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peerplays_migrated/libraries/chain/account_object.cpp
kstdl 342e6db610 inital
2017-05-25 12:13:59 +03:00

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/*
* Copyright (c) 2015 Cryptonomex, Inc., and contributors.
*
* The MIT License
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <graphene/chain/account_object.hpp>
#include <graphene/chain/asset_object.hpp>
#include <graphene/chain/database.hpp>
#include <graphene/chain/hardfork.hpp>
#include <fc/uint128.hpp>
namespace graphene { namespace chain {
share_type cut_fee(share_type a, uint16_t p)
{
if( a == 0 || p == 0 )
return 0;
if( p == GRAPHENE_100_PERCENT )
return a;
fc::uint128 r(a.value);
r *= p;
r /= GRAPHENE_100_PERCENT;
return r.to_uint64();
}
void account_balance_object::adjust_balance(const asset& delta)
{
assert(delta.asset_id == asset_type);
balance += delta.amount;
}
void account_statistics_object::process_fees(const account_object& a, database& d) const
{
if( pending_fees > 0 || pending_vested_fees > 0 )
{
auto pay_out_fees = [&](const account_object& account, share_type core_fee_total, bool require_vesting)
{
// Check the referrer -- if he's no longer a member, pay to the lifetime referrer instead.
// No need to check the registrar; registrars are required to be lifetime members.
if( account.referrer(d).is_basic_account(d.head_block_time()) )
d.modify(account, [](account_object& a) {
a.referrer = a.lifetime_referrer;
});
share_type network_cut = cut_fee(core_fee_total, account.network_fee_percentage);
assert( network_cut <= core_fee_total );
#ifndef NDEBUG
const auto& props = d.get_global_properties();
share_type reserveed = cut_fee(network_cut, props.parameters.reserve_percent_of_fee);
share_type accumulated = network_cut - reserveed;
assert( accumulated + reserveed == network_cut );
#endif
share_type lifetime_cut = cut_fee(core_fee_total, account.lifetime_referrer_fee_percentage);
share_type referral = core_fee_total - network_cut - lifetime_cut;
d.modify(asset_dynamic_data_id_type()(d), [network_cut](asset_dynamic_data_object& d) {
d.accumulated_fees += network_cut;
});
// Potential optimization: Skip some of this math and object lookups by special casing on the account type.
// For example, if the account is a lifetime member, we can skip all this and just deposit the referral to
// it directly.
share_type referrer_cut = cut_fee(referral, account.referrer_rewards_percentage);
share_type registrar_cut = referral - referrer_cut;
d.deposit_cashback(d.get(account.lifetime_referrer), lifetime_cut, require_vesting);
d.deposit_cashback(d.get(account.referrer), referrer_cut, require_vesting);
d.deposit_cashback(d.get(account.registrar), registrar_cut, require_vesting);
assert( referrer_cut + registrar_cut + accumulated + reserveed + lifetime_cut == core_fee_total );
};
pay_out_fees(a, pending_fees, true);
pay_out_fees(a, pending_vested_fees, false);
d.modify(*this, [&](account_statistics_object& s) {
s.lifetime_fees_paid += pending_fees + pending_vested_fees;
s.pending_fees = 0;
s.pending_vested_fees = 0;
});
}
}
void account_statistics_object::pay_fee( share_type core_fee, share_type cashback_vesting_threshold )
{
if( core_fee > cashback_vesting_threshold )
pending_fees += core_fee;
else
pending_vested_fees += core_fee;
}
set<account_id_type> account_member_index::get_account_members(const account_object& a)const
{
set<account_id_type> result;
for( auto auth : a.owner.account_auths )
result.insert(auth.first);
for( auto auth : a.active.account_auths )
result.insert(auth.first);
return result;
}
set<public_key_type> account_member_index::get_key_members(const account_object& a)const
{
set<public_key_type> result;
for( auto auth : a.owner.key_auths )
result.insert(auth.first);
for( auto auth : a.active.key_auths )
result.insert(auth.first);
result.insert( a.options.memo_key );
return result;
}
set<address> account_member_index::get_address_members(const account_object& a)const
{
set<address> result;
for( auto auth : a.owner.address_auths )
result.insert(auth.first);
for( auto auth : a.active.address_auths )
result.insert(auth.first);
result.insert( a.options.memo_key );
return result;
}
void account_member_index::object_inserted(const object& obj)
{
assert( dynamic_cast<const account_object*>(&obj) ); // for debug only
const account_object& a = static_cast<const account_object&>(obj);
auto account_members = get_account_members(a);
for( auto item : account_members )
account_to_account_memberships[item].insert(obj.id);
auto key_members = get_key_members(a);
for( auto item : key_members )
account_to_key_memberships[item].insert(obj.id);
auto address_members = get_address_members(a);
for( auto item : address_members )
account_to_address_memberships[item].insert(obj.id);
}
void account_member_index::object_removed(const object& obj)
{
assert( dynamic_cast<const account_object*>(&obj) ); // for debug only
const account_object& a = static_cast<const account_object&>(obj);
auto key_members = get_key_members(a);
for( auto item : key_members )
account_to_key_memberships[item].erase( obj.id );
auto address_members = get_address_members(a);
for( auto item : address_members )
account_to_address_memberships[item].erase( obj.id );
auto account_members = get_account_members(a);
for( auto item : account_members )
account_to_account_memberships[item].erase( obj.id );
}
void account_member_index::about_to_modify(const object& before)
{
before_key_members.clear();
before_account_members.clear();
assert( dynamic_cast<const account_object*>(&before) ); // for debug only
const account_object& a = static_cast<const account_object&>(before);
before_key_members = get_key_members(a);
before_address_members = get_address_members(a);
before_account_members = get_account_members(a);
}
void account_member_index::object_modified(const object& after)
{
assert( dynamic_cast<const account_object*>(&after) ); // for debug only
const account_object& a = static_cast<const account_object&>(after);
{
set<account_id_type> after_account_members = get_account_members(a);
vector<account_id_type> removed; removed.reserve(before_account_members.size());
std::set_difference(before_account_members.begin(), before_account_members.end(),
after_account_members.begin(), after_account_members.end(),
std::inserter(removed, removed.end()));
for( auto itr = removed.begin(); itr != removed.end(); ++itr )
account_to_account_memberships[*itr].erase(after.id);
vector<object_id_type> added; added.reserve(after_account_members.size());
std::set_difference(after_account_members.begin(), after_account_members.end(),
before_account_members.begin(), before_account_members.end(),
std::inserter(added, added.end()));
for( auto itr = added.begin(); itr != added.end(); ++itr )
account_to_account_memberships[*itr].insert(after.id);
}
{
set<public_key_type> after_key_members = get_key_members(a);
vector<public_key_type> removed; removed.reserve(before_key_members.size());
std::set_difference(before_key_members.begin(), before_key_members.end(),
after_key_members.begin(), after_key_members.end(),
std::inserter(removed, removed.end()));
for( auto itr = removed.begin(); itr != removed.end(); ++itr )
account_to_key_memberships[*itr].erase(after.id);
vector<public_key_type> added; added.reserve(after_key_members.size());
std::set_difference(after_key_members.begin(), after_key_members.end(),
before_key_members.begin(), before_key_members.end(),
std::inserter(added, added.end()));
for( auto itr = added.begin(); itr != added.end(); ++itr )
account_to_key_memberships[*itr].insert(after.id);
}
{
set<address> after_address_members = get_address_members(a);
vector<address> removed; removed.reserve(before_address_members.size());
std::set_difference(before_address_members.begin(), before_address_members.end(),
after_address_members.begin(), after_address_members.end(),
std::inserter(removed, removed.end()));
for( auto itr = removed.begin(); itr != removed.end(); ++itr )
account_to_address_memberships[*itr].erase(after.id);
vector<address> added; added.reserve(after_address_members.size());
std::set_difference(after_address_members.begin(), after_address_members.end(),
before_address_members.begin(), before_address_members.end(),
std::inserter(added, added.end()));
for( auto itr = added.begin(); itr != added.end(); ++itr )
account_to_address_memberships[*itr].insert(after.id);
}
}
void account_referrer_index::object_inserted( const object& obj )
{
}
void account_referrer_index::object_removed( const object& obj )
{
}
void account_referrer_index::about_to_modify( const object& before )
{
}
void account_referrer_index::object_modified( const object& after )
{
}
} } // graphene::chain
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