本文整理匯總了Golang中github.com/Comcast/traffic_control/traffic_monitor/experimental/traffic_monitor/peer.CRStatesThreadsafe.GetCaches方法的典型用法代碼示例。如果您正苦於以下問題:Golang CRStatesThreadsafe.GetCaches方法的具體用法?Golang CRStatesThreadsafe.GetCaches怎麽用?Golang CRStatesThreadsafe.GetCaches使用的例子?那麽, 這裏精選的方法代碼示例或許可以為您提供幫助。您也可以進一步了解該方法所在類github.com/Comcast/traffic_control/traffic_monitor/experimental/traffic_monitor/peer.CRStatesThreadsafe的用法示例。
在下文中一共展示了CRStatesThreadsafe.GetCaches方法的3個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Golang代碼示例。
示例1: getNewCaches
func getNewCaches(localStates peer.CRStatesThreadsafe, monitorConfigTS TrafficMonitorConfigMapThreadsafe) map[enum.CacheName]struct{} {
monitorConfig := monitorConfigTS.Get()
caches := map[enum.CacheName]struct{}{}
for cacheName := range localStates.GetCaches() {
// ONLINE and OFFLINE caches are not polled.
// TODO add a function IsPolled() which can be called by this and the monitorConfig func which sets the polling, to prevent updating in one place breaking the other.
if ts, ok := monitorConfig.TrafficServer[string(cacheName)]; !ok || ts.Status == "ONLINE" || ts.Status == "OFFLINE" {
continue
}
caches[cacheName] = struct{}{}
}
return caches
}示例2: monitorConfigListen
// TODO timing, and determine if the case, or its internal `for`, should be put in a goroutine
// TODO determine if subscribers take action on change, and change to mutexed objects if not.
func monitorConfigListen(monitorConfigTS TrafficMonitorConfigMapThreadsafe, monitorConfigPollChan <-chan to.TrafficMonitorConfigMap, localStates peer.CRStatesThreadsafe, statUrlSubscriber chan<- poller.HttpPollerConfig, healthUrlSubscriber chan<- poller.HttpPollerConfig, peerUrlSubscriber chan<- poller.HttpPollerConfig, cfg config.Config, staticAppData StaticAppData) {
for {
select {
case monitorConfig := <-monitorConfigPollChan:
monitorConfigTS.Set(monitorConfig)
healthUrls := map[string]string{}
statUrls := map[string]string{}
peerUrls := map[string]string{}
caches := map[string]string{}
for _, srv := range monitorConfig.TrafficServer {
caches[srv.HostName] = srv.Status
cacheName := enum.CacheName(srv.HostName)
if srv.Status == "ONLINE" {
localStates.SetCache(cacheName, peer.IsAvailable{IsAvailable: true})
continue
}
if srv.Status == "OFFLINE" {
localStates.SetCache(cacheName, peer.IsAvailable{IsAvailable: false})
continue
}
// seed states with available = false until our polling cycle picks up a result
if _, exists := localStates.Get().Caches[cacheName]; !exists {
localStates.SetCache(cacheName, peer.IsAvailable{IsAvailable: false})
}
url := monitorConfig.Profile[srv.Profile].Parameters.HealthPollingURL
r := strings.NewReplacer(
"${hostname}", srv.FQDN,
"${interface_name}", srv.InterfaceName,
"application=system", "application=plugin.remap",
"application=", "application=plugin.remap",
)
url = r.Replace(url)
healthUrls[srv.HostName] = url
r = strings.NewReplacer("application=plugin.remap", "application=")
url = r.Replace(url)
statUrls[srv.HostName] = url
}
for _, srv := range monitorConfig.TrafficMonitor {
if srv.HostName == staticAppData.Hostname {
continue
}
if srv.Status != "ONLINE" {
continue
}
// TODO: the URL should be config driven. -jse
url := fmt.Sprintf("http://%s:%d/publish/CrStates?raw", srv.IP, srv.Port)
peerUrls[srv.HostName] = url
}
statUrlSubscriber <- poller.HttpPollerConfig{Urls: statUrls, Interval: cfg.CacheStatPollingInterval}
healthUrlSubscriber <- poller.HttpPollerConfig{Urls: healthUrls, Interval: cfg.CacheHealthPollingInterval}
peerUrlSubscriber <- poller.HttpPollerConfig{Urls: peerUrls, Interval: cfg.PeerPollingInterval}
for cacheName := range localStates.GetCaches() {
if _, exists := monitorConfig.TrafficServer[string(cacheName)]; !exists {
log.Warnf("Removing %s from localStates", cacheName)
localStates.DeleteCache(cacheName)
}
}
// TODO because there are multiple writers to localStates.DeliveryService, there is a race condition, where MonitorConfig (this func) and HealthResultManager could write at the same time, and the HealthResultManager could overwrite a delivery service addition or deletion here. Probably the simplest and most performant fix would be a lock-free algorithm using atomic compare-and-swaps.
for _, ds := range monitorConfig.DeliveryService {
// since caches default to unavailable, also default DS false
if _, exists := localStates.Get().Deliveryservice[enum.DeliveryServiceName(ds.XMLID)]; !exists {
localStates.SetDeliveryService(enum.DeliveryServiceName(ds.XMLID), peer.Deliveryservice{IsAvailable: false, DisabledLocations: []enum.CacheName{}}) // important to initialize DisabledLocations, so JSON is `[]` not `null`
}
}
for ds, _ := range localStates.Get().Deliveryservice {
if _, exists := monitorConfig.DeliveryService[string(ds)]; !exists {
localStates.DeleteDeliveryService(ds)
}
}
}
}
}示例3: monitorConfigListen
// TODO timing, and determine if the case, or its internal `for`, should be put in a goroutine
// TODO determine if subscribers take action on change, and change to mutexed objects if not.
func monitorConfigListen(monitorConfigTS TrafficMonitorConfigMapThreadsafe, monitorConfigPollChan <-chan to.TrafficMonitorConfigMap, localStates peer.CRStatesThreadsafe, statUrlSubscriber chan<- poller.HttpPollerConfig, healthUrlSubscriber chan<- poller.HttpPollerConfig, peerUrlSubscriber chan<- poller.HttpPollerConfig) {
for {
select {
case monitorConfig := <-monitorConfigPollChan:
monitorConfigTS.Set(monitorConfig)
healthUrls := map[string]string{}
statUrls := map[string]string{}
peerUrls := map[string]string{}
caches := map[string]string{}
for _, srv := range monitorConfig.TrafficServer {
caches[srv.HostName] = srv.Status
if srv.Status == "ONLINE" {
localStates.SetCache(srv.HostName, peer.IsAvailable{IsAvailable: true})
continue
}
if srv.Status == "OFFLINE" {
localStates.SetCache(srv.HostName, peer.IsAvailable{IsAvailable: false})
continue
}
// seed states with available = false until our polling cycle picks up a result
if _, exists := localStates.Get().Caches[srv.HostName]; !exists {
localStates.SetCache(srv.HostName, peer.IsAvailable{IsAvailable: false})
}
url := monitorConfig.Profile[srv.Profile].Parameters.HealthPollingURL
r := strings.NewReplacer(
"${hostname}", srv.FQDN,
"${interface_name}", srv.InterfaceName,
"application=system", "application=plugin.remap",
"application=", "application=plugin.remap",
)
url = r.Replace(url)
healthUrls[srv.HostName] = url
r = strings.NewReplacer("application=plugin.remap", "application=")
url = r.Replace(url)
statUrls[srv.HostName] = url
}
for _, srv := range monitorConfig.TrafficMonitor {
if srv.Status != "ONLINE" {
continue
}
// TODO: the URL should be config driven. -jse
url := fmt.Sprintf("http://%s:%d/publish/CrStates?raw", srv.IP, srv.Port)
peerUrls[srv.HostName] = url
}
statUrlSubscriber <- poller.HttpPollerConfig{Urls: statUrls, Interval: defaultCacheStatPollingInterval}
healthUrlSubscriber <- poller.HttpPollerConfig{Urls: healthUrls, Interval: defaultCacheHealthPollingInterval}
peerUrlSubscriber <- poller.HttpPollerConfig{Urls: peerUrls, Interval: defaultPeerPollingInterval}
for k := range localStates.GetCaches() {
if _, exists := monitorConfig.TrafficServer[k]; !exists {
log.Warnf("Removing %s from localStates", k)
localStates.DeleteCache(k)
}
}
addStateDeliveryServices(monitorConfig, localStates.Get().Deliveryservice)
}
}
}