0
0
mirror of https://github.com/rls-moe/nyx synced 2024-11-14 22:12:24 +00:00
nyx/vendor/gopkg.in/hlandau/measurable.v1/measurable.go

190 lines
5.4 KiB
Go
Raw Normal View History

// Package measurable provides a functionality-free integration nexus for
// metric registration.
//
// Measurable is a Go package for connecting service metrics and metric consumers.
//
// The most noteworthy feature of measurable is that it doesn't do anything.
// It contains no functionality for defining or exporting metrics.
//
// The purpose of measurable is to act as an integration nexus
// (https://www.devever.net/~hl/nexuses), essentially a matchmaker between
// application metrics and metric consumers. This creates the important feature
// that your application's metrics can be defined completely independently of
// *how* those metrics are defined.
//
// Measurable doesn't implement any metric definition or export logic because it
// strives to be a neutral intermediary, which abstracts the interface between
// measurables and measurable consumers
//
// Pursuant to this, package measurable is this and only this: an interface
// Measurable which all metrics must implement, and a facility for registering
// Measurables and visiting them.
package measurable // import "gopkg.in/hlandau/measurable.v1"
import "sync"
import "fmt"
// Measurable is the interface which must be implemented by any metric item to
// be used with package measurable. In the current version, v1, it contains
// only the MsName() and MsType() methods. All other functionality must be
// obtained by interface upgrades.
type Measurable interface {
// Returns the name of the metric. Names should be in the style
// "alpha.beta.gamma-delta", for example "foo.http.requests.count". That is,
// names should be lowercase, should express a hierarchy separated by dots,
// and have words separated by dashes.
//
// Some Measurable consumers may mutate these names to satisfy naming
// restrictions applied by some graphing systems.
MsName() string
// Return the Measurable type. You can, of course, invent your own Measurable
// types, though consumers won't necessarily know what to do with them.
MsType() Type
}
var measurablesMutex sync.RWMutex
var measurables = map[string]Measurable{}
// Registers a top-level Configurable.
func Register(measurable Measurable) {
measurablesMutex.Lock()
defer measurablesMutex.Unlock()
if measurable == nil {
panic("cannot register nil measurable")
}
name := measurable.MsName()
if name == "" {
panic("measurable cannot have empty name")
}
_, exists := measurables[name]
if exists {
panic(fmt.Sprintf("A measurable with the same name already exists: %s", name))
}
measurables[name] = measurable
callRegistrationHooks(measurable, RegisterEvent)
}
func Unregister(measurableName string) {
measurablesMutex.Lock()
defer measurablesMutex.Unlock()
measurable, ok := measurables[measurableName]
if !ok {
return
}
callRegistrationHooks(measurable, UnregisterEvent)
delete(measurables, measurableName)
}
func Get(measurableName string) Measurable {
measurablesMutex.RLock()
defer measurablesMutex.RUnlock()
return measurables[measurableName]
}
// Visits all registered top-level Measurables.
//
// Returning a non-nil error short-circuits the iteration process and returns
// that error.
func Visit(do func(measurable Measurable) error) error {
measurablesMutex.Lock()
defer measurablesMutex.Unlock()
for _, measurable := range measurables {
err := do(measurable)
if err != nil {
return err
}
}
return nil
}
// Represents a measurable type.
type Type uint32
const (
// A CounterType Measurable represents a non-negative integral value
// that monotonously increases. It must implement `MsInt64() int64`.
CounterType Type = 0x436E7472
// A GaugeType Measurable represents an integral value that varies over
// time. It must implement `MsInt64() int64`.
GaugeType = 0x47617567
)
// Registration hooks.
type HookEvent int
const (
// This event is issued when a measurable is registered.
RegisterEvent HookEvent = iota
// This event is issued when a registration hook is registered. It is issued
// for every measurable which has already been registered.
RegisterCatchupEvent
// This event is issued when a measurable is unregistered.
UnregisterEvent
)
type HookFunc func(measurable Measurable, hookEvent HookEvent)
var hooksMutex sync.RWMutex
var hooks = map[interface{}]HookFunc{}
// Register for notifications on metric registration. The key must be usable as
// a key in a map and identifies the hook. No other hook with the same key must
// already exist.
//
// NOTE: The hook will be called for all registrations which already exist.
// This ensures that no registrations are missed in a threadsafe manner.
// For these calls, the event will be EventRegisterCatchup.
//
// The hook must not register or unregister registration hooks or metrics.
func RegisterHook(key interface{}, hook HookFunc) {
measurablesMutex.RLock()
defer measurablesMutex.RUnlock()
registerHook(key, hook)
for _, m := range measurables {
hook(m, RegisterCatchupEvent)
}
}
func registerHook(key interface{}, hook HookFunc) {
hooksMutex.Lock()
defer hooksMutex.Unlock()
_, exists := hooks[key]
if exists {
panic(fmt.Sprintf("A metric registration hook with the same key already exists: %+v", key))
}
hooks[key] = hook
}
// Unregister an existing hook.
func UnregisterHook(key interface{}) {
hooksMutex.Lock()
defer hooksMutex.Unlock()
delete(hooks, key)
}
func callRegistrationHooks(measurable Measurable, event HookEvent) {
hooksMutex.RLock()
defer hooksMutex.RUnlock()
for _, v := range hooks {
v(measurable, event)
}
}