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/*************************************************************************
* UrBackup - Client/Server backup system
* Copyright (C) 2011-2016 Martin Raiber
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
**************************************************************************/
#ifndef NO_SQLITE
#include "vld.h"
#include "Query.h"
#ifndef BDBPLUGIN
#include "Server.h"
#else
#include "Interface/Server.h"
#ifdef LINUX
#include "bdbplugin/config.h"
#include DB_HEADER
#else
#include <db.h>
#endif
#endif
#ifdef USE_SYSTEM_SQLITE
#include <sqlite3.h>
#else
#include "sqlite/sqlite3.h"
#endif
#include "Database.h"
#include "DatabaseCursor.h"
#include <memory.h>
#include <algorithm>
#include "stringtools.h"
#ifdef LOG_QUERIES
IMutex* CQuery::active_mutex;
std::vector<std::string> CQuery::active_queries;
#endif
CQuery::CQuery(const std::string &pStmt_str, sqlite3_stmt *prepared_statement, CDatabase *pDB)
: stmt_str(pStmt_str), cursor(NULL)
{
ps=prepared_statement;
curr_idx=1;
db=pDB;
}
CQuery::~CQuery()
{
int err=sqlite3_finalize(ps);
if( err!=SQLITE_OK && err!=SQLITE_BUSY && err!=SQLITE_IOERR_BLOCKED )
Server->Log("SQL: "+(std::string)sqlite3_errmsg(db->getDatabase())+ " Stmt: ["+stmt_str+"]", LL_ERROR);
if( err==SQLITE_IOERR )
{
Server->setFailBit(IServer::FAIL_DATABASE_IOERR);
}
if (err == SQLITE_FULL)
{
Server->setFailBit(IServer::FAIL_DATABASE_FULL);
}
delete cursor;
}
void CQuery::init_mutex(void)
{
#ifdef LOG_QUERIES
active_mutex=Server->createMutex();
#endif
}
void CQuery::Bind(const std::string &str)
{
int err=sqlite3_bind_text(ps, curr_idx, str.c_str(), (int)str.size(), SQLITE_TRANSIENT);
if( err!=SQLITE_OK )
Server->Log("Error binding text to Query Stmt: ["+stmt_str+"]", LL_ERROR);
++curr_idx;
}
void CQuery::Bind(const char* buffer, _u32 bsize)
{
int err=sqlite3_bind_blob(ps, curr_idx, buffer, bsize, SQLITE_TRANSIENT);
if( err!=SQLITE_OK )
Server->Log("Error binding blob to Query Stmt: ["+stmt_str+"]", LL_ERROR);
++curr_idx;
}
void CQuery::Bind(int p)
{
int err=sqlite3_bind_int(ps, curr_idx, p);
if( err!=SQLITE_OK )
Server->Log("Error binding int to Query Stmt: ["+stmt_str+"]", LL_ERROR);
++curr_idx;
}
void CQuery::Bind(unsigned int p)
{
Bind((int64)p);
}
void CQuery::Bind(double p)
{
int err=sqlite3_bind_double(ps, curr_idx, p);
if( err!=SQLITE_OK )
Server->Log("Error binding double to Query Stmt: ["+stmt_str+"]", LL_ERROR);
++curr_idx;
}
void CQuery::Bind(int64 p)
{
int err=sqlite3_bind_int64(ps, curr_idx, p);
if( err!=SQLITE_OK )
Server->Log("Error binding int64 to Query Stmt: ["+stmt_str+"]", LL_ERROR);
++curr_idx;
}
#if defined(_WIN64) || defined(_LP64)
void CQuery::Bind(size_t p)
{
Bind((int64)p);
}
#endif
void CQuery::Reset(void)
{
sqlite3_reset(ps);
//sqlite3_clear_bindings(ps);
curr_idx=1;
}
bool CQuery::Write(int timeoutms)
{
IScopedReadLock lock(db->getSingleUseMutex());
#ifdef LOG_WRITE_QUERIES
ScopedAddActiveQuery active_query(this);
#endif
return Execute(timeoutms);
}
bool CQuery::Execute(int timeoutms)
{
//Server->Log("Write: "+stmt_str);
bool transaction_lock=false;
int tries=60; //10min
if(timeoutms>=0)
{
sqlite3_busy_timeout(db->getDatabase(), timeoutms);
}
int err=sqlite3_step(ps);
while( err==SQLITE_IOERR_BLOCKED
|| err==SQLITE_BUSY
|| err==SQLITE_PROTOCOL
|| err==SQLITE_ROW
|| err==SQLITE_LOCKED )
{
if(err==SQLITE_IOERR_BLOCKED)
{
Server->Log("SQlite is blocked!", LL_ERROR);
}
if(err==SQLITE_BUSY
|| err==SQLITE_IOERR_BLOCKED
|| err==SQLITE_PROTOCOL )
{
if(timeoutms>=0)
{
break;
}
else if(!db->isInTransaction() && !transaction_lock)
{
sqlite3_reset(ps);
if(db->LockForTransaction())
{
Server->Log("LockForTransaction in CQuery::Execute Stmt: ["+stmt_str+"]", LL_DEBUG);
transaction_lock=true;
}
}
else
{
sqlite3_reset(ps);
--tries;
if(tries==-1)
{
Server->Log("SQLITE: Long running query Stmt: ["+stmt_str+"]", LL_ERROR);
showActiveQueries(LL_ERROR);
}
else if(tries>=0)
{
Server->Log("SQLITE_BUSY in CQuery::Execute Stmt: ["+stmt_str+"]", LL_INFO);
showActiveQueries(LL_INFO);
}
}
}
else if(err==SQLITE_LOCKED)
{
if(transaction_lock)
{
db->UnlockForTransaction();
transaction_lock=false;
Server->Log("UnlockForTransaction in CQuery::Execute after SQLITE_LOCKED Stmt: ["+stmt_str+"]", LL_DEBUG);
}
if(!db->WaitForUnlock())
{
Server->Log("DEADLOCK in CQuery::Execute Stmt: ["+stmt_str+"]", LL_ERROR);
showActiveQueries(LL_ERROR);
Server->wait(1000);
if(timeoutms>=0)
{
timeoutms-=1000;
if(timeoutms<=0)
break;
}
}
}
err=sqlite3_step(ps);
}
if(transaction_lock)
{
db->UnlockForTransaction();
}
if(timeoutms>=0)
{
sqlite3_busy_timeout(db->getDatabase(), c_sqlite_busy_timeout_default);
}
//Server->Log("Write done: "+stmt_str);
if( err==SQLITE_IOERR )
{
Server->setFailBit(IServer::FAIL_DATABASE_IOERR);
}
if(err==SQLITE_CORRUPT)
{
Server->setFailBit(IServer::FAIL_DATABASE_CORRUPTED);
}
if (err == SQLITE_FULL)
{
Server->setFailBit(IServer::FAIL_DATABASE_FULL);
}
if( err!=SQLITE_DONE )
{
if(timeoutms<0)
{
Server->Log("Error in CQuery::Execute - "+(std::string)sqlite3_errmsg(db->getDatabase()) +" Stmt: ["+stmt_str+"]", LL_ERROR);
}
return false;
}
return true;
}
void CQuery::setupStepping(int *timeoutms, bool with_read_lock)
{
if (with_read_lock)
{
single_use_lock.reset(new IScopedReadLock(db->getSingleUseMutex()));
}
if(timeoutms!=NULL && *timeoutms>=0)
{
sqlite3_busy_timeout(db->getDatabase(), *timeoutms);
}
}
void CQuery::shutdownStepping(int err, int *timeoutms, bool& transaction_lock)
{
if(timeoutms!=NULL && *timeoutms>=0)
{
sqlite3_busy_timeout(db->getDatabase(), c_sqlite_busy_timeout_default);
}
if (err == SQLITE_ROW)
{
sqlite3_reset(ps);
}
if(timeoutms!=NULL)
{
if(err!=SQLITE_DONE)
{
*timeoutms=1;
}
else
{
*timeoutms=0;
}
}
if(transaction_lock)
{
db->UnlockForTransaction();
}
if(err==SQLITE_IOERR)
{
Server->setFailBit(IServer::FAIL_DATABASE_IOERR);
}
if(err==SQLITE_CORRUPT)
{
Server->setFailBit(IServer::FAIL_DATABASE_CORRUPTED);
}
if (err == SQLITE_FULL)
{
Server->setFailBit(IServer::FAIL_DATABASE_FULL);
}
single_use_lock.reset();
}
db_results CQuery::Read(int *timeoutms)
{
IScopedReadLock lock(db->getSingleUseMutex());
int err;
db_results rows;
bool transaction_lock=false;
int tries=60; //10min
#ifdef LOG_READ_QUERIES
ScopedAddActiveQuery active_query(this);
#endif
setupStepping(timeoutms, false);
db_single_result res;
do
{
bool reset=false;
err=step(res, timeoutms, tries, transaction_lock, reset);
if(reset)
{
rows.clear();
}
if(err==SQLITE_ROW)
{
rows.push_back(res);
res.clear();
}
}
while(resultOkay(err));
shutdownStepping(err, timeoutms, transaction_lock);
return rows;
}
bool CQuery::resultOkay(int rc)
{
return rc==SQLITE_BUSY ||
rc==SQLITE_PROTOCOL ||
rc==SQLITE_ROW ||
rc==SQLITE_IOERR_BLOCKED;
}
namespace
{
std::string ustring_sqlite3_column_name(sqlite3_stmt* ps, int N)
{
const char* c_name = sqlite3_column_name(ps, N);
if(c_name==NULL)
{
return std::string();
}
return std::string(c_name);
}
}
int CQuery::step(db_single_result& res, int *timeoutms, int& tries, bool& transaction_lock, bool& reset)
{
int err=sqlite3_step(ps);
if( resultOkay(err) )
{
if( err==SQLITE_BUSY
|| err==SQLITE_PROTOCOL
|| err==SQLITE_IOERR_BLOCKED )
{
if(timeoutms!=NULL && *timeoutms>=0)
{
return SQLITE_ABORT;
}
else if(!db->isInTransaction() && !transaction_lock)
{
sqlite3_reset(ps);
reset=true;
if(db->LockForTransaction())
{
Server->Log("LockForTransaction in CQuery::Read Stmt: ["+stmt_str+"]", LL_DEBUG);
transaction_lock=true;
}
}
else
{
sqlite3_reset(ps);
reset=true;
--tries;
if(tries==-1)
{
Server->Log("SQLITE: Long runnning query Stmt: ["+stmt_str+"]", LL_ERROR);
showActiveQueries(LL_ERROR);
}
else
{
Server->Log("SQLITE_BUSY in CQuery::Read Stmt: ["+stmt_str+"]", LL_INFO);
showActiveQueries(LL_INFO);
}
}
}
else if( err==SQLITE_ROW )
{
int column=0;
std::string column_name;
while( !(column_name=ustring_sqlite3_column_name(ps, column) ).empty() )
{
const void* data;
int data_size;
if(sqlite3_column_type(ps, column)==SQLITE_BLOB)
{
data = sqlite3_column_blob(ps, column);
data_size =sqlite3_column_bytes(ps, column);
}
else
{
data = sqlite3_column_text(ps, column);
data_size = sqlite3_column_bytes(ps, column);
}
std::string datastr(reinterpret_cast<const char*>(data), reinterpret_cast<const char*>(data)+data_size);
res.insert( std::pair<std::string, std::string>(column_name, datastr) );
++column;
}
}
else
{
Server->wait(1000);
if(timeoutms!=NULL && *timeoutms>=0)
{
*timeoutms-=1000;
if(*timeoutms<=0)
{
return SQLITE_ABORT;
}
}
}
}
return err;
}
IDatabaseCursor* CQuery::Cursor(int *timeoutms)
{
if(cursor==NULL)
{
cursor=new DatabaseCursor(this, timeoutms);
}
else
{
if (!cursor->reset())
return NULL;
}
return cursor;
}
std::string CQuery::getStatement(void)
{
return stmt_str;
}
std::string CQuery::getErrMsg(void)
{
return std::string(sqlite3_errmsg(db->getDatabase()));
}
void CQuery::addActiveQuery(const std::string& query_str)
{
#ifdef LOG_QUERIES
IScopedLock lock(active_mutex);
active_queries.push_back(query_str);
#endif
}
void CQuery::removeActiveQuery(const std::string& query_str)
{
#ifdef LOG_QUERIES
IScopedLock lock(active_mutex);
std::vector<std::string>::iterator iter =
std::find(active_queries.begin(), active_queries.end(),
query_str);
if(iter!=active_queries.end())
active_queries.erase(iter);
#endif
}
void CQuery::showActiveQueries(int loglevel)
{
#ifdef LOG_QUERIES
IScopedLock lock(active_mutex);
for(size_t i=0;i<active_queries.size();++i)
{
Server->Log("Active query("+convert(i)+"): "+active_queries[i], loglevel);
}
#endif
}
#endif
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