peerplays_migrated/libraries/chain/block_database.cpp

/*
 * 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/block_database.hpp>
#include <graphene/chain/protocol/fee_schedule.hpp>
#include <fc/io/raw.hpp>
#include <fc/smart_ref_impl.hpp>

namespace graphene { namespace chain {

struct index_entry
{
   uint64_t      block_pos = 0;
   uint32_t      block_size = 0;
   block_id_type block_id;
};
 }}
FC_REFLECT( graphene::chain::index_entry, (block_pos)(block_size)(block_id) );

namespace graphene { namespace chain {

void block_database::open( const fc::path& dbdir )
{ try {
   fc::create_directories(dbdir);
   _block_num_to_pos.exceptions(std::ios_base::failbit | std::ios_base::badbit);
   _blocks.exceptions(std::ios_base::failbit | std::ios_base::badbit);

   if( !fc::exists( dbdir/"index" ) )
   {
     _block_num_to_pos.open( (dbdir/"index").generic_string().c_str(), std::fstream::binary | std::fstream::in | std::fstream::out | std::fstream::trunc);
     _blocks.open( (dbdir/"blocks").generic_string().c_str(), std::fstream::binary | std::fstream::in | std::fstream::out | std::fstream::trunc);
   }
   else
   {
     _block_num_to_pos.open( (dbdir/"index").generic_string().c_str(), std::fstream::binary | std::fstream::in | std::fstream::out );
     _blocks.open( (dbdir/"blocks").generic_string().c_str(), std::fstream::binary | std::fstream::in | std::fstream::out );
   }
} FC_CAPTURE_AND_RETHROW( (dbdir) ) }

bool block_database::is_open()const
{
  return _blocks.is_open();
}

void block_database::close()
{
  _blocks.close();
  _block_num_to_pos.close();
}

void block_database::flush()
{
  _blocks.flush();
  _block_num_to_pos.flush();
}

void block_database::store( const block_id_type& _id, const signed_block& b )
{
   block_id_type id = _id;
   if( id == block_id_type() )
   {
      id = b.id();
      elog( "id argument of block_database::store() was not initialized for block ${id}", ("id", id) );
   }
   auto num = block_header::num_from_id(id);
   _block_num_to_pos.seekp( sizeof( index_entry ) * num );
   index_entry e;
   _blocks.seekp( 0, _blocks.end );
   auto vec = fc::raw::pack( b );
   e.block_pos  = _blocks.tellp();
   e.block_size = vec.size();
   e.block_id   = id;
   _blocks.write( vec.data(), vec.size() );
   _block_num_to_pos.write( (char*)&e, sizeof(e) );
}

void block_database::remove( const block_id_type& id )
{ try {
   index_entry e;
   auto index_pos = sizeof(e)*block_header::num_from_id(id);
   _block_num_to_pos.seekg( 0, _block_num_to_pos.end );
   if ( _block_num_to_pos.tellg() <= index_pos )
      FC_THROW_EXCEPTION(fc::key_not_found_exception, "Block ${id} not contained in block database", ("id", id));

   _block_num_to_pos.seekg( index_pos );
   _block_num_to_pos.read( (char*)&e, sizeof(e) );

   if( e.block_id == id )
   {
      e.block_size = 0;
      _block_num_to_pos.seekp( sizeof(e)*block_header::num_from_id(id) );
      _block_num_to_pos.write( (char*)&e, sizeof(e) );
   }
} FC_CAPTURE_AND_RETHROW( (id) ) }

bool block_database::contains( const block_id_type& id )const
{
   if( id == block_id_type() )
      return false;

   index_entry e;
   auto index_pos = sizeof(e)*block_header::num_from_id(id);
   _block_num_to_pos.seekg( 0, _block_num_to_pos.end );
   if ( _block_num_to_pos.tellg() <= index_pos )
      return false;
   _block_num_to_pos.seekg( index_pos );
   _block_num_to_pos.read( (char*)&e, sizeof(e) );

   return e.block_id == id && e.block_size > 0;
}

block_id_type block_database::fetch_block_id( uint32_t block_num )const
{
   assert( block_num != 0 );
   index_entry e;
   auto index_pos = sizeof(e)*block_num;
   _block_num_to_pos.seekg( 0, _block_num_to_pos.end );
   if ( _block_num_to_pos.tellg() <= int64_t(index_pos) )
      FC_THROW_EXCEPTION(fc::key_not_found_exception, "Block number ${block_num} not contained in block database", ("block_num", block_num));

   _block_num_to_pos.seekg( index_pos );
   _block_num_to_pos.read( (char*)&e, sizeof(e) );

   FC_ASSERT( e.block_id != block_id_type(), "Empty block_id in block_database (maybe corrupt on disk?)" );
   return e.block_id;
}

optional<signed_block> block_database::fetch_optional( const block_id_type& id )const
{
   try
   {
      index_entry e;
      auto index_pos = sizeof(e)*block_header::num_from_id(id);
      _block_num_to_pos.seekg( 0, _block_num_to_pos.end );
      if ( _block_num_to_pos.tellg() <= index_pos )
         return {};

      _block_num_to_pos.seekg( index_pos );
      _block_num_to_pos.read( (char*)&e, sizeof(e) );

      if( e.block_id != id ) return optional<signed_block>();

      vector<char> data( e.block_size );
      _blocks.seekg( e.block_pos );
      if (e.block_size)
         _blocks.read( data.data(), e.block_size );
      auto result = fc::raw::unpack<signed_block>(data);
      FC_ASSERT( result.id() == e.block_id );
      return result;
   }
   catch (const fc::exception&)
   {
   }
   catch (const std::exception&)
   {
   }
   return optional<signed_block>();
}

optional<signed_block> block_database::fetch_by_number( uint32_t block_num )const
{
   try
   {
      index_entry e;
      auto index_pos = sizeof(e)*block_num;
      _block_num_to_pos.seekg( 0, _block_num_to_pos.end );
      if ( _block_num_to_pos.tellg() <= index_pos )
         return {};

      _block_num_to_pos.seekg( index_pos, _block_num_to_pos.beg );
      _block_num_to_pos.read( (char*)&e, sizeof(e) );

      vector<char> data( e.block_size );
      _blocks.seekg( e.block_pos );
      _blocks.read( data.data(), e.block_size );
      auto result = fc::raw::unpack<signed_block>(data);
      FC_ASSERT( result.id() == e.block_id );
      return result;
   }
   catch (const fc::exception&)
   {
   }
   catch (const std::exception&)
   {
   }
   return optional<signed_block>();
}

optional<signed_block> block_database::last()const
{
   try
   {
      index_entry e;
      _block_num_to_pos.seekg( 0, _block_num_to_pos.end );

      if( _block_num_to_pos.tellp() < sizeof(index_entry) )
         return optional<signed_block>();

      _block_num_to_pos.seekg( -sizeof(index_entry), _block_num_to_pos.end );
      _block_num_to_pos.read( (char*)&e, sizeof(e) );
      uint64_t pos = _block_num_to_pos.tellg();
      while( e.block_size == 0 && pos > 0 )
      {
         pos -= sizeof(index_entry);
         _block_num_to_pos.seekg( pos );
         _block_num_to_pos.read( (char*)&e, sizeof(e) );
      }

      if( e.block_size == 0 )
         return optional<signed_block>();

      vector<char> data( e.block_size );
      _blocks.seekg( e.block_pos );
      _blocks.read( data.data(), e.block_size );
      auto result = fc::raw::unpack<signed_block>(data);
      return result;
   }
   catch (const fc::exception&)
   {
   }
   catch (const std::exception&)
   {
   }
   return optional<signed_block>();
}

optional<block_id_type> block_database::last_id()const
{
   try
   {
      index_entry e;
      _block_num_to_pos.seekg( 0, _block_num_to_pos.end );

      if( _block_num_to_pos.tellp() < sizeof(index_entry) )
         return optional<block_id_type>();

      _block_num_to_pos.seekg( -sizeof(index_entry), _block_num_to_pos.end );
      _block_num_to_pos.read( (char*)&e, sizeof(e) );
      uint64_t pos = _block_num_to_pos.tellg();
      while( e.block_size == 0 && pos > 0 )
      {
         pos -= sizeof(index_entry);
         _block_num_to_pos.seekg( pos );
         _block_num_to_pos.read( (char*)&e, sizeof(e) );
      }

      if( e.block_size == 0 )
         return optional<block_id_type>();

      return e.block_id;
   }
   catch (const fc::exception&)
   {
   }
   catch (const std::exception&)
   {
   }
   return optional<block_id_type>();
}


} }