/* ------------------------------------------------------------------
* ExecShareInputScan
* Retrieve a tuple from the ShareInputScan
* ------------------------------------------------------------------
*/
TupleTableSlot *
ExecShareInputScan(ShareInputScanState *node)
{
EState *estate;
ScanDirection dir;
bool forward;
TupleTableSlot *slot;
ShareInputScan * sisc = (ShareInputScan *) node->ss.ps.plan;
ShareType share_type = sisc->share_type;
/*
* get state info from node
*/
estate = node->ss.ps.state;
dir = estate->es_direction;
forward = ScanDirectionIsForward(dir);
/* if first time call, need to initialize the tuplestore state. */
if(node->ts_state == NULL)
{
elog(DEBUG1, "SISC (shareid=%d, slice=%d): No tuplestore yet, initializing tuplestore",
sisc->share_id, currentSliceId);
init_tuplestore_state(node);
}
slot = node->ss.ps.ps_ResultTupleSlot;
while(1)
{
bool gotOK = false;
if(share_type == SHARE_MATERIAL || share_type == SHARE_MATERIAL_XSLICE)
{
ntuplestore_acc_advance((NTupleStoreAccessor *) node->ts_pos, forward ? 1 : -1);
gotOK = ntuplestore_acc_current_tupleslot((NTupleStoreAccessor *) node->ts_pos, slot);
}
else
{
gotOK = tuplesort_gettupleslot_pos(node->ts_state->sortstore, (TuplesortPos *)node->ts_pos, forward, slot, CurrentMemoryContext);
}
if(!gotOK)
return NULL;
SIMPLE_FAULT_INJECTOR(ExecShareInputNext);
return slot;
}
Assert(!"should not be here");
return NULL;
}
/* ----------------------------------------------------------------
* ExecMaterial
*
* As long as we are at the end of the data collected in the tuplestore,
* we collect one new row from the subplan on each call, and stash it
* aside in the tuplestore before returning it. The tuplestore is
* only read if we are asked to scan backwards, rescan, or mark/restore.
*
* ----------------------------------------------------------------
*/
TupleTableSlot * /* result tuple from subplan */
ExecMaterial(MaterialState *node)
{
EState *estate;
ScanDirection dir;
bool forward;
NTupleStore *ts;
NTupleStoreAccessor *tsa;
bool eof_tuplestore;
TupleTableSlot *slot;
Material *ma;
/*
* get state info from node
*/
estate = node->ss.ps.state;
dir = estate->es_direction;
forward = ScanDirectionIsForward(dir);
ts = node->ts_state->matstore;
tsa = (NTupleStoreAccessor *) node->ts_pos;
ma = (Material *) node->ss.ps.plan;
Assert(IsA(ma, Material));
/*
* If first time through, and we need a tuplestore, initialize it.
*/
if (ts == NULL && (ma->share_type != SHARE_NOTSHARED || node->randomAccess))
{
/*
* For cross slice material, we only run ExecMaterial on DriverSlice
*/
if(ma->share_type == SHARE_MATERIAL_XSLICE)
{
char rwfile_prefix[100];
if(ma->driver_slice != currentSliceId)
{
elog(LOG, "Material Exec on CrossSlice, current slice %d", currentSliceId);
return NULL;
}
shareinput_create_bufname_prefix(rwfile_prefix, sizeof(rwfile_prefix), ma->share_id);
elog(LOG, "Material node creates shareinput rwfile %s", rwfile_prefix);
ts = ntuplestore_create_readerwriter(rwfile_prefix, PlanStateOperatorMemKB((PlanState *)node) * 1024, true);
tsa = ntuplestore_create_accessor(ts, true);
}
else
{
/* Non-shared Materialize node */
bool isWriter = true;
workfile_set *work_set = NULL;
if (gp_workfile_caching)
{
work_set = workfile_mgr_find_set( &node->ss.ps);
if (NULL != work_set)
{
/* Reusing cached workfiles. Tell subplan we won't be needing any tuples */
elog(gp_workfile_caching_loglevel, "Materialize reusing cached workfiles, initiating Squelch walker");
isWriter = false;
ExecSquelchNode(outerPlanState(node));
node->eof_underlying = true;
node->cached_workfiles_found = true;
if (node->ss.ps.instrument)
{
node->ss.ps.instrument->workfileReused = true;
}
}
}
if (NULL == work_set)
{
/*
* No work_set found, this is because:
* a. workfile caching is enabled but we didn't find any reusable set
* b. workfile caching is disabled
* Creating new empty workset
*/
Assert(!node->cached_workfiles_found);
/* Don't try to cache when running under a ShareInputScan node */
bool can_reuse = (ma->share_type == SHARE_NOTSHARED);
work_set = workfile_mgr_create_set(BUFFILE, can_reuse, &node->ss.ps, NULL_SNAPSHOT);
isWriter = true;
}
Assert(NULL != work_set);
AssertEquivalent(node->cached_workfiles_found, !isWriter);
ts = ntuplestore_create_workset(work_set, node->cached_workfiles_found,
PlanStateOperatorMemKB((PlanState *) node) * 1024);
tsa = ntuplestore_create_accessor(ts, isWriter);
}
Assert(ts && tsa);
node->ts_state->matstore = ts;
node->ts_pos = (void *) tsa;
/* CDB: Offer extra info for EXPLAIN ANALYZE. */
if (node->ss.ps.instrument)
{
/* Let the tuplestore share our Instrumentation object. */
ntuplestore_setinstrument(ts, node->ss.ps.instrument);
/* Request a callback at end of query. */
node->ss.ps.cdbexplainfun = ExecMaterialExplainEnd;
}
/*
* MPP: If requested, fetch all rows from subplan and put them
* in the tuplestore. This decouples a middle slice's receiving
* and sending Motion operators to neutralize a deadlock hazard.
* MPP TODO: Remove when a better solution is implemented.
*
* ShareInput: if the material node
* is used to share input, we will need to fetch all rows and put
* them in tuple store
*/
while (((Material *) node->ss.ps.plan)->cdb_strict
|| ma->share_type != SHARE_NOTSHARED)
{
/*
* When reusing cached workfiles, we already have all the tuples,
* and we don't need to read anything from subplan.
*/
if (node->cached_workfiles_found)
{
break;
}
TupleTableSlot *outerslot = ExecProcNode(outerPlanState(node));
if (TupIsNull(outerslot))
{
node->eof_underlying = true;
if (ntuplestore_created_reusable_workfiles(ts))
{
ntuplestore_flush(ts);
ntuplestore_mark_workset_complete(ts);
}
ntuplestore_acc_seek_bof(tsa);
break;
}
Gpmon_M_Incr(GpmonPktFromMaterialState(node), GPMON_QEXEC_M_ROWSIN);
ntuplestore_acc_put_tupleslot(tsa, outerslot);
}
CheckSendPlanStateGpmonPkt(&node->ss.ps);
if(forward)
ntuplestore_acc_seek_bof(tsa);
else
ntuplestore_acc_seek_eof(tsa);
/* for share input, material do not need to return any tuple */
if(ma->share_type != SHARE_NOTSHARED)
{
Assert(ma->share_type == SHARE_MATERIAL || ma->share_type == SHARE_MATERIAL_XSLICE);
/*
* if the material is shared across slice, notify consumers that
* it is ready.
*/
if(ma->share_type == SHARE_MATERIAL_XSLICE)
{
if (ma->driver_slice == currentSliceId)
{
ntuplestore_flush(ts);
node->share_lk_ctxt = shareinput_writer_notifyready(ma->share_id, ma->nsharer_xslice,
estate->es_plannedstmt->planGen);
}
}
return NULL;
}
}
if(ma->share_type != SHARE_NOTSHARED)
return NULL;
/*
* If we can fetch another tuple from the tuplestore, return it.
*/
slot = node->ss.ps.ps_ResultTupleSlot;
if(forward)
eof_tuplestore = (tsa == NULL) || !ntuplestore_acc_advance(tsa, 1);
else
eof_tuplestore = (tsa == NULL) || !ntuplestore_acc_advance(tsa, -1);
if(tsa!=NULL && ntuplestore_acc_tell(tsa, NULL))
{
ntuplestore_acc_current_tupleslot(tsa, slot);
if (!TupIsNull(slot))
{
Gpmon_M_Incr_Rows_Out(GpmonPktFromMaterialState(node));
CheckSendPlanStateGpmonPkt(&node->ss.ps);
}
return slot;
}
/*
* If necessary, try to fetch another row from the subplan.
*
* Note: the eof_underlying state variable exists to short-circuit further
* subplan calls. It's not optional, unfortunately, because some plan
* node types are not robust about being called again when they've already
* returned NULL.
* If reusing cached workfiles, there is no need to execute subplan at all.
*/
if (eof_tuplestore && !node->eof_underlying)
{
PlanState *outerNode;
TupleTableSlot *outerslot;
Assert(!node->cached_workfiles_found && "we shouldn't get here when using cached workfiles");
/*
* We can only get here with forward==true, so no need to worry about
* which direction the subplan will go.
*/
outerNode = outerPlanState(node);
outerslot = ExecProcNode(outerNode);
if (TupIsNull(outerslot))
{
node->eof_underlying = true;
if (ntuplestore_created_reusable_workfiles(ts))
{
ntuplestore_flush(ts);
ntuplestore_mark_workset_complete(ts);
}
if (!node->ss.ps.delayEagerFree)
{
ExecEagerFreeMaterial(node);
}
return NULL;
}
Gpmon_M_Incr(GpmonPktFromMaterialState(node), GPMON_QEXEC_M_ROWSIN);
if (tsa)
ntuplestore_acc_put_tupleslot(tsa, outerslot);
/*
* And return a copy of the tuple. (XXX couldn't we just return the
* outerslot?)
*/
Gpmon_M_Incr_Rows_Out(GpmonPktFromMaterialState(node));
CheckSendPlanStateGpmonPkt(&node->ss.ps);
return ExecCopySlot(slot, outerslot);
}
if (!node->ss.ps.delayEagerFree)
{
ExecEagerFreeMaterial(node);
}
/*
* Nothing left ...
*/
return NULL;
}
/* ------------------------------------------------------------------
* ShareInputNext
* Retrieve a tuple from the ShareInputScan
* ------------------------------------------------------------------
*/
TupleTableSlot *
ShareInputNext(ShareInputScanState *node)
{
EState *estate;
ScanDirection dir;
bool forward;
TupleTableSlot *slot;
ShareInputScan * sisc = (ShareInputScan *) node->ss.ps.plan;
ShareType share_type = sisc->share_type;
/*
* get state info from node
*/
estate = node->ss.ps.state;
dir = estate->es_direction;
forward = ScanDirectionIsForward(dir);
/* if first time call, need to initialize the tuplestore state. */
if(node->ts_state == NULL)
{
elog(DEBUG1, "SISC (shareid=%d, slice=%d): No tuplestore yet, initializing tuplestore",
sisc->share_id, currentSliceId);
init_tuplestore_state(node);
}
slot = node->ss.ps.ps_ResultTupleSlot;
while(1)
{
bool gotOK = false;
if(share_type == SHARE_MATERIAL || share_type == SHARE_MATERIAL_XSLICE)
{
ntuplestore_acc_advance((NTupleStoreAccessor *) node->ts_pos, forward ? 1 : -1);
gotOK = ntuplestore_acc_current_tupleslot((NTupleStoreAccessor *) node->ts_pos, slot);
}
else
{
if(gp_enable_mk_sort)
{
gotOK = tuplesort_gettupleslot_pos_mk(node->ts_state->sortstore_mk, (TuplesortPos_mk *)node->ts_pos, forward, slot);
}
else
{
gotOK = tuplesort_gettupleslot_pos(node->ts_state->sortstore, (TuplesortPos *)node->ts_pos, forward, slot);
}
}
if(!gotOK)
return NULL;
Gpmon_M_Incr_Rows_Out(GpmonPktFromShareInputState(node));
CheckSendPlanStateGpmonPkt(&node->ss.ps);
return slot;
}
Assert(!"should not be here");
return NULL;
}
