grafana/pkg/expr/commands.go
2023-10-03 14:54:20 +02:00

360 lines
11 KiB
Go

package expr
import (
"context"
"errors"
"fmt"
"strings"
"time"
"github.com/grafana/grafana-plugin-sdk-go/backend/gtime"
"github.com/grafana/grafana-plugin-sdk-go/data"
"go.opentelemetry.io/otel/attribute"
"github.com/grafana/grafana/pkg/expr/mathexp"
"github.com/grafana/grafana/pkg/infra/tracing"
)
// Command is an interface for all expression commands.
type Command interface {
NeedsVars() []string
Execute(ctx context.Context, now time.Time, vars mathexp.Vars, tracer tracing.Tracer) (mathexp.Results, error)
}
// MathCommand is a command for a math expression such as "1 + $GA / 2"
type MathCommand struct {
RawExpression string
Expression *mathexp.Expr
refID string
}
// NewMathCommand creates a new MathCommand. It will return an error
// if there is an error parsing expr.
func NewMathCommand(refID, expr string) (*MathCommand, error) {
parsedExpr, err := mathexp.New(expr)
if err != nil {
return nil, err
}
return &MathCommand{
RawExpression: expr,
Expression: parsedExpr,
refID: refID,
}, nil
}
// UnmarshalMathCommand creates a MathCommand from Grafana's frontend query.
func UnmarshalMathCommand(rn *rawNode) (*MathCommand, error) {
rawExpr, ok := rn.Query["expression"]
if !ok {
return nil, errors.New("command is missing an expression")
}
exprString, ok := rawExpr.(string)
if !ok {
return nil, fmt.Errorf("math expression is expected to be a string, got %T", rawExpr)
}
gm, err := NewMathCommand(rn.RefID, exprString)
if err != nil {
return nil, fmt.Errorf("invalid math command type: %w", err)
}
return gm, nil
}
// NeedsVars returns the variable names (refIds) that are dependencies
// to execute the command and allows the command to fulfill the Command interface.
func (gm *MathCommand) NeedsVars() []string {
return gm.Expression.VarNames
}
// Execute runs the command and returns the results or an error if the command
// failed to execute.
func (gm *MathCommand) Execute(ctx context.Context, _ time.Time, vars mathexp.Vars, tracer tracing.Tracer) (mathexp.Results, error) {
_, span := tracer.Start(ctx, "SSE.ExecuteMath")
span.SetAttributes(attribute.String("expression", gm.RawExpression))
defer span.End()
return gm.Expression.Execute(gm.refID, vars, tracer)
}
// ReduceCommand is an expression command for reduction of a timeseries such as a min, mean, or max.
type ReduceCommand struct {
Reducer string
VarToReduce string
refID string
seriesMapper mathexp.ReduceMapper
}
// NewReduceCommand creates a new ReduceCMD.
func NewReduceCommand(refID, reducer, varToReduce string, mapper mathexp.ReduceMapper) (*ReduceCommand, error) {
_, err := mathexp.GetReduceFunc(reducer)
if err != nil {
return nil, err
}
return &ReduceCommand{
Reducer: reducer,
VarToReduce: varToReduce,
refID: refID,
seriesMapper: mapper,
}, nil
}
// UnmarshalReduceCommand creates a MathCMD from Grafana's frontend query.
func UnmarshalReduceCommand(rn *rawNode) (*ReduceCommand, error) {
rawVar, ok := rn.Query["expression"]
if !ok {
return nil, errors.New("no expression ID is specified to reduce. Must be a reference to an existing query or expression")
}
varToReduce, ok := rawVar.(string)
if !ok {
return nil, fmt.Errorf("expression ID is expected to be a string, got %T", rawVar)
}
varToReduce = strings.TrimPrefix(varToReduce, "$")
rawReducer, ok := rn.Query["reducer"]
if !ok {
return nil, errors.New("no reducer specified")
}
redFunc, ok := rawReducer.(string)
if !ok {
return nil, fmt.Errorf("expected reducer to be a string, got %T", rawReducer)
}
var mapper mathexp.ReduceMapper = nil
settings, ok := rn.Query["settings"]
if ok {
switch s := settings.(type) {
case map[string]any:
mode, ok := s["mode"]
if ok && mode != "" {
switch mode {
case "dropNN":
mapper = mathexp.DropNonNumber{}
case "replaceNN":
valueStr, ok := s["replaceWithValue"]
if !ok {
return nil, errors.New("setting replaceWithValue must be specified when mode is 'replaceNN'")
}
switch value := valueStr.(type) {
case float64:
mapper = mathexp.ReplaceNonNumberWithValue{Value: value}
default:
return nil, fmt.Errorf("setting replaceWithValue must be a number, got %T", value)
}
default:
return nil, fmt.Errorf("reducer mode '%s' is not supported. Supported only: [dropNN,replaceNN]", mode)
}
}
default:
return nil, fmt.Errorf("field settings must be an object, got %T for refId %v", s, rn.RefID)
}
}
return NewReduceCommand(rn.RefID, redFunc, varToReduce, mapper)
}
// NeedsVars returns the variable names (refIds) that are dependencies
// to execute the command and allows the command to fulfill the Command interface.
func (gr *ReduceCommand) NeedsVars() []string {
return []string{gr.VarToReduce}
}
// Execute runs the command and returns the results or an error if the command
// failed to execute.
func (gr *ReduceCommand) Execute(ctx context.Context, _ time.Time, vars mathexp.Vars, tracer tracing.Tracer) (mathexp.Results, error) {
_, span := tracer.Start(ctx, "SSE.ExecuteReduce")
defer span.End()
span.SetAttributes(attribute.String("reducer", gr.Reducer))
newRes := mathexp.Results{}
for i, val := range vars[gr.VarToReduce].Values {
switch v := val.(type) {
case mathexp.Series:
num, err := v.Reduce(gr.refID, gr.Reducer, gr.seriesMapper)
if err != nil {
return newRes, err
}
newRes.Values = append(newRes.Values, num)
case mathexp.Number: // if incoming vars is just a number, any reduce op is just a noop, add it as it is
value := v.GetFloat64Value()
if gr.seriesMapper != nil {
value = gr.seriesMapper.MapInput(value)
if value == nil { // same logic as in mapSeries
continue
}
}
copyV := mathexp.NewNumber(gr.refID, v.GetLabels())
copyV.SetValue(value)
if gr.seriesMapper == nil && i == 0 { // Add notice to only the first result to not multiple them in presentation
copyV.AddNotice(data.Notice{
Severity: data.NoticeSeverityWarning,
Text: fmt.Sprintf("Reduce operation is not needed. Input query or expression %s is already reduced data.", gr.VarToReduce),
})
}
newRes.Values = append(newRes.Values, copyV)
case mathexp.NoData:
newRes.Values = append(newRes.Values, v.New())
default:
return newRes, fmt.Errorf("can only reduce type series, got type %v", val.Type())
}
}
return newRes, nil
}
// ResampleCommand is an expression command for resampling of a timeseries.
type ResampleCommand struct {
Window time.Duration
VarToResample string
Downsampler string
Upsampler string
TimeRange TimeRange
refID string
}
// NewResampleCommand creates a new ResampleCMD.
func NewResampleCommand(refID, rawWindow, varToResample string, downsampler string, upsampler string, tr TimeRange) (*ResampleCommand, error) {
// TODO: validate reducer here, before execution
window, err := gtime.ParseDuration(rawWindow)
if err != nil {
return nil, fmt.Errorf(`failed to parse resample "window" duration field %q: %w`, window, err)
}
return &ResampleCommand{
Window: window,
VarToResample: varToResample,
Downsampler: downsampler,
Upsampler: upsampler,
TimeRange: tr,
refID: refID,
}, nil
}
// UnmarshalResampleCommand creates a ResampleCMD from Grafana's frontend query.
func UnmarshalResampleCommand(rn *rawNode) (*ResampleCommand, error) {
if rn.TimeRange == nil {
return nil, fmt.Errorf("time range must be specified for refID %s", rn.RefID)
}
rawVar, ok := rn.Query["expression"]
if !ok {
return nil, errors.New("no expression ID to resample. must be a reference to an existing query or expression")
}
varToReduce, ok := rawVar.(string)
if !ok {
return nil, fmt.Errorf("expected resample input variable to be type string, but got type %T", rawVar)
}
varToReduce = strings.TrimPrefix(varToReduce, "$")
varToResample := varToReduce
rawWindow, ok := rn.Query["window"]
if !ok {
return nil, errors.New("no time duration specified for the window in resample command")
}
window, ok := rawWindow.(string)
if !ok {
return nil, fmt.Errorf("resample window is expected to be a string, got %T", rawWindow)
}
rawDownsampler, ok := rn.Query["downsampler"]
if !ok {
return nil, errors.New("no downsampler function specified in resample command")
}
downsampler, ok := rawDownsampler.(string)
if !ok {
return nil, fmt.Errorf("expected resample downsampler to be a string, got type %T", downsampler)
}
rawUpsampler, ok := rn.Query["upsampler"]
if !ok {
return nil, errors.New("no upsampler specified in resample command")
}
upsampler, ok := rawUpsampler.(string)
if !ok {
return nil, fmt.Errorf("expected resample downsampler to be a string, got type %T", upsampler)
}
return NewResampleCommand(rn.RefID, window, varToResample, downsampler, upsampler, rn.TimeRange)
}
// NeedsVars returns the variable names (refIds) that are dependencies
// to execute the command and allows the command to fulfill the Command interface.
func (gr *ResampleCommand) NeedsVars() []string {
return []string{gr.VarToResample}
}
// Execute runs the command and returns the results or an error if the command
// failed to execute.
func (gr *ResampleCommand) Execute(ctx context.Context, now time.Time, vars mathexp.Vars, tracer tracing.Tracer) (mathexp.Results, error) {
_, span := tracer.Start(ctx, "SSE.ExecuteResample")
defer span.End()
newRes := mathexp.Results{}
timeRange := gr.TimeRange.AbsoluteTime(now)
for _, val := range vars[gr.VarToResample].Values {
if val == nil {
continue
}
switch v := val.(type) {
case mathexp.Series:
num, err := v.Resample(gr.refID, gr.Window, gr.Downsampler, gr.Upsampler, timeRange.From, timeRange.To)
if err != nil {
return newRes, err
}
newRes.Values = append(newRes.Values, num)
case mathexp.NoData:
newRes.Values = append(newRes.Values, v.New())
return newRes, nil
default:
return newRes, fmt.Errorf("can only resample type series, got type %v", val.Type())
}
}
return newRes, nil
}
// CommandType is the type of the expression command.
type CommandType int
const (
// TypeUnknown is the CMDType for an unrecognized expression type.
TypeUnknown CommandType = iota
// TypeMath is the CMDType for a math expression.
TypeMath
// TypeReduce is the CMDType for a reduction expression.
TypeReduce
// TypeResample is the CMDType for a resampling expression.
TypeResample
// TypeClassicConditions is the CMDType for the classic condition operation.
TypeClassicConditions
// TypeThreshold is the CMDType for checking if a threshold has been crossed
TypeThreshold
)
func (gt CommandType) String() string {
switch gt {
case TypeMath:
return "math"
case TypeReduce:
return "reduce"
case TypeResample:
return "resample"
case TypeClassicConditions:
return "classic_conditions"
default:
return "unknown"
}
}
// ParseCommandType returns a CommandType from its string representation.
func ParseCommandType(s string) (CommandType, error) {
switch s {
case "math":
return TypeMath, nil
case "reduce":
return TypeReduce, nil
case "resample":
return TypeResample, nil
case "classic_conditions":
return TypeClassicConditions, nil
case "threshold":
return TypeThreshold, nil
default:
return TypeUnknown, fmt.Errorf("'%v' is not a recognized expression type", s)
}
}