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prepared.go
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prepared.go
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// Copyright 2015 PingCAP, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// See the License for the specific language governing permissions and
// limitations under the License.
package executor
import (
"math"
"sort"
"github.com/juju/errors"
"github.com/pingcap/tidb/ast"
"github.com/pingcap/tidb/config"
"github.com/pingcap/tidb/expression"
"github.com/pingcap/tidb/infoschema"
"github.com/pingcap/tidb/kv"
"github.com/pingcap/tidb/parser"
"github.com/pingcap/tidb/plan"
"github.com/pingcap/tidb/sessionctx"
"github.com/pingcap/tidb/sessionctx/stmtctx"
"github.com/pingcap/tidb/types"
"github.com/pingcap/tidb/util/chunk"
"github.com/pingcap/tidb/util/memory"
"github.com/pingcap/tidb/util/sqlexec"
"golang.org/x/net/context"
)
var (
_ Executor = &DeallocateExec{}
_ Executor = &ExecuteExec{}
_ Executor = &PrepareExec{}
)
type paramMarkerSorter struct {
markers []*ast.ParamMarkerExpr
}
func (p *paramMarkerSorter) Len() int {
return len(p.markers)
}
func (p *paramMarkerSorter) Less(i, j int) bool {
return p.markers[i].Offset < p.markers[j].Offset
}
func (p *paramMarkerSorter) Swap(i, j int) {
p.markers[i], p.markers[j] = p.markers[j], p.markers[i]
}
type paramMarkerExtractor struct {
markers []*ast.ParamMarkerExpr
}
func (e *paramMarkerExtractor) Enter(in ast.Node) (ast.Node, bool) {
return in, false
}
func (e *paramMarkerExtractor) Leave(in ast.Node) (ast.Node, bool) {
if x, ok := in.(*ast.ParamMarkerExpr); ok {
e.markers = append(e.markers, x)
}
return in, true
}
// PrepareExec represents a PREPARE executor.
type PrepareExec struct {
baseExecutor
is infoschema.InfoSchema
name string
sqlText string
ID uint32
ParamCount int
Fields []*ast.ResultField
}
// NewPrepareExec creates a new PrepareExec.
func NewPrepareExec(ctx sessionctx.Context, is infoschema.InfoSchema, sqlTxt string) *PrepareExec {
return &PrepareExec{
baseExecutor: newBaseExecutor(ctx, nil, "PrepareStmt"),
is: is,
sqlText: sqlTxt,
}
}
// Next implements the Executor Next interface.
func (e *PrepareExec) Next(ctx context.Context, chk *chunk.Chunk) error {
vars := e.ctx.GetSessionVars()
if e.ID != 0 {
// Must be the case when we retry a prepare.
// Make sure it is idempotent.
_, ok := vars.PreparedStmts[e.ID]
if ok {
return nil
}
}
charset, collation := vars.GetCharsetInfo()
var (
stmts []ast.StmtNode
err error
)
if sqlParser, ok := e.ctx.(sqlexec.SQLParser); ok {
stmts, err = sqlParser.ParseSQL(e.sqlText, charset, collation)
} else {
stmts, err = parser.New().Parse(e.sqlText, charset, collation)
}
if err != nil {
return errors.Trace(err)
}
if len(stmts) != 1 {
return ErrPrepareMulti
}
stmt := stmts[0]
if _, ok := stmt.(ast.DDLNode); ok {
return ErrPrepareDDL
}
var extractor paramMarkerExtractor
stmt.Accept(&extractor)
err = plan.Preprocess(e.ctx, stmt, e.is, true)
if err != nil {
return errors.Trace(err)
}
// The parameter markers are appended in visiting order, which may not
// be the same as the position order in the query string. We need to
// sort it by position.
sorter := ¶mMarkerSorter{markers: extractor.markers}
sort.Sort(sorter)
e.ParamCount = len(sorter.markers)
for i := 0; i < e.ParamCount; i++ {
sorter.markers[i].Order = i
}
prepared := &plan.Prepared{
Stmt: stmt,
Params: sorter.markers,
SchemaVersion: e.is.SchemaMetaVersion(),
}
prepared.UseCache = plan.PreparedPlanCacheEnabled && (vars.ImportingData || plan.Cacheable(stmt))
// We try to build the real statement of preparedStmt.
for i := range prepared.Params {
prepared.Params[i].SetDatum(types.NewIntDatum(0))
}
var p plan.Plan
p, err = plan.BuildLogicalPlan(e.ctx, stmt, e.is)
if err != nil {
return errors.Trace(err)
}
if _, ok := stmt.(*ast.SelectStmt); ok {
e.Fields = schema2ResultFields(p.Schema(), vars.CurrentDB)
}
if e.ID == 0 {
e.ID = vars.GetNextPreparedStmtID()
}
if e.name != "" {
vars.PreparedStmtNameToID[e.name] = e.ID
}
vars.PreparedStmts[e.ID] = prepared
return nil
}
// ExecuteExec represents an EXECUTE executor.
// It cannot be executed by itself, all it needs to do is to build
// another Executor from a prepared statement.
type ExecuteExec struct {
baseExecutor
is infoschema.InfoSchema
name string
usingVars []expression.Expression
id uint32
stmtExec Executor
stmt ast.StmtNode
plan plan.Plan
}
// Next implements the Executor Next interface.
func (e *ExecuteExec) Next(ctx context.Context, chk *chunk.Chunk) error {
return nil
}
// Build builds a prepared statement into an executor.
// After Build, e.StmtExec will be used to do the real execution.
func (e *ExecuteExec) Build() error {
var err error
if IsPointGetWithPKOrUniqueKeyByAutoCommit(e.ctx, e.plan) {
err = e.ctx.InitTxnWithStartTS(math.MaxUint64)
} else {
err = e.ctx.ActivePendingTxn()
}
if err != nil {
return errors.Trace(err)
}
b := newExecutorBuilder(e.ctx, e.is, kv.PriorityNormal)
stmtExec := b.build(e.plan)
if b.err != nil {
return errors.Trace(b.err)
}
e.stmtExec = stmtExec
ResetStmtCtx(e.ctx, e.stmt)
CountStmtNode(e.stmt, e.ctx.GetSessionVars().InRestrictedSQL)
logExpensiveQuery(e.stmt, e.plan)
return nil
}
// DeallocateExec represent a DEALLOCATE executor.
type DeallocateExec struct {
baseExecutor
Name string
}
// Next implements the Executor Next interface.
func (e *DeallocateExec) Next(ctx context.Context, chk *chunk.Chunk) error {
vars := e.ctx.GetSessionVars()
id, ok := vars.PreparedStmtNameToID[e.Name]
if !ok {
return errors.Trace(plan.ErrStmtNotFound)
}
delete(vars.PreparedStmtNameToID, e.Name)
delete(vars.PreparedStmts, id)
return nil
}
// CompileExecutePreparedStmt compiles a session Execute command to a stmt.Statement.
func CompileExecutePreparedStmt(ctx sessionctx.Context, ID uint32, args ...interface{}) (ast.Statement, error) {
execStmt := &ast.ExecuteStmt{ExecID: ID}
execStmt.UsingVars = make([]ast.ExprNode, len(args))
for i, val := range args {
execStmt.UsingVars[i] = ast.NewValueExpr(val)
}
is := GetInfoSchema(ctx)
execPlan, err := plan.Optimize(ctx, execStmt, is)
if err != nil {
return nil, errors.Trace(err)
}
stmt := &ExecStmt{
InfoSchema: GetInfoSchema(ctx),
Plan: execPlan,
StmtNode: execStmt,
Ctx: ctx,
}
if prepared, ok := ctx.GetSessionVars().PreparedStmts[ID].(*plan.Prepared); ok {
stmt.Text = prepared.Stmt.Text()
}
return stmt, nil
}
// ResetStmtCtx resets the StmtContext.
// Before every execution, we must clear statement context.
func ResetStmtCtx(ctx sessionctx.Context, s ast.StmtNode) {
sessVars := ctx.GetSessionVars()
sc := new(stmtctx.StatementContext)
sc.TimeZone = sessVars.GetTimeZone()
sc.MemTracker = memory.NewTracker(s.Text(), sessVars.MemQuotaQuery)
switch config.GetGlobalConfig().OOMAction {
case config.OOMActionCancel:
sc.MemTracker.SetActionOnExceed(&memory.PanicOnExceed{})
case config.OOMActionLog:
sc.MemTracker.SetActionOnExceed(&memory.LogOnExceed{})
default:
sc.MemTracker.SetActionOnExceed(&memory.LogOnExceed{})
}
switch stmt := s.(type) {
case *ast.UpdateStmt:
sc.IgnoreTruncate = false
sc.OverflowAsWarning = false
sc.TruncateAsWarning = !sessVars.StrictSQLMode || stmt.IgnoreErr
sc.InUpdateOrDeleteStmt = true
sc.DividedByZeroAsWarning = stmt.IgnoreErr
sc.IgnoreZeroInDate = !sessVars.StrictSQLMode || stmt.IgnoreErr
case *ast.DeleteStmt:
sc.IgnoreTruncate = false
sc.OverflowAsWarning = false
sc.TruncateAsWarning = !sessVars.StrictSQLMode || stmt.IgnoreErr
sc.InUpdateOrDeleteStmt = true
sc.DividedByZeroAsWarning = stmt.IgnoreErr
sc.IgnoreZeroInDate = !sessVars.StrictSQLMode || stmt.IgnoreErr
case *ast.InsertStmt:
sc.IgnoreTruncate = false
sc.TruncateAsWarning = !sessVars.StrictSQLMode || stmt.IgnoreErr
sc.InInsertStmt = true
sc.DividedByZeroAsWarning = stmt.IgnoreErr
sc.IgnoreZeroInDate = !sessVars.StrictSQLMode || stmt.IgnoreErr
case *ast.CreateTableStmt, *ast.AlterTableStmt:
// Make sure the sql_mode is strict when checking column default value.
sc.IgnoreTruncate = false
sc.OverflowAsWarning = false
sc.TruncateAsWarning = false
case *ast.LoadDataStmt:
sc.IgnoreTruncate = false
sc.OverflowAsWarning = false
sc.TruncateAsWarning = !sessVars.StrictSQLMode
case *ast.SelectStmt:
sc.InSelectStmt = true
// see https://dev.mysql.com/doc/refman/5.7/en/sql-mode.html#sql-mode-strict
// said "For statements such as SELECT that do not change data, invalid values
// generate a warning in strict mode, not an error."
// and https://dev.mysql.com/doc/refman/5.7/en/out-of-range-and-overflow.html
sc.OverflowAsWarning = true
// Return warning for truncate error in selection.
sc.IgnoreTruncate = false
sc.TruncateAsWarning = true
sc.IgnoreZeroInDate = true
if opts := stmt.SelectStmtOpts; opts != nil {
sc.Priority = opts.Priority
sc.NotFillCache = !opts.SQLCache
}
sc.PadCharToFullLength = ctx.GetSessionVars().SQLMode.HasPadCharToFullLengthMode()
default:
sc.IgnoreTruncate = true
sc.OverflowAsWarning = false
if show, ok := s.(*ast.ShowStmt); ok {
if show.Tp == ast.ShowWarnings {
sc.InShowWarning = true
sc.SetWarnings(sessVars.StmtCtx.GetWarnings())
}
}
sc.IgnoreZeroInDate = true
}
if sessVars.LastInsertID > 0 {
sessVars.PrevLastInsertID = sessVars.LastInsertID
sessVars.LastInsertID = 0
}
sessVars.ResetPrevAffectedRows()
sessVars.InsertID = 0
sessVars.StmtCtx = sc
}