open-consul/agent/cache/request.go
R.B. Boyer 809344a6f5
peering: initial sync (#12842)
- Add endpoints related to peering: read, list, generate token, initiate peering
- Update node/service/check table indexing to account for peers
- Foundational changes for pushing service updates to a peer
- Plumb peer name through Health.ServiceNodes path

see: ENT-1765, ENT-1280, ENT-1283, ENT-1283, ENT-1756, ENT-1739, ENT-1750, ENT-1679,
     ENT-1709, ENT-1704, ENT-1690, ENT-1689, ENT-1702, ENT-1701, ENT-1683, ENT-1663,
     ENT-1650, ENT-1678, ENT-1628, ENT-1658, ENT-1640, ENT-1637, ENT-1597, ENT-1634,
     ENT-1613, ENT-1616, ENT-1617, ENT-1591, ENT-1588, ENT-1596, ENT-1572, ENT-1555

Co-authored-by: R.B. Boyer <rb@hashicorp.com>
Co-authored-by: freddygv <freddy@hashicorp.com>
Co-authored-by: Chris S. Kim <ckim@hashicorp.com>
Co-authored-by: Evan Culver <eculver@hashicorp.com>
Co-authored-by: Nitya Dhanushkodi <nitya@hashicorp.com>
2022-04-21 17:34:40 -05:00

72 lines
2.9 KiB
Go

package cache
import (
"time"
)
// Request is a cacheable request.
//
// This interface is typically implemented by request structures in
// the agent/structs package.
type Request interface {
// CacheInfo returns information used for caching this request.
CacheInfo() RequestInfo
}
// RequestInfo represents cache information for a request. The caching
// framework uses this to control the behavior of caching and to determine
// cacheability.
//
// TODO(peering): finish ensuring everything that sets a Datacenter sets or doesn't set PeerName.
// TODO(peering): also make sure the peer name is present in the cache key likely in lieu of the datacenter somehow.
type RequestInfo struct {
// Key is a unique cache key for this request. This key should
// be globally unique to identify this request, since any conflicting
// cache keys could result in invalid data being returned from the cache.
// The Key does not need to include ACL or DC information, since the
// cache already partitions by these values prior to using this key.
Key string
// Token is the ACL token associated with this request.
//
// Datacenter is the datacenter that the request is targeting.
//
// PeerName is the peer that the request is targeting.
//
// All of these values are used to partition the cache. The cache framework
// today partitions data on these values to simplify behavior: by
// partitioning ACL tokens, the cache doesn't need to be smart about
// filtering results. By filtering datacenter/peer results, the cache can
// service the multi-DC/multi-peer nature of Consul. This comes at the expense of
// working set size, but in general the effect is minimal.
Token string
Datacenter string
PeerName string
// MinIndex is the minimum index being queried. This is used to
// determine if we already have data satisfying the query or if we need
// to block until new data is available. If no index is available, the
// default value (zero) is acceptable.
MinIndex uint64
// Timeout is the timeout for waiting on a blocking query. When the
// timeout is reached, the last known value is returned (or maybe nil
// if there was no prior value). This "last known value" behavior matches
// normal Consul blocking queries.
Timeout time.Duration
// MaxAge if set limits how stale a cache entry can be. If it is non-zero and
// there is an entry in cache that is older than specified, it is treated as a
// cache miss and re-fetched. It is ignored for cachetypes with Refresh =
// true.
MaxAge time.Duration
// MustRevalidate forces a new lookup of the cache even if there is an
// existing one that has not expired. It is implied by HTTP requests with
// `Cache-Control: max-age=0` but we can't distinguish that case from the
// unset case for MaxAge. Later we may support revalidating the index without
// a full re-fetch but for now the only option is to refetch. It is ignored
// for cachetypes with Refresh = true.
MustRevalidate bool
}