vsphere-influxdb-go/vendor/github.com/influxdata/influxdb/influxql/query_executor.go

package influxql

import (
	"errors"
	"fmt"
	"runtime/debug"
	"sync"
	"sync/atomic"
	"time"

	"github.com/influxdata/influxdb/models"
	"github.com/uber-go/zap"
)

var (
	// ErrInvalidQuery is returned when executing an unknown query type.
	ErrInvalidQuery = errors.New("invalid query")

	// ErrNotExecuted is returned when a statement is not executed in a query.
	// This can occur when a previous statement in the same query has errored.
	ErrNotExecuted = errors.New("not executed")

	// ErrQueryInterrupted is an error returned when the query is interrupted.
	ErrQueryInterrupted = errors.New("query interrupted")

	// ErrQueryAborted is an error returned when the query is aborted.
	ErrQueryAborted = errors.New("query aborted")

	// ErrQueryEngineShutdown is an error sent when the query cannot be
	// created because the query engine was shutdown.
	ErrQueryEngineShutdown = errors.New("query engine shutdown")

	// ErrQueryTimeoutLimitExceeded is an error when a query hits the max time allowed to run.
	ErrQueryTimeoutLimitExceeded = errors.New("query-timeout limit exceeded")
)

// Statistics for the QueryExecutor
const (
	statQueriesActive          = "queriesActive"   // Number of queries currently being executed
	statQueriesExecuted        = "queriesExecuted" // Number of queries that have been executed (started).
	statQueriesFinished        = "queriesFinished" // Number of queries that have finished.
	statQueryExecutionDuration = "queryDurationNs" // Total (wall) time spent executing queries
)

// ErrDatabaseNotFound returns a database not found error for the given database name.
func ErrDatabaseNotFound(name string) error { return fmt.Errorf("database not found: %s", name) }

// ErrMaxSelectPointsLimitExceeded is an error when a query hits the maximum number of points.
func ErrMaxSelectPointsLimitExceeded(n, limit int) error {
	return fmt.Errorf("max-select-point limit exceeed: (%d/%d)", n, limit)
}

// ErrMaxConcurrentQueriesLimitExceeded is an error when a query cannot be run
// because the maximum number of queries has been reached.
func ErrMaxConcurrentQueriesLimitExceeded(n, limit int) error {
	return fmt.Errorf("max-concurrent-queries limit exceeded(%d, %d)", n, limit)
}

// Authorizer reports whether certain operations are authorized.
type Authorizer interface {
	// AuthorizeDatabase indicates whether the given Privilege is authorized on the database with the given name.
	AuthorizeDatabase(p Privilege, name string) bool

	// AuthorizeQuery returns an error if the query cannot be executed
	AuthorizeQuery(database string, query *Query) error

	// AuthorizeSeriesRead determines if a series is authorized for reading
	AuthorizeSeriesRead(database string, measurement []byte, tags models.Tags) bool

	// AuthorizeSeriesWrite determines if a series is authorized for writing
	AuthorizeSeriesWrite(database string, measurement []byte, tags models.Tags) bool
}

// OpenAuthorizer is the Authorizer used when authorization is disabled.
// It allows all operations.
type OpenAuthorizer struct{}

var _ Authorizer = OpenAuthorizer{}

// AuthorizeDatabase returns true to allow any operation on a database.
func (_ OpenAuthorizer) AuthorizeDatabase(Privilege, string) bool { return true }

func (_ OpenAuthorizer) AuthorizeSeriesRead(database string, measurement []byte, tags models.Tags) bool {
	return true
}

func (_ OpenAuthorizer) AuthorizeSeriesWrite(database string, measurement []byte, tags models.Tags) bool {
	return true
}

func (_ OpenAuthorizer) AuthorizeQuery(_ string, _ *Query) error { return nil }

// ExecutionOptions contains the options for executing a query.
type ExecutionOptions struct {
	// The database the query is running against.
	Database string

	// How to determine whether the query is allowed to execute,
	// what resources can be returned in SHOW queries, etc.
	Authorizer Authorizer

	// The requested maximum number of points to return in each result.
	ChunkSize int

	// If this query is being executed in a read-only context.
	ReadOnly bool

	// Node to execute on.
	NodeID uint64

	// Quiet suppresses non-essential output from the query executor.
	Quiet bool

	// AbortCh is a channel that signals when results are no longer desired by the caller.
	AbortCh <-chan struct{}
}

// ExecutionContext contains state that the query is currently executing with.
type ExecutionContext struct {
	// The statement ID of the executing query.
	StatementID int

	// The query ID of the executing query.
	QueryID uint64

	// The query task information available to the StatementExecutor.
	Query *QueryTask

	// Output channel where results and errors should be sent.
	Results chan *Result

	// Hold the query executor's logger.
	Log zap.Logger

	// A channel that is closed when the query is interrupted.
	InterruptCh <-chan struct{}

	// Options used to start this query.
	ExecutionOptions
}

// send sends a Result to the Results channel and will exit if the query has
// been aborted.
func (ctx *ExecutionContext) send(result *Result) error {
	select {
	case <-ctx.AbortCh:
		return ErrQueryAborted
	case ctx.Results <- result:
	}
	return nil
}

// Send sends a Result to the Results channel and will exit if the query has
// been interrupted or aborted.
func (ctx *ExecutionContext) Send(result *Result) error {
	select {
	case <-ctx.InterruptCh:
		return ErrQueryInterrupted
	case <-ctx.AbortCh:
		return ErrQueryAborted
	case ctx.Results <- result:
	}
	return nil
}

// StatementExecutor executes a statement within the QueryExecutor.
type StatementExecutor interface {
	// ExecuteStatement executes a statement. Results should be sent to the
	// results channel in the ExecutionContext.
	ExecuteStatement(stmt Statement, ctx ExecutionContext) error
}

// StatementNormalizer normalizes a statement before it is executed.
type StatementNormalizer interface {
	// NormalizeStatement adds a default database and policy to the
	// measurements in the statement.
	NormalizeStatement(stmt Statement, database string) error
}

// QueryExecutor executes every statement in an Query.
type QueryExecutor struct {
	// Used for executing a statement in the query.
	StatementExecutor StatementExecutor

	// Used for tracking running queries.
	TaskManager *TaskManager

	// Logger to use for all logging.
	// Defaults to discarding all log output.
	Logger zap.Logger

	// expvar-based stats.
	stats *QueryStatistics
}

// NewQueryExecutor returns a new instance of QueryExecutor.
func NewQueryExecutor() *QueryExecutor {
	return &QueryExecutor{
		TaskManager: NewTaskManager(),
		Logger:      zap.New(zap.NullEncoder()),
		stats:       &QueryStatistics{},
	}
}

// QueryStatistics keeps statistics related to the QueryExecutor.
type QueryStatistics struct {
	ActiveQueries          int64
	ExecutedQueries        int64
	FinishedQueries        int64
	QueryExecutionDuration int64
}

// Statistics returns statistics for periodic monitoring.
func (e *QueryExecutor) Statistics(tags map[string]string) []models.Statistic {
	return []models.Statistic{{
		Name: "queryExecutor",
		Tags: tags,
		Values: map[string]interface{}{
			statQueriesActive:          atomic.LoadInt64(&e.stats.ActiveQueries),
			statQueriesExecuted:        atomic.LoadInt64(&e.stats.ExecutedQueries),
			statQueriesFinished:        atomic.LoadInt64(&e.stats.FinishedQueries),
			statQueryExecutionDuration: atomic.LoadInt64(&e.stats.QueryExecutionDuration),
		},
	}}
}

// Close kills all running queries and prevents new queries from being attached.
func (e *QueryExecutor) Close() error {
	return e.TaskManager.Close()
}

// SetLogOutput sets the writer to which all logs are written. It must not be
// called after Open is called.
func (e *QueryExecutor) WithLogger(log zap.Logger) {
	e.Logger = log.With(zap.String("service", "query"))
	e.TaskManager.Logger = e.Logger
}

// ExecuteQuery executes each statement within a query.
func (e *QueryExecutor) ExecuteQuery(query *Query, opt ExecutionOptions, closing chan struct{}) <-chan *Result {
	results := make(chan *Result)
	go e.executeQuery(query, opt, closing, results)
	return results
}

func (e *QueryExecutor) executeQuery(query *Query, opt ExecutionOptions, closing <-chan struct{}, results chan *Result) {
	defer close(results)
	defer e.recover(query, results)

	atomic.AddInt64(&e.stats.ActiveQueries, 1)
	atomic.AddInt64(&e.stats.ExecutedQueries, 1)
	defer func(start time.Time) {
		atomic.AddInt64(&e.stats.ActiveQueries, -1)
		atomic.AddInt64(&e.stats.FinishedQueries, 1)
		atomic.AddInt64(&e.stats.QueryExecutionDuration, time.Since(start).Nanoseconds())
	}(time.Now())

	qid, task, err := e.TaskManager.AttachQuery(query, opt.Database, closing)
	if err != nil {
		select {
		case results <- &Result{Err: err}:
		case <-opt.AbortCh:
		}
		return
	}
	defer e.TaskManager.KillQuery(qid)

	// Setup the execution context that will be used when executing statements.
	ctx := ExecutionContext{
		QueryID:          qid,
		Query:            task,
		Results:          results,
		Log:              e.Logger,
		InterruptCh:      task.closing,
		ExecutionOptions: opt,
	}

	var i int
LOOP:
	for ; i < len(query.Statements); i++ {
		ctx.StatementID = i
		stmt := query.Statements[i]

		// If a default database wasn't passed in by the caller, check the statement.
		defaultDB := opt.Database
		if defaultDB == "" {
			if s, ok := stmt.(HasDefaultDatabase); ok {
				defaultDB = s.DefaultDatabase()
			}
		}

		// Do not let queries manually use the system measurements. If we find
		// one, return an error. This prevents a person from using the
		// measurement incorrectly and causing a panic.
		if stmt, ok := stmt.(*SelectStatement); ok {
			for _, s := range stmt.Sources {
				switch s := s.(type) {
				case *Measurement:
					if IsSystemName(s.Name) {
						command := "the appropriate meta command"
						switch s.Name {
						case "_fieldKeys":
							command = "SHOW FIELD KEYS"
						case "_measurements":
							command = "SHOW MEASUREMENTS"
						case "_series":
							command = "SHOW SERIES"
						case "_tagKeys":
							command = "SHOW TAG KEYS"
						case "_tags":
							command = "SHOW TAG VALUES"
						}
						results <- &Result{
							Err: fmt.Errorf("unable to use system source '%s': use %s instead", s.Name, command),
						}
						break LOOP
					}
				}
			}
		}

		// Rewrite statements, if necessary.
		// This can occur on meta read statements which convert to SELECT statements.
		newStmt, err := RewriteStatement(stmt)
		if err != nil {
			results <- &Result{Err: err}
			break
		}
		stmt = newStmt

		// Normalize each statement if possible.
		if normalizer, ok := e.StatementExecutor.(StatementNormalizer); ok {
			if err := normalizer.NormalizeStatement(stmt, defaultDB); err != nil {
				if err := ctx.send(&Result{Err: err}); err == ErrQueryAborted {
					return
				}
				break
			}
		}

		// Log each normalized statement.
		if !ctx.Quiet {
			e.Logger.Info(stmt.String())
		}

		// Send any other statements to the underlying statement executor.
		err = e.StatementExecutor.ExecuteStatement(stmt, ctx)
		if err == ErrQueryInterrupted {
			// Query was interrupted so retrieve the real interrupt error from
			// the query task if there is one.
			if qerr := task.Error(); qerr != nil {
				err = qerr
			}
		}

		// Send an error for this result if it failed for some reason.
		if err != nil {
			if err := ctx.send(&Result{
				StatementID: i,
				Err:         err,
			}); err == ErrQueryAborted {
				return
			}
			// Stop after the first error.
			break
		}

		// Check if the query was interrupted during an uninterruptible statement.
		interrupted := false
		if ctx.InterruptCh != nil {
			select {
			case <-ctx.InterruptCh:
				interrupted = true
			default:
				// Query has not been interrupted.
			}
		}

		if interrupted {
			break
		}
	}

	// Send error results for any statements which were not executed.
	for ; i < len(query.Statements)-1; i++ {
		if err := ctx.send(&Result{
			StatementID: i,
			Err:         ErrNotExecuted,
		}); err == ErrQueryAborted {
			return
		}
	}
}

func (e *QueryExecutor) recover(query *Query, results chan *Result) {
	if err := recover(); err != nil {
		e.Logger.Error(fmt.Sprintf("%s [panic:%s] %s", query.String(), err, debug.Stack()))
		results <- &Result{
			StatementID: -1,
			Err:         fmt.Errorf("%s [panic:%s]", query.String(), err),
		}
	}
}

// QueryMonitorFunc is a function that will be called to check if a query
// is currently healthy. If the query needs to be interrupted for some reason,
// the error should be returned by this function.
type QueryMonitorFunc func(<-chan struct{}) error

// QueryTask is the internal data structure for managing queries.
// For the public use data structure that gets returned, see QueryTask.
type QueryTask struct {
	query     string
	database  string
	startTime time.Time
	closing   chan struct{}
	monitorCh chan error
	err       error
	mu        sync.Mutex
}

// Monitor starts a new goroutine that will monitor a query. The function
// will be passed in a channel to signal when the query has been finished
// normally. If the function returns with an error and the query is still
// running, the query will be terminated.
func (q *QueryTask) Monitor(fn QueryMonitorFunc) {
	go q.monitor(fn)
}

// Error returns any asynchronous error that may have occured while executing
// the query.
func (q *QueryTask) Error() error {
	q.mu.Lock()
	defer q.mu.Unlock()
	return q.err
}

func (q *QueryTask) setError(err error) {
	q.mu.Lock()
	q.err = err
	q.mu.Unlock()
}

func (q *QueryTask) monitor(fn QueryMonitorFunc) {
	if err := fn(q.closing); err != nil {
		select {
		case <-q.closing:
		case q.monitorCh <- err:
		}
	}
}