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v2fly/app/observatory/burst/healthping.go
世界 ebee459f1f
Fix ticker usage
ticker.Close does not close ticker.C
2022-06-28 20:13:30 +08:00

242 lines
5.8 KiB
Go

package burst
import (
"context"
"fmt"
"strings"
"sync"
"time"
"github.com/v2fly/v2ray-core/v5/common/dice"
)
// HealthPingSettings holds settings for health Checker
type HealthPingSettings struct {
Destination string `json:"destination"`
Connectivity string `json:"connectivity"`
Interval time.Duration `json:"interval"`
SamplingCount int `json:"sampling"`
Timeout time.Duration `json:"timeout"`
}
// HealthPing is the health checker for balancers
type HealthPing struct {
ctx context.Context
access sync.Mutex
ticker *time.Ticker
tickerClose chan struct{}
Settings *HealthPingSettings
Results map[string]*HealthPingRTTS
}
// NewHealthPing creates a new HealthPing with settings
func NewHealthPing(ctx context.Context, config *HealthPingConfig) *HealthPing {
settings := &HealthPingSettings{}
if config != nil {
settings = &HealthPingSettings{
Connectivity: strings.TrimSpace(config.Connectivity),
Destination: strings.TrimSpace(config.Destination),
Interval: time.Duration(config.Interval),
SamplingCount: int(config.SamplingCount),
Timeout: time.Duration(config.Timeout),
}
}
if settings.Destination == "" {
settings.Destination = "http://www.google.com/gen_204"
}
if settings.Interval == 0 {
settings.Interval = time.Duration(1) * time.Minute
} else if settings.Interval < 10 {
newError("health check interval is too small, 10s is applied").AtWarning().WriteToLog()
settings.Interval = time.Duration(10) * time.Second
}
if settings.SamplingCount <= 0 {
settings.SamplingCount = 10
}
if settings.Timeout <= 0 {
// results are saved after all health pings finish,
// a larger timeout could possibly makes checks run longer
settings.Timeout = time.Duration(5) * time.Second
}
return &HealthPing{
ctx: ctx,
Settings: settings,
Results: nil,
}
}
// StartScheduler implements the HealthChecker
func (h *HealthPing) StartScheduler(selector func() ([]string, error)) {
if h.ticker != nil {
return
}
interval := h.Settings.Interval * time.Duration(h.Settings.SamplingCount)
ticker := time.NewTicker(interval)
tickerClose := make(chan struct{})
h.ticker = ticker
h.tickerClose = tickerClose
go func() {
for {
go func() {
tags, err := selector()
if err != nil {
newError("error select outbounds for scheduled health check: ", err).AtWarning().WriteToLog()
return
}
h.doCheck(tags, interval, h.Settings.SamplingCount)
h.Cleanup(tags)
}()
select {
case <-ticker.C:
continue
case <-tickerClose:
return
}
}
}()
}
// StopScheduler implements the HealthChecker
func (h *HealthPing) StopScheduler() {
if h.ticker == nil {
return
}
h.ticker.Stop()
h.ticker = nil
close(h.tickerClose)
h.tickerClose = nil
}
// Check implements the HealthChecker
func (h *HealthPing) Check(tags []string) error {
if len(tags) == 0 {
return nil
}
newError("perform one-time health check for tags ", tags).AtInfo().WriteToLog()
h.doCheck(tags, 0, 1)
return nil
}
type rtt struct {
handler string
value time.Duration
}
// doCheck performs the 'rounds' amount checks in given 'duration'. You should make
// sure all tags are valid for current balancer
func (h *HealthPing) doCheck(tags []string, duration time.Duration, rounds int) {
count := len(tags) * rounds
if count == 0 {
return
}
ch := make(chan *rtt, count)
for _, tag := range tags {
handler := tag
client := newPingClient(
h.ctx,
h.Settings.Destination,
h.Settings.Timeout,
handler,
)
for i := 0; i < rounds; i++ {
delay := time.Duration(0)
if duration > 0 {
delay = time.Duration(dice.Roll(int(duration)))
}
time.AfterFunc(delay, func() {
newError("checking ", handler).AtDebug().WriteToLog()
delay, err := client.MeasureDelay()
if err == nil {
ch <- &rtt{
handler: handler,
value: delay,
}
return
}
if !h.checkConnectivity() {
newError("network is down").AtWarning().WriteToLog()
ch <- &rtt{
handler: handler,
value: 0,
}
return
}
newError(fmt.Sprintf(
"error ping %s with %s: %s",
h.Settings.Destination,
handler,
err,
)).AtWarning().WriteToLog()
ch <- &rtt{
handler: handler,
value: rttFailed,
}
})
}
}
for i := 0; i < count; i++ {
rtt := <-ch
if rtt.value > 0 {
// should not put results when network is down
h.PutResult(rtt.handler, rtt.value)
}
}
}
// PutResult puts a ping rtt to results
func (h *HealthPing) PutResult(tag string, rtt time.Duration) {
h.access.Lock()
defer h.access.Unlock()
if h.Results == nil {
h.Results = make(map[string]*HealthPingRTTS)
}
r, ok := h.Results[tag]
if !ok {
// validity is 2 times to sampling period, since the check are
// distributed in the time line randomly, in extreme cases,
// previous checks are distributed on the left, and latters
// on the right
validity := h.Settings.Interval * time.Duration(h.Settings.SamplingCount) * 2
r = NewHealthPingResult(h.Settings.SamplingCount, validity)
h.Results[tag] = r
}
r.Put(rtt)
}
// Cleanup removes results of removed handlers,
// tags should be all valid tags of the Balancer now
func (h *HealthPing) Cleanup(tags []string) {
h.access.Lock()
defer h.access.Unlock()
for tag := range h.Results {
found := false
for _, v := range tags {
if tag == v {
found = true
break
}
}
if !found {
delete(h.Results, tag)
}
}
}
// checkConnectivity checks the network connectivity, it returns
// true if network is good or "connectivity check url" not set
func (h *HealthPing) checkConnectivity() bool {
if h.Settings.Connectivity == "" {
return true
}
tester := newDirectPingClient(
h.Settings.Connectivity,
h.Settings.Timeout,
)
if _, err := tester.MeasureDelay(); err != nil {
return false
}
return true
}