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session.go
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session.go
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// Copyright 2013 The ql Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSES/QL-LICENSE file.
// 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 tidb
import (
"crypto/tls"
"encoding/json"
"fmt"
"net"
"strings"
"sync"
"sync/atomic"
"time"
log "github.com/Sirupsen/logrus"
"github.com/juju/errors"
"github.com/ngaut/pools"
"github.com/pingcap/tidb/ast"
"github.com/pingcap/tidb/context"
"github.com/pingcap/tidb/domain"
"github.com/pingcap/tidb/executor"
"github.com/pingcap/tidb/kv"
"github.com/pingcap/tidb/meta"
"github.com/pingcap/tidb/model"
"github.com/pingcap/tidb/mysql"
"github.com/pingcap/tidb/parser"
"github.com/pingcap/tidb/plan/cache"
"github.com/pingcap/tidb/privilege"
"github.com/pingcap/tidb/privilege/privileges"
"github.com/pingcap/tidb/sessionctx"
"github.com/pingcap/tidb/sessionctx/binloginfo"
"github.com/pingcap/tidb/sessionctx/variable"
"github.com/pingcap/tidb/sessionctx/varsutil"
"github.com/pingcap/tidb/statistics"
"github.com/pingcap/tidb/store/localstore"
"github.com/pingcap/tidb/store/tikv/oracle"
"github.com/pingcap/tidb/terror"
"github.com/pingcap/tidb/util"
"github.com/pingcap/tidb/util/auth"
"github.com/pingcap/tidb/util/charset"
"github.com/pingcap/tidb/util/types"
"github.com/pingcap/tipb/go-binlog"
goctx "golang.org/x/net/context"
)
// Session context
type Session interface {
context.Context
Status() uint16 // Flag of current status, such as autocommit.
LastInsertID() uint64 // LastInsertID is the last inserted auto_increment ID.
AffectedRows() uint64 // Affected rows by latest executed stmt.
Execute(sql string) ([]ast.RecordSet, error) // Execute a sql statement.
String() string // String is used to debug.
CommitTxn() error
RollbackTxn() error
// PrepareStmt executes prepare statement in binary protocol.
PrepareStmt(sql string) (stmtID uint32, paramCount int, fields []*ast.ResultField, err error)
// ExecutePreparedStmt executes a prepared statement.
ExecutePreparedStmt(stmtID uint32, param ...interface{}) (ast.RecordSet, error)
DropPreparedStmt(stmtID uint32) error
SetClientCapability(uint32) // Set client capability flags.
SetConnectionID(uint64)
SetTLSState(*tls.ConnectionState)
SetCollation(coID int) error
SetSessionManager(util.SessionManager)
Close()
Auth(user *auth.UserIdentity, auth []byte, salt []byte) bool
// Cancel the execution of current transaction.
Cancel()
ShowProcess() util.ProcessInfo
// PrePareTxnCtx is exported for test.
PrepareTxnCtx()
// FieldList returns fields list of a table.
FieldList(tableName string) (fields []*ast.ResultField, err error)
}
var (
_ Session = (*session)(nil)
sessionMu sync.Mutex
)
type stmtRecord struct {
stmtID uint32
st ast.Statement
stmtCtx *variable.StatementContext
params []interface{}
}
// StmtHistory holds all histories of statements in a txn.
type StmtHistory struct {
history []*stmtRecord
}
// Add appends a stmt to history list.
func (h *StmtHistory) Add(stmtID uint32, st ast.Statement, stmtCtx *variable.StatementContext, params ...interface{}) {
s := &stmtRecord{
stmtID: stmtID,
st: st,
stmtCtx: stmtCtx,
params: append(([]interface{})(nil), params...),
}
h.history = append(h.history, s)
}
// Count returns the count of the history.
func (h *StmtHistory) Count() int {
return len(h.history)
}
type session struct {
// processInfo is used by ShowProcess(), and should be modified atomically.
processInfo atomic.Value
txn kv.Transaction // current transaction
txnFuture *txnFuture
// goCtx is used for cancelling the execution of current transaction.
goCtx goctx.Context
cancelFunc goctx.CancelFunc
mu struct {
sync.RWMutex
values map[fmt.Stringer]interface{}
}
store kv.Storage
parser *parser.Parser
sessionVars *variable.SessionVars
sessionManager util.SessionManager
statsCollector *statistics.SessionStatsCollector
}
// Cancel cancels the execution of current transaction.
func (s *session) Cancel() {
// TODO: How to wait for the resource to release and make sure
// it's not leak?
s.cancelFunc()
}
// GoCtx returns the standard context.Context that bind with current transaction.
func (s *session) GoCtx() goctx.Context {
return s.goCtx
}
func (s *session) cleanRetryInfo() {
if !s.sessionVars.RetryInfo.Retrying {
retryInfo := s.sessionVars.RetryInfo
for _, stmtID := range retryInfo.DroppedPreparedStmtIDs {
delete(s.sessionVars.PreparedStmts, stmtID)
}
retryInfo.Clean()
}
}
func (s *session) Status() uint16 {
return s.sessionVars.Status
}
func (s *session) LastInsertID() uint64 {
if s.sessionVars.LastInsertID > 0 {
return s.sessionVars.LastInsertID
}
return s.sessionVars.InsertID
}
func (s *session) AffectedRows() uint64 {
return s.sessionVars.StmtCtx.AffectedRows()
}
func (s *session) SetClientCapability(capability uint32) {
s.sessionVars.ClientCapability = capability
}
func (s *session) SetConnectionID(connectionID uint64) {
s.sessionVars.ConnectionID = connectionID
}
func (s *session) SetTLSState(tlsState *tls.ConnectionState) {
// If user is not connected via TLS, then tlsState == nil.
if tlsState != nil {
s.sessionVars.TLSConnectionState = tlsState
}
}
func (s *session) GetTLSState() *tls.ConnectionState {
return s.sessionVars.TLSConnectionState
}
func (s *session) SetCollation(coID int) error {
cs, co, err := charset.GetCharsetInfoByID(coID)
if err != nil {
return errors.Trace(err)
}
for _, v := range variable.SetNamesVariables {
s.sessionVars.Systems[v] = cs
}
s.sessionVars.Systems[variable.CollationConnection] = co
return nil
}
func (s *session) SetSessionManager(sm util.SessionManager) {
s.sessionManager = sm
}
func (s *session) GetSessionManager() util.SessionManager {
return s.sessionManager
}
// FieldList returns fields list of a table.
func (s *session) FieldList(tableName string) ([]*ast.ResultField, error) {
is := executor.GetInfoSchema(s)
dbName := model.NewCIStr(s.GetSessionVars().CurrentDB)
tName := model.NewCIStr(tableName)
table, err := is.TableByName(dbName, tName)
if err != nil {
return nil, errors.Trace(err)
}
cols := table.Cols()
fields := make([]*ast.ResultField, 0, len(cols))
for _, col := range table.Cols() {
rf := &ast.ResultField{
ColumnAsName: col.Name,
TableAsName: tName,
DBName: dbName,
Table: table.Meta(),
Column: col.ColumnInfo,
}
fields = append(fields, rf)
}
return fields, nil
}
type schemaLeaseChecker struct {
domain.SchemaValidator
schemaVer int64
relatedTableIDs []int64
}
var (
// SchemaOutOfDateRetryInterval is the sleeping time when we fail to try.
SchemaOutOfDateRetryInterval = int64(500 * time.Millisecond)
// SchemaOutOfDateRetryTimes is upper bound of retry times when the schema is out of date.
SchemaOutOfDateRetryTimes = int32(10)
)
func (s *schemaLeaseChecker) Check(txnTS uint64) error {
schemaOutOfDateRetryInterval := atomic.LoadInt64(&SchemaOutOfDateRetryInterval)
schemaOutOfDateRetryTimes := int(atomic.LoadInt32(&SchemaOutOfDateRetryTimes))
for i := 0; i < schemaOutOfDateRetryTimes; i++ {
result := s.SchemaValidator.Check(txnTS, s.schemaVer, s.relatedTableIDs)
switch result {
case domain.ResultSucc:
return nil
case domain.ResultFail:
schemaLeaseErrorCounter.WithLabelValues("changed").Inc()
return domain.ErrInfoSchemaChanged
case domain.ResultUnknown:
schemaLeaseErrorCounter.WithLabelValues("outdated").Inc()
time.Sleep(time.Duration(schemaOutOfDateRetryInterval))
}
}
return domain.ErrInfoSchemaExpired
}
func (s *session) doCommit() error {
if s.txn == nil || !s.txn.Valid() {
return nil
}
defer func() {
s.txn = nil
s.sessionVars.SetStatusFlag(mysql.ServerStatusInTrans, false)
}()
if s.sessionVars.BinlogClient != nil {
prewriteValue := binloginfo.GetPrewriteValue(s, false)
if prewriteValue != nil {
prewriteData, err := prewriteValue.Marshal()
if err != nil {
return errors.Trace(err)
}
info := &binloginfo.BinlogInfo{
Data: &binlog.Binlog{
Tp: binlog.BinlogType_Prewrite,
PrewriteValue: prewriteData,
},
Client: s.sessionVars.BinlogClient.(binlog.PumpClient),
}
s.txn.SetOption(kv.BinlogInfo, info)
}
}
// Get the related table IDs.
relatedTables := s.GetSessionVars().TxnCtx.TableDeltaMap
tableIDs := make([]int64, 0, len(relatedTables))
for id := range relatedTables {
tableIDs = append(tableIDs, id)
}
// Set this option for 2 phase commit to validate schema lease.
s.txn.SetOption(kv.SchemaLeaseChecker, &schemaLeaseChecker{
SchemaValidator: sessionctx.GetDomain(s).SchemaValidator,
schemaVer: s.sessionVars.TxnCtx.SchemaVersion,
relatedTableIDs: tableIDs,
})
if err := s.txn.Commit(); err != nil {
return errors.Trace(err)
}
return nil
}
func (s *session) doCommitWithRetry() error {
var txnSize int
if s.txn != nil && s.txn.Valid() {
txnSize = s.txn.Size()
}
err := s.doCommit()
if err != nil {
if s.isRetryableError(err) {
log.Warnf("[%d] retryable error: %v, txn: %v", s.sessionVars.ConnectionID, err, s.txn)
// Transactions will retry 2 ~ commitRetryLimit times.
// We make larger transactions retry less times to prevent cluster resource outage.
txnSizeRate := float64(txnSize) / float64(kv.TxnTotalSizeLimit)
maxRetryCount := commitRetryLimit - int(float64(commitRetryLimit-1)*txnSizeRate)
err = s.retry(maxRetryCount)
}
}
s.cleanRetryInfo()
if err != nil {
log.Warnf("[%d] finished txn:%v, %v", s.sessionVars.ConnectionID, s.txn, err)
return errors.Trace(err)
}
mapper := s.GetSessionVars().TxnCtx.TableDeltaMap
if s.statsCollector != nil && mapper != nil {
for id, item := range mapper {
s.statsCollector.Update(id, item.Delta, item.Count)
}
}
return nil
}
func (s *session) CommitTxn() error {
err := s.doCommitWithRetry()
label := "OK"
if err != nil {
label = "Error"
}
transactionCounter.WithLabelValues(label).Inc()
return errors.Trace(err)
}
func (s *session) RollbackTxn() error {
var err error
if s.txn != nil && s.txn.Valid() {
err = s.txn.Rollback()
}
s.cleanRetryInfo()
s.txn = nil
s.txnFuture = nil
s.sessionVars.SetStatusFlag(mysql.ServerStatusInTrans, false)
return errors.Trace(err)
}
func (s *session) GetClient() kv.Client {
return s.store.GetClient()
}
func (s *session) String() string {
// TODO: how to print binded context in values appropriately?
sessVars := s.sessionVars
data := map[string]interface{}{
"id": sessVars.ConnectionID,
"user": sessVars.User,
"currDBName": sessVars.CurrentDB,
"status": sessVars.Status,
"strictMode": sessVars.StrictSQLMode,
}
if s.txn != nil {
// if txn is committed or rolled back, txn is nil.
data["txn"] = s.txn.String()
}
if sessVars.SnapshotTS != 0 {
data["snapshotTS"] = sessVars.SnapshotTS
}
if sessVars.LastInsertID > 0 {
data["lastInsertID"] = sessVars.LastInsertID
}
if len(sessVars.PreparedStmts) > 0 {
data["preparedStmtCount"] = len(sessVars.PreparedStmts)
}
b, err := json.MarshalIndent(data, "", " ")
terror.Log(errors.Trace(err))
return string(b)
}
const sqlLogMaxLen = 1024
// SchemaChangedWithoutRetry is used for testing.
var SchemaChangedWithoutRetry bool
func (s *session) isRetryableError(err error) bool {
if SchemaChangedWithoutRetry {
return kv.IsRetryableError(err)
}
return kv.IsRetryableError(err) || domain.ErrInfoSchemaChanged.Equal(err)
}
func (s *session) retry(maxCnt int) error {
connID := s.sessionVars.ConnectionID
if s.sessionVars.TxnCtx.ForUpdate {
return errors.Errorf("[%d] can not retry select for update statement", connID)
}
s.sessionVars.RetryInfo.Retrying = true
retryCnt := 0
defer func() {
s.sessionVars.RetryInfo.Retrying = false
sessionRetry.Observe(float64(retryCnt))
s.txn = nil
s.sessionVars.SetStatusFlag(mysql.ServerStatusInTrans, false)
}()
nh := GetHistory(s)
var err error
for {
s.PrepareTxnCtx()
s.sessionVars.RetryInfo.ResetOffset()
for i, sr := range nh.history {
st := sr.st
if st.IsReadOnly() {
continue
}
err = st.RebuildPlan()
if err != nil {
return errors.Trace(err)
}
if retryCnt == 0 {
// We do not have to log the query every time.
// We print the queries at the first try only.
log.Warnf("[%d] Retry [%d] query [%d] %s", connID, retryCnt, i, sqlForLog(st.OriginText()))
} else {
log.Warnf("[%d] Retry [%d] query [%d]", connID, retryCnt, i)
}
s.sessionVars.StmtCtx = sr.stmtCtx
s.sessionVars.StmtCtx.ResetForRetry()
_, err = st.Exec(s)
if err != nil {
break
}
}
if hook := s.Value(PreCommitHook{}); hook != nil {
// For testing purpose.
hook.(func())()
}
if err == nil {
err = s.doCommit()
if err == nil {
break
}
}
if !s.isRetryableError(err) {
log.Warnf("[%d] session:%v, err:%v", connID, s, err)
return errors.Trace(err)
}
retryCnt++
if retryCnt >= maxCnt {
log.Warnf("[%d] Retry reached max count %d", connID, retryCnt)
return errors.Trace(err)
}
log.Warnf("[%d] retryable error: %v, txn: %v", connID, err, s.txn)
kv.BackOff(retryCnt)
s.txn = nil
s.sessionVars.SetStatusFlag(mysql.ServerStatusInTrans, false)
}
return err
}
func sqlForLog(sql string) string {
if len(sql) > sqlLogMaxLen {
return sql[:sqlLogMaxLen] + fmt.Sprintf("(len:%d)", len(sql))
}
return sql
}
func (s *session) sysSessionPool() *pools.ResourcePool {
return sessionctx.GetDomain(s).SysSessionPool()
}
// ExecRestrictedSQL implements RestrictedSQLExecutor interface.
// This is used for executing some restricted sql statements, usually executed during a normal statement execution.
// Unlike normal Exec, it doesn't reset statement status, doesn't commit or rollback the current transaction
// and doesn't write binlog.
func (s *session) ExecRestrictedSQL(ctx context.Context, sql string) ([]*ast.Row, []*ast.ResultField, error) {
// Use special session to execute the sql.
tmp, err := s.sysSessionPool().Get()
if err != nil {
return nil, nil, errors.Trace(err)
}
se := tmp.(*session)
defer s.sysSessionPool().Put(tmp)
recordSets, err := se.Execute(sql)
if err != nil {
return nil, nil, errors.Trace(err)
}
var (
rows []*ast.Row
fields []*ast.ResultField
)
// Execute all recordset, take out the first one as result.
for i, rs := range recordSets {
tmp, err := drainRecordSet(rs)
if err != nil {
return nil, nil, errors.Trace(err)
}
if err = rs.Close(); err != nil {
return nil, nil, errors.Trace(err)
}
if i == 0 {
rows = tmp
fields, err = rs.Fields()
if err != nil {
return nil, nil, errors.Trace(err)
}
}
}
return rows, fields, nil
}
func createSessionFunc(store kv.Storage) pools.Factory {
return func() (pools.Resource, error) {
se, err := createSession(store)
if err != nil {
return nil, errors.Trace(err)
}
err = varsutil.SetSessionSystemVar(se.sessionVars, variable.AutocommitVar, types.NewStringDatum("1"))
if err != nil {
return nil, errors.Trace(err)
}
se.sessionVars.CommonGlobalLoaded = true
se.sessionVars.InRestrictedSQL = true
return se, nil
}
}
func createSessionWithDomainFunc(store kv.Storage) func(*domain.Domain) (pools.Resource, error) {
return func(dom *domain.Domain) (pools.Resource, error) {
se, err := createSessionWithDomain(store, dom)
if err != nil {
return nil, errors.Trace(err)
}
err = varsutil.SetSessionSystemVar(se.sessionVars, variable.AutocommitVar, types.NewStringDatum("1"))
if err != nil {
return nil, errors.Trace(err)
}
se.sessionVars.CommonGlobalLoaded = true
se.sessionVars.InRestrictedSQL = true
return se, nil
}
}
func drainRecordSet(rs ast.RecordSet) ([]*ast.Row, error) {
var rows []*ast.Row
for {
row, err := rs.Next()
if err != nil {
return nil, errors.Trace(err)
}
if row == nil {
break
}
rows = append(rows, row)
}
return rows, nil
}
// getExecRet executes restricted sql and the result is one column.
// It returns a string value.
func (s *session) getExecRet(ctx context.Context, sql string) (string, error) {
rows, _, err := s.ExecRestrictedSQL(ctx, sql)
if err != nil {
return "", errors.Trace(err)
}
if len(rows) == 0 {
return "", executor.ErrResultIsEmpty
}
value, err := types.ToString(rows[0].Data[0].GetValue())
if err != nil {
return "", errors.Trace(err)
}
return value, nil
}
// GetAllSysVars implements GlobalVarAccessor.GetAllSysVars interface.
func (s *session) GetAllSysVars() (map[string]string, error) {
if s.Value(context.Initing) != nil {
return nil, nil
}
sql := `SELECT VARIABLE_NAME, VARIABLE_VALUE FROM %s.%s;`
sql = fmt.Sprintf(sql, mysql.SystemDB, mysql.GlobalVariablesTable)
rows, _, err := s.ExecRestrictedSQL(s, sql)
if err != nil {
return nil, errors.Trace(err)
}
ret := make(map[string]string)
for _, r := range rows {
k, v := r.Data[0].GetString(), r.Data[1].GetString()
ret[k] = v
}
return ret, nil
}
// GetGlobalSysVar implements GlobalVarAccessor.GetGlobalSysVar interface.
func (s *session) GetGlobalSysVar(name string) (string, error) {
if s.Value(context.Initing) != nil {
// When running bootstrap or upgrade, we should not access global storage.
return "", nil
}
sql := fmt.Sprintf(`SELECT VARIABLE_VALUE FROM %s.%s WHERE VARIABLE_NAME="%s";`,
mysql.SystemDB, mysql.GlobalVariablesTable, name)
sysVar, err := s.getExecRet(s, sql)
if err != nil {
if executor.ErrResultIsEmpty.Equal(err) {
if sv, ok := variable.SysVars[name]; ok {
return sv.Value, nil
}
return "", variable.UnknownSystemVar.GenByArgs(name)
}
return "", errors.Trace(err)
}
return sysVar, nil
}
// SetGlobalSysVar implements GlobalVarAccessor.SetGlobalSysVar interface.
func (s *session) SetGlobalSysVar(name string, value string) error {
if name == variable.SQLModeVar {
value = mysql.FormatSQLModeStr(value)
if _, err := mysql.GetSQLMode(value); err != nil {
return errors.Trace(err)
}
}
sql := fmt.Sprintf(`REPLACE %s.%s VALUES ('%s', '%s');`,
mysql.SystemDB, mysql.GlobalVariablesTable, strings.ToLower(name), value)
_, _, err := s.ExecRestrictedSQL(s, sql)
return errors.Trace(err)
}
func (s *session) ParseSQL(sql, charset, collation string) ([]ast.StmtNode, error) {
s.parser.SetSQLMode(s.sessionVars.SQLMode)
return s.parser.Parse(sql, charset, collation)
}
func (s *session) SetProcessInfo(sql string) {
pi := util.ProcessInfo{
ID: s.sessionVars.ConnectionID,
DB: s.sessionVars.CurrentDB,
Command: "Query",
Time: time.Now(),
State: s.Status(),
Info: sql,
}
if s.sessionVars.User != nil {
pi.User = s.sessionVars.User.Username
pi.Host = s.sessionVars.User.Hostname
}
s.processInfo.Store(pi)
}
func (s *session) executeStatement(connID uint64, stmtNode ast.StmtNode, stmt ast.Statement, recordSets []ast.RecordSet) ([]ast.RecordSet, error) {
s.SetValue(context.QueryString, stmt.OriginText())
if _, ok := stmtNode.(ast.DDLNode); ok {
s.SetValue(context.LastExecuteDDL, true)
} else {
s.ClearValue(context.LastExecuteDDL)
}
logStmt(stmtNode, s.sessionVars)
startTS := time.Now()
recordSet, err := runStmt(s, stmt)
if err != nil {
if !kv.ErrKeyExists.Equal(err) {
log.Warnf("[%d] session error:\n%v\n%s", connID, errors.ErrorStack(err), s)
}
return nil, errors.Trace(err)
}
sessionExecuteRunDuration.Observe(time.Since(startTS).Seconds())
if recordSet != nil {
recordSets = append(recordSets, recordSet)
}
return recordSets, nil
}
func (s *session) Execute(sql string) (recordSets []ast.RecordSet, err error) {
s.PrepareTxnCtx()
var (
cacheKey cache.Key
cacheValue cache.Value
useCachedPlan = false
connID = s.sessionVars.ConnectionID
)
if cache.PlanCacheEnabled {
schemaVersion := sessionctx.GetDomain(s).InfoSchema().SchemaMetaVersion()
readOnly := s.Txn() == nil || s.Txn().IsReadOnly()
cacheKey = cache.NewSQLCacheKey(s.sessionVars, sql, schemaVersion, readOnly)
cacheValue, useCachedPlan = cache.GlobalPlanCache.Get(cacheKey)
}
if useCachedPlan {
stmtNode := cacheValue.(*cache.SQLCacheValue).StmtNode
stmt := &executor.ExecStmt{
InfoSchema: executor.GetInfoSchema(s),
Plan: cacheValue.(*cache.SQLCacheValue).Plan,
Expensive: cacheValue.(*cache.SQLCacheValue).Expensive,
Text: stmtNode.Text(),
ReadOnly: ast.IsReadOnly(stmtNode),
Ctx: s,
StmtNode: stmtNode,
}
s.PrepareTxnCtx()
executor.ResetStmtCtx(s, stmtNode)
if recordSets, err = s.executeStatement(connID, stmtNode, stmt, recordSets); err != nil {
return nil, errors.Trace(err)
}
} else {
err = s.loadCommonGlobalVariablesIfNeeded()
if err != nil {
return nil, errors.Trace(err)
}
charset, collation := s.sessionVars.GetCharsetInfo()
// Step1: Compile query string to abstract syntax trees(ASTs).
startTS := time.Now()
stmtNodes, err := s.ParseSQL(sql, charset, collation)
if err != nil {
log.Warnf("[%d] parse error:\n%v\n%s", connID, err, sql)
return nil, errors.Trace(err)
}
sessionExecuteParseDuration.Observe(time.Since(startTS).Seconds())
compiler := executor.Compiler{}
for _, stmtNode := range stmtNodes {
s.PrepareTxnCtx()
// Step2: Transform abstract syntax tree to a physical plan(stored in executor.ExecStmt).
startTS = time.Now()
// Some executions are done in compile stage, so we reset them before compile.
executor.ResetStmtCtx(s, stmtNode)
stmt, err := compiler.Compile(s, stmtNode)
if err != nil {
log.Warnf("[%d] compile error:\n%v\n%s", connID, err, sql)
terror.Log(errors.Trace(s.RollbackTxn()))
return nil, errors.Trace(err)
}
sessionExecuteCompileDuration.Observe(time.Since(startTS).Seconds())
// Step3: Cache the physical plan if possible.
if cache.PlanCacheEnabled && stmt.Cacheable && len(stmtNodes) == 1 {
cache.GlobalPlanCache.Put(cacheKey, cache.NewSQLCacheValue(stmtNode, stmt.Plan, stmt.Expensive))
}
// Step4: Execute the physical plan.
if recordSets, err = s.executeStatement(connID, stmtNode, stmt, recordSets); err != nil {
return nil, errors.Trace(err)
}
}
}
if s.sessionVars.ClientCapability&mysql.ClientMultiResults == 0 && len(recordSets) > 1 {
// return the first recordset if client doesn't support ClientMultiResults.
recordSets = recordSets[:1]
}
return recordSets, nil
}
// PrepareStmt is used for executing prepare statement in binary protocol
func (s *session) PrepareStmt(sql string) (stmtID uint32, paramCount int, fields []*ast.ResultField, err error) {
if s.sessionVars.TxnCtx.InfoSchema == nil {
// We don't need to create a transaction for prepare statement, just get information schema will do.
s.sessionVars.TxnCtx.InfoSchema = sessionctx.GetDomain(s).InfoSchema()
}
err = s.loadCommonGlobalVariablesIfNeeded()
if err != nil {
err = errors.Trace(err)
return
}
prepareExec := &executor.PrepareExec{
IS: executor.GetInfoSchema(s),
Ctx: s,
SQLText: sql,
}
prepareExec.DoPrepare()
return prepareExec.ID, prepareExec.ParamCount, prepareExec.Fields, prepareExec.Err
}
// checkArgs makes sure all the arguments' types are known and can be handled.
// integer types are converted to int64 and uint64, time.Time is converted to types.Time.
// time.Duration is converted to types.Duration, other known types are leaved as it is.
func checkArgs(args ...interface{}) error {
for i, v := range args {
switch x := v.(type) {
case bool:
if x {
args[i] = int64(1)
} else {
args[i] = int64(0)
}
case int8:
args[i] = int64(x)
case int16:
args[i] = int64(x)
case int32:
args[i] = int64(x)
case int:
args[i] = int64(x)
case uint8:
args[i] = uint64(x)
case uint16:
args[i] = uint64(x)
case uint32:
args[i] = uint64(x)
case uint:
args[i] = uint64(x)
case int64:
case uint64:
case float32:
case float64:
case string:
case []byte:
case time.Duration:
args[i] = types.Duration{Duration: x}
case time.Time:
args[i] = types.Time{Time: types.FromGoTime(x), Type: mysql.TypeDatetime}
case nil:
default:
return errors.Errorf("cannot use arg[%d] (type %T):unsupported type", i, v)
}
}
return nil
}
// ExecutePreparedStmt executes a prepared statement.
func (s *session) ExecutePreparedStmt(stmtID uint32, args ...interface{}) (ast.RecordSet, error) {
err := checkArgs(args...)
if err != nil {
return nil, errors.Trace(err)
}
s.PrepareTxnCtx()
st := executor.CompileExecutePreparedStmt(s, stmtID, args...)
logQuery(st.OriginText(), s.sessionVars)
r, err := runStmt(s, st)
return r, errors.Trace(err)
}
func (s *session) DropPreparedStmt(stmtID uint32) error {
vars := s.sessionVars
if _, ok := vars.PreparedStmts[stmtID]; !ok {
return executor.ErrStmtNotFound
}
vars.RetryInfo.DroppedPreparedStmtIDs = append(vars.RetryInfo.DroppedPreparedStmtIDs, stmtID)
return nil
}
func (s *session) Txn() kv.Transaction {
return s.txn
}
func (s *session) NewTxn() error {
if s.txn != nil && s.txn.Valid() {
err := s.CommitTxn()
if err != nil {
return errors.Trace(err)
}
}
txn, err := s.store.Begin()
if err != nil {
return errors.Trace(err)
}
s.txn = txn
s.sessionVars.TxnCtx.StartTS = txn.StartTS()
return nil
}
func (s *session) SetValue(key fmt.Stringer, value interface{}) {
s.mu.Lock()
s.mu.values[key] = value
s.mu.Unlock()
}
func (s *session) Value(key fmt.Stringer) interface{} {
s.mu.RLock()
value := s.mu.values[key]
s.mu.RUnlock()
return value
}
func (s *session) ClearValue(key fmt.Stringer) {
s.mu.Lock()
delete(s.mu.values, key)
s.mu.Unlock()
}
// Close function does some clean work when session end.
func (s *session) Close() {
if s.statsCollector != nil {
s.statsCollector.Delete()
}
if err := s.RollbackTxn(); err != nil {
log.Error("session Close error:", errors.ErrorStack(err))
}
return
}
// GetSessionVars implements the context.Context interface.
func (s *session) GetSessionVars() *variable.SessionVars {
return s.sessionVars
}
func (s *session) getPassword(name, host string) (string, error) {
// Get password for name and host.
authSQL := fmt.Sprintf("SELECT Password FROM %s.%s WHERE User='%s' and Host='%s';", mysql.SystemDB, mysql.UserTable, name, host)
pwd, err := s.getExecRet(s, authSQL)
if err == nil {
return pwd, nil
} else if !executor.ErrResultIsEmpty.Equal(err) {
return "", errors.Trace(err)
}
//Try to get user password for name with any host(%).
authSQL = fmt.Sprintf("SELECT Password FROM %s.%s WHERE User='%s' and Host='%%';", mysql.SystemDB, mysql.UserTable, name)
pwd, err = s.getExecRet(s, authSQL)
return pwd, errors.Trace(err)
}
func (s *session) Auth(user *auth.UserIdentity, authentication []byte, salt []byte) bool {
pm := privilege.GetPrivilegeManager(s)
// Check IP.
if pm.ConnectionVerification(user.Username, user.Hostname, authentication, salt) {
s.sessionVars.User = user
return true
}
// Check Hostname.
for _, addr := range getHostByIP(user.Hostname) {
if pm.ConnectionVerification(user.Username, addr, authentication, salt) {
s.sessionVars.User = &auth.UserIdentity{
Username: user.Username,
Hostname: addr,
}
return true
}
}
log.Errorf("User connection verification failed %s", user)
return false
}
func getHostByIP(ip string) []string {
if ip == "127.0.0.1" {
return []string{"localhost"}
}
addrs, err := net.LookupAddr(ip)
terror.Log(errors.Trace(err))
return addrs
}
// Some vars name for debug.
const (
retryEmptyHistoryList = "RetryEmptyHistoryList"
)
func chooseMinLease(n1 time.Duration, n2 time.Duration) time.Duration {
if n1 <= n2 {
return n1
}
return n2
}
// CreateSession creates a new session environment.