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// Copyright (c) 2019-2020, The Monero Project
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//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification, are
// permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this list of
// conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice, this list
// of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its contributors may be
// used to endorse or promote products derived from this software without specific
// prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
// THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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# include "tx_pool.h"
# include <boost/chrono/chrono.hpp>
# include <boost/thread/thread_only.hpp>
# include <limits>
# include "string_tools.h"
# define INIT_MEMPOOL_TEST() \
uint64_t send_amount = 1000 ; \
uint64_t ts_start = 1338224400 ; \
GENERATE_ACCOUNT ( miner_account ) ; \
GENERATE_ACCOUNT ( bob_account ) ; \
MAKE_GENESIS_BLOCK ( events , blk_0 , miner_account , ts_start ) ; \
REWIND_BLOCKS ( events , blk_0r , blk_0 , miner_account ) ; \
txpool_base : : txpool_base ( )
: test_chain_unit_base ( )
, m_broadcasted_tx_count ( 0 )
, m_all_tx_count ( 0 )
{
REGISTER_CALLBACK_METHOD ( txpool_spend_key_public , increase_broadcasted_tx_count ) ;
REGISTER_CALLBACK_METHOD ( txpool_spend_key_public , increase_all_tx_count ) ;
REGISTER_CALLBACK_METHOD ( txpool_spend_key_public , check_txpool_spent_keys ) ;
}
bool txpool_base : : increase_broadcasted_tx_count ( cryptonote : : core & /*c*/ , size_t /*ev_index*/ , const std : : vector < test_event_entry > & /*events*/ )
{
+ + m_broadcasted_tx_count ;
return true ;
}
bool txpool_base : : increase_all_tx_count ( cryptonote : : core & /*c*/ , size_t /*ev_index*/ , const std : : vector < test_event_entry > & /*events*/ )
{
+ + m_all_tx_count ;
return true ;
}
bool txpool_base : : check_txpool_spent_keys ( cryptonote : : core & c , size_t /*ev_index*/ , const std : : vector < test_event_entry > & events )
{
std : : vector < cryptonote : : tx_info > infos { } ;
std : : vector < cryptonote : : spent_key_image_info > key_images { } ;
if ( ! c . get_pool_transactions_and_spent_keys_info ( infos , key_images ) | | infos . size ( ) ! = m_broadcasted_tx_count | | key_images . size ( ) ! = m_broadcasted_tx_count )
{
MERROR ( " Failed broadcasted spent keys retrieval - Expected Broadcasted Count: " < < m_broadcasted_tx_count < < " Actual Info Count: " < < infos . size ( ) < < " Actual Key Image Count: " < < key_images . size ( ) ) ;
return false ;
}
infos . clear ( ) ;
key_images . clear ( ) ;
if ( ! c . get_pool_transactions_and_spent_keys_info ( infos , key_images , false ) | | infos . size ( ) ! = m_broadcasted_tx_count | | key_images . size ( ) ! = m_broadcasted_tx_count )
{
MERROR ( " Failed broadcasted spent keys retrieval - Expected Broadcasted Count: " < < m_broadcasted_tx_count < < " Actual Info Count: " < < infos . size ( ) < < " Actual Key Image Count: " < < key_images . size ( ) ) ;
return false ;
}
infos . clear ( ) ;
key_images . clear ( ) ;
if ( ! c . get_pool_transactions_and_spent_keys_info ( infos , key_images , true ) | | infos . size ( ) ! = m_all_tx_count | | key_images . size ( ) ! = m_all_tx_count )
{
MERROR ( " Failed all spent keys retrieval - Expected All Count: " < < m_all_tx_count < < " Actual Info Count: " < < infos . size ( ) < < " Actual Key Image Count: " < < key_images . size ( ) ) ;
return false ;
}
return true ;
}
bool txpool_spend_key_public : : generate ( std : : vector < test_event_entry > & events ) const
{
INIT_MEMPOOL_TEST ( ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
MAKE_TX ( events , tx_0 , miner_account , bob_account , send_amount , blk_0 ) ;
DO_CALLBACK ( events , " increase_broadcasted_tx_count " ) ;
DO_CALLBACK ( events , " increase_all_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
return true ;
}
bool txpool_spend_key_all : : generate ( std : : vector < test_event_entry > & events )
{
INIT_MEMPOOL_TEST ( ) ;
SET_EVENT_VISITOR_SETT ( events , event_visitor_settings : : set_txs_do_not_relay ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
MAKE_TX ( events , tx_0 , miner_account , bob_account , send_amount , blk_0 ) ;
DO_CALLBACK ( events , " increase_all_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
return true ;
}
txpool_double_spend_base : : txpool_double_spend_base ( )
: txpool_base ( )
, m_broadcasted_hashes ( )
, m_no_relay_hashes ( )
, m_all_hashes ( )
, m_no_new_index ( 0 )
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, m_failed_index ( 0 )
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, m_new_timestamp_index ( 0 )
, m_last_tx ( crypto : : hash { } )
{
REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , mark_no_new ) ;
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REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , mark_failed ) ;
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REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , mark_timestamp_change ) ;
REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , timestamp_change_pause ) ;
REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , check_unchanged ) ;
REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , check_new_broadcasted ) ;
REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , check_new_hidden ) ;
REGISTER_CALLBACK_METHOD ( txpool_double_spend_base , check_new_no_relay ) ;
}
bool txpool_double_spend_base : : mark_no_new ( cryptonote : : core & /*c*/ , size_t ev_index , const std : : vector < test_event_entry > & /*events*/ )
{
m_no_new_index = ev_index + 1 ;
return true ;
}
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bool txpool_double_spend_base : : mark_failed ( cryptonote : : core & /*c*/ , size_t ev_index , const std : : vector < test_event_entry > & /*events*/ )
{
m_failed_index = ev_index + 1 ;
return true ;
}
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bool txpool_double_spend_base : : mark_timestamp_change ( cryptonote : : core & /*c*/ , size_t ev_index , const std : : vector < test_event_entry > & /*events*/ )
{
m_new_timestamp_index = ev_index + 1 ;
return true ;
}
bool txpool_double_spend_base : : timestamp_change_pause ( cryptonote : : core & /*c*/ , size_t /*ev_index*/ , const std : : vector < test_event_entry > & /*events*/ )
{
boost : : this_thread : : sleep_for ( boost : : chrono : : seconds { 1 } + boost : : chrono : : milliseconds { 100 } ) ;
return true ;
}
bool txpool_double_spend_base : : check_changed ( cryptonote : : core & c , const size_t ev_index , relay_test condition )
{
const std : : size_t public_hash_count = m_broadcasted_hashes . size ( ) ;
const std : : size_t all_hash_count = m_all_hashes . size ( ) ;
const std : : size_t new_broadcasted_hash_count = m_broadcasted_hashes . size ( ) + unsigned ( condition = = relay_test : : broadcasted ) ;
const std : : size_t new_all_hash_count = m_all_hashes . size ( ) + unsigned ( condition = = relay_test : : hidden ) + unsigned ( condition = = relay_test : : no_relay ) ;
std : : vector < crypto : : hash > hashes { } ;
if ( ! c . get_pool_transaction_hashes ( hashes ) )
{
MERROR ( " Failed to get broadcasted transaction pool hashes " ) ;
return false ;
}
for ( const crypto : : hash & hash : hashes )
m_broadcasted_hashes . insert ( hash ) ;
if ( new_broadcasted_hash_count ! = m_broadcasted_hashes . size ( ) )
{
MERROR ( " Expected " < < new_broadcasted_hash_count < < " broadcasted hashes but got " < < m_broadcasted_hashes . size ( ) ) ;
return false ;
}
if ( m_broadcasted_hashes . size ( ) ! = c . get_pool_transactions_count ( ) )
{
MERROR ( " Expected " < < m_broadcasted_hashes . size ( ) < < " broadcasted hashes but got " < < c . get_pool_transactions_count ( ) ) ;
return false ;
}
hashes . clear ( ) ;
if ( ! c . get_pool_transaction_hashes ( hashes , false ) )
{
MERROR ( " Failed to get broadcasted transaction pool hashes " ) ;
return false ;
}
for ( const crypto : : hash & hash : hashes )
m_all_hashes . insert ( std : : make_pair ( hash , 0 ) ) ;
if ( new_broadcasted_hash_count ! = m_broadcasted_hashes . size ( ) )
{
MERROR ( " Expected " < < new_broadcasted_hash_count < < " broadcasted hashes but got " < < m_broadcasted_hashes . size ( ) ) ;
return false ;
}
hashes . clear ( ) ;
if ( ! c . get_pool_transaction_hashes ( hashes , true ) )
{
MERROR ( " Failed to get all transaction pool hashes " ) ;
return false ;
}
for ( const crypto : : hash & hash : hashes )
m_all_hashes . insert ( std : : make_pair ( hash , 0 ) ) ;
if ( new_all_hash_count ! = m_all_hashes . size ( ) )
{
MERROR ( " Expected " < < new_all_hash_count < < " all hashes but got " < < m_all_hashes . size ( ) ) ;
return false ;
}
if ( condition = = relay_test : : no_relay )
{
if ( ! m_no_relay_hashes . insert ( m_last_tx ) . second )
{
MERROR ( " Expected new no_relay tx but got a duplicate legacy tx " ) ;
return false ;
}
for ( const crypto : : hash & hash : m_no_relay_hashes )
{
if ( ! c . pool_has_tx ( hash ) )
{
MERROR ( " Expected public tx " < < hash < < " to be listed in pool " ) ;
return false ;
}
}
}
// check receive time changes
{
std : : vector < cryptonote : : tx_info > infos { } ;
std : : vector < cryptonote : : spent_key_image_info > key_images { } ;
if ( ! c . get_pool_transactions_and_spent_keys_info ( infos , key_images , true ) | | infos . size ( ) ! = m_all_hashes . size ( ) )
{
MERROR ( " Unable to retrieve all txpool metadata " ) ;
return false ;
}
for ( const cryptonote : : tx_info & info : infos )
{
crypto : : hash tx_hash ;
if ( ! epee : : string_tools : : hex_to_pod ( info . id_hash , tx_hash ) )
{
MERROR ( " Unable to convert tx_hash hex to binary " ) ;
return false ;
}
const auto entry = m_all_hashes . find ( tx_hash ) ;
if ( entry = = m_all_hashes . end ( ) )
{
MERROR ( " Unable to find tx_hash in set of tracked hashes " ) ;
return false ;
}
if ( m_new_timestamp_index = = ev_index & & m_last_tx = = tx_hash )
{
if ( entry - > second > = info . receive_time )
{
MERROR ( " Last relay time did not change as expected - last at " < < entry - > second < < " and current at " < < info . receive_time ) ;
return false ;
}
entry - > second = info . receive_time ;
}
else if ( entry - > second ! = info . receive_time )
{
MERROR ( " Last relayed time changed unexpectedly from " < < entry - > second < < " to " < < info . receive_time ) ;
return false ;
}
}
}
{
std : : vector < cryptonote : : transaction > txes { } ;
if ( ! c . get_pool_transactions ( txes ) )
{
MERROR ( " Failed to get broadcasted transactions from pool " ) ;
return false ;
}
hashes . clear ( ) ;
for ( const cryptonote : : transaction & tx : txes )
hashes . push_back ( cryptonote : : get_transaction_hash ( tx ) ) ;
std : : unordered_set < crypto : : hash > public_hashes = m_broadcasted_hashes ;
for ( const crypto : : hash & hash : hashes )
{
if ( ! c . pool_has_tx ( hash ) )
{
MERROR ( " Expected broadcasted tx " < < hash < < " to be listed in pool " ) ;
return false ;
}
if ( ! public_hashes . erase ( hash ) )
{
MERROR ( " An unexected transaction was returned from the public pool " ) ;
return false ;
}
}
if ( ! public_hashes . empty ( ) )
{
MERROR ( public_hashes . size ( ) < < " transaction(s) were missing from the public pool " ) ;
return false ;
}
}
{
std : : vector < cryptonote : : transaction > txes { } ;
if ( ! c . get_pool_transactions ( txes , false ) )
{
MERROR ( " Failed to get broadcasted transactions from pool " ) ;
return false ;
}
hashes . clear ( ) ;
for ( const cryptonote : : transaction & tx : txes )
hashes . push_back ( cryptonote : : get_transaction_hash ( tx ) ) ;
std : : unordered_set < crypto : : hash > public_hashes = m_broadcasted_hashes ;
for ( const crypto : : hash & hash : hashes )
{
if ( ! public_hashes . erase ( hash ) )
{
MERROR ( " An unexected transaction was returned from the public pool " ) ;
return false ;
}
}
if ( ! public_hashes . empty ( ) )
{
MERROR ( public_hashes . size ( ) < < " transaction(s) were missing from the public pool " ) ;
return false ;
}
}
{
std : : vector < cryptonote : : transaction > txes { } ;
if ( ! c . get_pool_transactions ( txes , true ) )
{
MERROR ( " Failed to get all transactions from pool " ) ;
return false ;
}
hashes . clear ( ) ;
for ( const cryptonote : : transaction & tx : txes )
hashes . push_back ( cryptonote : : get_transaction_hash ( tx ) ) ;
std : : unordered_map < crypto : : hash , uint64_t > all_hashes = m_all_hashes ;
for ( const crypto : : hash & hash : hashes )
{
if ( ! all_hashes . erase ( hash ) )
{
MERROR ( " An unexected transaction was returned from the all pool " ) ;
return false ;
}
}
if ( ! all_hashes . empty ( ) )
{
MERROR ( m_broadcasted_hashes . size ( ) < < " transaction(s) were missing from the all pool " ) ;
return false ;
}
}
{
std : : vector < cryptonote : : tx_backlog_entry > entries { } ;
if ( ! c . get_txpool_backlog ( entries ) )
{
MERROR ( " Failed to get broadcasted txpool backlog " ) ;
return false ;
}
if ( m_broadcasted_hashes . size ( ) ! = entries . size ( ) )
{
MERROR ( " Expected " < < m_broadcasted_hashes . size ( ) < < " in the broadcasted txpool backlog but got " < < entries . size ( ) ) ;
return false ;
}
}
for ( const std : : pair < crypto : : hash , uint64_t > & hash : m_all_hashes )
{
cryptonote : : blobdata tx_blob { } ;
if ( ! c . get_pool_transaction ( hash . first , tx_blob , cryptonote : : relay_category : : all ) )
{
MERROR ( " Failed to retrieve tx expected to be in pool: " < < hash . first ) ;
return false ;
}
}
{
std : : unordered_map < crypto : : hash , uint64_t > difference = m_all_hashes ;
for ( const crypto : : hash & hash : m_broadcasted_hashes )
difference . erase ( hash ) ;
for ( const crypto : : hash & hash : m_no_relay_hashes )
difference . erase ( hash ) ;
for ( const std : : pair < crypto : : hash , uint64_t > & hash : difference )
{
if ( c . pool_has_tx ( hash . first ) )
{
MERROR ( " Did not expect private/hidden tx " < < hash . first < < " to be listed in pool " ) ;
return false ;
}
cryptonote : : blobdata tx_blob { } ;
if ( c . get_pool_transaction ( hash . first , tx_blob , cryptonote : : relay_category : : broadcasted ) )
{
MERROR ( " Tx " < < hash . first < < " is not supposed to be in broadcasted pool " ) ;
return false ;
}
if ( ! c . get_pool_transaction ( hash . first , tx_blob , cryptonote : : relay_category : : all ) )
{
MERROR ( " Tx " < < hash . first < < " blob could not be retrieved from pool " ) ;
return false ;
}
}
}
{
cryptonote : : txpool_stats stats { } ;
if ( ! c . get_pool_transaction_stats ( stats ) | | stats . txs_total ! = m_broadcasted_hashes . size ( ) )
{
MERROR ( " Expected broadcasted stats to list " < < m_broadcasted_hashes . size ( ) < < " txes but got " < < stats . txs_total ) ;
return false ;
}
if ( ! c . get_pool_transaction_stats ( stats , false ) | | stats . txs_total ! = m_broadcasted_hashes . size ( ) )
{
MERROR ( " Expected broadcasted stats to list " < < m_broadcasted_hashes . size ( ) < < " txes but got " < < stats . txs_total ) ;
return false ;
}
if ( ! c . get_pool_transaction_stats ( stats , true ) | | stats . txs_total ! = m_all_hashes . size ( ) )
{
MERROR ( " Expected all stats to list " < < m_all_hashes . size ( ) < < " txes but got " < < stats . txs_total ) ;
return false ;
}
}
{
std : : vector < cryptonote : : rpc : : tx_in_pool > infos { } ;
cryptonote : : rpc : : key_images_with_tx_hashes key_images { } ;
if ( ! c . get_pool_for_rpc ( infos , key_images ) | | infos . size ( ) ! = m_broadcasted_hashes . size ( ) | | key_images . size ( ) ! = m_broadcasted_hashes . size ( ) )
{
MERROR ( " Expected broadcasted rpc data to return " < < m_broadcasted_hashes . size ( ) < < " but got " < < infos . size ( ) < < " infos and " < < key_images . size ( ) < < " key images " ) ;
return false ;
}
}
return true ;
}
bool txpool_double_spend_base : : check_unchanged ( cryptonote : : core & c , size_t ev_index , const std : : vector < test_event_entry > & /*events */ )
{
return check_changed ( c , ev_index , relay_test : : no_change ) ;
}
bool txpool_double_spend_base : : check_new_broadcasted ( cryptonote : : core & c , size_t ev_index , const std : : vector < test_event_entry > & /*events */ )
{
return check_changed ( c , ev_index , relay_test : : broadcasted ) ;
}
bool txpool_double_spend_base : : check_new_hidden ( cryptonote : : core & c , size_t ev_index , const std : : vector < test_event_entry > & /*events */ )
{
return check_changed ( c , ev_index , relay_test : : hidden ) ;
}
bool txpool_double_spend_base : : check_new_no_relay ( cryptonote : : core & c , size_t ev_index , const std : : vector < test_event_entry > & /*events */ )
{
return check_changed ( c , ev_index , relay_test : : no_relay ) ;
}
bool txpool_double_spend_base : : check_tx_verification_context ( const cryptonote : : tx_verification_context & tvc , bool tx_added , size_t event_idx , const cryptonote : : transaction & tx )
{
m_last_tx = cryptonote : : get_transaction_hash ( tx ) ;
if ( m_no_new_index = = event_idx )
return ! tvc . m_verifivation_failed & & ! tx_added ;
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else if ( m_failed_index = = event_idx )
return tvc . m_verifivation_failed ; // && !tx_added;
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else
return ! tvc . m_verifivation_failed & & tx_added ;
}
bool txpool_double_spend_norelay : : generate ( std : : vector < test_event_entry > & events ) const
{
INIT_MEMPOOL_TEST ( ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
SET_EVENT_VISITOR_SETT ( events , event_visitor_settings : : set_txs_do_not_relay ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
MAKE_TX ( events , tx_0 , miner_account , bob_account , send_amount , blk_0 ) ;
DO_CALLBACK ( events , " increase_all_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " mark_timestamp_change " ) ;
DO_CALLBACK ( events , " check_new_no_relay " ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
SET_EVENT_VISITOR_SETT ( events , 0 ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
// kepped by block currently does not change txpool status
SET_EVENT_VISITOR_SETT ( events , event_visitor_settings : : set_txs_keeped_by_block ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
return true ;
}
bool txpool_double_spend_local : : generate ( std : : vector < test_event_entry > & events ) const
{
INIT_MEMPOOL_TEST ( ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
SET_EVENT_VISITOR_SETT ( events , event_visitor_settings : : set_local_relay ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
MAKE_TX ( events , tx_0 , miner_account , bob_account , send_amount , blk_0 ) ;
DO_CALLBACK ( events , " increase_all_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " mark_timestamp_change " ) ;
DO_CALLBACK ( events , " check_new_hidden " ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
SET_EVENT_VISITOR_SETT ( events , 0 ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " increase_broadcasted_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " mark_timestamp_change " ) ;
DO_CALLBACK ( events , " check_new_broadcasted " ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
return true ;
}
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bool txpool_double_spend_keyimage : : generate ( std : : vector < test_event_entry > & events ) const
{
INIT_MEMPOOL_TEST ( ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
SET_EVENT_VISITOR_SETT ( events , event_visitor_settings : : set_local_relay ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
const std : : size_t tx_index1 = events . size ( ) ;
MAKE_TX ( events , tx_0 , miner_account , bob_account , send_amount , blk_0 ) ;
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SET_EVENT_VISITOR_SETT ( events , event_visitor_settings : : set_txs_stem ) ;
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DO_CALLBACK ( events , " increase_all_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " mark_timestamp_change " ) ;
DO_CALLBACK ( events , " check_new_hidden " ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
const std : : size_t tx_index2 = events . size ( ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " mark_timestamp_change " ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
// use same key image with different id
cryptonote : : transaction tx_1 ;
{
auto events_copy = events ;
events_copy . erase ( events_copy . begin ( ) + tx_index1 ) ;
events_copy . erase ( events_copy . begin ( ) + tx_index2 - 1 ) ;
MAKE_TX ( events_copy , tx_temp , miner_account , bob_account , send_amount , blk_0 ) ;
tx_1 = tx_temp ;
}
// same key image
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_failed " ) ;
events . push_back ( tx_1 ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
return true ;
}
2019-11-13 16:12:32 +02:00
bool txpool_stem_loop : : generate ( std : : vector < test_event_entry > & events ) const
{
INIT_MEMPOOL_TEST ( ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
SET_EVENT_VISITOR_SETT ( events , event_visitor_settings : : set_txs_stem ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
MAKE_TX ( events , tx_0 , miner_account , bob_account , send_amount , blk_0 ) ;
DO_CALLBACK ( events , " increase_all_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " mark_timestamp_change " ) ;
DO_CALLBACK ( events , " check_new_hidden " ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " increase_broadcasted_tx_count " ) ;
DO_CALLBACK ( events , " check_txpool_spent_keys " ) ;
DO_CALLBACK ( events , " mark_timestamp_change " ) ;
DO_CALLBACK ( events , " check_new_broadcasted " ) ;
DO_CALLBACK ( events , " timestamp_change_pause " ) ;
DO_CALLBACK ( events , " mark_no_new " ) ;
events . push_back ( tx_0 ) ;
DO_CALLBACK ( events , " check_unchanged " ) ;
return true ;
}