/* Copyright (C) 2003 MySQL AB

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 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 General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA */


#define DBTUP_C
#include "Dbtup.hpp"
#include <RefConvert.hpp>
#include <ndb_limits.h>
#include <pc.hpp>
#include <AttributeDescriptor.hpp>
#include "AttributeOffset.hpp"
#include <AttributeHeader.hpp>
#include <signaldata/FireTrigOrd.hpp>
#include <signaldata/CreateTrig.hpp>
#include <signaldata/TuxMaint.hpp>

#define ljam() { jamLine(7000 + __LINE__); }
#define ljamEntry() { jamEntryLine(7000 + __LINE__); }

/* **************************************************************** */
/* ---------------------------------------------------------------- */
/* ----------------------- TRIGGER HANDLING ----------------------- */
/* ---------------------------------------------------------------- */
/* **************************************************************** */

ArrayList<Dbtup::TupTriggerData>*
Dbtup::findTriggerList(Tablerec* table,
                       TriggerType::Value ttype,
                       TriggerActionTime::Value ttime,
                       TriggerEvent::Value tevent)
{
  ArrayList<TupTriggerData>* tlist = NULL;
  switch (ttype) {
  case TriggerType::SUBSCRIPTION:
  case TriggerType::SUBSCRIPTION_BEFORE:
    switch (tevent) {
    case TriggerEvent::TE_INSERT:
      ljam();
      if (ttime == TriggerActionTime::TA_DETACHED)
        tlist = &table->subscriptionInsertTriggers;
      break;
    case TriggerEvent::TE_UPDATE:
      ljam();
      if (ttime == TriggerActionTime::TA_DETACHED)
        tlist = &table->subscriptionUpdateTriggers;
      break;
    case TriggerEvent::TE_DELETE:
      ljam();
      if (ttime == TriggerActionTime::TA_DETACHED)
        tlist = &table->subscriptionDeleteTriggers;
      break;
    default:
      break;
    }
    break;
  case TriggerType::SECONDARY_INDEX:
    switch (tevent) {
    case TriggerEvent::TE_INSERT:
      ljam();
      if (ttime == TriggerActionTime::TA_AFTER)
        tlist = &table->afterInsertTriggers;
      break;
    case TriggerEvent::TE_UPDATE:
      ljam();
      if (ttime == TriggerActionTime::TA_AFTER)
        tlist = &table->afterUpdateTriggers;
      break;
    case TriggerEvent::TE_DELETE:
      ljam();
      if (ttime == TriggerActionTime::TA_AFTER)
        tlist = &table->afterDeleteTriggers;
      break;
    default:
      break;
    }
    break;
  case TriggerType::ORDERED_INDEX:
    switch (tevent) {
    case TriggerEvent::TE_CUSTOM:
      ljam();
      if (ttime == TriggerActionTime::TA_CUSTOM)
        tlist = &table->tuxCustomTriggers;
      break;
    default:
      break;
    }
    break;
  case TriggerType::READ_ONLY_CONSTRAINT:
    switch (tevent) {
    case TriggerEvent::TE_UPDATE:
      ljam();
      if (ttime == TriggerActionTime::TA_AFTER)
        tlist = &table->constraintUpdateTriggers;
      break;
    default:
      break;
    }
    break;
  default:
    break;
  }
  return tlist;
}

// Trigger signals
void
Dbtup::execCREATE_TRIG_REQ(Signal* signal)
{
  ljamEntry();
  BlockReference senderRef = signal->getSendersBlockRef();
  const CreateTrigReq reqCopy = *(const CreateTrigReq*)signal->getDataPtr();
  const CreateTrigReq* const req = &reqCopy;
  CreateTrigRef::ErrorCode error= CreateTrigRef::NoError;

  // Find table
  TablerecPtr tabPtr;
  tabPtr.i = req->getTableId();
  ptrCheckGuard(tabPtr, cnoOfTablerec, tablerec);

  if (tabPtr.p->tableStatus != DEFINED )
  {
    ljam();
    error= CreateTrigRef::InvalidTable;
  }
  // Create trigger and associate it with the table
  else if (createTrigger(tabPtr.p, req))
  {
    ljam();
    // Send conf
    CreateTrigConf* const conf = (CreateTrigConf*)signal->getDataPtrSend();
    conf->setUserRef(reference());
    conf->setConnectionPtr(req->getConnectionPtr());
    conf->setRequestType(req->getRequestType());
    conf->setTableId(req->getTableId());
    conf->setIndexId(req->getIndexId());
    conf->setTriggerId(req->getTriggerId());
    conf->setTriggerInfo(req->getTriggerInfo());
    sendSignal(senderRef, GSN_CREATE_TRIG_CONF, 
               signal, CreateTrigConf::SignalLength, JBB);
    return;
  }
  else
  {
    ljam();
    error= CreateTrigRef::TooManyTriggers;
  }
  ndbassert(error != CreateTrigRef::NoError);
  // Send ref
  CreateTrigRef* const ref = (CreateTrigRef*)signal->getDataPtrSend();
  ref->setUserRef(reference());
  ref->setConnectionPtr(req->getConnectionPtr());
  ref->setRequestType(req->getRequestType());
  ref->setTableId(req->getTableId());
  ref->setIndexId(req->getIndexId());
  ref->setTriggerId(req->getTriggerId());
  ref->setTriggerInfo(req->getTriggerInfo());
  ref->setErrorCode(error);
  sendSignal(senderRef, GSN_CREATE_TRIG_REF, 
	     signal, CreateTrigRef::SignalLength, JBB);
}//Dbtup::execCREATE_TRIG_REQ()

void
Dbtup::execDROP_TRIG_REQ(Signal* signal)
{
  ljamEntry();
  BlockReference senderRef = signal->getSendersBlockRef();
  const DropTrigReq reqCopy = *(const DropTrigReq*)signal->getDataPtr();
  const DropTrigReq* const req = &reqCopy;

  // Find table
  TablerecPtr tabPtr;
  tabPtr.i = req->getTableId();
  ptrCheckGuard(tabPtr, cnoOfTablerec, tablerec);

  // Drop trigger
  Uint32 r = dropTrigger(tabPtr.p, req);
  if (r == 0){
    // Send conf
    DropTrigConf* const conf = (DropTrigConf*)signal->getDataPtrSend();
    conf->setUserRef(senderRef);
    conf->setConnectionPtr(req->getConnectionPtr());
    conf->setRequestType(req->getRequestType());
    conf->setTableId(req->getTableId());
    conf->setIndexId(req->getIndexId());
    conf->setTriggerId(req->getTriggerId());
    sendSignal(senderRef, GSN_DROP_TRIG_CONF, 
	       signal, DropTrigConf::SignalLength, JBB);
  } else {
    // Send ref
    DropTrigRef* const ref = (DropTrigRef*)signal->getDataPtrSend();
    ref->setUserRef(senderRef);
    ref->setConnectionPtr(req->getConnectionPtr());
    ref->setRequestType(req->getRequestType());
    ref->setTableId(req->getTableId());
    ref->setIndexId(req->getIndexId());
    ref->setTriggerId(req->getTriggerId());
    ref->setErrorCode((DropTrigRef::ErrorCode)r);
    ref->setErrorLine(__LINE__);
    ref->setErrorNode(refToNode(reference()));
    sendSignal(senderRef, GSN_DROP_TRIG_REF, 
	       signal, DropTrigRef::SignalLength, JBB);
  }
}//Dbtup::DROP_TRIG_REQ()

/* ---------------------------------------------------------------- */
/* ------------------------- createTrigger ------------------------ */
/*                                                                  */
/* Creates a new trigger record by fetching one from the trigger    */
/* pool and associates it with the given table.                     */
/* Trigger type can be one of secondary_index, subscription,        */
/* constraint(NYI), foreign_key(NYI), schema_upgrade(NYI),          */
/* api_trigger(NYI) or sql_trigger(NYI).                            */   
/* Note that this method only checks for total number of allowed    */
/* triggers. Checking the number of allowed triggers per table is   */
/* done by TRIX.                                                    */
/*                                                                  */
/* ---------------------------------------------------------------- */
bool
Dbtup::createTrigger(Tablerec* table, const CreateTrigReq* req)
{
  if (ERROR_INSERTED(4003)) {
    CLEAR_ERROR_INSERT_VALUE;
    return false;
  }
  TriggerType::Value ttype = req->getTriggerType();
  TriggerActionTime::Value ttime = req->getTriggerActionTime();
  TriggerEvent::Value tevent = req->getTriggerEvent();

  ArrayList<TupTriggerData>* tlist = findTriggerList(table, ttype, ttime, tevent);
  ndbrequire(tlist != NULL);

  TriggerPtr tptr;
  if (!tlist->seize(tptr))
    return false;

  // Set trigger id
  tptr.p->triggerId = req->getTriggerId();

  //  ndbout_c("Create TupTrigger %u = %u %u %u %u", tptr.p->triggerId, table, ttype, ttime, tevent);

  // Set index id
  tptr.p->indexId = req->getIndexId();

  // Set trigger type etc
  tptr.p->triggerType = ttype;
  tptr.p->triggerActionTime = ttime;
  tptr.p->triggerEvent = tevent;

  tptr.p->sendBeforeValues = true;
  if ((tptr.p->triggerType == TriggerType::SUBSCRIPTION) &&
      ((tptr.p->triggerEvent == TriggerEvent::TE_UPDATE) ||
       (tptr.p->triggerEvent == TriggerEvent::TE_DELETE))) {
    ljam();
    tptr.p->sendBeforeValues = false;
  }
  tptr.p->sendOnlyChangedAttributes = false;
  if (((tptr.p->triggerType == TriggerType::SUBSCRIPTION) ||
      (tptr.p->triggerType == TriggerType::SUBSCRIPTION_BEFORE)) &&
      (tptr.p->triggerEvent == TriggerEvent::TE_UPDATE)) {
    ljam();
    tptr.p->sendOnlyChangedAttributes = true;
  }

  // Set monitor all
  tptr.p->monitorAllAttributes = req->getMonitorAllAttributes();
  tptr.p->monitorReplicas = req->getMonitorReplicas();
  tptr.p->m_receiverBlock = refToBlock(req->getReceiverRef());

  tptr.p->attributeMask.clear();
  if (tptr.p->monitorAllAttributes) {
    ljam();
    for(Uint32 i = 0; i < table->m_no_of_attributes; i++) {
      if (!primaryKey(table, i)) {
        ljam();
        tptr.p->attributeMask.set(i);
      }
    }
  } else {
    // Set attribute mask
    ljam();
    tptr.p->attributeMask = req->getAttributeMask();
  }
  return true;
}//Dbtup::createTrigger()

bool
Dbtup::primaryKey(Tablerec* const regTabPtr, Uint32 attrId)
{
  Uint32 attrDescriptorStart = regTabPtr->tabDescriptor;
  Uint32 attrDescriptor = getTabDescrWord(attrDescriptorStart +
                                          (attrId * ZAD_SIZE));
  return (bool)AttributeDescriptor::getPrimaryKey(attrDescriptor);
}//Dbtup::primaryKey()

/* ---------------------------------------------------------------- */
/* -------------------------- dropTrigger ------------------------- */
/*                                                                  */
/* Deletes a trigger record by disassociating it with the given     */
/* table and returning it to the trigger pool.                      */
/* Trigger type can be one of secondary_index, subscription,        */
/* constraint(NYI), foreign_key(NYI), schema_upgrade(NYI),          */
/* api_trigger(NYI) or sql_trigger(NYI).                            */   
/*                                                                  */
/* ---------------------------------------------------------------- */
Uint32
Dbtup::dropTrigger(Tablerec* table, const DropTrigReq* req)
{
  if (ERROR_INSERTED(4004)) {
    CLEAR_ERROR_INSERT_VALUE;
    return 9999;
  }
  Uint32 triggerId = req->getTriggerId();

  TriggerType::Value ttype = req->getTriggerType();
  TriggerActionTime::Value ttime = req->getTriggerActionTime();
  TriggerEvent::Value tevent = req->getTriggerEvent();

  //  ndbout_c("Drop TupTrigger %u = %u %u %u %u", triggerId, table, ttype, ttime, tevent);

  ArrayList<TupTriggerData>* tlist = findTriggerList(table, ttype, ttime, tevent);
  ndbrequire(tlist != NULL);

  Ptr<TupTriggerData> ptr;
  for (tlist->first(ptr); !ptr.isNull(); tlist->next(ptr)) {
    ljam();
    if (ptr.p->triggerId == triggerId) {
      ljam();
      tlist->release(ptr.i);
      return 0;
    }
  }
  return DropTrigRef::TriggerNotFound;
}//Dbtup::dropTrigger()

/* ---------------------------------------------------------------- */
/* -------------- checkImmediateTriggersAfterOp ------------------ */
/*                                                                  */
/* Called after an insert, delete, or update operation takes        */
/* place. Fetches before tuple for deletes and updates and          */
/* after tuple for inserts and updates.                             */
/* Executes immediate triggers by sending FIRETRIGORD               */
/*                                                                  */
/* ---------------------------------------------------------------- */
void
Dbtup::checkImmediateTriggersAfterInsert(KeyReqStruct *req_struct,
                                         Operationrec* const regOperPtr, 
                                         Tablerec* const regTablePtr)
{
  if(refToBlock(req_struct->TC_ref) != DBTC) {
    return;
  }

  if ((regOperPtr->op_struct.primary_replica) &&
      (!(regTablePtr->afterInsertTriggers.isEmpty()))) {
    ljam();
    fireImmediateTriggers(req_struct,
                          regTablePtr->afterInsertTriggers,
                          regOperPtr);
  }
}

void
Dbtup::checkImmediateTriggersAfterUpdate(KeyReqStruct *req_struct,
                                         Operationrec* const regOperPtr, 
                                         Tablerec* const regTablePtr)
{
  if(refToBlock(req_struct->TC_ref) != DBTC) {
    return;
  }

  if ((regOperPtr->op_struct.primary_replica) &&
      (!(regTablePtr->afterUpdateTriggers.isEmpty()))) {
    ljam();
    fireImmediateTriggers(req_struct,
                          regTablePtr->afterUpdateTriggers,
                          regOperPtr);
  }
  if ((regOperPtr->op_struct.primary_replica) &&
      (!(regTablePtr->constraintUpdateTriggers.isEmpty()))) {
    ljam();
    fireImmediateTriggers(req_struct,
                          regTablePtr->constraintUpdateTriggers,
                          regOperPtr);
  }
}

void
Dbtup::checkImmediateTriggersAfterDelete(KeyReqStruct *req_struct,
                                         Operationrec* const regOperPtr, 
                                         Tablerec* const regTablePtr)
{
  if(refToBlock(req_struct->TC_ref) != DBTC) {
    return;
  }

  if ((regOperPtr->op_struct.primary_replica) &&
      (!(regTablePtr->afterDeleteTriggers.isEmpty()))) {
    ljam();
    executeTriggers(req_struct,
                    regTablePtr->afterDeleteTriggers,
                    regOperPtr);
  }
}

#if 0
/* ---------------------------------------------------------------- */
/* --------------------- checkDeferredTriggers -------------------- */
/*                                                                  */
/* Called before commit after an insert, delete, or update          */
/* operation. Fetches before tuple for deletes and updates and      */
/* after tuple for inserts and updates.                             */
/* Executes deferred triggers by sending FIRETRIGORD                */
/*                                                                  */
/* ---------------------------------------------------------------- */
void Dbtup::checkDeferredTriggers(Signal* signal, 
                                  Operationrec* const regOperPtr,
                                  Tablerec* const regTablePtr)
{
  ljam();
  // NYI
}//Dbtup::checkDeferredTriggers()
#endif

/* ---------------------------------------------------------------- */
/* --------------------- checkDetachedTriggers -------------------- */
/*                                                                  */
/* Called at commit after an insert, delete, or update operation.   */
/* Fetches before tuple for deletes and updates and                 */
/* after tuple for inserts and updates.                             */
/* Executes detached triggers by sending FIRETRIGORD                */
/*                                                                  */
/* ---------------------------------------------------------------- */
void Dbtup::checkDetachedTriggers(KeyReqStruct *req_struct,
                                  Operationrec* const regOperPtr,
                                  Tablerec* const regTablePtr)
{
  
  switch(regOperPtr->op_struct.op_type) {
  case(ZINSERT):
    ljam();
    if (regTablePtr->subscriptionInsertTriggers.isEmpty()) {
      // Table has no active triggers monitoring inserts at commit
      ljam();
      return;
    }

    // If any fired immediate insert trigger then fetch after tuple
    fireDetachedTriggers(req_struct,
                         regTablePtr->subscriptionInsertTriggers, 
                         regOperPtr);
    break;
  case(ZDELETE):
    ljam();
    if (regTablePtr->subscriptionDeleteTriggers.isEmpty()) {
      // Table has no active triggers monitoring deletes at commit
      ljam();
      return;
    }

    // Execute any after delete triggers by sending 
    // FIRETRIGORD with the before tuple
    fireDetachedTriggers(req_struct,
			 regTablePtr->subscriptionDeleteTriggers, 
			 regOperPtr);
    break;
  case(ZUPDATE):
    ljam();
    if (regTablePtr->subscriptionUpdateTriggers.isEmpty()) {
      // Table has no active triggers monitoring updates at commit
      ljam();
      return;
    }

    // If any fired immediate update trigger then fetch after tuple
    // and send two FIRETRIGORD one with before tuple and one with after tuple
    fireDetachedTriggers(req_struct,
                         regTablePtr->subscriptionUpdateTriggers, 
                         regOperPtr);
    break;
  default:
    ndbrequire(false);
    break;
  }
}

void 
Dbtup::fireImmediateTriggers(KeyReqStruct *req_struct,
                             ArrayList<TupTriggerData>& triggerList, 
                             Operationrec* const regOperPtr)
{
  TriggerPtr trigPtr;
  triggerList.first(trigPtr);
  while (trigPtr.i != RNIL) {
    ljam();
    if (trigPtr.p->monitorAllAttributes ||
        trigPtr.p->attributeMask.overlaps(req_struct->changeMask)) {
      ljam();
      executeTrigger(req_struct,
                     trigPtr.p,
                     regOperPtr);
    }//if
    triggerList.next(trigPtr);
  }//while
}//Dbtup::fireImmediateTriggers()

#if 0
void 
Dbtup::fireDeferredTriggers(Signal* signal,
                            KeyReqStruct *req_struct,
                            ArrayList<TupTriggerData>& triggerList, 
                            Operationrec* const regOperPtr)
{
  TriggerPtr trigPtr;
  triggerList.first(trigPtr);
  while (trigPtr.i != RNIL) {
    ljam();
    if (trigPtr.p->monitorAllAttributes ||
        trigPtr.p->attributeMask.overlaps(req_struct->changeMask)) {
      ljam();
      executeTrigger(req_struct,
                     trigPtr,
                     regOperPtr);
    }//if
    triggerList.next(trigPtr);
  }//while
}//Dbtup::fireDeferredTriggers()
#endif

void 
Dbtup::fireDetachedTriggers(KeyReqStruct *req_struct,
                            ArrayList<TupTriggerData>& triggerList, 
                            Operationrec* const regOperPtr)
{
  
  TriggerPtr trigPtr;  
  Uint32 save= regOperPtr->op_struct.op_type;
  Tuple_header *save_ptr = req_struct->m_tuple_ptr;  

  switch(save){
  case ZUPDATE:
  case ZINSERT:
    req_struct->m_tuple_ptr = (Tuple_header*)
      c_undo_buffer.get_ptr(&regOperPtr->m_copy_tuple_location);
    break;
  }

  /**
   * Set correct operation type and fix change mask
   * Note ALLOC is set in "orig" tuple
   */
  if(save_ptr->m_header_bits & Tuple_header::ALLOC)
  {
    if(save == ZDELETE)
    {
      // insert + delete = nothing
      ljam();
      return;
      goto end;
    }
    regOperPtr->op_struct.op_type = ZINSERT;
  }
  else if (save == ZINSERT)
  /**
   * Tuple was not created but last op is INSERT.
   * This is possible only on DELETE + INSERT
   */
  {
    regOperPtr->op_struct.op_type = ZUPDATE;
  }

  ndbrequire(regOperPtr->is_first_operation());
  triggerList.first(trigPtr);
  while (trigPtr.i != RNIL) {
    ljam();
    if ((trigPtr.p->monitorReplicas ||
         regOperPtr->op_struct.primary_replica) &&
        (trigPtr.p->monitorAllAttributes ||
         trigPtr.p->attributeMask.overlaps(req_struct->changeMask))) {
      ljam();
      executeTrigger(req_struct,
                     trigPtr.p,
                     regOperPtr);
    }
    triggerList.next(trigPtr);
  }

end:
  regOperPtr->op_struct.op_type = save;
  req_struct->m_tuple_ptr = save_ptr;
}

void Dbtup::executeTriggers(KeyReqStruct *req_struct,
                            ArrayList<TupTriggerData>& triggerList, 
                            Operationrec* regOperPtr)
{
  TriggerPtr trigPtr;
  triggerList.first(trigPtr);
  while (trigPtr.i != RNIL) {
    ljam();
    executeTrigger(req_struct,
                   trigPtr.p,
                   regOperPtr);
    triggerList.next(trigPtr);

  }
}

void Dbtup::executeTrigger(KeyReqStruct *req_struct,
                           TupTriggerData* const trigPtr,
                           Operationrec* const regOperPtr)
{

  /**
   * The block below does not work together with GREP.
   * I have 2 db nodes (2 replicas) -> one node group.
   * I want to have FIRETRIG_ORD sent to all SumaParticipants,
   * from all nodes in the node group described above. However, 
   * only one of the nodes in the node group actually sends the
   *  FIRE_TRIG_ORD, and the other node enters this "hack" below.
   * I don't really know what the code snippet below does, but it
   * does not work with GREP the way Lars and I want it.
   * We need to have triggers fired from both the primary and the
   * backup replica, not only the primary as it is now.
   * 
   * Note: In Suma, I have changed triggers to be created with
   * setMonitorReplicas(true).
   * /Johan
   *
   * See RT 709
   */
  // XXX quick fix to NR, should fix in LQHKEYREQ instead
  /*  
      if (refToBlock(req_struct->TC_ref) == DBLQH) {
      jam();
      return;
      }
  */
  Signal* signal= req_struct->signal;
  BlockReference ref = trigPtr->m_receiverBlock;
  Uint32* const keyBuffer = &cinBuffer[0];
  Uint32* const afterBuffer = &coutBuffer[0];
  Uint32* const beforeBuffer = &clogMemBuffer[0];
  
  Uint32 noPrimKey, noAfterWords, noBeforeWords;
  FragrecordPtr regFragPtr;
  regFragPtr.i= regOperPtr->fragmentPtr;
  ptrCheckGuard(regFragPtr, cnoOfFragrec, fragrecord);

  if (ref == BACKUP) {
    ljam();
    /*
    In order for the implementation of BACKUP to work even when changing
    primaries in the middle of the backup we need to set the trigger on
    all replicas. This check checks whether this is the node where this
    trigger should be fired. The check should preferably have been put
    completely in the BACKUP block but it was about five times simpler
    to put it here and also much faster for the backup (small overhead
    for everybody else.
    */
    signal->theData[0] = trigPtr->triggerId;
    signal->theData[1] = regFragPtr.p->fragmentId;
    EXECUTE_DIRECT(BACKUP, GSN_BACKUP_TRIG_REQ, signal, 2);
    ljamEntry();
    if (signal->theData[0] == 0) {
      ljam();
      return;
    }
  }
  if (!readTriggerInfo(trigPtr,
                       regOperPtr,
                       req_struct,
                       regFragPtr.p,
                       keyBuffer,
                       noPrimKey,
                       afterBuffer,
                       noAfterWords,
                       beforeBuffer,
                       noBeforeWords)) {
    ljam();
    return;
  }
//--------------------------------------------------------------------
// Now all data for this trigger has been read. It is now time to send
// the trigger information consisting of two or three sets of TRIG_
// ATTRINFO signals and one FIRE_TRIG_ORD signal.
// We start by setting common header info for all TRIG_ATTRINFO signals.
//--------------------------------------------------------------------
  bool executeDirect;
  TrigAttrInfo* const trigAttrInfo = (TrigAttrInfo *)signal->getDataPtrSend();
  trigAttrInfo->setConnectionPtr(req_struct->TC_index);
  trigAttrInfo->setTriggerId(trigPtr->triggerId);

  switch(trigPtr->triggerType) {
  case (TriggerType::SECONDARY_INDEX):
    ljam();
    ref = req_struct->TC_ref;
    executeDirect = false;
    break;
  case (TriggerType::SUBSCRIPTION):
  case (TriggerType::SUBSCRIPTION_BEFORE):
    ljam();
    // Since only backup uses subscription triggers we send to backup directly for now
    ref = trigPtr->m_receiverBlock;
    executeDirect = true;
    break;
  case (TriggerType::READ_ONLY_CONSTRAINT):
    terrorCode = ZREAD_ONLY_CONSTRAINT_VIOLATION;
    // XXX should return status and abort the rest
    return;
  default:
    ndbrequire(false);
    executeDirect= false; // remove warning
  }//switch

  req_struct->no_fired_triggers++;

  trigAttrInfo->setAttrInfoType(TrigAttrInfo::PRIMARY_KEY);
  sendTrigAttrInfo(signal, keyBuffer, noPrimKey, executeDirect, ref);

  switch(regOperPtr->op_struct.op_type) {
  case(ZINSERT):
    ljam();
    // Send AttrInfo signals with new attribute values
    trigAttrInfo->setAttrInfoType(TrigAttrInfo::AFTER_VALUES);
    sendTrigAttrInfo(signal, afterBuffer, noAfterWords, executeDirect, ref);
    break;
  case(ZDELETE):
    if (trigPtr->sendBeforeValues) {
      ljam();
      trigAttrInfo->setAttrInfoType(TrigAttrInfo::BEFORE_VALUES);
      sendTrigAttrInfo(signal, beforeBuffer, noBeforeWords, executeDirect,ref);
    }
    break;
  case(ZUPDATE):
    ljam();
    if (trigPtr->sendBeforeValues) {
      ljam();
      trigAttrInfo->setAttrInfoType(TrigAttrInfo::BEFORE_VALUES);
      sendTrigAttrInfo(signal, beforeBuffer, noBeforeWords, executeDirect,ref);
    }
    trigAttrInfo->setAttrInfoType(TrigAttrInfo::AFTER_VALUES);
    sendTrigAttrInfo(signal, afterBuffer, noAfterWords, executeDirect, ref);
    break;
  default:
    ndbrequire(false);
  }
  sendFireTrigOrd(signal,
                  req_struct,
                  regOperPtr,
                  trigPtr,
		  regFragPtr.p->fragmentId,
                  noPrimKey,
                  noBeforeWords,
                  noAfterWords);
}

Uint32 Dbtup::setAttrIds(Bitmask<MAXNROFATTRIBUTESINWORDS>& attributeMask, 
                         Uint32 m_no_of_attributesibutes, 
                         Uint32* inBuffer)
{
  Uint32 bufIndx = 0;
  for (Uint32 i = 0; i < m_no_of_attributesibutes; i++) {
    ljam();
    if (attributeMask.get(i)) {
      ljam();
      AttributeHeader::init(&inBuffer[bufIndx++], i, 0);
    }
  }
  return bufIndx;
}

bool Dbtup::readTriggerInfo(TupTriggerData* const trigPtr,
                            Operationrec* const regOperPtr,
                            KeyReqStruct *req_struct,
                            Fragrecord* const regFragPtr,
                            Uint32* const keyBuffer,
                            Uint32& noPrimKey,
                            Uint32* const afterBuffer,
                            Uint32& noAfterWords,
                            Uint32* const beforeBuffer,
                            Uint32& noBeforeWords)
{
  //XXX this will not work with varsize attributes...
  noAfterWords = 0;
  noBeforeWords = 0;
  Uint32 readBuffer[MAX_ATTRIBUTES_IN_TABLE];

//---------------------------------------------------------------------------
// Set-up variables needed by readAttributes operPtr.p, tabptr.p
//---------------------------------------------------------------------------
  operPtr.p = regOperPtr;
  tabptr.i = regFragPtr->fragTableId;
  ptrCheckGuard(tabptr, cnoOfTablerec, tablerec);

  Tablerec* const regTabPtr = tabptr.p;
  Uint32 num_attr= regTabPtr->m_no_of_attributes;
  Uint32 descr_start= regTabPtr->tabDescriptor;
  ndbrequire(descr_start + (num_attr << ZAD_LOG_SIZE) <= cnoOfTabDescrRec);

  req_struct->check_offset[MM]= regTabPtr->get_check_offset(MM);
  req_struct->check_offset[DD]= regTabPtr->get_check_offset(DD);
  req_struct->attr_descr= &tableDescriptor[descr_start];

//--------------------------------------------------------------------
// Read Primary Key Values
//--------------------------------------------------------------------
  if (regTabPtr->need_expand(false)) // no disk 
    prepare_read(req_struct, regTabPtr, false); // setup varsize
  
  int ret = readAttributes(req_struct,
			   &tableDescriptor[regTabPtr->readKeyArray].tabDescr,
			   regTabPtr->noOfKeyAttr,
			   keyBuffer,
			   ZATTR_BUFFER_SIZE,
			   false);
  ndbrequire(ret != -1);
  noPrimKey= ret;

  Uint32 numAttrsToRead;
  if ((regOperPtr->op_struct.op_type == ZUPDATE) &&
      (trigPtr->sendOnlyChangedAttributes)) {
    ljam();
//--------------------------------------------------------------------
// Update that sends only changed information
//--------------------------------------------------------------------
    Bitmask<MAXNROFATTRIBUTESINWORDS> attributeMask;
    attributeMask = trigPtr->attributeMask;
    attributeMask.bitAND(req_struct->changeMask);
    numAttrsToRead = setAttrIds(attributeMask, regTabPtr->m_no_of_attributes, 
				&readBuffer[0]);
    
  } else if ((regOperPtr->op_struct.op_type == ZDELETE) &&
             (!trigPtr->sendBeforeValues)) {
    ljam();
//--------------------------------------------------------------------
// Delete without sending before values only read Primary Key
//--------------------------------------------------------------------
    return true;
  } else {
    ljam();
//--------------------------------------------------------------------
// All others send all attributes that are monitored
//--------------------------------------------------------------------
    numAttrsToRead = setAttrIds(trigPtr->attributeMask, 
				regTabPtr->m_no_of_attributes, &readBuffer[0]);
  }
  ndbrequire(numAttrsToRead < MAX_ATTRIBUTES_IN_TABLE);
//--------------------------------------------------------------------
// Read Main tuple values
//--------------------------------------------------------------------
  if (regOperPtr->op_struct.op_type != ZDELETE)
  {
    ljam();
    int ret = readAttributes(req_struct,
			     &readBuffer[0],
			     numAttrsToRead,
			     afterBuffer,
			     ZATTR_BUFFER_SIZE,
			     false);
    ndbrequire(ret != -1);
    noAfterWords= ret;
  } else {
    ljam();
    noAfterWords = 0;
  }

//--------------------------------------------------------------------
// Read Copy tuple values for UPDATE's
//--------------------------------------------------------------------
// Initialise pagep and tuple offset for read of copy tuple
//--------------------------------------------------------------------
  if ((regOperPtr->op_struct.op_type == ZUPDATE || 
       regOperPtr->op_struct.op_type == ZDELETE) &&
      (trigPtr->sendBeforeValues)) {
    ljam();
    
    Tuple_header *save= req_struct->m_tuple_ptr;
    PagePtr tmp;
    if(regOperPtr->is_first_operation())
    {
      Uint32 *ptr= get_ptr(&tmp, &regOperPtr->m_tuple_location, regTabPtr);
      req_struct->m_tuple_ptr= (Tuple_header*)ptr;
    }
    else
    {
      Uint32 *ptr= 
	c_undo_buffer.get_ptr(&req_struct->prevOpPtr.p->m_copy_tuple_location);

      req_struct->m_tuple_ptr= (Tuple_header*)ptr;
    }

    if (regTabPtr->need_expand(false)) // no disk 
      prepare_read(req_struct, regTabPtr, false); // setup varsize
    
    int ret = readAttributes(req_struct,
			     &readBuffer[0],
			     numAttrsToRead,
			     beforeBuffer,
			     ZATTR_BUFFER_SIZE,
			     false);
    req_struct->m_tuple_ptr= save;
    ndbrequire(ret != -1);
    noBeforeWords = ret;
    if ((noAfterWords == noBeforeWords) &&
        (memcmp(afterBuffer, beforeBuffer, noAfterWords << 2) == 0)) {
//--------------------------------------------------------------------
// Although a trigger was fired it was not necessary since the old
// value and the new value was exactly the same
//--------------------------------------------------------------------
      ljam();
      //XXX does this work with collations?
      return false;
    }
  }
  return true;
}

void Dbtup::sendTrigAttrInfo(Signal* signal, 
                             Uint32* data, 
                             Uint32  dataLen,
                             bool    executeDirect,
                             BlockReference receiverReference)
{
  TrigAttrInfo* const trigAttrInfo = (TrigAttrInfo *)signal->getDataPtrSend();
  Uint32 sigLen;
  Uint32 dataIndex = 0;
  do {
    sigLen = dataLen - dataIndex;
    if (sigLen > TrigAttrInfo::DataLength) {
      ljam();
      sigLen = TrigAttrInfo::DataLength;
    }
    MEMCOPY_NO_WORDS(trigAttrInfo->getData(), 
                     data + dataIndex,
                     sigLen);
    if (executeDirect) {
      ljam();
      EXECUTE_DIRECT(receiverReference, 
                     GSN_TRIG_ATTRINFO,
                     signal,
		     TrigAttrInfo::StaticLength + sigLen);
      ljamEntry();
    } else {
      ljam();
      sendSignal(receiverReference, 
                 GSN_TRIG_ATTRINFO, 
                 signal, 
                 TrigAttrInfo::StaticLength + sigLen,
                 JBB);
    }
    dataIndex += sigLen;
  } while (dataLen != dataIndex);
}

void Dbtup::sendFireTrigOrd(Signal* signal,
                            KeyReqStruct *req_struct,
                            Operationrec * const regOperPtr, 
                            TupTriggerData* const trigPtr, 
			    Uint32 fragmentId,
                            Uint32 noPrimKeyWords, 
                            Uint32 noBeforeValueWords, 
                            Uint32 noAfterValueWords)
{
  FireTrigOrd* const fireTrigOrd = (FireTrigOrd *)signal->getDataPtrSend();
  
  fireTrigOrd->setConnectionPtr(req_struct->TC_index);
  fireTrigOrd->setTriggerId(trigPtr->triggerId);
  fireTrigOrd->fragId= fragmentId;

  switch(regOperPtr->op_struct.op_type) {
  case(ZINSERT):
    ljam();
    fireTrigOrd->setTriggerEvent(TriggerEvent::TE_INSERT);
    break;
  case(ZDELETE):
    ljam();
    fireTrigOrd->setTriggerEvent(TriggerEvent::TE_DELETE);
    break;
  case(ZUPDATE):
    ljam();
    fireTrigOrd->setTriggerEvent(TriggerEvent::TE_UPDATE);
    break;
  default:
    ndbrequire(false);
    break;
  }

  fireTrigOrd->setNoOfPrimaryKeyWords(noPrimKeyWords);
  fireTrigOrd->setNoOfBeforeValueWords(noBeforeValueWords);
  fireTrigOrd->setNoOfAfterValueWords(noAfterValueWords);

  switch(trigPtr->triggerType) {
  case (TriggerType::SECONDARY_INDEX):
    ljam();
    sendSignal(req_struct->TC_ref, GSN_FIRE_TRIG_ORD, 
               signal, FireTrigOrd::SignalLength, JBB);
    break;
  case (TriggerType::SUBSCRIPTION_BEFORE): // Only Suma
    ljam();
    // Since only backup uses subscription triggers we 
    // send to backup directly for now
    fireTrigOrd->setGCI(req_struct->gci);
    fireTrigOrd->setHashValue(req_struct->hash_value);
    EXECUTE_DIRECT(trigPtr->m_receiverBlock,
                   GSN_FIRE_TRIG_ORD,
                   signal,
		   FireTrigOrd::SignalWithHashValueLength);
    break;
  case (TriggerType::SUBSCRIPTION):
    ljam();
    // Since only backup uses subscription triggers we 
    // send to backup directly for now
    fireTrigOrd->setGCI(req_struct->gci);
    EXECUTE_DIRECT(trigPtr->m_receiverBlock,
                   GSN_FIRE_TRIG_ORD,
                   signal,
		   FireTrigOrd::SignalWithGCILength);
    break;
  default:
    ndbrequire(false);
    break;
  }
}

/*
 * Ordered index triggers.
 *
 * Insert: add entry to index
 * Update: add entry to index, de|ay remove until commit
 * Delete: do nothing, delay remove until commit
 * Commit: remove entry delayed from update and delete
 * Abort : remove entry added by insert and update
 *
 * See Notes.txt for the details.
 */

int
Dbtup::executeTuxInsertTriggers(Signal* signal,
                                Operationrec* const regOperPtr,
                                Fragrecord* const regFragPtr,
                                Tablerec* const regTabPtr)
{
  TuxMaintReq* const req = (TuxMaintReq*)signal->getDataPtrSend();
  // fill in constant part
  req->tableId = regFragPtr->fragTableId;
  req->fragId = regFragPtr->fragmentId;
  req->pageId = regOperPtr->m_tuple_location.m_page_no;
  req->pageIndex = regOperPtr->m_tuple_location.m_page_idx;
  req->tupVersion = regOperPtr->tupVersion;
  req->opInfo = TuxMaintReq::OpAdd;
  return addTuxEntries(signal, regOperPtr, regTabPtr);
}

int
Dbtup::executeTuxUpdateTriggers(Signal* signal,
                                Operationrec* const regOperPtr,
                                Fragrecord* const regFragPtr,
                                Tablerec* const regTabPtr)
{
  TuxMaintReq* const req = (TuxMaintReq*)signal->getDataPtrSend();
  // fill in constant part
  req->tableId = regFragPtr->fragTableId;
  req->fragId = regFragPtr->fragmentId;
  req->pageId = regOperPtr->m_tuple_location.m_page_no;
  req->pageIndex = regOperPtr->m_tuple_location.m_page_idx;
  req->tupVersion = regOperPtr->tupVersion;
  req->opInfo = TuxMaintReq::OpAdd;
  return addTuxEntries(signal, regOperPtr, regTabPtr);
}

int
Dbtup::addTuxEntries(Signal* signal,
                     Operationrec* regOperPtr,
                     Tablerec* regTabPtr)
{
  TuxMaintReq* const req = (TuxMaintReq*)signal->getDataPtrSend();
  const ArrayList<TupTriggerData>& triggerList = regTabPtr->tuxCustomTriggers;
  TriggerPtr triggerPtr;
  Uint32 failPtrI;
  triggerList.first(triggerPtr);
  while (triggerPtr.i != RNIL) {
    ljam();
    req->indexId = triggerPtr.p->indexId;
    req->errorCode = RNIL;
    EXECUTE_DIRECT(DBTUX, GSN_TUX_MAINT_REQ,
        signal, TuxMaintReq::SignalLength);
    ljamEntry();
    if (req->errorCode != 0) {
      ljam();
      terrorCode = req->errorCode;
      failPtrI = triggerPtr.i;
      goto fail;
    }
    triggerList.next(triggerPtr);
  }
  return 0;
fail:
  req->opInfo = TuxMaintReq::OpRemove;
  triggerList.first(triggerPtr);
  while (triggerPtr.i != failPtrI) {
    ljam();
    req->indexId = triggerPtr.p->indexId;
    req->errorCode = RNIL;
    EXECUTE_DIRECT(DBTUX, GSN_TUX_MAINT_REQ,
        signal, TuxMaintReq::SignalLength);
    ljamEntry();
    ndbrequire(req->errorCode == 0);
    triggerList.next(triggerPtr);
  }
#ifdef VM_TRACE
  ndbout << "aborted partial tux update: op " << hex << regOperPtr << endl;
#endif
  return -1;
}

int
Dbtup::executeTuxDeleteTriggers(Signal* signal,
                                Operationrec* const regOperPtr,
                                Fragrecord* const regFragPtr,
                                Tablerec* const regTabPtr)
{
  // do nothing
  return 0;
}

void
Dbtup::executeTuxCommitTriggers(Signal* signal,
                                Operationrec* regOperPtr,
                                Fragrecord* const regFragPtr,
                                Tablerec* const regTabPtr)
{
  TuxMaintReq* const req = (TuxMaintReq*)signal->getDataPtrSend();
  Uint32 tupVersion;
  if (regOperPtr->op_struct.op_type == ZINSERT) {
    if (! regOperPtr->op_struct.delete_insert_flag)
      return;
    ljam();
    tupVersion= decr_tup_version(regOperPtr->tupVersion);
  } else if (regOperPtr->op_struct.op_type == ZUPDATE) {
    ljam();
    tupVersion= decr_tup_version(regOperPtr->tupVersion);
  } else if (regOperPtr->op_struct.op_type == ZDELETE) {
    if (regOperPtr->op_struct.delete_insert_flag)
      return;
    ljam();
    tupVersion= regOperPtr->tupVersion;
  } else {
    ndbrequire(false);
    tupVersion= 0; // remove warning
  }
  // fill in constant part
  req->tableId = regFragPtr->fragTableId;
  req->fragId = regFragPtr->fragmentId;
  req->pageId = regOperPtr->m_tuple_location.m_page_no;
  req->pageIndex = regOperPtr->m_tuple_location.m_page_idx;
  req->tupVersion = tupVersion;
  req->opInfo = TuxMaintReq::OpRemove;
  removeTuxEntries(signal, regOperPtr, regTabPtr);
}

void
Dbtup::executeTuxAbortTriggers(Signal* signal,
                               Operationrec* regOperPtr,
                               Fragrecord* const regFragPtr,
                               Tablerec* const regTabPtr)
{
  TuxMaintReq* const req = (TuxMaintReq*)signal->getDataPtrSend();
  // get version
  Uint32 tupVersion;
  if (regOperPtr->op_struct.op_type == ZINSERT) {
    ljam();
    tupVersion = regOperPtr->tupVersion;
  } else if (regOperPtr->op_struct.op_type == ZUPDATE) {
    ljam();
    tupVersion = regOperPtr->tupVersion;
  } else if (regOperPtr->op_struct.op_type == ZDELETE) {
    ljam();
    return;
  } else {
    ndbrequire(false);
    tupVersion= 0; // remove warning
  }
  // fill in constant part
  req->tableId = regFragPtr->fragTableId;
  req->fragId = regFragPtr->fragmentId;
  req->pageId = regOperPtr->m_tuple_location.m_page_no;
  req->pageIndex = regOperPtr->m_tuple_location.m_page_idx;
  req->tupVersion = tupVersion;
  req->opInfo = TuxMaintReq::OpRemove;
  removeTuxEntries(signal, regOperPtr, regTabPtr);
}

void
Dbtup::removeTuxEntries(Signal* signal,
                        Operationrec* regOperPtr,
                        Tablerec* regTabPtr)
{
  TuxMaintReq* const req = (TuxMaintReq*)signal->getDataPtrSend();
  const ArrayList<TupTriggerData>& triggerList = regTabPtr->tuxCustomTriggers;
  TriggerPtr triggerPtr;
  triggerList.first(triggerPtr);
  while (triggerPtr.i != RNIL) {
    ljam();
    req->indexId = triggerPtr.p->indexId;
    req->errorCode = RNIL,
    EXECUTE_DIRECT(DBTUX, GSN_TUX_MAINT_REQ,
        signal, TuxMaintReq::SignalLength);
    ljamEntry();
    // must succeed
    ndbrequire(req->errorCode == 0);
    triggerList.next(triggerPtr);
  }
}