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gobreaker.go
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gobreaker.go
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// Package gobreaker implements the Circuit Breaker pattern.
// See https://msdn.microsoft.com/en-us/library/dn589784.aspx.
package gobreaker
import (
"errors"
"fmt"
"sync"
"time"
)
// State is a type that represents a state of CircuitBreaker.
type State int
// These constants are states of CircuitBreaker.
const (
StateClosed State = iota
StateHalfOpen
StateOpen
)
var (
// ErrTooManyRequests is returned when the CB state is half open and the requests count is over the cb maxRequests
ErrTooManyRequests = errors.New("too many requests")
// ErrOpenState is returned when the CB state is open
ErrOpenState = errors.New("circuit breaker is open")
)
// String implements stringer interface.
func (s State) String() string {
switch s {
case StateClosed:
return "closed"
case StateHalfOpen:
return "half-open"
case StateOpen:
return "open"
default:
return fmt.Sprintf("unknown state: %d", s)
}
}
// Counts holds the numbers of requests and their successes/failures.
// CircuitBreaker clears the internal Counts either
// on the change of the state or at the closed-state intervals.
// Counts ignores the results of the requests sent before clearing.
type Counts struct {
Requests uint32
TotalSuccesses uint32
TotalFailures uint32
ConsecutiveSuccesses uint32
ConsecutiveFailures uint32
}
func (c *Counts) onRequest() {
c.Requests++
}
func (c *Counts) onSuccess() {
c.TotalSuccesses++
c.ConsecutiveSuccesses++
c.ConsecutiveFailures = 0
}
func (c *Counts) onFailure() {
c.TotalFailures++
c.ConsecutiveFailures++
c.ConsecutiveSuccesses = 0
}
func (c *Counts) clear() {
c.Requests = 0
c.TotalSuccesses = 0
c.TotalFailures = 0
c.ConsecutiveSuccesses = 0
c.ConsecutiveFailures = 0
}
// Settings configures CircuitBreaker:
//
// Name is the name of the CircuitBreaker.
//
// MaxRequests is the maximum number of requests allowed to pass through
// when the CircuitBreaker is half-open.
// If MaxRequests is 0, the CircuitBreaker allows only 1 request.
//
// Interval is the cyclic period of the closed state
// for the CircuitBreaker to clear the internal Counts.
// If Interval is less than or equal to 0, the CircuitBreaker doesn't clear internal Counts during the closed state.
//
// Timeout is the period of the open state,
// after which the state of the CircuitBreaker becomes half-open.
// If Timeout is less than or equal to 0, the timeout value of the CircuitBreaker is set to 60 seconds.
//
// ReadyToTrip is called with a copy of Counts whenever a request fails in the closed state.
// If ReadyToTrip returns true, the CircuitBreaker will be placed into the open state.
// If ReadyToTrip is nil, default ReadyToTrip is used.
// Default ReadyToTrip returns true when the number of consecutive failures is more than 5.
//
// OnStateChange is called whenever the state of the CircuitBreaker changes.
//
// IsSuccessful is called with the error returned from a request.
// If IsSuccessful returns true, the error is counted as a success.
// Otherwise the error is counted as a failure.
// If IsSuccessful is nil, default IsSuccessful is used, which returns false for all non-nil errors.
type Settings struct {
Name string
MaxRequests uint32
Interval time.Duration
Timeout time.Duration
ReadyToTrip func(counts Counts) bool
OnStateChange func(name string, from State, to State)
IsSuccessful func(err error) bool
}
// CircuitBreaker is a state machine to prevent sending requests that are likely to fail.
type CircuitBreaker struct {
name string
maxRequests uint32
interval time.Duration
timeout time.Duration
readyToTrip func(counts Counts) bool
isSuccessful func(err error) bool
onStateChange func(name string, from State, to State)
mutex sync.Mutex
state State
generation uint64
counts Counts
expiry time.Time
}
// TwoStepCircuitBreaker is like CircuitBreaker but instead of surrounding a function
// with the breaker functionality, it only checks whether a request can proceed and
// expects the caller to report the outcome in a separate step using a callback.
type TwoStepCircuitBreaker struct {
cb *CircuitBreaker
}
// NewCircuitBreaker returns a new CircuitBreaker configured with the given Settings.
func NewCircuitBreaker(st Settings) *CircuitBreaker {
cb := new(CircuitBreaker)
cb.name = st.Name
cb.onStateChange = st.OnStateChange
if st.MaxRequests == 0 {
cb.maxRequests = 1
} else {
cb.maxRequests = st.MaxRequests
}
if st.Interval <= 0 {
cb.interval = defaultInterval
} else {
cb.interval = st.Interval
}
if st.Timeout <= 0 {
cb.timeout = defaultTimeout
} else {
cb.timeout = st.Timeout
}
if st.ReadyToTrip == nil {
cb.readyToTrip = defaultReadyToTrip
} else {
cb.readyToTrip = st.ReadyToTrip
}
if st.IsSuccessful == nil {
cb.isSuccessful = defaultIsSuccessful
} else {
cb.isSuccessful = st.IsSuccessful
}
cb.toNewGeneration(time.Now())
return cb
}
// NewTwoStepCircuitBreaker returns a new TwoStepCircuitBreaker configured with the given Settings.
func NewTwoStepCircuitBreaker(st Settings) *TwoStepCircuitBreaker {
return &TwoStepCircuitBreaker{
cb: NewCircuitBreaker(st),
}
}
const defaultInterval = time.Duration(0) * time.Second
const defaultTimeout = time.Duration(60) * time.Second
func defaultReadyToTrip(counts Counts) bool {
return counts.ConsecutiveFailures > 5
}
func defaultIsSuccessful(err error) bool {
return err == nil
}
// Name returns the name of the CircuitBreaker.
func (cb *CircuitBreaker) Name() string {
return cb.name
}
// State returns the current state of the CircuitBreaker.
func (cb *CircuitBreaker) State() State {
cb.mutex.Lock()
defer cb.mutex.Unlock()
now := time.Now()
state, _ := cb.currentState(now)
return state
}
// Counts returns internal counters
func (cb *CircuitBreaker) Counts() Counts {
cb.mutex.Lock()
defer cb.mutex.Unlock()
return cb.counts
}
// Execute runs the given request if the CircuitBreaker accepts it.
// Execute returns an error instantly if the CircuitBreaker rejects the request.
// Otherwise, Execute returns the result of the request.
// If a panic occurs in the request, the CircuitBreaker handles it as an error
// and causes the same panic again.
func (cb *CircuitBreaker) Execute(req func() (interface{}, error)) (interface{}, error) {
generation, err := cb.beforeRequest()
if err != nil {
return nil, err
}
defer func() {
e := recover()
if e != nil {
cb.afterRequest(generation, false)
panic(e)
}
}()
result, err := req()
cb.afterRequest(generation, cb.isSuccessful(err))
return result, err
}
// Name returns the name of the TwoStepCircuitBreaker.
func (tscb *TwoStepCircuitBreaker) Name() string {
return tscb.cb.Name()
}
// State returns the current state of the TwoStepCircuitBreaker.
func (tscb *TwoStepCircuitBreaker) State() State {
return tscb.cb.State()
}
// Counts returns internal counters
func (tscb *TwoStepCircuitBreaker) Counts() Counts {
return tscb.cb.Counts()
}
// Allow checks if a new request can proceed. It returns a callback that should be used to
// register the success or failure in a separate step. If the circuit breaker doesn't allow
// requests, it returns an error.
func (tscb *TwoStepCircuitBreaker) Allow() (done func(success bool), err error) {
generation, err := tscb.cb.beforeRequest()
if err != nil {
return nil, err
}
return func(success bool) {
tscb.cb.afterRequest(generation, success)
}, nil
}
func (cb *CircuitBreaker) beforeRequest() (uint64, error) {
cb.mutex.Lock()
defer cb.mutex.Unlock()
now := time.Now()
state, generation := cb.currentState(now)
if state == StateOpen {
return generation, ErrOpenState
} else if state == StateHalfOpen && cb.counts.Requests >= cb.maxRequests {
return generation, ErrTooManyRequests
}
cb.counts.onRequest()
return generation, nil
}
func (cb *CircuitBreaker) afterRequest(before uint64, success bool) {
cb.mutex.Lock()
defer cb.mutex.Unlock()
now := time.Now()
state, generation := cb.currentState(now)
if generation != before {
return
}
if success {
cb.onSuccess(state, now)
} else {
cb.onFailure(state, now)
}
}
func (cb *CircuitBreaker) onSuccess(state State, now time.Time) {
switch state {
case StateClosed:
cb.counts.onSuccess()
case StateHalfOpen:
cb.counts.onSuccess()
if cb.counts.ConsecutiveSuccesses >= cb.maxRequests {
cb.setState(StateClosed, now)
}
}
}
func (cb *CircuitBreaker) onFailure(state State, now time.Time) {
switch state {
case StateClosed:
cb.counts.onFailure()
if cb.readyToTrip(cb.counts) {
cb.setState(StateOpen, now)
}
case StateHalfOpen:
cb.setState(StateOpen, now)
}
}
func (cb *CircuitBreaker) currentState(now time.Time) (State, uint64) {
switch cb.state {
case StateClosed:
if !cb.expiry.IsZero() && cb.expiry.Before(now) {
cb.toNewGeneration(now)
}
case StateOpen:
if cb.expiry.Before(now) {
cb.setState(StateHalfOpen, now)
}
}
return cb.state, cb.generation
}
func (cb *CircuitBreaker) setState(state State, now time.Time) {
if cb.state == state {
return
}
prev := cb.state
cb.state = state
cb.toNewGeneration(now)
if cb.onStateChange != nil {
cb.onStateChange(cb.name, prev, state)
}
}
func (cb *CircuitBreaker) toNewGeneration(now time.Time) {
cb.generation++
cb.counts.clear()
var zero time.Time
switch cb.state {
case StateClosed:
if cb.interval == 0 {
cb.expiry = zero
} else {
cb.expiry = now.Add(cb.interval)
}
case StateOpen:
cb.expiry = now.Add(cb.timeout)
default: // StateHalfOpen
cb.expiry = zero
}
}