Exemple #1
0
RetCode StmtHandler::Execute(ExecutedResult* exec_result) {
  GETCURRENTTIME(start_time);
  RetCode ret = rSuccess;
  sql_parser_ = new Parser(sql_stmt_);
  AstNode* raw_ast = sql_parser_->GetRawAST();
  if (NULL == raw_ast) {
    exec_result->error_info_ = "Parser Error";
    exec_result->status_ = false;
    exec_result->result_ = NULL;
    return rParserError;
  }
  raw_ast->Print();
  ret = GenerateStmtExec(raw_ast);
  if (rSuccess != ret) {
    return ret;
  }
  ret = stmt_exec_->Execute(exec_result);
  if (rSuccess != ret) {
    return ret;
  }
  double exec_time_ms = GetElapsedTime(start_time);
  if (NULL != exec_result->result_)
    exec_result->result_->query_time_ = exec_time_ms / 1000.0;
  cout << "execute time: " << exec_time_ms / 1000.0 << " sec" << endl;
  return rSuccess;
}
Exemple #2
0
void RDAUserDatabase::extendAuthTokenValidity(const Wt::Auth::User& user)
{
	RDATData *prev=NULL;
	char *d=NULL,*t=NULL;
  /*
   * David: find the token with hash 'loginTokenHash_' (for this user)
   * and reset the expiration time to 30 minutes.
   */

	if(SEC_TOKEN_FILENO==(-1))
	{
    		return;
	}
	ZERNRD(SEC_TOKEN_FILENO);
	FINDFLDSETSTRING(SEC_TOKEN_FILENO,"TOKEN",loginTokenHash_.c_str());
	if(!EQLNRD(SEC_TOKEN_FILENO,1))
	{
		prev=RDATDataNEW(SEC_TOKEN_FILENO);
		FINDFLDSETCHAR(SEC_TOKEN_FILENO,"DELETEFLAG",FALSE);
		FINDFLDSETSTRING(SEC_TOKEN_FILENO,"USER IDENTIFICATION",user.id().c_str());
		d=GETCURRENTDATE10();
		t=GETCURRENTTIME();
		if(d!=NULL) Rfree(d);
		if(t!=NULL) Rfree(t);
		WRTTRANS(SEC_TOKEN_FILENO,0,NULL,prev);
		if(prev!=NULL) FreeRDATData(prev);
	}
}
Exemple #3
0
static void set_appdefaults(RDArsrc *mtnrsrc,mtnstruct *mtn,short update)
{
	char *date=NULL,*timex=NULL;

	FINDRSCSETSTRING(mtnrsrc,"[VENINV][SOURCE USER]",USERLOGIN);
        date=GETCURRENTDATE();
        timex=GETCURRENTTIME();
	FINDRSCSETSTRING(mtnrsrc,"[VENINV][ENTRY DATE]",date);
	FINDRSCSETSTRING(mtnrsrc,"[VENINV][ENTRY TIME]",timex);
	if(date!=NULL) Rfree(date);
        if(timex!=NULL) Rfree(timex);
	setaddresses(mtnrsrc,mtn,update);
	if(update)
	{
		updatersrc(mtnrsrc,"[VENINV][SOURCE USER]");
		updatersrc(mtnrsrc,"[VENINV][ENTRY DATE]");
		updatersrc(mtnrsrc,"[VENINV][ENTRY TIME]");
	}
}
Exemple #4
0
void RDAUserDatabase::addAuthToken (const Wt::Auth::User &user,
				    const Wt::Auth::Token &token)
{
	char *d=NULL,*t=NULL;
	RDATData *prev=NULL;
  /*
   * David: add a token for the user to the database, with token.hash() and
   * token.expirationTime() WDatetime values
   */

	loginTokenHash_ = token.hash();
/*
	std::cerr << "SEC_TOKEN_FILENO [" << SEC_TOKEN_FILENO << "]" << std::endl;
*/
	if(SEC_TOKEN_FILENO==(-1))
	{
    		return;
	}

	ZERNRD(SEC_TOKEN_FILENO);
	FINDFLDSETSTRING(SEC_TOKEN_FILENO,"TOKEN",token.hash().c_str());
	FINDFLDSETCHAR(SEC_TOKEN_FILENO,"DELETEFLAG",FALSE);
	FINDFLDSETSTRING(SEC_TOKEN_FILENO,"USER IDENTIFICATION",user.id().c_str());
	d=GETCURRENTDATE10();
	t=GETCURRENTTIME();
	WRTTRANS(SEC_TOKEN_FILENO,0,NULL,prev);

	ZERNRD(SEC_USERS_FILENO);
	FINDFLDSETSTRING(SEC_USERS_FILENO,"USER IDENTIFICATION",user.id().c_str());
	if(EQLNRD(SEC_USERS_FILENO,1))
	{
		KEYNRD(SEC_USERS_FILENO,1);
	} else {
		prev=RDATDataNEW(SEC_USERS_FILENO);
		FINDFLDSETSTRING(SEC_USERS_FILENO,"LAST LOGIN ATTEMPT DATE",d);
		FINDFLDSETSTRING(SEC_USERS_FILENO,"LAST LOGIN ATTEMPT TIME",t);
		WRTTRANS(SEC_USERS_FILENO,0,NULL,prev);
		if(prev!=NULL) FreeRDATData(prev);
	}
	if(d!=NULL) Rfree(d);
	if(t!=NULL) Rfree(t);
}
Exemple #5
0
static void printerrorlist(RDArsrc *parent,RDA_PFILE *fp)
{
	int x;
	char *date=NULL,*timex=NULL;

	if(fp!=NULL)
	{
		date=GETCURRENTDATE();
		timex=GETCURRENTTIME();
		RDA_fprintf(fp,"                     XPERT MAKE GUI SCREENS ERROR LIST          Date: %*s\n",8,date);
			RDA_fprintf(fp,"%*sExecuted By: %s%*sTime: %s\n\n",
			 ((80-(14+RDAstrlen(USERLOGIN)))/2),
			"",USERLOGIN,
			(((80-(14+RDAstrlen(USERLOGIN)))/2)-14),"",
			timex);
		if(date!=NULL) Rfree(date);
		if(timex!=NULL) Rfree(timex);
		for(x=0;x<errorlist->numlibs;++x)
		{
			RDA_fprintf(fp,"(%5d) %s\n",(x+1),errorlist->libs[x]);
		}
		RDA_fprintf(fp,"\f");
	}
}
Exemple #6
0
double Timer::ElapsedTime()
{
  GETCURRENTTIME(current);
  return LastElapsedTime();
}
Exemple #7
0
long long Timer::ElapsedTicks()
{
  GETCURRENTTIME(current);
  return LastElapsedTicks();
}
Exemple #8
0
void Timer::Reset()
{
  GETCURRENTTIME(start);
  current=start;
}
Exemple #9
0
RetCode StmtHandler::Execute(ExecutedResult* exec_result) {
  GETCURRENTTIME(start_time);
  RetCode ret = rSuccess;
  sql_parser_ = new Parser(sql_stmt_, (exec_result->info_));
  AstNode* raw_ast = sql_parser_->GetRawAST();
  if (NULL == raw_ast) {
    exec_result->error_info_ = "Parser Error\n" + exec_result->info_;
    exec_result->status_ = false;
    exec_result->result_ = NULL;
    return rSQLParserErr;
  }
  raw_ast->Print();
  ret = GenerateStmtExec(raw_ast);
  if (rSuccess != ret) {
    return ret;
  }
  trim(sql_stmt_);
  to_lower(sql_stmt_);
  // not select stmt
  if (sql_stmt_.substr(0, 6) != string("select")) {
    ret = stmt_exec_->Execute(exec_result);
    if (rSuccess != ret) {
      return ret;
    }
  } else {
    // select stmt
    StmtExecStatus* exec_status = new StmtExecStatus(sql_stmt_);
    exec_status->RegisterToTracker();
    stmt_exec_->set_stmt_exec_status(exec_status);
    ret = stmt_exec_->Execute();
    if (rSuccess != ret) {
      exec_result->result_ = NULL;
      exec_result->status_ = false;
      exec_result->error_info_ = sql_stmt_ + string(" execution error!");
      exec_status->set_exec_status(StmtExecStatus::ExecStatus::kError);
      return ret;
    } else {
      if (StmtExecStatus::ExecStatus::kCancelled ==
          exec_status->get_exec_status()) {
        exec_result->result_ = NULL;
        exec_result->status_ = false;
        exec_result->error_info_ = sql_stmt_ + string(" have been cancelled!");
        exec_status->set_exec_status(StmtExecStatus::ExecStatus::kError);

      } else if (StmtExecStatus::ExecStatus::kOk ==
                 exec_status->get_exec_status()) {
        exec_result->result_ = exec_status->get_query_result();
        exec_result->status_ = true;
        exec_result->info_ = exec_status->get_exec_info();
        exec_status->set_exec_status(StmtExecStatus::ExecStatus::kDone);

      } else {
        assert(false);
        exec_status->set_exec_status(StmtExecStatus::ExecStatus::kError);
      }
    }
  }
  double exec_time_ms = GetElapsedTime(start_time);
  if (NULL != exec_result->result_) {
    exec_result->result_->query_time_ = exec_time_ms / 1000.0;
  }
  cout << "execute time: " << exec_time_ms / 1000.0 << " sec" << endl;
  return rSuccess;
}