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242 lines
7.8 KiB
242 lines
7.8 KiB
package cache |
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import ( |
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"context" |
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"fmt" |
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"reflect" |
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"time" |
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"github.com/hashicorp/consul/lib" |
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) |
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// UpdateEvent is a struct summarizing an update to a cache entry |
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type UpdateEvent struct { |
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// CorrelationID is used by the Notify API to allow correlation of updates |
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// with specific requests. We could return the full request object and |
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// cachetype for consumers to match against the calls they made but in |
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// practice it's cleaner for them to choose the minimal necessary unique |
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// identifier given the set of things they are watching. They might even |
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// choose to assign random IDs for example. |
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CorrelationID string |
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Result interface{} |
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Meta ResultMeta |
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Err error |
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} |
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// Notify registers a desire to be updated about changes to a cache result. |
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// |
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// It is a helper that abstracts code from performing their own "blocking" query |
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// logic against a cache key to watch for changes and to maintain the key in |
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// cache actively. It will continue to perform blocking Get requests until the |
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// context is canceled. |
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// |
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// The passed context must be canceled or timeout in order to free resources |
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// and stop maintaining the value in cache. Typically request-scoped resources |
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// do this but if a long-lived context like context.Background is used, then the |
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// caller must arrange for it to be canceled when the watch is no longer |
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// needed. |
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// |
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// The passed chan may be buffered or unbuffered, if the caller doesn't consume |
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// fast enough it will block the notification loop. When the chan is later |
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// drained, watching resumes correctly. If the pause is longer than the |
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// cachetype's TTL, the result might be removed from the local cache. Even in |
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// this case though when the chan is drained again, the new Get will re-fetch |
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// the entry from servers and resume notification behavior transparently. |
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// |
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// The chan is passed in to allow multiple cached results to be watched by a |
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// single consumer without juggling extra goroutines per watch. The |
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// correlationID is opaque and will be returned in all UpdateEvents generated by |
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// result of watching the specified request so the caller can set this to any |
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// value that allows them to disambiguate between events in the returned chan |
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// when sharing a chan between multiple cache entries. If the chan is closed, |
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// the notify loop will terminate. |
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func (c *Cache) Notify( |
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ctx context.Context, |
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t string, |
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r Request, |
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correlationID string, |
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ch chan<- UpdateEvent, |
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) error { |
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c.typesLock.RLock() |
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tEntry, ok := c.types[t] |
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c.typesLock.RUnlock() |
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if !ok { |
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return fmt.Errorf("unknown type in cache: %s", t) |
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} |
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if tEntry.Opts.SupportsBlocking { |
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go c.notifyBlockingQuery(ctx, newGetOptions(tEntry, r), correlationID, ch) |
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return nil |
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} |
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info := r.CacheInfo() |
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if info.MaxAge == 0 { |
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return fmt.Errorf("Cannot use Notify for polling cache types without specifying the MaxAge") |
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} |
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go c.notifyPollingQuery(ctx, newGetOptions(tEntry, r), correlationID, ch) |
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return nil |
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} |
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func (c *Cache) notifyBlockingQuery(ctx context.Context, r getOptions, correlationID string, ch chan<- UpdateEvent) { |
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// Always start at 0 index to deliver the initial (possibly currently cached |
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// value). |
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index := uint64(0) |
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failures := uint(0) |
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for { |
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// Check context hasn't been canceled |
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if ctx.Err() != nil { |
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return |
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} |
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// Blocking request |
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r.Info.MinIndex = index |
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res, meta, err := c.getWithIndex(ctx, r) |
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// Check context hasn't been canceled |
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if ctx.Err() != nil { |
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return |
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} |
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// Check the index of the value returned in the cache entry to be sure it |
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// changed |
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if index == 0 || index < meta.Index { |
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u := UpdateEvent{correlationID, res, meta, err} |
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select { |
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case ch <- u: |
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case <-ctx.Done(): |
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return |
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} |
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// Update index for next request |
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index = meta.Index |
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} |
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var wait time.Duration |
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// Handle errors with backoff. Badly behaved blocking calls that returned |
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// a zero index are considered as failures since we need to not get stuck |
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// in a busy loop. |
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if err == nil && meta.Index > 0 { |
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failures = 0 |
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} else { |
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failures++ |
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wait = backOffWait(failures) |
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c.options.Logger. |
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With("error", err). |
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With("cache-type", r.TypeEntry.Name). |
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With("index", index). |
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Warn("handling error in Cache.Notify") |
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} |
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if wait > 0 { |
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select { |
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case <-time.After(wait): |
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case <-ctx.Done(): |
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return |
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} |
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} |
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// Sanity check we always request blocking on second pass |
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if err == nil && index < 1 { |
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index = 1 |
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} |
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} |
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} |
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func (c *Cache) notifyPollingQuery(ctx context.Context, r getOptions, correlationID string, ch chan<- UpdateEvent) { |
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index := uint64(0) |
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failures := uint(0) |
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var lastValue interface{} = nil |
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for { |
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// Check context hasn't been canceled |
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if ctx.Err() != nil { |
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return |
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} |
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// Make the request |
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r.Info.MinIndex = index |
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res, meta, err := c.getWithIndex(ctx, r) |
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// Check context hasn't been canceled |
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if ctx.Err() != nil { |
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return |
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} |
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// Check for a change in the value or an index change |
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if index < meta.Index || !reflect.DeepEqual(lastValue, res) { |
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u := UpdateEvent{correlationID, res, meta, err} |
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select { |
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case ch <- u: |
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case <-ctx.Done(): |
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return |
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} |
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// Update index and lastValue |
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lastValue = res |
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index = meta.Index |
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} |
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// Reset or increment failure counter |
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if err == nil { |
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failures = 0 |
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} else { |
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failures++ |
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c.options.Logger. |
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With("error", err). |
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With("cache-type", r.TypeEntry.Name). |
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With("index", index). |
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Warn("handling error in Cache.Notify") |
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} |
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var wait time.Duration |
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// Determining how long to wait before the next poll is complicated. |
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// First off the happy path and the error path waits are handled distinctly |
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// |
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// Once fetching the data through the cache returns an error (and until a |
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// non-error value is returned) the wait time between each round of the loop |
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// gets controlled by the backOffWait function. Because we would have waited |
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// at least until the age of the cached data was too old the error path should |
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// immediately retry the fetch and backoff on the time as needed for persistent |
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// failures which potentially will wait much longer than the MaxAge of the request |
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// |
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// When on the happy path we just need to fetch from the cache often enough to ensure |
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// that the data is not older than the MaxAge. Therefore after fetching the data from |
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// the cache we can sleep until the age of that data would exceed the MaxAge. Sometimes |
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// this will be for the MaxAge duration (like when only a single notify was executed so |
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// only 1 go routine is keeping the cache updated). Other times this will be some smaller |
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// duration than MaxAge (when multiple notify calls were executed and this go routine just |
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// got data back from the cache that was a cache hit after the other go routine fetched it |
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// without a hit). We cannot just set MustRevalidate on the request and always sleep for MaxAge |
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// as this would eliminate the single-flighting of these requests in the cache and |
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// the efficiencies gained by it. |
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if failures > 0 { |
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wait = backOffWait(failures) |
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} else { |
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// Calculate when the cached data's Age will get too stale and |
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// need to be re-queried. When the data's Age already exceeds the |
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// maxAge the pollWait value is left at 0 to immediately re-poll |
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if meta.Age <= r.Info.MaxAge { |
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wait = r.Info.MaxAge - meta.Age |
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} |
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// Add a small amount of random jitter to the polling time. One |
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// purpose of the jitter is to ensure that the next time |
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// we fetch from the cache the data will be stale (unless another |
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// notify go routine has updated it while this one is sleeping). |
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// Without this it would be possible to wake up, fetch the data |
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// again where the age of the data is strictly equal to the MaxAge |
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// and then immediately have to re-fetch again. That wouldn't |
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// be terrible but it would expend a bunch more cpu cycles when |
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// we can definitely avoid it. |
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wait += lib.RandomStagger(r.Info.MaxAge / 16) |
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} |
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select { |
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case <-time.After(wait): |
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case <-ctx.Done(): |
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return |
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} |
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} |
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}
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