// the first QueryResult will have Fields set (and Rows nil) // the subsequent QueryResult will have Rows set (and Fields nil) func (qe *QueryEngine) StreamExecute(logStats *sqlQueryStats, query *proto.Query, sendReply func(*mproto.QueryResult) error) { qe.mu.RLock() defer qe.mu.RUnlock() if query.BindVariables == nil { // will help us avoid repeated nil checks query.BindVariables = make(map[string]interface{}) } logStats.BindVariables = query.BindVariables // cheap hack: strip trailing comment into a special bind var stripTrailing(query) plan := qe.schemaInfo.GetStreamPlan(query.Sql) logStats.PlanType = "SELECT_STREAM" logStats.OriginalSql = plan.DisplayQuery defer queryStats.Record("SELECT_STREAM", time.Now()) // does the real work: first get a connection waitingForConnectionStart := time.Now() conn := qe.streamConnPool.Get() logStats.WaitingForConnection += time.Now().Sub(waitingForConnectionStart) defer conn.Recycle() // then let's stream! qe.fullStreamFetch(logStats, conn, plan.FullQuery, query.BindVariables, nil, nil, sendReply) }
// StreamExecute executes the query and streams the result. // The first QueryResult will have Fields set (and Rows nil). // The subsequent QueryResult will have Rows set (and Fields nil). func (sq *SqlQuery) StreamExecute(ctx context.Context, query *proto.Query, sendReply func(*mproto.QueryResult) error) (err error) { // check cases we don't handle yet if query.TransactionId != 0 { return NewTabletError(ErrFail, "Transactions not supported with streaming") } logStats := newSqlQueryStats("StreamExecute", ctx) defer sq.handleExecError(query, &err, logStats) if err = sq.startRequest(query.SessionId, false, false); err != nil { return err } defer sq.endRequest() if query.BindVariables == nil { query.BindVariables = make(map[string]interface{}) } stripTrailing(query) qre := &QueryExecutor{ query: query.Sql, bindVars: query.BindVariables, transactionID: query.TransactionId, plan: sq.qe.schemaInfo.GetStreamPlan(query.Sql), ctx: ctx, logStats: logStats, qe: sq.qe, } qre.Stream(sendReply) return nil }
// StreamExecute executes the query and streams the result. // The first QueryResult will have Fields set (and Rows nil). // The subsequent QueryResult will have Rows set (and Fields nil). func (tsv *TabletServer) StreamExecute(ctx context.Context, target *pb.Target, query *proto.Query, sendReply func(*mproto.QueryResult) error) (err error) { // check cases we don't handle yet if query.TransactionId != 0 { return NewTabletError(ErrFail, vtrpc.ErrorCode_BAD_INPUT, "Transactions not supported with streaming") } logStats := newLogStats("StreamExecute", ctx) defer tsv.handleExecError(query, &err, logStats) if err = tsv.startRequest(target, query.SessionId, false); err != nil { return err } defer tsv.endRequest() if query.BindVariables == nil { query.BindVariables = make(map[string]interface{}) } stripTrailing(query) qre := &QueryExecutor{ query: query.Sql, bindVars: query.BindVariables, transactionID: query.TransactionId, plan: tsv.qe.schemaInfo.GetStreamPlan(query.Sql), ctx: ctx, logStats: logStats, qe: tsv.qe, } err = qre.Stream(sendReply) if err != nil { return tsv.handleExecErrorNoPanic(query, err, logStats) } return nil }
// Execute executes the query and returns the result as response. func (sq *SqlQuery) Execute(ctx context.Context, query *proto.Query, reply *mproto.QueryResult) (err error) { logStats := newSqlQueryStats("Execute", ctx) defer sq.handleExecError(query, &err, logStats) allowShutdown := (query.TransactionId != 0) if err = sq.startRequest(query.SessionId, false, allowShutdown); err != nil { return err } ctx, cancel := withTimeout(ctx, sq.qe.queryTimeout.Get()) defer func() { cancel() sq.endRequest() }() if query.BindVariables == nil { query.BindVariables = make(map[string]interface{}) } stripTrailing(query) qre := &QueryExecutor{ query: query.Sql, bindVars: query.BindVariables, transactionID: query.TransactionId, plan: sq.qe.schemaInfo.GetPlan(ctx, logStats, query.Sql), ctx: ctx, logStats: logStats, qe: sq.qe, } *reply = *qre.Execute() return nil }
func TestComments(t *testing.T) { for _, testCase := range testCases { query := proto.Query{ Sql: testCase.input, BindVariables: make(map[string]interface{}), } stripTrailing(&query) want := proto.Query{ Sql: testCase.outSQL, } want.BindVariables = make(map[string]interface{}) if testCase.outVar != "" { want.BindVariables[trailingComment] = testCase.outVar } if !reflect.DeepEqual(query, want) { t.Errorf("test input: '%s', got\n%+v, want\n%+v", testCase.input, query, want) } sql := string(restoreTrailing([]byte(testCase.outSQL), want.BindVariables)) if !reflect.DeepEqual(testCase.input, sql) { t.Fatalf("failed to restore to original sql, got: %s, want: %s", sql, testCase.input) } } }
// Execute executes the query and returns the result as response. func (tsv *TabletServer) Execute(ctx context.Context, target *pb.Target, query *proto.Query, reply *mproto.QueryResult) (err error) { logStats := newLogStats("Execute", ctx) defer tsv.handleExecError(query, &err, logStats) allowShutdown := (query.TransactionId != 0) if err = tsv.startRequest(target, query.SessionId, allowShutdown); err != nil { return err } ctx, cancel := withTimeout(ctx, tsv.QueryTimeout.Get()) defer func() { cancel() tsv.endRequest() }() if query.BindVariables == nil { query.BindVariables = make(map[string]interface{}) } stripTrailing(query) qre := &QueryExecutor{ query: query.Sql, bindVars: query.BindVariables, transactionID: query.TransactionId, plan: tsv.qe.schemaInfo.GetPlan(ctx, logStats, query.Sql), ctx: ctx, logStats: logStats, qe: tsv.qe, } result, err := qre.Execute() if err != nil { return tsv.handleExecErrorNoPanic(query, err, logStats) } *reply = *result return nil }
// StreamExecute executes the query and streams its result. // The first QueryResult will have Fields set (and Rows nil) // The subsequent QueryResult will have Rows set (and Fields nil) func (qe *QueryEngine) StreamExecute(logStats *SQLQueryStats, query *proto.Query, sendReply func(*mproto.QueryResult) error) { if query.BindVariables == nil { // will help us avoid repeated nil checks query.BindVariables = make(map[string]interface{}) } logStats.BindVariables = query.BindVariables // cheap hack: strip trailing comment into a special bind var stripTrailing(query) plan := qe.schemaInfo.GetStreamPlan(query.Sql) logStats.PlanType = "SELECT_STREAM" logStats.OriginalSql = query.Sql defer queryStats.Record("SELECT_STREAM", time.Now()) authorized := tableacl.Authorized(plan.TableName, plan.PlanId.MinRole()) qe.checkTableAcl(plan.TableName, plan.PlanId, authorized, logStats.context.GetUsername()) // does the real work: first get a connection waitingForConnectionStart := time.Now() conn := getOrPanic(qe.streamConnPool) logStats.WaitingForConnection += time.Now().Sub(waitingForConnectionStart) defer conn.Recycle() qd := NewQueryDetail(query, logStats.context, conn.Id()) qe.streamQList.Add(qd) defer qe.streamQList.Remove(qd) // then let's stream! Wrap callback function to return an // error on query termination to stop further streaming qe.fullStreamFetch(logStats, conn, plan.FullQuery, query.BindVariables, nil, nil, sendReply) }
// Execute executes the query and returns the result as response. func (sq *SqlQuery) Execute(context context.Context, query *proto.Query, reply *mproto.QueryResult) (err error) { logStats := newSqlQueryStats("Execute", context) allowShutdown := (query.TransactionId != 0) if err = sq.startRequest(query.SessionId, allowShutdown); err != nil { return err } defer sq.endRequest() defer handleExecError(query, &err, logStats) // TODO(sougou): Change usage such that we don't have to do this. if query.BindVariables == nil { query.BindVariables = make(map[string]interface{}) } stripTrailing(query) qre := &QueryExecutor{ query: query.Sql, bindVars: query.BindVariables, transactionID: query.TransactionId, plan: sq.qe.schemaInfo.GetPlan(logStats, query.Sql), RequestContext: RequestContext{ ctx: context, logStats: logStats, qe: sq.qe, }, } *reply = *qre.Execute() return nil }
// StreamExecute executes the query and streams the result. // The first QueryResult will have Fields set (and Rows nil). // The subsequent QueryResult will have Rows set (and Fields nil). func (sq *SqlQuery) StreamExecute(context context.Context, query *proto.Query, sendReply func(*mproto.QueryResult) error) (err error) { // check cases we don't handle yet if query.TransactionId != 0 { return NewTabletError(FAIL, "Transactions not supported with streaming") } logStats := newSqlQueryStats("StreamExecute", context) if err = sq.startRequest(query.SessionId, false); err != nil { return err } defer sq.endRequest() defer handleExecError(query, &err, logStats) // TODO(sougou): Change usage such that we don't have to do this. if query.BindVariables == nil { query.BindVariables = make(map[string]interface{}) } stripTrailing(query) qre := &QueryExecutor{ query: query.Sql, bindVars: query.BindVariables, transactionID: query.TransactionId, plan: sq.qe.schemaInfo.GetStreamPlan(query.Sql), RequestContext: RequestContext{ ctx: context, logStats: logStats, qe: sq.qe, deadline: NewDeadline(sq.qe.queryTimeout.Get()), }, } qre.Stream(sendReply) return nil }
func TestComments(t *testing.T) { for _, testCase := range testCases { query := proto.Query{ Sql: testCase.input, BindVariables: make(map[string]interface{}), } stripTrailing(&query) want := proto.Query{ Sql: testCase.outSql, } want.BindVariables = make(map[string]interface{}) if testCase.outVar != "" { want.BindVariables[TRAILING_COMMENT] = testCase.outVar } if !reflect.DeepEqual(query, want) { t.Errorf("test input: '%s', got\n%+v, want\n%+v", testCase.input, query, want) } } }
func (qe *QueryEngine) Execute(logStats *sqlQueryStats, query *proto.Query) (reply *mproto.QueryResult) { qe.mu.RLock() defer qe.mu.RUnlock() if query.BindVariables == nil { // will help us avoid repeated nil checks query.BindVariables = make(map[string]interface{}) } logStats.BindVariables = query.BindVariables // cheap hack: strip trailing comment into a special bind var stripTrailing(query) basePlan := qe.schemaInfo.GetPlan(logStats, query.Sql) planName := basePlan.PlanId.String() logStats.PlanType = planName logStats.OriginalSql = basePlan.DisplayQuery defer func(start time.Time) { duration := time.Now().Sub(start) queryStats.Add(planName, duration) if reply == nil { basePlan.AddStats(1, duration, 0, 1) } else { basePlan.AddStats(1, duration, int64(len(reply.Rows)), 0) } }(time.Now()) // Run it by the rules engine action, desc := basePlan.Rules.getAction(logStats.RemoteAddr(), logStats.Username(), query.BindVariables) if action == QR_FAIL_QUERY { panic(NewTabletError(FAIL, "Query disallowed due to rule: %s", desc)) } if basePlan.PlanId == sqlparser.PLAN_DDL { return qe.execDDL(logStats, query.Sql) } plan := &CompiledPlan{ Query: query.Sql, ExecPlan: basePlan, BindVars: query.BindVariables, TransactionId: query.TransactionId, } if query.TransactionId != 0 { // Need upfront connection for DMLs and transactions conn := qe.activeTxPool.Get(query.TransactionId) defer conn.Recycle() conn.RecordQuery(plan.DisplayQuery) var invalidator CacheInvalidator if plan.TableInfo != nil && plan.TableInfo.CacheType != schema.CACHE_NONE { invalidator = conn.DirtyKeys(plan.TableName) } switch plan.PlanId { case sqlparser.PLAN_PASS_DML: // TODO(sougou): Delete code path that leads here. // We need to permanently disallow this plan. panic(NewTabletError(FAIL, "DML too complex")) case sqlparser.PLAN_INSERT_PK: reply = qe.execInsertPK(logStats, conn, plan, invalidator) case sqlparser.PLAN_INSERT_SUBQUERY: reply = qe.execInsertSubquery(logStats, conn, plan, invalidator) case sqlparser.PLAN_DML_PK: reply = qe.execDMLPK(logStats, conn, plan, invalidator) case sqlparser.PLAN_DML_SUBQUERY: reply = qe.execDMLSubquery(logStats, conn, plan, invalidator) default: // select or set in a transaction, just count as select reply = qe.execDirect(logStats, plan, conn) } } else { switch plan.PlanId { case sqlparser.PLAN_PASS_SELECT: if plan.Reason == sqlparser.REASON_FOR_UPDATE { panic(NewTabletError(FAIL, "Disallowed outside transaction")) } reply = qe.execSelect(logStats, plan) case sqlparser.PLAN_PK_EQUAL: reply = qe.execPKEqual(logStats, plan) case sqlparser.PLAN_PK_IN: reply = qe.execPKIN(logStats, plan) case sqlparser.PLAN_SELECT_SUBQUERY: reply = qe.execSubquery(logStats, plan) case sqlparser.PLAN_SET: waitingForConnectionStart := time.Now() conn := qe.connPool.Get() logStats.WaitingForConnection += time.Now().Sub(waitingForConnectionStart) defer conn.Recycle() reply = qe.execSet(logStats, conn, plan) default: panic(NewTabletError(NOT_IN_TX, "DMLs not allowed outside of transactions")) } } if plan.PlanId.IsSelect() { logStats.RowsAffected = int(reply.RowsAffected) resultStats.Add(int64(reply.RowsAffected)) logStats.Rows = reply.Rows } return reply }
// Execute executes the specified query and returns its result. func (qe *QueryEngine) Execute(logStats *SQLQueryStats, query *proto.Query) (reply *mproto.QueryResult) { if query.BindVariables == nil { // will help us avoid repeated nil checks query.BindVariables = make(map[string]interface{}) } logStats.BindVariables = query.BindVariables // cheap hack: strip trailing comment into a special bind var stripTrailing(query) basePlan := qe.schemaInfo.GetPlan(logStats, query.Sql) planName := basePlan.PlanId.String() logStats.PlanType = planName logStats.OriginalSql = query.Sql defer func(start time.Time) { duration := time.Now().Sub(start) queryStats.Add(planName, duration) if reply == nil { basePlan.AddStats(1, duration, 0, 1) } else { basePlan.AddStats(1, duration, int64(len(reply.Rows)), 0) } }(time.Now()) // Run it by the rules engine action, desc := basePlan.Rules.getAction(logStats.RemoteAddr(), logStats.Username(), query.BindVariables) switch action { case QR_FAIL: panic(NewTabletError(FAIL, "Query disallowed due to rule: %s", desc)) case QR_FAIL_RETRY: panic(NewTabletError(RETRY, "Query disallowed due to rule: %s", desc)) } qe.checkTableAcl(basePlan.TableName, basePlan.PlanId, basePlan.Authorized, logStats.context.GetUsername()) if basePlan.PlanId == planbuilder.PLAN_DDL { return qe.execDDL(logStats, query.Sql) } plan := &compiledPlan{ Query: query.Sql, ExecPlan: basePlan, BindVars: query.BindVariables, TransactionID: query.TransactionId, } if query.TransactionId != 0 { // Need upfront connection for DMLs and transactions conn := qe.activeTxPool.Get(query.TransactionId) defer conn.Recycle() conn.RecordQuery(plan.Query) switch plan.PlanId { case planbuilder.PLAN_PASS_DML: if qe.strictMode.Get() != 0 { panic(NewTabletError(FAIL, "DML too complex")) } reply = qe.directFetch(logStats, conn, plan.FullQuery, plan.BindVars, nil, nil) case planbuilder.PLAN_INSERT_PK: reply = qe.execInsertPK(logStats, conn, plan) case planbuilder.PLAN_INSERT_SUBQUERY: reply = qe.execInsertSubquery(logStats, conn, plan) case planbuilder.PLAN_DML_PK: reply = qe.execDMLPK(logStats, conn, plan) case planbuilder.PLAN_DML_SUBQUERY: reply = qe.execDMLSubquery(logStats, conn, plan) case planbuilder.PLAN_OTHER: reply = qe.executeSqlString(logStats, conn, query.Sql, true) default: // select or set in a transaction, just count as select reply = qe.execDirect(logStats, plan, conn) } } else { switch plan.PlanId { case planbuilder.PLAN_PASS_SELECT: if plan.Reason == planbuilder.REASON_LOCK { panic(NewTabletError(FAIL, "Disallowed outside transaction")) } reply = qe.execSelect(logStats, plan) case planbuilder.PLAN_PK_EQUAL: reply = qe.execPKEqual(logStats, plan) case planbuilder.PLAN_PK_IN: reply = qe.execPKIN(logStats, plan) case planbuilder.PLAN_SELECT_SUBQUERY: reply = qe.execSubquery(logStats, plan) case planbuilder.PLAN_SET: reply = qe.execSet(logStats, plan) case planbuilder.PLAN_OTHER: waitingForConnectionStart := time.Now() conn := getOrPanic(qe.connPool) logStats.WaitingForConnection += time.Now().Sub(waitingForConnectionStart) defer conn.Recycle() reply = qe.executeSqlString(logStats, conn, query.Sql, true) default: panic(NewTabletError(NOT_IN_TX, "DMLs not allowed outside of transactions")) } } if plan.PlanId.IsSelect() { logStats.RowsAffected = int(reply.RowsAffected) resultStats.Add(int64(reply.RowsAffected)) logStats.Rows = reply.Rows } return reply }