consul/agent/structs/prepared_query.go

389 lines
12 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package structs
import (
"strconv"
"github.com/mitchellh/hashstructure"
"github.com/hashicorp/consul/acl"
"github.com/hashicorp/consul/agent/cache"
"github.com/hashicorp/consul/types"
)
// QueryFailoverOptions sets options about how we fail over if there are no
// healthy nodes in the local datacenter.
type QueryFailoverOptions struct {
// NearestN is set to the number of remote datacenters to try, based on
// network coordinates.
NearestN int
// Datacenters is a fixed list of datacenters to try after NearestN. We
// never try a datacenter multiple times, so those are subtracted from
// this list before proceeding.
Datacenters []string
// Targets is a fixed list of datacenters and peers to try. This field cannot
// be populated with NearestN or Datacenters.
Targets []QueryFailoverTarget
}
// AsTargets either returns Targets as is or Datacenters converted into
// Targets.
func (f *QueryFailoverOptions) AsTargets() []QueryFailoverTarget {
if dcs := f.Datacenters; len(dcs) > 0 {
var targets []QueryFailoverTarget
for _, dc := range dcs {
targets = append(targets, QueryFailoverTarget{Datacenter: dc})
}
return targets
}
return f.Targets
}
// IsEmpty returns true if the QueryFailoverOptions are empty (not set), false otherwise
func (f *QueryFailoverOptions) IsEmpty() bool {
if f == nil || (f.NearestN == 0 && len(f.Datacenters) == 0 && len(f.Targets) == 0) {
return true
}
return false
}
type QueryFailoverTarget struct {
// Peer specifies a peer to try during failover.
Peer string
// Datacenter specifies a datacenter to try during failover.
Datacenter string
acl.EnterpriseMeta
}
// QueryDNSOptions controls settings when query results are served over DNS.
type QueryDNSOptions struct {
// TTL is the time to live for the served DNS results.
TTL string
}
// ServiceQuery is used to query for a set of healthy nodes offering a specific
// service.
type ServiceQuery struct {
// Service is the service to query.
Service string
// SamenessGroup specifies a sameness group to query. The first member of the Sameness Group will
// be targeted first on PQ execution and subsequent members will be targeted during failover scenarios.
// This field is mutually exclusive with Failover.
SamenessGroup string
// Failover controls what we do if there are no healthy nodes in the
// local datacenter.
Failover QueryFailoverOptions
// If OnlyPassing is true then we will only include nodes with passing
// health checks (critical AND warning checks will cause a node to be
// discarded)
OnlyPassing bool
// IgnoreCheckIDs is an optional list of health check IDs to ignore when
// considering which nodes are healthy. It is useful as an emergency measure
// to temporarily override some health check that is producing false negatives
// for example.
IgnoreCheckIDs []types.CheckID
// Near allows the query to always prefer the node nearest the given
// node. If the node does not exist, results are returned in their
// normal randomly-shuffled order. Supplying the magic "_agent" value
// is supported to sort near the agent which initiated the request.
Near string
// Tags are a set of required and/or disallowed tags. If a tag is in
// this list it must be present. If the tag is preceded with "!" then
// it is disallowed.
Tags []string
// NodeMeta is a map of required node metadata fields. If a key/value
// pair is in this map it must be present on the node in order for the
// service entry to be returned.
NodeMeta map[string]string
// ServiceMeta is a map of required service metadata fields. If a key/value
// pair is in this map it must be present on the node in order for the
// service entry to be returned.
ServiceMeta map[string]string
// Connect if true will filter the prepared query results to only
// include Connect-capable services. These include both native services
// and proxies for matching services. Note that if a proxy matches,
// the constraints in the query above (Near, OnlyPassing, etc.) apply
// to the _proxy_ and not the service being proxied. In practice, proxies
// should be directly next to their services so this isn't an issue.
Connect bool
// If not empty, Peer represents the peer that the service
// was imported from.
Peer string
// EnterpriseMeta is the embedded enterprise metadata
acl.EnterpriseMeta `hcl:",squash" mapstructure:",squash"`
}
const (
// QueryTemplateTypeNamePrefixMatch uses the Name field of the query as
// a prefix to select the template.
QueryTemplateTypeNamePrefixMatch = "name_prefix_match"
)
// QueryTemplateOptions controls settings if this query is a template.
type QueryTemplateOptions struct {
// Type, if non-empty, means that this query is a template. This is
// set to one of the QueryTemplateType* constants above.
Type string
// Regexp is an optional regular expression to use to parse the full
// name, once the prefix match has selected a template. This can be
// used to extract parts of the name and choose a service name, set
// tags, etc.
Regexp string
// RemoveEmptyTags, if true, removes empty tags from matched tag list
RemoveEmptyTags bool
}
// PreparedQuery defines a complete prepared query, and is the structure we
// maintain in the state store.
type PreparedQuery struct {
// ID is this UUID-based ID for the query, always generated by Consul.
ID string
// Name is an optional friendly name for the query supplied by the
// user. NOTE - if this feature is used then it will reduce the security
// of any read ACL associated with this query/service since this name
// can be used to locate nodes with supplying any ACL.
Name string
// Session is an optional session to tie this query's lifetime to. If
// this is omitted then the query will not expire.
Session string
// Token is the ACL token used when the query was created, and it is
// used when a query is subsequently executed. This token, or a token
// with management privileges, must be used to change the query later.
Token string
// Template is used to configure this query as a template, which will
// respond to queries based on the Name, and then will be rendered
// before it is executed.
Template QueryTemplateOptions
// Service defines a service query (leaving things open for other types
// later).
Service ServiceQuery
// DNS has options that control how the results of this query are
// served over DNS.
DNS QueryDNSOptions
RaftIndex
}
// GetACLPrefix returns the prefix to look up the prepared_query ACL policy for
// this query, and whether the prefix applies to this query. You always need to
// check the ok value before using the prefix.
func (pq *PreparedQuery) GetACLPrefix() (string, bool) {
if pq.Name != "" || pq.Template.Type != "" {
return pq.Name, true
}
return "", false
}
type PreparedQueries []*PreparedQuery
type IndexedPreparedQueries struct {
Queries PreparedQueries
QueryMeta
}
type PreparedQueryOp string
const (
PreparedQueryCreate PreparedQueryOp = "create"
PreparedQueryUpdate PreparedQueryOp = "update"
PreparedQueryDelete PreparedQueryOp = "delete"
)
// QueryRequest is used to create or change prepared queries.
type PreparedQueryRequest struct {
// Datacenter is the target this request is intended for.
Datacenter string
// Op is the operation to apply.
Op PreparedQueryOp
// Query is the query itself.
Query *PreparedQuery
// WriteRequest holds the ACL token to go along with this request.
WriteRequest
}
// RequestDatacenter returns the datacenter for a given request.
func (q *PreparedQueryRequest) RequestDatacenter() string {
return q.Datacenter
}
// PreparedQuerySpecificRequest is used to get information about a prepared
// query.
type PreparedQuerySpecificRequest struct {
// Datacenter is the target this request is intended for.
Datacenter string
// QueryID is the ID of a query.
QueryID string
// QueryOptions (unfortunately named here) controls the consistency
// settings for the query lookup itself, as well as the service lookups.
QueryOptions
}
// RequestDatacenter returns the datacenter for a given request.
func (q *PreparedQuerySpecificRequest) RequestDatacenter() string {
return q.Datacenter
}
// PreparedQueryExecuteRequest is used to execute a prepared query.
type PreparedQueryExecuteRequest struct {
// Datacenter is the target this request is intended for.
Datacenter string
// QueryIDOrName is the ID of a query _or_ the name of one, either can
// be provided.
QueryIDOrName string
// Limit will trim the resulting list down to the given limit.
Limit int
// Connect will force results to be Connect-enabled nodes for the
// matching services. This is equivalent in semantics exactly to
// setting "Connect" in the query template itself, but allows callers
// to use any prepared query in a Connect setting.
Connect bool
// Source is used to sort the results relative to a given node using
// network coordinates.
Source QuerySource
// Agent is used to carry around a reference to the agent which initiated
// the execute request. Used to distance-sort relative to the local node.
Agent QuerySource
// QueryOptions (unfortunately named here) controls the consistency
// settings for the query lookup itself, as well as the service lookups.
QueryOptions
}
// RequestDatacenter returns the datacenter for a given request.
func (q *PreparedQueryExecuteRequest) RequestDatacenter() string {
return q.Datacenter
}
// CacheInfo implements cache.Request allowing requests to be cached on agent.
func (q *PreparedQueryExecuteRequest) CacheInfo() cache.RequestInfo {
info := cache.RequestInfo{
Token: q.Token,
Datacenter: q.Datacenter,
MinIndex: q.MinQueryIndex,
Timeout: q.MaxQueryTime,
MaxAge: q.MaxAge,
MustRevalidate: q.MustRevalidate,
}
// To calculate the cache key we hash over all the fields that affect the
// output other than Datacenter and Token which are dealt with in the cache
// framework already. Note the order here is important for the outcome - if we
// ever care about cache-invalidation on updates e.g. because we persist
// cached results, we need to be careful we maintain the same order of fields
// here. We could alternatively use `hash:set` struct tag on an anonymous
// struct to make it more robust if it becomes significant.
v, err := hashstructure.Hash([]interface{}{
q.QueryIDOrName,
q.Limit,
q.Connect,
}, nil)
if err == nil {
// If there is an error, we don't set the key. A blank key forces
// no cache for this request so the request is forwarded directly
// to the server.
info.Key = strconv.FormatUint(v, 10)
}
return info
}
// PreparedQueryExecuteRemoteRequest is used when running a local query in a
// remote datacenter.
type PreparedQueryExecuteRemoteRequest struct {
// Datacenter is the target this request is intended for.
Datacenter string
// Query is a copy of the query to execute. We have to ship the entire
// query over since it won't be present in the remote state store.
Query PreparedQuery
// Limit will trim the resulting list down to the given limit.
Limit int
// Connect is the same as ExecuteRequest.
Connect bool
// QueryOptions (unfortunately named here) controls the consistency
// settings for the service lookups.
QueryOptions
}
// RequestDatacenter returns the datacenter for a given request.
func (q *PreparedQueryExecuteRemoteRequest) RequestDatacenter() string {
return q.Datacenter
}
// PreparedQueryExecuteResponse has the results of executing a query.
type PreparedQueryExecuteResponse struct {
// Service is the service that was queried.
Service string
// EnterpriseMeta of the service that was queried.
acl.EnterpriseMeta
// Nodes has the nodes that were output by the query.
Nodes CheckServiceNodes
// DNS has the options for serving these results over DNS.
DNS QueryDNSOptions
// Datacenter is the datacenter that these results came from.
Datacenter string
// PeerName specifies the cluster peer that these results came from.
PeerName string
// Failovers is a count of how many times we had to query a remote
// datacenter.
Failovers int
// QueryMeta has freshness information about the query.
QueryMeta
}
// PreparedQueryExplainResponse has the results when explaining a query/
type PreparedQueryExplainResponse struct {
// Query has the fully-rendered query.
Query PreparedQuery
// QueryMeta has freshness information about the query.
QueryMeta
}