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starlark.go
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starlark.go
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package starlark
import (
"errors"
"fmt"
"strings"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/plugins/processors"
"go.starlark.net/resolve"
"go.starlark.net/starlark"
"go.starlark.net/starlarkjson"
)
const (
description = "Process metrics using a Starlark script"
sampleConfig = `
## The Starlark source can be set as a string in this configuration file, or
## by referencing a file containing the script. Only one source or script
## should be set at once.
##
## Source of the Starlark script.
source = '''
def apply(metric):
return metric
'''
## File containing a Starlark script.
# script = "/usr/local/bin/myscript.star"
## The constants of the Starlark script.
# [processors.starlark.constants]
# max_size = 10
# threshold = 0.75
# default_name = "Julia"
# debug_mode = true
`
)
type Starlark struct {
Source string `toml:"source"`
Script string `toml:"script"`
Constants map[string]interface{} `toml:"constants"`
Log telegraf.Logger `toml:"-"`
thread *starlark.Thread
applyFunc *starlark.Function
args starlark.Tuple
results []telegraf.Metric
}
func (s *Starlark) Init() error {
if s.Source == "" && s.Script == "" {
return errors.New("one of source or script must be set")
}
if s.Source != "" && s.Script != "" {
return errors.New("both source or script cannot be set")
}
s.thread = &starlark.Thread{
Print: func(_ *starlark.Thread, msg string) { s.Log.Debug(msg) },
Load: func(thread *starlark.Thread, module string) (starlark.StringDict, error) {
return loadFunc(thread, module, s.Log)
},
}
builtins := starlark.StringDict{}
builtins["Metric"] = starlark.NewBuiltin("Metric", newMetric)
builtins["deepcopy"] = starlark.NewBuiltin("deepcopy", deepcopy)
builtins["catch"] = starlark.NewBuiltin("catch", catch)
s.addConstants(&builtins)
program, err := s.sourceProgram(builtins)
if err != nil {
return err
}
// Execute source
globals, err := program.Init(s.thread, builtins)
if err != nil {
return err
}
// Make available a shared state to the apply function
globals["state"] = starlark.NewDict(0)
// Freeze the global state. This prevents modifications to the processor
// state and prevents scripts from containing errors storing tracking
// metrics. Tasks that require global state will not be possible due to
// this, so maybe we should relax this in the future.
globals.Freeze()
// The source should define an apply function.
apply := globals["apply"]
if apply == nil {
return errors.New("apply is not defined")
}
var ok bool
if s.applyFunc, ok = apply.(*starlark.Function); !ok {
return errors.New("apply is not a function")
}
if s.applyFunc.NumParams() != 1 {
return errors.New("apply function must take one parameter")
}
// Reusing the same metric wrapper to skip an allocation. This will cause
// any saved references to point to the new metric, but due to freezing the
// globals none should exist.
s.args = make(starlark.Tuple, 1)
s.args[0] = &Metric{}
// Preallocate a slice for return values.
s.results = make([]telegraf.Metric, 0, 10)
return nil
}
func (s *Starlark) sourceProgram(builtins starlark.StringDict) (*starlark.Program, error) {
if s.Source != "" {
_, program, err := starlark.SourceProgram("processor.starlark", s.Source, builtins.Has)
return program, err
}
_, program, err := starlark.SourceProgram(s.Script, nil, builtins.Has)
return program, err
}
func (s *Starlark) SampleConfig() string {
return sampleConfig
}
func (s *Starlark) Description() string {
return description
}
func (s *Starlark) Start(acc telegraf.Accumulator) error {
return nil
}
func (s *Starlark) Add(metric telegraf.Metric, acc telegraf.Accumulator) error {
s.args[0].(*Metric).Wrap(metric)
rv, err := starlark.Call(s.thread, s.applyFunc, s.args, nil)
if err != nil {
if err, ok := err.(*starlark.EvalError); ok {
for _, line := range strings.Split(err.Backtrace(), "\n") {
s.Log.Error(line)
}
}
metric.Reject()
return err
}
switch rv := rv.(type) {
case *starlark.List:
iter := rv.Iterate()
defer iter.Done()
var v starlark.Value
for iter.Next(&v) {
switch v := v.(type) {
case *Metric:
m := v.Unwrap()
if containsMetric(s.results, m) {
s.Log.Errorf("Duplicate metric reference detected")
continue
}
s.results = append(s.results, m)
acc.AddMetric(m)
default:
s.Log.Errorf("Invalid type returned in list: %s", v.Type())
}
}
// If the script didn't return the original metrics, mark it as
// successfully handled.
if !containsMetric(s.results, metric) {
metric.Accept()
}
// clear results
for i := range s.results {
s.results[i] = nil
}
s.results = s.results[:0]
case *Metric:
m := rv.Unwrap()
// If the script returned a different metric, mark this metric as
// successfully handled.
if m != metric {
metric.Accept()
}
acc.AddMetric(m)
case starlark.NoneType:
metric.Drop()
default:
return fmt.Errorf("Invalid type returned: %T", rv)
}
return nil
}
func (s *Starlark) Stop() error {
return nil
}
// Add all the constants defined in the plugin as constants of the script
func (s *Starlark) addConstants(builtins *starlark.StringDict) {
for key, val := range s.Constants {
sVal, err := asStarlarkValue(val)
if err != nil {
s.Log.Errorf("Unsupported type: %T", val)
}
(*builtins)[key] = sVal
}
}
func containsMetric(metrics []telegraf.Metric, metric telegraf.Metric) bool {
for _, m := range metrics {
if m == metric {
return true
}
}
return false
}
func init() {
// https://github.com/bazelbuild/starlark/issues/20
resolve.AllowNestedDef = true
resolve.AllowLambda = true
resolve.AllowFloat = true
resolve.AllowSet = true
resolve.AllowGlobalReassign = true
resolve.AllowRecursion = true
}
func init() {
processors.AddStreaming("starlark", func() telegraf.StreamingProcessor {
return &Starlark{}
})
}
func loadFunc(thread *starlark.Thread, module string, logger telegraf.Logger) (starlark.StringDict, error) {
switch module {
case "json.star":
return starlark.StringDict{
"json": starlarkjson.Module,
}, nil
case "logging.star":
return starlark.StringDict{
"log": LogModule(logger),
}, nil
default:
return nil, errors.New("module " + module + " is not available")
}
}