::tag<linear_vesting_policy>::value)))
allowed_withdraw_time = vbo.policy.get<linear_vesting_policy>().begin_timestamp + vbo.policy.get<linear_vesting_policy>().vesting_cliff_seconds;
else
allowed_withdraw_time = now;
}
} } // graphene::wallet
namespace fc {
void to_variant( const account_multi_index_type& accts, variant& vo, uint32_t max_depth )
{
to_variant( std::vector<account_object>(accts.begin(), accts.end()), vo, max_depth );
}
void from_variant( const variant& var, account_multi_index_type& vo, uint32_t max_depth )
{
const std::vector<account_object>& v = var.as<std::vector<account_object>>( max_depth );
vo = account_multi_index_type(v.begin(), v.end());
}
}
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