/**
* This is called every time a message is received from c, there are only two
* messages supported: seek to time and broadcast. When a message is
* received it goes into the database which all of the connections are
* reading from and sending to their clients.
*
* The difficulty required adjusts every 5 minutes with the goal of maintaining
* an average data rate of 1.5 kb/sec from all connections.
*/
virtual void on_connection_message( chain_connection& c, const message& m )
{
if( m.type == chain_message_type::subscribe_msg )
{
auto sm = m.as<subscribe_message>();
ilog( "recv: ${m}", ("m",sm) );
c.set_last_block_id( sm.last_block );
c.exec_sync_loop();
}
else if( m.type == block_message::type )
{
try {
auto blk = m.as<block_message>();
chain.push_block( blk.block_data );
for( auto itr = blk.block_data.trxs.begin(); itr != blk.block_data.trxs.end(); ++itr )
{
pending.erase( itr->id() );
}
broadcast_block( blk.block_data );
}
catch ( const fc::exception& e )
{
trx_err_message reply;
reply.err = e.to_detail_string();
wlog( "${e}", ("e", e.to_detail_string() ) );
c.send( message( reply ) );
c.close();
}
}
else if( m.type == chain_message_type::trx_msg )
{
auto trx = m.as<trx_message>();
ilog( "recv: ${m}", ("m",trx) );
try
{
chain.evaluate_signed_transaction( trx.signed_trx ); // throws exception if invalid trx.
if( pending.insert( std::make_pair(trx.signed_trx.id(),trx.signed_trx) ).second )
{
fc::async( [=]() { broadcast( m ); } );
}
}
catch ( const fc::exception& e )
{
trx_err_message reply;
reply.signed_trx = trx.signed_trx;
reply.err = e.to_detail_string();
wlog( "${e}", ("e", e.to_detail_string() ) );
c.send( message( reply ) );
c.close();
}
}
else
{
trx_err_message reply;
reply.err = "unsupported message type";
wlog( "unsupported message type" );
c.send( message( reply ) );
c.close();
}
}
/**
* This is called every time a message is received from c, there are only two
* messages supported: seek to time and broadcast. When a message is
* received it goes into the database which all of the connections are
* reading from and sending to their clients.
*
* The difficulty required adjusts every 5 minutes with the goal of maintaining
* an average data rate of 1.5 kb/sec from all connections.
*/
virtual void on_connection_message( chain_connection& c, const message& m )
{
if( m.msg_type == chain_message_type::subscribe_msg )
{
auto sm = m.as<subscribe_message>();
ilog( "recv: ${m}", ("m",sm) );
c.set_last_block_id( sm.last_block );
c.exec_sync_loop();
}
else if( m.msg_type == block_message::type )
{
try {
auto blk = m.as<block_message>();
_chain->push_block( blk.block_data );
for( auto trx : blk.block_data.trxs )
{
_pending.erase( trx.id() );
}
broadcast_block( blk.block_data );
}
catch ( const fc::exception& e )
{
trx_err_message reply;
reply.err = e.to_detail_string();
wlog( "${e}", ("e", e.to_detail_string() ) );
c.send( message( reply ) );
c.close();
}
}
else if( m.msg_type == chain_message_type::trx_msg )
{
auto trx = m.as<trx_message>();
ilog( "recv: ${m}", ("m",trx) );
try
{
_chain->evaluate_transaction( trx.signed_trx ); // throws if error
if( _pending.insert( std::make_pair(trx.signed_trx.id(),trx.signed_trx) ).second )
{
ilog( "new transaction, broadcasting" );
fc::async( [=]() { broadcast( m ); } );
}
else
{
wlog( "duplicate transaction, ignoring" );
}
}
catch ( const fc::exception& e )
{
trx_err_message reply;
reply.signed_trx = trx.signed_trx;
reply.err = e.to_detail_string();
wlog( "${e}", ("e", e.to_detail_string() ) );
c.send( message( reply ) );
c.close();
}
}
else
{
trx_err_message reply;
reply.err = "unsupported message type";
wlog( "unsupported message type" );
c.send( message( reply ) );
c.close();
}
}
