コード例 #1
0
ファイル: rpc_client.cpp プロジェクト: BitMoneta/bitshares
    void rpc_client_impl::connect_to(const fc::ip::endpoint& remote_endpoint,
                                     const bts::blockchain::public_key_type& remote_public_key)
    {
       fc::buffered_istream_ptr buffered_istream;
       fc::buffered_ostream_ptr buffered_ostream;

       if( remote_public_key != bts::blockchain::public_key_type() )
       {
          net::stcp_socket_ptr socket = std::make_shared<bts::net::stcp_socket>();

          try
          {
             socket->connect_to(remote_endpoint);
          }
          catch ( const fc::exception& e )
          {
             elog( "fatal: error opening RPC socket to endpoint ${endpoint}: ${e}", ("endpoint", remote_endpoint)("e", e.to_detail_string() ) );
             throw;
          }

          std::vector<char> packed_signature(80, ' ');
          FC_ASSERT( socket->readsome(packed_signature.data(), packed_signature.size()) == 80, "Unexpected number of bytes read from RPC socket" );
          fc::ecc::compact_signature signature;
          signature = fc::raw::unpack<fc::ecc::compact_signature>(packed_signature);
          wdump((signature));
          FC_ASSERT(blockchain::public_key_type(fc::ecc::public_key(signature, fc::digest(socket->get_shared_secret())))
                    == remote_public_key,
                    "Unable to establish secure connection with server.");

          buffered_istream = std::make_shared<fc::buffered_istream>(socket);
          buffered_ostream = std::make_shared<utilities::padding_ostream<>>(socket);
       } else {
          fc::tcp_socket_ptr socket = std::make_shared<fc::tcp_socket>();

          try
          {
             socket->connect_to(remote_endpoint);
          }
          catch ( const fc::exception& e )
          {
             elog( "fatal: error opening RPC socket to endpoint ${endpoint}: ${e}", ("endpoint", remote_endpoint)("e", e.to_detail_string() ) );
             throw;
          }

          buffered_istream = std::make_shared<fc::buffered_istream>(socket);
          buffered_ostream = std::make_shared<fc::buffered_ostream>(socket);
       }

       _json_connection = std::make_shared<fc::rpc::json_connection>(std::move(buffered_istream),
                                                                     std::move(buffered_ostream));
       _json_exec_loop_complete = fc::async([=](){ _json_connection->exec(); }, "json exec loop");
    }
コード例 #2
0
    void rpc_client_impl::connect_to(const fc::ip::endpoint& remote_endpoint)
    {
      fc::tcp_socket_ptr socket = std::make_shared<fc::tcp_socket>();
      try 
      {
        socket->connect_to(remote_endpoint);
      }
      catch ( const fc::exception& e )
      {
        elog( "fatal: error opening RPC socket to endpoint ${endpoint}: ${e}", ("endpoint", remote_endpoint)("e", e.to_detail_string() ) );
        throw;
      }

      fc::buffered_istream_ptr buffered_istream = std::make_shared<fc::buffered_istream>(socket);
      fc::buffered_ostream_ptr buffered_ostream = std::make_shared<fc::buffered_ostream>(socket);

      _json_connection = std::make_shared<fc::rpc::json_connection>(std::move(buffered_istream), 
                                                                    std::move(buffered_ostream));
      _json_exec_loop_complete = fc::async([=](){ _json_connection->exec(); }, "json exec loop");
    }
コード例 #3
0
ファイル: main.cpp プロジェクト: 1manStartup/BitShares
      void register_methods( const fc::rpc::json_connection_ptr& con )
      {
         std::cout<<"rpc login detected\n";
         // don't capture the shared ptr, it would create a circular reference
         fc::rpc::json_connection* capture_con = con.get(); 
         con->add_method( "login", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( params.size() == 2 );
             FC_ASSERT( params[0].as_string() == _config.rpc_user )
             FC_ASSERT( params[1].as_string() == _config.rpc_password )
             _login_set.insert( capture_con );
             return fc::variant( true );
         });


         con->add_method( "getmargin", [=]( const fc::variants& params ) -> fc::variant 
         {
              check_login( capture_con );
              FC_ASSERT( params.size() == 1 );
              FC_ASSERT( _chain_connected );

              asset collat;
              asset due  = _wallet.get_margin( params[0].as<asset::type>(), collat );

              fc::mutable_variant_object info; 
              info["collateral"]     = fc::variant(chain.head_block_id());
              info["owed"]           = fc::variant(due);

              collat.amount *= 3;
              collat.amount /= 4;
             // info["min_call_price"] = 
              info["avg_call_price"] = std::string( due/collat );

              return fc::variant(info);
         });

         con->add_method( "addmargin", [=]( const fc::variants& params ) -> fc::variant 
         {
              check_login( capture_con );
              FC_ASSERT( params.size() == 2 );
              FC_ASSERT( _chain_connected );

              asset collat     = params[0].as<asset>();
              FC_ASSERT( collat.unit == asset::bts );

              auto trx = _wallet.add_margin( collat, params[1].as<asset::type>() ); 
              broadcast_transaction(trx);

              return fc::variant(trx.id());
         });

         con->add_method( "getmarket", [=]( const fc::variants& params ) -> fc::variant 
         {
            FC_ASSERT( _chain_connected );
            FC_ASSERT( params.size() == 2 );

            market_data data = chain.get_market( params[0].as<asset::type>(), params[1].as<asset::type>() );
            return fc::variant(data);
         });

         con->add_method( "getnewaddress", [=]( const fc::variants& params ) -> fc::variant 
         {
             check_login( capture_con );
             return fc::variant( _wallet.get_new_address() ); 
         });

         con->add_method( "transfer", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( _chain_connected );
             check_login( capture_con );
             FC_ASSERT( params.size() == 2 );
             auto amount = params[0].as<bts::blockchain::asset>();
             auto addr   = params[1].as_string();
             auto trx = _wallet.transfer( amount, addr );
             broadcast_transaction(trx);
             return fc::variant( trx.id() ); 
         });
         con->add_method( "getbalance", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( _chain_connected );
             check_login( capture_con );
             FC_ASSERT( params.size() == 1 );
             auto unit = params[0].as<bts::blockchain::asset::type>();
             return fc::variant( _wallet.get_balance( unit ) ); 
         });
         con->add_method( "buy", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( _chain_connected );
             check_login( capture_con );
             FC_ASSERT( params.size() == 2 );
             auto amount       = params[0].as<bts::blockchain::asset>();
             auto ppu          = params[1].as<bts::blockchain::asset>();
             auto price_ratio  = ppu / asset( 1.0, amount.unit );
             auto required_input = amount * price_ratio;
             auto trx = buy( required_input, price_ratio );
             return fc::variant( trx ); 
         });
         con->add_method( "sell", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( _chain_connected );
             check_login( capture_con );
             FC_ASSERT( params.size() == 2 );
             auto amount       = params[0].as<bts::blockchain::asset>();
             auto ppu          = params[1].as<bts::blockchain::asset>();
             auto price_ratio  = ppu / asset( 1.0, amount.unit );
             auto trx = sell( amount, price_ratio );
             return fc::variant( trx ); 
         });
         con->add_method( "short_sell", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( _chain_connected );
             check_login( capture_con );
             FC_ASSERT( params.size() == 2 );
             auto amount       = params[0].as<bts::blockchain::asset>();
             auto ppu          = params[1].as<bts::blockchain::asset>();
             auto price_ratio  = ppu / asset( 1.0, amount.unit );
             auto trx = short_sell( amount, price_ratio );
             return fc::variant( trx ); 
         });
         con->add_method( "cover", [=]( const fc::variants& params ) -> fc::variant 
         {
              FC_ASSERT( _chain_connected );
              check_login( capture_con );
              FC_ASSERT( params.size() == 1 );
              auto amount = params[0].as<bts::blockchain::asset>();
              auto trx = _wallet.cover( amount );
              broadcast_transaction( trx );
              return fc::variant(trx.id());
         });

         con->add_method( "cancel_order", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( _chain_connected );
             check_login( capture_con );
             FC_ASSERT( params.size() == 2 );
             auto trx_id       = params[0].as_string();
             auto output_index = params[1].as_int64();
             auto trx = cancel_open_bid( trx_id, output_index );
             return fc::variant( trx ); 
         });

         con->add_method( "get_transaction", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( params.size() == 1 );
             return fc::variant( chain.fetch_transaction( params[0].as<transaction_id_type>() )  ); 
         });

         con->add_method( "get_block", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( params.size() == 1 );
             return fc::variant( chain.fetch_block( params[0].as_int64() )  ); 
         });

         con->add_method( "getinfo", [=]( const fc::variants& params ) -> fc::variant 
         {
             fc::mutable_variant_object info; 
             info["headblock_id"]  = fc::variant(chain.head_block_id());
             info["block_count"]   = chain.head_block_num();
             info["connected"]     = _chain_connected;
             info["bts_supply"]    = chain.current_bitshare_supply();
             return fc::variant( info );
         });

         con->add_method( "validateaddress", [=]( const fc::variants& params ) -> fc::variant 
         {
             FC_ASSERT( params.size() == 1 );
             try {
                auto test = bts::address( params[0].as_string() );
                return fc::variant(test.is_valid());
             } 
             catch ( const fc::exception& )
             {
               return fc::variant(false);
             }
         });

         con->add_method( "get_open_bids", [=]( const fc::variants& params ) -> fc::variant
         {
             check_login( capture_con );
             return fc::variant( _wallet.get_open_bids() );
         });

         con->add_method( "get_open_short_sell", [=]( const fc::variants& params ) -> fc::variant
         {
             check_login( capture_con );
             return fc::variant( _wallet.get_open_short_sell() );
         });
                          
         con->add_method( "import_bts_privkey", [=]( const fc::variants& params ) -> fc::variant 
         {
             check_login( capture_con );
             bool rescan = false;
             FC_ASSERT( params.size() == 1 );

             if( params.size() == 3 )
             {
               rescan = params[2].as<bool>();
             }
             auto hashed_parameter = fc::sha256( params[0].as_string() );
             auto private_key = fc::ecc::private_key::regenerate( hashed_parameter );
             _wallet.import_key( private_key );
             if( rescan )
             {
               _wallet.scan_chain(chain);
             }
             return fc::variant( true );
         });

      }
コード例 #4
0
 fc::optional<std::string> rpc_client_impl::currentwallet()
 {
   fc::variant result = _json_connection->async_call("currentwallet").wait();
   return result.is_null() ? fc::optional<std::string>() : result.as_string();
 }