mirror of
https://github.com/DarkflameUniverse/DarkflameServer
synced 2024-08-30 18:43:58 +00:00
296 lines
9.1 KiB
C++
296 lines
9.1 KiB
C++
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#include "TableSerializer.h"
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#include "DS_Table.h"
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#include "BitStream.h"
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#include "StringCompressor.h"
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#include "RakAssert.h"
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void TableSerializer::SerializeTable(DataStructures::Table *in, RakNet::BitStream *out)
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{
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DataStructures::Page<unsigned, DataStructures::Table::Row*, _TABLE_BPLUS_TREE_ORDER> *cur = in->GetRows().GetListHead();
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DataStructures::List<DataStructures::Table::ColumnDescriptor> &columns=in->GetColumns();
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SerializeColumns(in, out);
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out->Write((unsigned)in->GetRows().Size());
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unsigned rowIndex;
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while (cur)
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{
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for (rowIndex=0; rowIndex < (unsigned)cur->size; rowIndex++)
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{
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SerializeRow(cur->data[rowIndex], cur->keys[rowIndex], columns, out);
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}
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cur=cur->next;
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}
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}
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void TableSerializer::SerializeColumns(DataStructures::Table *in, RakNet::BitStream *out)
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{
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DataStructures::List<DataStructures::Table::ColumnDescriptor> &columns=in->GetColumns();
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out->Write((unsigned)columns.Size());
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unsigned i;
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for (i=0; i<columns.Size(); i++)
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{
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stringCompressor->EncodeString(columns[i].columnName, _TABLE_MAX_COLUMN_NAME_LENGTH, out);
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out->Write((unsigned char)columns[i].columnType);
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}
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}
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void TableSerializer::SerializeColumns(DataStructures::Table *in, RakNet::BitStream *out, DataStructures::List<int> &skipColumnIndices)
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{
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DataStructures::List<DataStructures::Table::ColumnDescriptor> &columns=in->GetColumns();
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out->Write((unsigned)columns.Size()-skipColumnIndices.Size());
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unsigned i;
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for (i=0; i<columns.Size(); i++)
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{
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if (skipColumnIndices.GetIndexOf(i)==(unsigned)-1)
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{
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stringCompressor->EncodeString(columns[i].columnName, _TABLE_MAX_COLUMN_NAME_LENGTH, out);
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out->Write((unsigned char)columns[i].columnType);
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}
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}
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}
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bool TableSerializer::DeserializeTable(unsigned char *serializedTable, unsigned int dataLength, DataStructures::Table *out)
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{
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RakNet::BitStream in((unsigned char*) serializedTable, dataLength, false);
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return DeserializeTable(&in, out);
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}
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bool TableSerializer::DeserializeTable(RakNet::BitStream *in, DataStructures::Table *out)
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{
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unsigned rowSize;
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DeserializeColumns(in,out);
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if (in->Read(rowSize)==false || rowSize>100000)
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return false; // Hacker crash prevention
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unsigned rowIndex;
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for (rowIndex=0; rowIndex < rowSize; rowIndex++)
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{
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if (DeserializeRow(in, out)==false)
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return false;
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}
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return true;
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}
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bool TableSerializer::DeserializeColumns(RakNet::BitStream *in, DataStructures::Table *out)
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{
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unsigned columnSize;
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unsigned char columnType;
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char columnName[_TABLE_MAX_COLUMN_NAME_LENGTH];
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if (in->Read(columnSize)==false || columnSize > 10000)
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return false; // Hacker crash prevention
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out->Clear();
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unsigned i;
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for (i=0; i<columnSize; i++)
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{
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stringCompressor->DecodeString(columnName, 32, in);
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in->Read(columnType);
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out->AddColumn(columnName, (DataStructures::Table::ColumnType)columnType);
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}
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return true;
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}
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void TableSerializer::SerializeRow(DataStructures::Table::Row *in, unsigned keyIn, DataStructures::List<DataStructures::Table::ColumnDescriptor> &columns, RakNet::BitStream *out)
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{
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unsigned cellIndex;
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out->Write(keyIn);
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for (cellIndex=0; cellIndex<columns.Size(); cellIndex++)
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{
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SerializeCell(out, in->cells[cellIndex], columns[cellIndex].columnType);
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}
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}
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void TableSerializer::SerializeRow(DataStructures::Table::Row *in, unsigned keyIn, DataStructures::List<DataStructures::Table::ColumnDescriptor> &columns, RakNet::BitStream *out, DataStructures::List<int> &skipColumnIndices)
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{
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unsigned cellIndex;
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out->Write(keyIn);
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for (cellIndex=0; cellIndex<columns.Size(); cellIndex++)
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{
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if (skipColumnIndices.GetIndexOf(cellIndex)==(unsigned)-1)
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{
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SerializeCell(out, in->cells[cellIndex], columns[cellIndex].columnType);
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}
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}
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}
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bool TableSerializer::DeserializeRow(RakNet::BitStream *in, DataStructures::Table *out)
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{
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DataStructures::List<DataStructures::Table::ColumnDescriptor> &columns=out->GetColumns();
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unsigned cellIndex;
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DataStructures::Table::Row *row;
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unsigned key;
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if (in->Read(key)==false)
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return false;
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row=out->AddRow(key);
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for (cellIndex=0; cellIndex<columns.Size(); cellIndex++)
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{
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if (DeserializeCell(in, row->cells[cellIndex], columns[cellIndex].columnType)==false)
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{
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out->RemoveRow(key);
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return false;
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}
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}
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return true;
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}
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void TableSerializer::SerializeCell(RakNet::BitStream *out, DataStructures::Table::Cell *cell, DataStructures::Table::ColumnType columnType)
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{
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out->Write(cell->isEmpty);
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if (cell->isEmpty==false)
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{
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if (columnType==DataStructures::Table::NUMERIC)
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{
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out->Write(cell->i);
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}
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else if (columnType==DataStructures::Table::STRING)
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{
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stringCompressor->EncodeString(cell->c, 65535, out);
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}
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else if (columnType==DataStructures::Table::POINTER)
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{
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out->Write(cell->ptr);
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}
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else
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{
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// Binary
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assert(columnType==DataStructures::Table::BINARY);
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RakAssert(cell->i>0);
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out->Write((unsigned)cell->i);
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out->WriteAlignedBytes((const unsigned char*) cell->c, cell->i);
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}
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}
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}
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bool TableSerializer::DeserializeCell(RakNet::BitStream *in, DataStructures::Table::Cell *cell, DataStructures::Table::ColumnType columnType)
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{
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bool isEmpty;
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int value;
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void *ptr;
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char tempString[65535];
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cell->Clear();
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if (in->Read(isEmpty)==false)
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return false;
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if (isEmpty==false)
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{
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if (columnType==DataStructures::Table::NUMERIC)
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{
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if (in->Read(value)==false)
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return false;
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cell->Set(value);
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}
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else if (columnType==DataStructures::Table::STRING)
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{
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if (stringCompressor->DecodeString(tempString, 65535, in)==false)
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return false;
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cell->Set(tempString);
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}
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else if (columnType==DataStructures::Table::POINTER)
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{
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if (in->Read(ptr)==false)
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return false;
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cell->SetPtr(ptr);
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}
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else
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{
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// Binary
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assert(columnType==DataStructures::Table::BINARY);
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if (in->Read(value)==false || value > 10000000)
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return false; // Sanity check to max binary cell of 10 megabytes
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in->AlignReadToByteBoundary();
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if (BITS_TO_BYTES(in->GetNumberOfUnreadBits())<(BitSize_t)value)
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return false;
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cell->Set((char*) in->GetData()+BITS_TO_BYTES(in->GetReadOffset()), value);
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in->IgnoreBits(BYTES_TO_BITS(value));
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}
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}
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return true;
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}
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void TableSerializer::SerializeFilterQuery(RakNet::BitStream *in, DataStructures::Table::FilterQuery *query)
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{
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stringCompressor->EncodeString(query->columnName,_TABLE_MAX_COLUMN_NAME_LENGTH,in,0);
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in->WriteCompressed(query->columnIndex);
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in->Write((unsigned char) query->operation);
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in->Write(query->cellValue->isEmpty);
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if (query->cellValue->isEmpty==false)
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{
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in->WriteAlignedBytesSafe((const char*)query->cellValue->c,query->cellValue->i,10000000); // Sanity check to max binary cell of 10 megabytes
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in->Write(query->cellValue->i);
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in->Write(query->cellValue->ptr);
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}
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}
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bool TableSerializer::DeserializeFilterQuery(RakNet::BitStream *out, DataStructures::Table::FilterQuery *query)
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{
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bool b;
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RakAssert(query->cellValue);
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stringCompressor->DecodeString(query->columnName,_TABLE_MAX_COLUMN_NAME_LENGTH,out,0);
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out->ReadCompressed(query->columnIndex);
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unsigned char op;
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out->Read(op);
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query->operation=(DataStructures::Table::FilterQueryType) op;
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query->cellValue->Clear();
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b=out->Read(query->cellValue->isEmpty);
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if (query->cellValue->isEmpty==false)
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{
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// HACK - cellValue->i is used for integer, character, and binary data. However, for character and binary c will be 0. So use that to determine if the data was integer or not.
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BitSize_t inputLength;
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out->ReadAlignedBytesSafeAlloc(&query->cellValue->c,inputLength,10000000); // Sanity check to max binary cell of 10 megabytes
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query->cellValue->i=(int) inputLength;
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if (query->cellValue->c==0)
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out->Read(query->cellValue->i);
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else
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out->IgnoreBytes(sizeof(query->cellValue->i));
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b=out->Read(query->cellValue->ptr);
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}
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return b;
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}
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void TableSerializer::SerializeFilterQueryList(RakNet::BitStream *in, DataStructures::Table::FilterQuery *query, unsigned int numQueries, unsigned int maxQueries)
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{
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in->Write((bool)(query && numQueries>0));
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if (query==0 || numQueries<=0)
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return;
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RakAssert(numQueries<=maxQueries);
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in->WriteCompressed(numQueries);
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unsigned i;
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for (i=0; i < numQueries; i++)
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{
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SerializeFilterQuery(in, query);
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}
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}
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bool TableSerializer::DeserializeFilterQueryList(RakNet::BitStream *out, DataStructures::Table::FilterQuery **query, unsigned int *numQueries, unsigned int maxQueries, int allocateExtraQueries)
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{
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bool b, anyQueries=false;
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out->Read(anyQueries);
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if (anyQueries==false)
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{
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if (allocateExtraQueries<=0)
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*query=0;
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else
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*query=new DataStructures::Table::FilterQuery[allocateExtraQueries];
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*numQueries=0;
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return true;
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}
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b=out->ReadCompressed(*numQueries);
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if (*numQueries>maxQueries)
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{
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RakAssert(0);
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*numQueries=maxQueries;
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}
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if (*numQueries==0)
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return b;
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*query=new DataStructures::Table::FilterQuery[*numQueries+allocateExtraQueries];
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DataStructures::Table::FilterQuery *queryPtr = *query;
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unsigned i;
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for (i=0; i < *numQueries; i++)
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{
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queryPtr[i].cellValue=new DataStructures::Table::Cell;
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b=DeserializeFilterQuery(out, queryPtr+i);
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}
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return b;
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}
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void TableSerializer::DeallocateQueryList(DataStructures::Table::FilterQuery *query, unsigned int numQueries)
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{
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if (query==0 || numQueries==0)
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return;
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unsigned i;
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for (i=0; i < numQueries; i++)
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delete query[i].cellValue;
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delete [] query;
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}
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