// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package api // 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 } // Deprecated: use QueryFailoverOptions instead. type QueryDatacenterOptions = QueryFailoverOptions type QueryFailoverTarget struct { // Peer specifies a peer to try during failover. Peer string // Datacenter specifies a datacenter to try during failover. Datacenter string } // 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 // Namespace of the service to query Namespace string `json:",omitempty"` // Near allows baking in the name of a node to automatically distance- // sort from. The magic "_agent" value is supported, which sorts near // the agent which initiated the request by default. Near string // Failover controls what we do if there are no healthy nodes in the // local datacenter. Failover QueryFailoverOptions // 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 []string // 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 // 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 } // QueryTemplate carries the arguments for creating a templated query. type QueryTemplate struct { // Type specifies the type of the query template. Currently only // "name_prefix_match" is supported. This field is required. Type string // Regexp allows specifying a regex pattern to match against the name // of the query being executed. Regexp string // RemoveEmptyTags if set to true, will cause the Tags list inside // the Service structure to be stripped of any empty strings. This is useful // when interpolating into tags in a way where the tag is optional, and // where searching for an empty tag would yield no results from the query. RemoveEmptyTags bool } // PreparedQueryDefinition defines a complete prepared query. type PreparedQueryDefinition 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 // 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 // Template is used to pass through the arguments for creating a // prepared query with an attached template. If a template is given, // interpolations are possible in other struct fields. Template QueryTemplate } // PreparedQueryExecuteResponse has the results of executing a query. type PreparedQueryExecuteResponse struct { // Service is the service that was queried. Service string // Namespace of the service that was queried Namespace string `json:",omitempty"` // Nodes has the nodes that were output by the query. Nodes []ServiceEntry // DNS has the options for serving these results over DNS. DNS QueryDNSOptions // Datacenter is the datacenter that these results came from. Datacenter string // Failovers is a count of how many times we had to query a remote // datacenter. Failovers int } // PreparedQuery can be used to query the prepared query endpoints. type PreparedQuery struct { c *Client } // PreparedQuery returns a handle to the prepared query endpoints. func (c *Client) PreparedQuery() *PreparedQuery { return &PreparedQuery{c} } // Create makes a new prepared query. The ID of the new query is returned. func (c *PreparedQuery) Create(query *PreparedQueryDefinition, q *WriteOptions) (string, *WriteMeta, error) { r := c.c.newRequest("POST", "/v1/query") r.setWriteOptions(q) r.obj = query rtt, resp, err := c.c.doRequest(r) if err != nil { return "", nil, err } defer closeResponseBody(resp) if err := requireOK(resp); err != nil { return "", nil, err } wm := &WriteMeta{} wm.RequestTime = rtt var out struct{ ID string } if err := decodeBody(resp, &out); err != nil { return "", nil, err } return out.ID, wm, nil } // Update makes updates to an existing prepared query. func (c *PreparedQuery) Update(query *PreparedQueryDefinition, q *WriteOptions) (*WriteMeta, error) { return c.c.write("/v1/query/"+query.ID, query, nil, q) } // List is used to fetch all the prepared queries (always requires a management // token). func (c *PreparedQuery) List(q *QueryOptions) ([]*PreparedQueryDefinition, *QueryMeta, error) { var out []*PreparedQueryDefinition qm, err := c.c.query("/v1/query", &out, q) if err != nil { return nil, nil, err } return out, qm, nil } // Get is used to fetch a specific prepared query. func (c *PreparedQuery) Get(queryID string, q *QueryOptions) ([]*PreparedQueryDefinition, *QueryMeta, error) { var out []*PreparedQueryDefinition qm, err := c.c.query("/v1/query/"+queryID, &out, q) if err != nil { return nil, nil, err } return out, qm, nil } // Delete is used to delete a specific prepared query. func (c *PreparedQuery) Delete(queryID string, q *WriteOptions) (*WriteMeta, error) { r := c.c.newRequest("DELETE", "/v1/query/"+queryID) r.setWriteOptions(q) rtt, resp, err := c.c.doRequest(r) if err != nil { return nil, err } defer closeResponseBody(resp) if err := requireOK(resp); err != nil { return nil, err } wm := &WriteMeta{} wm.RequestTime = rtt return wm, nil } // Execute is used to execute a specific prepared query. You can execute using // a query ID or name. func (c *PreparedQuery) Execute(queryIDOrName string, q *QueryOptions) (*PreparedQueryExecuteResponse, *QueryMeta, error) { var out *PreparedQueryExecuteResponse qm, err := c.c.query("/v1/query/"+queryIDOrName+"/execute", &out, q) if err != nil { return nil, nil, err } return out, qm, nil }