package cache import ( "time" ) // Type implements the logic to fetch certain types of data. type Type interface { // Fetch fetches a single unique item. // // The FetchOptions contain the index and timeouts for blocking queries. The // MinIndex value on the Request itself should NOT be used as the blocking // index since a request may be reused multiple times as part of Refresh // behavior. // // The return value is a FetchResult which contains information about the // fetch. If an error is given, the FetchResult is ignored. The cache does not // support backends that return partial values. Optional State can be added to // the FetchResult which will be stored with the cache entry and provided to // the next Fetch call but will not be returned to clients. This allows types // to add additional bookkeeping data per cache entry that will still be aged // out along with the entry's TTL. // // On timeout, FetchResult can behave one of two ways. First, it can return // the last known value. This is the default behavior of blocking RPC calls in // Consul so this allows cache types to be implemented with no extra logic. // Second, FetchResult can return an unset value and index. In this case, the // cache will reuse the last value automatically. If an unset Value is // returned, the State field will still be updated which allows maintaining // metadata even when there is no result. Fetch(FetchOptions, Request) (FetchResult, error) // SupportsBlocking should return true if the type supports blocking queries. // Types that do not support blocking queries will not be able to use // background refresh nor will the cache attempt blocking fetches if the // client requests them with MinIndex. SupportsBlocking() bool } // FetchOptions are various settable options when a Fetch is called. type FetchOptions struct { // MinIndex is the minimum index to be used for blocking queries. // If blocking queries aren't supported for data being returned, // this value can be ignored. MinIndex uint64 // Timeout is the maximum time for the query. This must be implemented // in the Fetch itself. Timeout time.Duration // LastResult is the result from the last successful Fetch and represents the // value currently stored in the cache at the time Fetch is invoked. It will // be nil on first call where there is no current cache value. There may have // been other Fetch attempts that resulted in an error in the mean time. These // are not explicitly represented currently. We could add that if needed this // was just simpler for now. // // The FetchResult read-only! It is constructed per Fetch call so modifying // the struct directly (e.g. changing it's Index of Value field) will have no // effect, however the Value and State fields may be pointers to the actual // values stored in the cache entry. It is thread-unsafe to modify the Value // or State via pointers since readers may be concurrently inspecting those // values under the entry lock (although we guarantee only one Fetch call per // entry) and modifying them even if the index doesn't change or the Fetch // eventually errors will likely break logical invariants in the cache too! LastResult *FetchResult } // FetchResult is the result of a Type Fetch operation and contains the // data along with metadata gathered from that operation. type FetchResult struct { // Value is the result of the fetch. Value interface{} // State is opaque data stored in the cache but not returned to clients. It // can be used by Types to maintain any bookkeeping they need between fetches // (using FetchOptions.LastResult) in a way that gets automatically cleaned up // by TTL expiry etc. State interface{} // Index is the corresponding index value for this data. Index uint64 }