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plan_node_to_row_source.go
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plan_node_to_row_source.go
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// Copyright 2018 The Cockroach Authors.
//
// Use of this software is governed by the Business Source License
// included in the file licenses/BSL.txt.
//
// As of the Change Date specified in that file, in accordance with
// the Business Source License, use of this software will be governed
// by the Apache License, Version 2.0, included in the file
// licenses/APL.txt.
package sql
import (
"context"
"github.com/cockroachdb/cockroach/pkg/sql/execinfra"
"github.com/cockroachdb/cockroach/pkg/sql/execinfra/execopnode"
"github.com/cockroachdb/cockroach/pkg/sql/execinfrapb"
"github.com/cockroachdb/cockroach/pkg/sql/rowenc"
"github.com/cockroachdb/cockroach/pkg/sql/sem/tree"
"github.com/cockroachdb/cockroach/pkg/sql/types"
"github.com/cockroachdb/cockroach/pkg/util/log"
"github.com/cockroachdb/errors"
)
type metadataForwarder interface {
forwardMetadata(metadata *execinfrapb.ProducerMetadata)
}
type planNodeToRowSource struct {
execinfra.ProcessorBase
input execinfra.RowSource
fastPath bool
node planNode
params runParams
outputTypes []*types.T
firstNotWrapped planNode
// run time state machine values
row rowenc.EncDatumRow
}
var _ execopnode.OpNode = &planNodeToRowSource{}
func makePlanNodeToRowSource(
source planNode, params runParams, fastPath bool,
) (*planNodeToRowSource, error) {
var typs []*types.T
if fastPath {
// If our node is a "fast path node", it means that we're set up to
// just return a row count meaning we'll output a single row with a
// single INT column.
typs = []*types.T{types.Int}
} else {
typs = getTypesFromResultColumns(planColumns(source))
}
row := make(rowenc.EncDatumRow, len(typs))
return &planNodeToRowSource{
node: source,
params: params,
outputTypes: typs,
row: row,
fastPath: fastPath,
}, nil
}
var _ execinfra.LocalProcessor = &planNodeToRowSource{}
// MustBeStreaming implements the execinfra.Processor interface.
func (p *planNodeToRowSource) MustBeStreaming() bool {
// hookFnNode is special because it might be blocked forever if we decide to
// buffer its output.
_, isHookFnNode := p.node.(*hookFnNode)
return isHookFnNode
}
// InitWithOutput implements the LocalProcessor interface.
func (p *planNodeToRowSource) InitWithOutput(
flowCtx *execinfra.FlowCtx, post *execinfrapb.PostProcessSpec, output execinfra.RowReceiver,
) error {
return p.InitWithEvalCtx(
p,
post,
p.outputTypes,
flowCtx,
// Note that we have already created a copy of the extendedEvalContext
// (which made a copy of the EvalContext) right before calling
// makePlanNodeToRowSource, so we can just use the eval context from the
// params.
p.params.EvalContext(),
0, /* processorID */
output,
nil, /* memMonitor */
execinfra.ProcStateOpts{
TrailingMetaCallback: func() []execinfrapb.ProducerMetadata {
var meta []execinfrapb.ProducerMetadata
if p.InternalClose() {
// Check if we're wrapping a mutation and emit the rows
// written metric if so.
if m, ok := p.node.(mutationPlanNode); ok {
metrics := execinfrapb.GetMetricsMeta()
metrics.RowsWritten = m.rowsWritten()
meta = []execinfrapb.ProducerMetadata{{Metrics: metrics}}
}
}
return meta
},
},
)
}
// SetInput implements the LocalProcessor interface.
// input is the first upstream RowSource. When we're done executing, we need to
// drain this row source of its metadata in case the planNode tree we're
// wrapping returned an error, since planNodes don't know how to drain trailing
// metadata.
func (p *planNodeToRowSource) SetInput(ctx context.Context, input execinfra.RowSource) error {
if p.firstNotWrapped == nil {
// Short-circuit if we never set firstNotWrapped - indicating this planNode
// tree had no DistSQL-plannable subtrees.
return nil
}
p.input = input
p.AddInputToDrain(input)
// Search the plan we're wrapping for firstNotWrapped, which is the planNode
// that DistSQL planning resumed in. Replace that planNode with input,
// wrapped as a planNode.
return walkPlan(ctx, p.node, planObserver{
replaceNode: func(ctx context.Context, nodeName string, plan planNode) (planNode, error) {
if plan == p.firstNotWrapped {
return makeRowSourceToPlanNode(input, p, planColumns(p.firstNotWrapped), p.firstNotWrapped), nil
}
return nil, nil
},
})
}
func (p *planNodeToRowSource) Start(ctx context.Context) {
ctx = p.StartInternalNoSpan(ctx)
p.params.ctx = ctx
// This starts all of the nodes below this node.
if err := startExec(p.params, p.node); err != nil {
p.MoveToDraining(err)
}
}
func (p *planNodeToRowSource) Next() (rowenc.EncDatumRow, *execinfrapb.ProducerMetadata) {
if p.State == execinfra.StateRunning && p.fastPath {
var count int
// If our node is a "fast path node", it means that we're set up to just
// return a row count. So trigger the fast path and return the row count as
// a row with a single column.
fastPath, ok := p.node.(planNodeFastPath)
if ok {
var res bool
if count, res = fastPath.FastPathResults(); res {
if p.params.extendedEvalCtx.Tracing.Enabled() {
log.VEvent(p.params.ctx, 2, "fast path completed")
}
} else {
// Fall back to counting the rows.
count = 0
ok = false
}
}
if !ok {
// If we have no fast path to trigger, fall back to counting the rows
// by Nexting our source until exhaustion.
next, err := p.node.Next(p.params)
for ; next; next, err = p.node.Next(p.params) {
count++
}
if err != nil {
p.MoveToDraining(err)
return nil, p.DrainHelper()
}
}
p.MoveToDraining(nil /* err */)
// Return the row count the only way we can: as a single-column row with
// the count inside.
return rowenc.EncDatumRow{rowenc.EncDatum{Datum: tree.NewDInt(tree.DInt(count))}}, nil
}
for p.State == execinfra.StateRunning {
valid, err := p.node.Next(p.params)
if err != nil || !valid {
p.MoveToDraining(err)
return nil, p.DrainHelper()
}
for i, datum := range p.node.Values() {
if datum != nil {
p.row[i] = rowenc.DatumToEncDatum(p.outputTypes[i], datum)
}
}
// ProcessRow here is required to deal with projections, which won't be
// pushed into the wrapped plan.
if outRow := p.ProcessRowHelper(p.row); outRow != nil {
return outRow, nil
}
}
return nil, p.DrainHelper()
}
// forwardMetadata will be called by any upstream rowSourceToPlanNode processors
// that need to forward metadata to the end of the flow. They can't pass
// metadata through local processors, so they instead add the metadata to our
// trailing metadata and expect us to forward it further.
func (p *planNodeToRowSource) forwardMetadata(metadata *execinfrapb.ProducerMetadata) {
p.ProcessorBase.AppendTrailingMeta(*metadata)
}
// ChildCount is part of the execopnode.OpNode interface.
func (p *planNodeToRowSource) ChildCount(verbose bool) int {
if _, ok := p.input.(execopnode.OpNode); ok {
return 1
}
return 0
}
// Child is part of the execopnode.OpNode interface.
func (p *planNodeToRowSource) Child(nth int, verbose bool) execopnode.OpNode {
switch nth {
case 0:
if n, ok := p.input.(execopnode.OpNode); ok {
return n
}
panic("input to planNodeToRowSource is not an execopnode.OpNode")
default:
panic(errors.AssertionFailedf("invalid index %d", nth))
}
}