DarkflameServer/dCommon/FdbToSqlite.cpp
David Markowitz bad3845d83
Address Docker issues and remove need to extract cdclient.fdb (#895)
* Implement a server res directory

* Only convert if neither exist

* Remove unzip, Update RegEx

* readme updates

Run setup after setting working dir

Address several docker issues

Revert "Run setup after setting working dir"

This reverts commit fd2fb9228e82a350204c1ef61f7ba059479bb12f.

Fix docker

* Remove extra submodules

* Rework logic

* Switch if block

* Remove need to extract fdb from client

* Change log name

* Update FdbToSqlite.cpp
2023-01-06 23:04:20 -06:00

248 lines
7.2 KiB
C++

#include "FdbToSqlite.h"
#include <map>
#include <fstream>
#include <cassert>
#include <iomanip>
#include "BinaryIO.h"
#include "CDClientDatabase.h"
#include "GeneralUtils.h"
#include "Game.h"
#include "dLogger.h"
#include "AssetManager.h"
#include "eSqliteDataType.h"
std::map<eSqliteDataType, std::string> FdbToSqlite::Convert::m_SqliteType = {
{ eSqliteDataType::NONE, "none"},
{ eSqliteDataType::INT32, "int32"},
{ eSqliteDataType::REAL, "real"},
{ eSqliteDataType::TEXT_4, "text_4"},
{ eSqliteDataType::INT_BOOL, "int_bool"},
{ eSqliteDataType::INT64, "int64"},
{ eSqliteDataType::TEXT_8, "text_8"}
};
FdbToSqlite::Convert::Convert(std::string binaryOutPath) {
this->m_BinaryOutPath = binaryOutPath;
}
bool FdbToSqlite::Convert::ConvertDatabase(AssetMemoryBuffer& buffer) {
if (m_ConversionStarted) return false;
std::istream cdClientBuffer(&buffer);
this->m_ConversionStarted = true;
try {
CDClientDatabase::Connect(m_BinaryOutPath + "/CDServer.sqlite");
CDClientDatabase::ExecuteQuery("BEGIN TRANSACTION;");
int32_t numberOfTables = ReadInt32(cdClientBuffer);
ReadTables(numberOfTables, cdClientBuffer);
CDClientDatabase::ExecuteQuery("COMMIT;");
} catch (CppSQLite3Exception& e) {
Game::logger->Log("FdbToSqlite", "Encountered error %s converting FDB to SQLite", e.errorMessage());
return false;
}
return true;
}
int32_t FdbToSqlite::Convert::ReadInt32(std::istream& cdClientBuffer) {
int32_t nextInt{};
BinaryIO::BinaryRead(cdClientBuffer, nextInt);
return nextInt;
}
int64_t FdbToSqlite::Convert::ReadInt64(std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int64_t value{};
BinaryIO::BinaryRead(cdClientBuffer, value);
cdClientBuffer.seekg(prevPosition);
return value;
}
std::string FdbToSqlite::Convert::ReadString(std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
auto readString = BinaryIO::ReadString(cdClientBuffer);
cdClientBuffer.seekg(prevPosition);
return readString;
}
int32_t FdbToSqlite::Convert::SeekPointer(std::istream& cdClientBuffer) {
int32_t position{};
BinaryIO::BinaryRead(cdClientBuffer, position);
int32_t prevPosition = cdClientBuffer.tellg();
cdClientBuffer.seekg(position);
return prevPosition;
}
std::string FdbToSqlite::Convert::ReadColumnHeader(std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t numberOfColumns = ReadInt32(cdClientBuffer);
std::string tableName = ReadString(cdClientBuffer);
auto columns = ReadColumns(numberOfColumns, cdClientBuffer);
std::string newTable = "CREATE TABLE IF NOT EXISTS '" + tableName + "' (" + columns + ");";
CDClientDatabase::ExecuteDML(newTable);
cdClientBuffer.seekg(prevPosition);
return tableName;
}
void FdbToSqlite::Convert::ReadTables(int32_t& numberOfTables, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
for (int32_t i = 0; i < numberOfTables; i++) {
auto columnHeader = ReadColumnHeader(cdClientBuffer);
ReadRowHeader(columnHeader, cdClientBuffer);
}
cdClientBuffer.seekg(prevPosition);
}
std::string FdbToSqlite::Convert::ReadColumns(int32_t& numberOfColumns, std::istream& cdClientBuffer) {
std::stringstream columnsToCreate;
int32_t prevPosition = SeekPointer(cdClientBuffer);
std::string name{};
eSqliteDataType dataType{};
for (int32_t i = 0; i < numberOfColumns; i++) {
if (i != 0) columnsToCreate << ", ";
dataType = static_cast<eSqliteDataType>(ReadInt32(cdClientBuffer));
name = ReadString(cdClientBuffer);
columnsToCreate << "'" << name << "' " << FdbToSqlite::Convert::m_SqliteType[dataType];
}
cdClientBuffer.seekg(prevPosition);
return columnsToCreate.str();
}
void FdbToSqlite::Convert::ReadRowHeader(std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t numberOfAllocatedRows = ReadInt32(cdClientBuffer);
if (numberOfAllocatedRows != 0) assert((numberOfAllocatedRows & (numberOfAllocatedRows - 1)) == 0); // assert power of 2 allocation size
ReadRows(numberOfAllocatedRows, tableName, cdClientBuffer);
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRows(int32_t& numberOfAllocatedRows, std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t rowid = 0;
for (int32_t row = 0; row < numberOfAllocatedRows; row++) {
int32_t rowPointer = ReadInt32(cdClientBuffer);
if (rowPointer == -1) rowid++;
else ReadRow(rowPointer, tableName, cdClientBuffer);
}
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRow(int32_t& position, std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = cdClientBuffer.tellg();
cdClientBuffer.seekg(position);
while (true) {
ReadRowInfo(tableName, cdClientBuffer);
int32_t linked = ReadInt32(cdClientBuffer);
if (linked == -1) break;
cdClientBuffer.seekg(linked);
}
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRowInfo(std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t numberOfColumns = ReadInt32(cdClientBuffer);
ReadRowValues(numberOfColumns, tableName, cdClientBuffer);
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRowValues(int32_t& numberOfColumns, std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t emptyValue{};
int32_t intValue{};
float_t floatValue{};
std::string stringValue{};
int32_t boolValue{};
int64_t int64Value{};
bool insertedFirstEntry = false;
std::stringstream insertedRow;
insertedRow << "INSERT INTO " << tableName << " values (";
for (int32_t i = 0; i < numberOfColumns; i++) {
if (i != 0) insertedRow << ", "; // Only append comma and space after first entry in row.
switch (static_cast<eSqliteDataType>(ReadInt32(cdClientBuffer))) {
case eSqliteDataType::NONE:
BinaryIO::BinaryRead(cdClientBuffer, emptyValue);
assert(emptyValue == 0);
insertedRow << "NULL";
break;
case eSqliteDataType::INT32:
intValue = ReadInt32(cdClientBuffer);
insertedRow << intValue;
break;
case eSqliteDataType::REAL:
BinaryIO::BinaryRead(cdClientBuffer, floatValue);
insertedRow << std::fixed << std::setprecision(34) << floatValue; // maximum precision of floating point number
break;
case eSqliteDataType::TEXT_4:
case eSqliteDataType::TEXT_8: {
stringValue = ReadString(cdClientBuffer);
size_t position = 0;
// Need to escape quote with a double of ".
while (position < stringValue.size()) {
if (stringValue.at(position) == '\"') {
stringValue.insert(position, "\"");
position++;
}
position++;
}
insertedRow << "\"" << stringValue << "\"";
break;
}
case eSqliteDataType::INT_BOOL:
BinaryIO::BinaryRead(cdClientBuffer, boolValue);
insertedRow << static_cast<bool>(boolValue);
break;
case eSqliteDataType::INT64:
int64Value = ReadInt64(cdClientBuffer);
insertedRow << std::to_string(int64Value);
break;
default:
throw std::invalid_argument("Unsupported SQLite type encountered.");
break;
}
}
insertedRow << ");";
auto copiedString = insertedRow.str();
CDClientDatabase::ExecuteDML(copiedString);
cdClientBuffer.seekg(prevPosition);
}