prometheus/rules/ast/functions.go

// Copyright 2013 Prometheus Team
// 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,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

package ast

import (
	"errors"
	"fmt"
	"github.com/prometheus/prometheus/model"
	"time"
)

type Function struct {
	name       string
	argTypes   []ExprType
	returnType ExprType
	callFn     func(timestamp *time.Time, view *viewAdapter, args []Node) interface{}
}

func (function *Function) CheckArgTypes(args []Node) error {
	if len(function.argTypes) != len(args) {
		return errors.New(
			fmt.Sprintf("Wrong number of arguments to function %v(): %v expected, %v given",
				function.name, len(function.argTypes), len(args)))
	}
	for idx, argType := range function.argTypes {
		invalidType := false
		var expectedType string
		if _, ok := args[idx].(ScalarNode); argType == SCALAR && !ok {
			invalidType = true
			expectedType = "scalar"
		}
		if _, ok := args[idx].(VectorNode); argType == VECTOR && !ok {
			invalidType = true
			expectedType = "vector"
		}
		if _, ok := args[idx].(MatrixNode); argType == MATRIX && !ok {
			invalidType = true
			expectedType = "matrix"
		}
		if _, ok := args[idx].(StringNode); argType == STRING && !ok {
			invalidType = true
			expectedType = "string"
		}

		if invalidType {
			return errors.New(
				fmt.Sprintf("Wrong type for argument %v in function %v(), expected %v",
					idx, function.name, expectedType))
		}
	}
	return nil
}

// === time() ===
func timeImpl(timestamp *time.Time, view *viewAdapter, args []Node) interface{} {
	return model.SampleValue(time.Now().Unix())
}

// === count(vector VectorNode) ===
func countImpl(timestamp *time.Time, view *viewAdapter, args []Node) interface{} {
	return model.SampleValue(len(args[0].(VectorNode).Eval(timestamp, view)))
}

// === delta(matrix MatrixNode, isCounter ScalarNode) ===
func deltaImpl(timestamp *time.Time, view *viewAdapter, args []Node) interface{} {
	matrixNode := args[0].(MatrixNode)
	isCounter := int(args[1].(ScalarNode).Eval(timestamp, view))
	resultVector := Vector{}

	// If we treat these metrics as counters, we need to fetch all values
	// in the interval to find breaks in the timeseries' monotonicity.
	// I.e. if a counter resets, we want to ignore that reset.
	var matrixValue Matrix
	if isCounter > 0 {
		matrixValue = matrixNode.Eval(timestamp, view)
	} else {
		matrixValue = matrixNode.EvalBoundaries(timestamp, view)
	}
	for _, samples := range matrixValue {
		counterCorrection := model.SampleValue(0)
		lastValue := model.SampleValue(0)
		for _, sample := range samples.Values {
			currentValue := sample.Value
			if currentValue < lastValue {
				counterCorrection += lastValue - currentValue
			}
			lastValue = currentValue
		}
		resultValue := lastValue - samples.Values[0].Value + counterCorrection
		resultSample := &model.Sample{
			Metric:    samples.Metric,
			Value:     resultValue,
			Timestamp: *timestamp,
		}
		resultVector = append(resultVector, resultSample)
	}
	return resultVector
}

// === rate(node *MatrixNode) ===
func rateImpl(timestamp *time.Time, view *viewAdapter, args []Node) interface{} {
	args = append(args, &ScalarLiteral{value: 1})
	vector := deltaImpl(timestamp, view, args).(Vector)

	// TODO: could be other type of MatrixNode in the future (right now, only
	// MatrixLiteral exists). Find a better way of getting the duration of a
	// matrix, such as looking at the samples themselves.
	interval := args[0].(*MatrixLiteral).interval
	for _, sample := range vector {
		sample.Value /= model.SampleValue(interval / time.Second)
	}
	return vector
}

// === sampleVectorImpl() ===
func sampleVectorImpl(timestamp *time.Time, view *viewAdapter, args []Node) interface{} {
	return Vector{
		&model.Sample{
			Metric: model.Metric{
				model.MetricNameLabel: "http_requests",
				"job":                 "api-server",
				"instance":            "0",
			},
			Value:     10,
			Timestamp: *timestamp,
		},
		&model.Sample{
			Metric: model.Metric{
				model.MetricNameLabel: "http_requests",
				"job":                 "api-server",
				"instance":            "1",
			},
			Value:     20,
			Timestamp: *timestamp,
		},
		&model.Sample{
			Metric: model.Metric{
				model.MetricNameLabel: "http_requests",
				"job":                 "api-server",
				"instance":            "2",
			},
			Value:     30,
			Timestamp: *timestamp,
		},
		&model.Sample{
			Metric: model.Metric{
				model.MetricNameLabel: "http_requests",
				"job":                 "api-server",
				"instance":            "3",
				"group":               "canary",
			},
			Value:     40,
			Timestamp: *timestamp,
		},
		&model.Sample{
			Metric: model.Metric{
				model.MetricNameLabel: "http_requests",
				"job":                 "api-server",
				"instance":            "2",
				"group":               "canary",
			},
			Value:     40,
			Timestamp: *timestamp,
		},
		&model.Sample{
			Metric: model.Metric{
				model.MetricNameLabel: "http_requests",
				"job":                 "api-server",
				"instance":            "3",
				"group":               "mytest",
			},
			Value:     40,
			Timestamp: *timestamp,
		},
		&model.Sample{
			Metric: model.Metric{
				model.MetricNameLabel: "http_requests",
				"job":                 "api-server",
				"instance":            "3",
				"group":               "mytest",
			},
			Value:     40,
			Timestamp: *timestamp,
		},
	}
}

var functions = map[string]*Function{
	"time": {
		name:       "time",
		argTypes:   []ExprType{},
		returnType: SCALAR,
		callFn:     timeImpl,
	},
	"count": {
		name:       "count",
		argTypes:   []ExprType{VECTOR},
		returnType: SCALAR,
		callFn:     countImpl,
	},
	"delta": {
		name:       "delta",
		argTypes:   []ExprType{MATRIX, SCALAR},
		returnType: VECTOR,
		callFn:     deltaImpl,
	},
	"rate": {
		name:       "rate",
		argTypes:   []ExprType{MATRIX},
		returnType: VECTOR,
		callFn:     rateImpl,
	},
	"sampleVector": {
		name:       "sampleVector",
		argTypes:   []ExprType{},
		returnType: VECTOR,
		callFn:     sampleVectorImpl,
	},
}

func GetFunction(name string) (*Function, error) {
	function, ok := functions[name]
	if !ok {
		return nil, errors.New(fmt.Sprintf("Couldn't find function %v()", name))
	}
	return function, nil
}
Add copyright notices to all remaining files. 2013-02-07 02:49:04 -08:00			`// Copyright 2013 Prometheus Team`
			`// 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,`
			`// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`// See the License for the specific language governing permissions and`
			`// limitations under the License.`

Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`package ast`

			`import (`
			`"errors"`
			`"fmt"`
Update import paths to new location. This repository moved from matttproud/prometheus to prometheus/prometheus, and all import paths need to be updated. 2013-01-27 09:49:45 -08:00			`"github.com/prometheus/prometheus/model"`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`"time"`
			`)`

			`type Function struct {`
			`name string`
			`argTypes []ExprType`
			`returnType ExprType`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`callFn func(timestamp time.Time, view viewAdapter, args []Node) interface{}`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`}`

			`func (function *Function) CheckArgTypes(args []Node) error {`
			`if len(function.argTypes) != len(args) {`
			`return errors.New(`
			`fmt.Sprintf("Wrong number of arguments to function %v(): %v expected, %v given",`
			`function.name, len(function.argTypes), len(args)))`
			`}`
			`for idx, argType := range function.argTypes {`
			`invalidType := false`
			`var expectedType string`
			`if _, ok := args[idx].(ScalarNode); argType == SCALAR && !ok {`
			`invalidType = true`
			`expectedType = "scalar"`
			`}`
			`if _, ok := args[idx].(VectorNode); argType == VECTOR && !ok {`
			`invalidType = true`
			`expectedType = "vector"`
			`}`
			`if _, ok := args[idx].(MatrixNode); argType == MATRIX && !ok {`
			`invalidType = true`
			`expectedType = "matrix"`
			`}`
			`if _, ok := args[idx].(StringNode); argType == STRING && !ok {`
			`invalidType = true`
			`expectedType = "string"`
			`}`

			`if invalidType {`
			`return errors.New(`
			`fmt.Sprintf("Wrong type for argument %v in function %v(), expected %v",`
			`idx, function.name, expectedType))`
			`}`
			`}`
			`return nil`
			`}`

			`// === time() ===`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`func timeImpl(timestamp time.Time, view viewAdapter, args []Node) interface{} {`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`return model.SampleValue(time.Now().Unix())`
			`}`

			`// === count(vector VectorNode) ===`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`func countImpl(timestamp time.Time, view viewAdapter, args []Node) interface{} {`
			`return model.SampleValue(len(args[0].(VectorNode).Eval(timestamp, view)))`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`}`

			`// === delta(matrix MatrixNode, isCounter ScalarNode) ===`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`func deltaImpl(timestamp time.Time, view viewAdapter, args []Node) interface{} {`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`matrixNode := args[0].(MatrixNode)`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`isCounter := int(args[1].(ScalarNode).Eval(timestamp, view))`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`resultVector := Vector{}`

			`// If we treat these metrics as counters, we need to fetch all values`
			`// in the interval to find breaks in the timeseries' monotonicity.`
			`// I.e. if a counter resets, we want to ignore that reset.`
			`var matrixValue Matrix`
			`if isCounter > 0 {`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`matrixValue = matrixNode.Eval(timestamp, view)`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`} else {`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`matrixValue = matrixNode.EvalBoundaries(timestamp, view)`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`}`
			`for _, samples := range matrixValue {`
			`counterCorrection := model.SampleValue(0)`
			`lastValue := model.SampleValue(0)`
			`for _, sample := range samples.Values {`
			`currentValue := sample.Value`
			`if currentValue < lastValue {`
			`counterCorrection += lastValue - currentValue`
			`}`
			`lastValue = currentValue`
			`}`
			`resultValue := lastValue - samples.Values[0].Value + counterCorrection`
			`resultSample := &model.Sample{`
			`Metric: samples.Metric,`
			`Value: resultValue,`
			`Timestamp: *timestamp,`
			`}`
			`resultVector = append(resultVector, resultSample)`
			`}`
			`return resultVector`
			`}`

			`// === rate(node *MatrixNode) ===`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`func rateImpl(timestamp time.Time, view viewAdapter, args []Node) interface{} {`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`args = append(args, &ScalarLiteral{value: 1})`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`vector := deltaImpl(timestamp, view, args).(Vector)`
Implement per-second rate behavior for rate(). 2013-01-21 16:49:00 -08:00
			`// TODO: could be other type of MatrixNode in the future (right now, only`
			`// MatrixLiteral exists). Find a better way of getting the duration of a`
			`// matrix, such as looking at the samples themselves.`
			`interval := args[0].(*MatrixLiteral).interval`
			`for _, sample := range vector {`
			`sample.Value /= model.SampleValue(interval / time.Second)`
			`}`
			`return vector`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`}`

			`// === sampleVectorImpl() ===`
Use AST query analyzer and views with tiered storage. 2013-03-21 10:06:15 -07:00			`func sampleVectorImpl(timestamp time.Time, view viewAdapter, args []Node) interface{} {`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`return Vector{`
			`&model.Sample{`
			`Metric: model.Metric{`
Constantize metric name label name. 2013-03-26 07:32:48 -07:00			`model.MetricNameLabel: "http_requests",`
			`"job": "api-server",`
			`"instance": "0",`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`},`
			`Value: 10,`
			`Timestamp: *timestamp,`
			`},`
			`&model.Sample{`
			`Metric: model.Metric{`
Constantize metric name label name. 2013-03-26 07:32:48 -07:00			`model.MetricNameLabel: "http_requests",`
			`"job": "api-server",`
			`"instance": "1",`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`},`
			`Value: 20,`
			`Timestamp: *timestamp,`
			`},`
			`&model.Sample{`
			`Metric: model.Metric{`
Constantize metric name label name. 2013-03-26 07:32:48 -07:00			`model.MetricNameLabel: "http_requests",`
			`"job": "api-server",`
			`"instance": "2",`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`},`
			`Value: 30,`
			`Timestamp: *timestamp,`
			`},`
			`&model.Sample{`
			`Metric: model.Metric{`
Constantize metric name label name. 2013-03-26 07:32:48 -07:00			`model.MetricNameLabel: "http_requests",`
			`"job": "api-server",`
			`"instance": "3",`
			`"group": "canary",`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`},`
			`Value: 40,`
			`Timestamp: *timestamp,`
			`},`
			`&model.Sample{`
			`Metric: model.Metric{`
Constantize metric name label name. 2013-03-26 07:32:48 -07:00			`model.MetricNameLabel: "http_requests",`
			`"job": "api-server",`
			`"instance": "2",`
			`"group": "canary",`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`},`
			`Value: 40,`
			`Timestamp: *timestamp,`
			`},`
			`&model.Sample{`
			`Metric: model.Metric{`
Constantize metric name label name. 2013-03-26 07:32:48 -07:00			`model.MetricNameLabel: "http_requests",`
			`"job": "api-server",`
			`"instance": "3",`
			`"group": "mytest",`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`},`
			`Value: 40,`
			`Timestamp: *timestamp,`
			`},`
			`&model.Sample{`
			`Metric: model.Metric{`
Constantize metric name label name. 2013-03-26 07:32:48 -07:00			`model.MetricNameLabel: "http_requests",`
			`"job": "api-server",`
			`"instance": "3",`
			`"group": "mytest",`
Add initial config and rule language implementation. 2013-01-07 14:24:26 -08:00			`},`
			`Value: 40,`
			`Timestamp: *timestamp,`
			`},`
			`}`
			`}`

			`var functions = map[string]*Function{`
			`"time": {`
			`name: "time",`
			`argTypes: []ExprType{},`
			`returnType: SCALAR,`
			`callFn: timeImpl,`
			`},`
			`"count": {`
			`name: "count",`
			`argTypes: []ExprType{VECTOR},`
			`returnType: SCALAR,`
			`callFn: countImpl,`
			`},`
			`"delta": {`
			`name: "delta",`
			`argTypes: []ExprType{MATRIX, SCALAR},`
			`returnType: VECTOR,`
			`callFn: deltaImpl,`
			`},`
			`"rate": {`
			`name: "rate",`
			`argTypes: []ExprType{MATRIX},`
			`returnType: VECTOR,`
			`callFn: rateImpl,`
			`},`
			`"sampleVector": {`
			`name: "sampleVector",`
			`argTypes: []ExprType{},`
			`returnType: VECTOR,`
			`callFn: sampleVectorImpl,`
			`},`
			`}`

			`func GetFunction(name string) (*Function, error) {`
			`function, ok := functions[name]`
			`if !ok {`
			`return nil, errors.New(fmt.Sprintf("Couldn't find function %v()", name))`
			`}`
			`return function, nil`
			`}`