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query.go
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query.go
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package kapacitor
import (
"fmt"
"time"
"github.com/influxdata/influxql"
"github.com/influxdata/kapacitor/tick/ast"
"github.com/pkg/errors"
)
type Query struct {
startTL *influxql.TimeLiteral
stopTL *influxql.TimeLiteral
groupByTimeDL *influxql.DurationLiteral
groupByOffsetDL *influxql.DurationLiteral
stmt *influxql.SelectStatement
alignGroup bool
}
func NewQuery(queryString string) (*Query, error) {
query := &Query{}
// Parse and validate query
q, err := influxql.ParseQuery(queryString)
if err != nil {
return nil, errors.Wrap(err, "failed to parse InfluxQL query")
}
if l := len(q.Statements); l != 1 {
return nil, fmt.Errorf("query must be a single select statement, got %d statements", l)
}
var ok bool
query.stmt, ok = q.Statements[0].(*influxql.SelectStatement)
if !ok {
return nil, fmt.Errorf("query is not a select statement %q", q)
}
// Add in time condition nodes
query.startTL = &influxql.TimeLiteral{}
startExpr := &influxql.BinaryExpr{
Op: influxql.GTE,
LHS: &influxql.VarRef{Val: "time"},
RHS: query.startTL,
}
query.stopTL = &influxql.TimeLiteral{}
stopExpr := &influxql.BinaryExpr{
Op: influxql.LT,
LHS: &influxql.VarRef{Val: "time"},
RHS: query.stopTL,
}
if query.stmt.Condition != nil {
query.stmt.Condition = &influxql.BinaryExpr{
Op: influxql.AND,
LHS: query.stmt.Condition,
RHS: &influxql.BinaryExpr{
Op: influxql.AND,
LHS: startExpr,
RHS: stopExpr,
},
}
} else {
query.stmt.Condition = &influxql.BinaryExpr{
Op: influxql.AND,
LHS: startExpr,
RHS: stopExpr,
}
}
return query, nil
}
// Return the db rp pairs of the query
func (q *Query) DBRPs() ([]DBRP, error) {
dbrps := make([]DBRP, len(q.stmt.Sources))
for i, s := range q.stmt.Sources {
m, ok := s.(*influxql.Measurement)
if !ok {
return nil, fmt.Errorf("unknown query source %T", s)
}
dbrps[i] = DBRP{
Database: m.Database,
RetentionPolicy: m.RetentionPolicy,
}
}
return dbrps, nil
}
// Set the start time of the query
func (q *Query) StartTime() time.Time {
return q.startTL.Val
}
// Set the stop time of the query
func (q *Query) StopTime() time.Time {
return q.stopTL.Val
}
// Set the start time of the query
func (q *Query) SetStartTime(s time.Time) {
q.startTL.Val = s
if q.alignGroup && q.groupByTimeDL != nil && q.groupByOffsetDL != nil {
q.groupByOffsetDL.Val = s.Sub(time.Unix(0, 0)) % q.groupByTimeDL.Val
}
}
// Set the stop time of the query
func (q *Query) SetStopTime(s time.Time) {
q.stopTL.Val = s
}
// Deep clone this query
func (q *Query) Clone() (*Query, error) {
n := &Query{
stmt: q.stmt.Clone(),
alignGroup: q.alignGroup,
}
// Find the start/stop time literals
var err error
influxql.WalkFunc(n.stmt.Condition, func(qlNode influxql.Node) {
if bn, ok := qlNode.(*influxql.BinaryExpr); ok {
switch bn.Op {
case influxql.GTE:
if vf, ok := bn.LHS.(*influxql.VarRef); !ok || vf.Val != "time" {
return
}
if tl, ok := bn.RHS.(*influxql.TimeLiteral); ok {
// We have a "time" >= 'time literal'
if n.startTL == nil {
n.startTL = tl
} else {
err = errors.New("invalid query, found multiple start time conditions")
}
}
case influxql.LT:
if vf, ok := bn.LHS.(*influxql.VarRef); !ok || vf.Val != "time" {
return
}
if tl, ok := bn.RHS.(*influxql.TimeLiteral); ok {
// We have a "time" < 'time literal'
if n.stopTL == nil {
n.stopTL = tl
} else {
err = errors.New("invalid query, found multiple stop time conditions")
}
}
}
}
})
influxql.WalkFunc(n.stmt.Dimensions, func(qlNode influxql.Node) {
if cn, ok := qlNode.(*influxql.Call); ok {
if cn.Name == "time" {
if dln, ok := cn.Args[0].(*influxql.DurationLiteral); ok {
n.groupByTimeDL = &influxql.DurationLiteral{
Val: dln.Val,
}
}
if don, ok := cn.Args[1].(*influxql.DurationLiteral); ok {
n.groupByOffsetDL = &influxql.DurationLiteral{
Val: don.Val,
}
}
}
}
})
if n.startTL == nil {
err = errors.New("invalid query, missing start time condition")
}
if n.stopTL == nil {
err = errors.New("invalid query, missing stop time condition")
}
return n, err
}
// Set the dimensions on the query
func (q *Query) Dimensions(dims []interface{}) error {
q.stmt.Dimensions = q.stmt.Dimensions[:0]
q.groupByTimeDL = nil
q.groupByOffsetDL = &influxql.DurationLiteral{
Val: 0,
}
// Add in dimensions
hasTime := false
for _, d := range dims {
switch dim := d.(type) {
case time.Duration:
if hasTime {
return fmt.Errorf("groupBy cannot have more than one time dimension")
}
// Add time dimension
hasTime = true
q.groupByTimeDL = &influxql.DurationLiteral{
Val: dim,
}
if q.alignGroup {
q.SetStartTime(q.StartTime())
}
q.stmt.Dimensions = append(q.stmt.Dimensions,
&influxql.Dimension{
Expr: &influxql.Call{
Name: "time",
Args: []influxql.Expr{
q.groupByTimeDL,
q.groupByOffsetDL,
},
},
})
case string:
q.stmt.Dimensions = append(q.stmt.Dimensions,
&influxql.Dimension{
Expr: &influxql.VarRef{
Val: dim,
},
})
case *ast.StarNode:
q.stmt.Dimensions = append(q.stmt.Dimensions,
&influxql.Dimension{
Expr: &influxql.Wildcard{},
})
case TimeDimension:
if hasTime {
return fmt.Errorf("groupBy cannot have more than one time dimension")
}
// Add time dimension
hasTime = true
q.groupByTimeDL = &influxql.DurationLiteral{
Val: dim.Length,
}
q.groupByOffsetDL.Val = dim.Offset
if q.alignGroup {
q.SetStartTime(q.StartTime())
}
q.stmt.Dimensions = append(q.stmt.Dimensions,
&influxql.Dimension{
Expr: &influxql.Call{
Name: "time",
Args: []influxql.Expr{
q.groupByTimeDL,
q.groupByOffsetDL,
},
},
})
default:
return fmt.Errorf("invalid dimension type:%T, must be string or time.Duration", d)
}
}
return nil
}
func (q *Query) IsGroupedByTime() bool {
return q.groupByTimeDL != nil
}
func (q *Query) AlignGroup() {
q.alignGroup = true
}
func (q *Query) Fill(option influxql.FillOption, value interface{}) {
q.stmt.Fill = option
q.stmt.FillValue = value
}
func (q *Query) String() string {
return q.stmt.String()
}
type TimeDimension struct {
Length time.Duration
Offset time.Duration
}
func groupByTime(length time.Duration, offset ...time.Duration) (TimeDimension, error) {
var o time.Duration
if l := len(offset); l == 1 {
o = offset[0]
} else if l != 0 {
return TimeDimension{}, fmt.Errorf("time() function expects 1 or 2 args, got %d", l+1)
}
return TimeDimension{
Length: length,
Offset: o,
}, nil
}