// Copyright 2012-present Oliver Eilhard. All rights reserved. // Use of this source code is governed by a MIT-license. // See http://olivere.mit-license.org/license.txt for details. package elastic import ( "context" "encoding/json" "fmt" "net/http" "net/url" "reflect" "strings" "github.com/olivere/elastic/v7/uritemplates" ) // Search for documents in Elasticsearch. type SearchService struct { client *Client pretty *bool // pretty format the returned JSON response human *bool // return human readable values for statistics errorTrace *bool // include the stack trace of returned errors filterPath []string // list of filters used to reduce the response headers http.Header // custom request-level HTTP headers searchSource *SearchSource // q source interface{} searchType string // search_type index []string typ []string routing string // routing preference string // preference requestCache *bool // request_cache ignoreUnavailable *bool // ignore_unavailable ignoreThrottled *bool // ignore_throttled allowNoIndices *bool // allow_no_indices expandWildcards string // expand_wildcards lenient *bool // lenient maxResponseSize int64 allowPartialSearchResults *bool // allow_partial_search_results typedKeys *bool // typed_keys seqNoPrimaryTerm *bool // seq_no_primary_term batchedReduceSize *int // batched_reduce_size maxConcurrentShardRequests *int // max_concurrent_shard_requests preFilterShardSize *int // pre_filter_shard_size restTotalHitsAsInt *bool // rest_total_hits_as_int ccsMinimizeRoundtrips *bool // ccs_minimize_roundtrips } // NewSearchService creates a new service for searching in Elasticsearch. func NewSearchService(client *Client) *SearchService { builder := &SearchService{ client: client, searchSource: NewSearchSource(), } return builder } // Pretty tells Elasticsearch whether to return a formatted JSON response. func (s *SearchService) Pretty(pretty bool) *SearchService { s.pretty = &pretty return s } // Human specifies whether human readable values should be returned in // the JSON response, e.g. "7.5mb". func (s *SearchService) Human(human bool) *SearchService { s.human = &human return s } // ErrorTrace specifies whether to include the stack trace of returned errors. func (s *SearchService) ErrorTrace(errorTrace bool) *SearchService { s.errorTrace = &errorTrace return s } // FilterPath specifies a list of filters used to reduce the response. func (s *SearchService) FilterPath(filterPath ...string) *SearchService { s.filterPath = filterPath return s } // Header adds a header to the request. func (s *SearchService) Header(name string, value string) *SearchService { if s.headers == nil { s.headers = http.Header{} } s.headers.Add(name, value) return s } // Headers specifies the headers of the request. func (s *SearchService) Headers(headers http.Header) *SearchService { s.headers = headers return s } // SearchSource sets the search source builder to use with this service. func (s *SearchService) SearchSource(searchSource *SearchSource) *SearchService { s.searchSource = searchSource if s.searchSource == nil { s.searchSource = NewSearchSource() } return s } // Source allows the user to set the request body manually without using // any of the structs and interfaces in Elastic. func (s *SearchService) Source(source interface{}) *SearchService { s.source = source return s } // Index sets the names of the indices to use for search. func (s *SearchService) Index(index ...string) *SearchService { s.index = append(s.index, index...) return s } // Type adds search restrictions for a list of types. // // Deprecated: Types are in the process of being removed. Instead of using a type, prefer to // filter on a field on the document. func (s *SearchService) Type(typ ...string) *SearchService { s.typ = append(s.typ, typ...) return s } // Timeout sets the timeout to use, e.g. "1s" or "1000ms". func (s *SearchService) Timeout(timeout string) *SearchService { s.searchSource = s.searchSource.Timeout(timeout) return s } // Profile sets the Profile API flag on the search source. // When enabled, a search executed by this service will return query // profiling data. func (s *SearchService) Profile(profile bool) *SearchService { s.searchSource = s.searchSource.Profile(profile) return s } // Collapse adds field collapsing. func (s *SearchService) Collapse(collapse *CollapseBuilder) *SearchService { s.searchSource = s.searchSource.Collapse(collapse) return s } // TimeoutInMillis sets the timeout in milliseconds. func (s *SearchService) TimeoutInMillis(timeoutInMillis int) *SearchService { s.searchSource = s.searchSource.TimeoutInMillis(timeoutInMillis) return s } // TerminateAfter specifies the maximum number of documents to collect for // each shard, upon reaching which the query execution will terminate early. func (s *SearchService) TerminateAfter(terminateAfter int) *SearchService { s.searchSource = s.searchSource.TerminateAfter(terminateAfter) return s } // SearchType sets the search operation type. Valid values are: // "dfs_query_then_fetch" and "query_then_fetch". // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-request-search-type.html // for details. func (s *SearchService) SearchType(searchType string) *SearchService { s.searchType = searchType return s } // Routing is a list of specific routing values to control the shards // the search will be executed on. func (s *SearchService) Routing(routings ...string) *SearchService { s.routing = strings.Join(routings, ",") return s } // Preference sets the preference to execute the search. Defaults to // randomize across shards ("random"). Can be set to "_local" to prefer // local shards, "_primary" to execute on primary shards only, // or a custom value which guarantees that the same order will be used // across different requests. func (s *SearchService) Preference(preference string) *SearchService { s.preference = preference return s } // RequestCache indicates whether the cache should be used for this // request or not, defaults to index level setting. func (s *SearchService) RequestCache(requestCache bool) *SearchService { s.requestCache = &requestCache return s } // Query sets the query to perform, e.g. MatchAllQuery. func (s *SearchService) Query(query Query) *SearchService { s.searchSource = s.searchSource.Query(query) return s } // PostFilter will be executed after the query has been executed and // only affects the search hits, not the aggregations. // This filter is always executed as the last filtering mechanism. func (s *SearchService) PostFilter(postFilter Query) *SearchService { s.searchSource = s.searchSource.PostFilter(postFilter) return s } // FetchSource indicates whether the response should contain the stored // _source for every hit. func (s *SearchService) FetchSource(fetchSource bool) *SearchService { s.searchSource = s.searchSource.FetchSource(fetchSource) return s } // FetchSourceContext indicates how the _source should be fetched. func (s *SearchService) FetchSourceContext(fetchSourceContext *FetchSourceContext) *SearchService { s.searchSource = s.searchSource.FetchSourceContext(fetchSourceContext) return s } // Highlight adds highlighting to the search. func (s *SearchService) Highlight(highlight *Highlight) *SearchService { s.searchSource = s.searchSource.Highlight(highlight) return s } // GlobalSuggestText defines the global text to use with all suggesters. // This avoids repetition. func (s *SearchService) GlobalSuggestText(globalText string) *SearchService { s.searchSource = s.searchSource.GlobalSuggestText(globalText) return s } // Suggester adds a suggester to the search. func (s *SearchService) Suggester(suggester Suggester) *SearchService { s.searchSource = s.searchSource.Suggester(suggester) return s } // Aggregation adds an aggreation to perform as part of the search. func (s *SearchService) Aggregation(name string, aggregation Aggregation) *SearchService { s.searchSource = s.searchSource.Aggregation(name, aggregation) return s } // MinScore sets the minimum score below which docs will be filtered out. func (s *SearchService) MinScore(minScore float64) *SearchService { s.searchSource = s.searchSource.MinScore(minScore) return s } // From index to start the search from. Defaults to 0. func (s *SearchService) From(from int) *SearchService { s.searchSource = s.searchSource.From(from) return s } // Size is the number of search hits to return. Defaults to 10. func (s *SearchService) Size(size int) *SearchService { s.searchSource = s.searchSource.Size(size) return s } // Explain indicates whether each search hit should be returned with // an explanation of the hit (ranking). func (s *SearchService) Explain(explain bool) *SearchService { s.searchSource = s.searchSource.Explain(explain) return s } // Version indicates whether each search hit should be returned with // a version associated to it. func (s *SearchService) Version(version bool) *SearchService { s.searchSource = s.searchSource.Version(version) return s } // Sort adds a sort order. func (s *SearchService) Sort(field string, ascending bool) *SearchService { s.searchSource = s.searchSource.Sort(field, ascending) return s } // SortWithInfo adds a sort order. func (s *SearchService) SortWithInfo(info SortInfo) *SearchService { s.searchSource = s.searchSource.SortWithInfo(info) return s } // SortBy adds a sort order. func (s *SearchService) SortBy(sorter ...Sorter) *SearchService { s.searchSource = s.searchSource.SortBy(sorter...) return s } // DocvalueField adds a single field to load from the field data cache // and return as part of the search. func (s *SearchService) DocvalueField(docvalueField string) *SearchService { s.searchSource = s.searchSource.DocvalueField(docvalueField) return s } // DocvalueFieldWithFormat adds a single field to load from the field data cache // and return as part of the search. func (s *SearchService) DocvalueFieldWithFormat(docvalueField DocvalueField) *SearchService { s.searchSource = s.searchSource.DocvalueFieldWithFormat(docvalueField) return s } // DocvalueFields adds one or more fields to load from the field data cache // and return as part of the search. func (s *SearchService) DocvalueFields(docvalueFields ...string) *SearchService { s.searchSource = s.searchSource.DocvalueFields(docvalueFields...) return s } // DocvalueFieldsWithFormat adds one or more fields to load from the field data cache // and return as part of the search. func (s *SearchService) DocvalueFieldsWithFormat(docvalueFields ...DocvalueField) *SearchService { s.searchSource = s.searchSource.DocvalueFieldsWithFormat(docvalueFields...) return s } // NoStoredFields indicates that no stored fields should be loaded, resulting in only // id and type to be returned per field. func (s *SearchService) NoStoredFields() *SearchService { s.searchSource = s.searchSource.NoStoredFields() return s } // StoredField adds a single field to load and return (note, must be stored) as // part of the search request. If none are specified, the source of the // document will be returned. func (s *SearchService) StoredField(fieldName string) *SearchService { s.searchSource = s.searchSource.StoredField(fieldName) return s } // StoredFields sets the fields to load and return as part of the search request. // If none are specified, the source of the document will be returned. func (s *SearchService) StoredFields(fields ...string) *SearchService { s.searchSource = s.searchSource.StoredFields(fields...) return s } // TrackScores is applied when sorting and controls if scores will be // tracked as well. Defaults to false. func (s *SearchService) TrackScores(trackScores bool) *SearchService { s.searchSource = s.searchSource.TrackScores(trackScores) return s } // TrackTotalHits controls if the total hit count for the query should be tracked. // // See https://www.elastic.co/guide/en/elasticsearch/reference/7.1/search-request-track-total-hits.html // for details. func (s *SearchService) TrackTotalHits(trackTotalHits interface{}) *SearchService { s.searchSource = s.searchSource.TrackTotalHits(trackTotalHits) return s } // SearchAfter allows a different form of pagination by using a live cursor, // using the results of the previous page to help the retrieval of the next. // // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-request-search-after.html func (s *SearchService) SearchAfter(sortValues ...interface{}) *SearchService { s.searchSource = s.searchSource.SearchAfter(sortValues...) return s } // IgnoreUnavailable indicates whether the specified concrete indices // should be ignored when unavailable (missing or closed). func (s *SearchService) IgnoreUnavailable(ignoreUnavailable bool) *SearchService { s.ignoreUnavailable = &ignoreUnavailable return s } // IgnoreThrottled indicates whether specified concrete, expanded or aliased // indices should be ignored when throttled. func (s *SearchService) IgnoreThrottled(ignoreThrottled bool) *SearchService { s.ignoreThrottled = &ignoreThrottled return s } // AllowNoIndices indicates whether to ignore if a wildcard indices // expression resolves into no concrete indices. (This includes `_all` string // or when no indices have been specified). func (s *SearchService) AllowNoIndices(allowNoIndices bool) *SearchService { s.allowNoIndices = &allowNoIndices return s } // ExpandWildcards indicates whether to expand wildcard expression to // concrete indices that are open, closed or both. func (s *SearchService) ExpandWildcards(expandWildcards string) *SearchService { s.expandWildcards = expandWildcards return s } // Lenient specifies whether format-based query failures (such as providing // text to a numeric field) should be ignored. func (s *SearchService) Lenient(lenient bool) *SearchService { s.lenient = &lenient return s } // MaxResponseSize sets an upper limit on the response body size that we accept, // to guard against OOM situations. func (s *SearchService) MaxResponseSize(maxResponseSize int64) *SearchService { s.maxResponseSize = maxResponseSize return s } // AllowPartialSearchResults indicates if an error should be returned if // there is a partial search failure or timeout. func (s *SearchService) AllowPartialSearchResults(enabled bool) *SearchService { s.allowPartialSearchResults = &enabled return s } // TypedKeys specifies whether aggregation and suggester names should be // prefixed by their respective types in the response. func (s *SearchService) TypedKeys(enabled bool) *SearchService { s.typedKeys = &enabled return s } // SeqNoPrimaryTerm specifies whether to return sequence number and // primary term of the last modification of each hit. func (s *SearchService) SeqNoPrimaryTerm(enabled bool) *SearchService { s.seqNoPrimaryTerm = &enabled return s } // BatchedReduceSize specifies the number of shard results that should be reduced // at once on the coordinating node. This value should be used as a protection // mechanism to reduce the memory overhead per search request if the potential // number of shards in the request can be large. func (s *SearchService) BatchedReduceSize(size int) *SearchService { s.batchedReduceSize = &size return s } // MaxConcurrentShardRequests specifies the number of concurrent shard requests // this search executes concurrently. This value should be used to limit the // impact of the search on the cluster in order to limit the number of // concurrent shard requests. func (s *SearchService) MaxConcurrentShardRequests(max int) *SearchService { s.maxConcurrentShardRequests = &max return s } // PreFilterShardSize specifies a threshold that enforces a pre-filter roundtrip // to prefilter search shards based on query rewriting if the number of shards // the search request expands to exceeds the threshold. This filter roundtrip // can limit the number of shards significantly if for instance a shard can // not match any documents based on it's rewrite method i.e. if date filters are // mandatory to match but the shard bounds and the query are disjoint. func (s *SearchService) PreFilterShardSize(threshold int) *SearchService { s.preFilterShardSize = &threshold return s } // RestTotalHitsAsInt indicates whether hits.total should be rendered as an // integer or an object in the rest search response. func (s *SearchService) RestTotalHitsAsInt(enabled bool) *SearchService { s.restTotalHitsAsInt = &enabled return s } // CCSMinimizeRoundtrips indicates whether network round-trips should be minimized // as part of cross-cluster search requests execution. func (s *SearchService) CCSMinimizeRoundtrips(enabled bool) *SearchService { s.ccsMinimizeRoundtrips = &enabled return s } // buildURL builds the URL for the operation. func (s *SearchService) buildURL() (string, url.Values, error) { var err error var path string if len(s.index) > 0 && len(s.typ) > 0 { path, err = uritemplates.Expand("/{index}/{type}/_search", map[string]string{ "index": strings.Join(s.index, ","), "type": strings.Join(s.typ, ","), }) } else if len(s.index) > 0 { path, err = uritemplates.Expand("/{index}/_search", map[string]string{ "index": strings.Join(s.index, ","), }) } else if len(s.typ) > 0 { path, err = uritemplates.Expand("/_all/{type}/_search", map[string]string{ "type": strings.Join(s.typ, ","), }) } else { path = "/_search" } if err != nil { return "", url.Values{}, err } // Add query string parameters params := url.Values{} if v := s.pretty; v != nil { params.Set("pretty", fmt.Sprint(*v)) } if v := s.human; v != nil { params.Set("human", fmt.Sprint(*v)) } if v := s.errorTrace; v != nil { params.Set("error_trace", fmt.Sprint(*v)) } if len(s.filterPath) > 0 { params.Set("filter_path", strings.Join(s.filterPath, ",")) } if s.searchType != "" { params.Set("search_type", s.searchType) } if s.routing != "" { params.Set("routing", s.routing) } if s.preference != "" { params.Set("preference", s.preference) } if v := s.requestCache; v != nil { params.Set("request_cache", fmt.Sprint(*v)) } if v := s.allowNoIndices; v != nil { params.Set("allow_no_indices", fmt.Sprint(*v)) } if s.expandWildcards != "" { params.Set("expand_wildcards", s.expandWildcards) } if v := s.lenient; v != nil { params.Set("lenient", fmt.Sprint(*v)) } if v := s.ignoreUnavailable; v != nil { params.Set("ignore_unavailable", fmt.Sprint(*v)) } if v := s.ignoreThrottled; v != nil { params.Set("ignore_throttled", fmt.Sprint(*v)) } if s.seqNoPrimaryTerm != nil { params.Set("seq_no_primary_term", fmt.Sprint(*s.seqNoPrimaryTerm)) } if v := s.allowPartialSearchResults; v != nil { params.Set("allow_partial_search_results", fmt.Sprint(*v)) } if v := s.typedKeys; v != nil { params.Set("typed_keys", fmt.Sprint(*v)) } if v := s.batchedReduceSize; v != nil { params.Set("batched_reduce_size", fmt.Sprint(*v)) } if v := s.maxConcurrentShardRequests; v != nil { params.Set("max_concurrent_shard_requests", fmt.Sprint(*v)) } if v := s.preFilterShardSize; v != nil { params.Set("pre_filter_shard_size", fmt.Sprint(*v)) } if v := s.restTotalHitsAsInt; v != nil { params.Set("rest_total_hits_as_int", fmt.Sprint(*v)) } if v := s.ccsMinimizeRoundtrips; v != nil { params.Set("ccs_minimize_roundtrips", fmt.Sprint(*v)) } return path, params, nil } // Validate checks if the operation is valid. func (s *SearchService) Validate() error { return nil } // Do executes the search and returns a SearchResult. func (s *SearchService) Do(ctx context.Context) (*SearchResult, error) { // Check pre-conditions if err := s.Validate(); err != nil { return nil, err } // Get URL for request path, params, err := s.buildURL() if err != nil { return nil, err } // Perform request var body interface{} if s.source != nil { body = s.source } else { src, err := s.searchSource.Source() if err != nil { return nil, err } body = src } res, err := s.client.PerformRequest(ctx, PerformRequestOptions{ Method: "POST", Path: path, Params: params, Body: body, Headers: s.headers, MaxResponseSize: s.maxResponseSize, }) if err != nil { return nil, err } // Return search results ret := new(SearchResult) if err := s.client.decoder.Decode(res.Body, ret); err != nil { ret.Header = res.Header return nil, err } ret.Header = res.Header return ret, nil } // SearchResult is the result of a search in Elasticsearch. type SearchResult struct { Header http.Header `json:"-"` TookInMillis int64 `json:"took,omitempty"` // search time in milliseconds TerminatedEarly bool `json:"terminated_early,omitempty"` // request terminated early NumReducePhases int `json:"num_reduce_phases,omitempty"` Clusters []*SearchResultCluster `json:"_clusters,omitempty"` // 6.1.0+ ScrollId string `json:"_scroll_id,omitempty"` // only used with Scroll and Scan operations Hits *SearchHits `json:"hits,omitempty"` // the actual search hits Suggest SearchSuggest `json:"suggest,omitempty"` // results from suggesters Aggregations Aggregations `json:"aggregations,omitempty"` // results from aggregations TimedOut bool `json:"timed_out,omitempty"` // true if the search timed out Error *ErrorDetails `json:"error,omitempty"` // only used in MultiGet Profile *SearchProfile `json:"profile,omitempty"` // profiling results, if optional Profile API was active for this search Shards *ShardsInfo `json:"_shards,omitempty"` // shard information Status int `json:"status,omitempty"` // used in MultiSearch } // SearchResultCluster holds information about a search response // from a cluster. type SearchResultCluster struct { Successful int `json:"successful,omitempty"` Total int `json:"total,omitempty"` Skipped int `json:"skipped,omitempty"` } // TotalHits is a convenience function to return the number of hits for // a search result. The return value might not be accurate, unless // track_total_hits parameter has set to true. func (r *SearchResult) TotalHits() int64 { if r.Hits != nil && r.Hits.TotalHits != nil { return r.Hits.TotalHits.Value } return 0 } // Each is a utility function to iterate over all hits. It saves you from // checking for nil values. Notice that Each will ignore errors in // serializing JSON and hits with empty/nil _source will get an empty // value func (r *SearchResult) Each(typ reflect.Type) []interface{} { if r.Hits == nil || r.Hits.Hits == nil || len(r.Hits.Hits) == 0 { return nil } var slice []interface{} for _, hit := range r.Hits.Hits { v := reflect.New(typ).Elem() if hit.Source == nil { slice = append(slice, v.Interface()) continue } if err := json.Unmarshal(hit.Source, v.Addr().Interface()); err == nil { slice = append(slice, v.Interface()) } } return slice } // SearchHits specifies the list of search hits. type SearchHits struct { TotalHits *TotalHits `json:"total,omitempty"` // total number of hits found MaxScore *float64 `json:"max_score,omitempty"` // maximum score of all hits Hits []*SearchHit `json:"hits,omitempty"` // the actual hits returned } // NestedHit is a nested innerhit type NestedHit struct { Field string `json:"field"` Offset int `json:"offset,omitempty"` Child *NestedHit `json:"_nested,omitempty"` } // TotalHits specifies total number of hits and its relation type TotalHits struct { Value int64 `json:"value"` // value of the total hit count Relation string `json:"relation"` // how the value should be interpreted: accurate ("eq") or a lower bound ("gte") } // SearchHit is a single hit. type SearchHit struct { Score *float64 `json:"_score,omitempty"` // computed score Index string `json:"_index,omitempty"` // index name Type string `json:"_type,omitempty"` // type meta field Id string `json:"_id,omitempty"` // external or internal Uid string `json:"_uid,omitempty"` // uid meta field (see MapperService.java for all meta fields) Routing string `json:"_routing,omitempty"` // routing meta field Parent string `json:"_parent,omitempty"` // parent meta field Version *int64 `json:"_version,omitempty"` // version number, when Version is set to true in SearchService SeqNo *int64 `json:"_seq_no"` PrimaryTerm *int64 `json:"_primary_term"` Sort []interface{} `json:"sort,omitempty"` // sort information Highlight SearchHitHighlight `json:"highlight,omitempty"` // highlighter information Source json.RawMessage `json:"_source,omitempty"` // stored document source Fields map[string]interface{} `json:"fields,omitempty"` // returned (stored) fields Explanation *SearchExplanation `json:"_explanation,omitempty"` // explains how the score was computed MatchedQueries []string `json:"matched_queries,omitempty"` // matched queries InnerHits map[string]*SearchHitInnerHits `json:"inner_hits,omitempty"` // inner hits with ES >= 1.5.0 Nested *NestedHit `json:"_nested,omitempty"` // for nested inner hits Shard string `json:"_shard,omitempty"` // used e.g. in Search Explain Node string `json:"_node,omitempty"` // used e.g. in Search Explain // HighlightFields // SortValues // MatchedFilters } // SearchHitInnerHits is used for inner hits. type SearchHitInnerHits struct { Hits *SearchHits `json:"hits,omitempty"` } // SearchExplanation explains how the score for a hit was computed. // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-request-explain.html. type SearchExplanation struct { Value float64 `json:"value"` // e.g. 1.0 Description string `json:"description"` // e.g. "boost" or "ConstantScore(*:*), product of:" Details []SearchExplanation `json:"details,omitempty"` // recursive details } // Suggest // SearchSuggest is a map of suggestions. // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-suggesters.html. type SearchSuggest map[string][]SearchSuggestion // SearchSuggestion is a single search suggestion. // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-suggesters.html. type SearchSuggestion struct { Text string `json:"text"` Offset int `json:"offset"` Length int `json:"length"` Options []SearchSuggestionOption `json:"options"` } // SearchSuggestionOption is an option of a SearchSuggestion. // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-suggesters.html. type SearchSuggestionOption struct { Text string `json:"text"` Index string `json:"_index"` Type string `json:"_type"` Id string `json:"_id"` Score float64 `json:"score"` // term and phrase suggesters uses "score" as of 6.2.4 ScoreUnderscore float64 `json:"_score"` // completion and context suggesters uses "_score" as of 6.2.4 Highlighted string `json:"highlighted"` CollateMatch bool `json:"collate_match"` Freq int `json:"freq"` // from TermSuggestion.Option in Java API Source json.RawMessage `json:"_source"` Contexts map[string][]string `json:"contexts,omitempty"` } // SearchProfile is a list of shard profiling data collected during // query execution in the "profile" section of a SearchResult type SearchProfile struct { Shards []SearchProfileShardResult `json:"shards"` } // SearchProfileShardResult returns the profiling data for a single shard // accessed during the search query or aggregation. type SearchProfileShardResult struct { ID string `json:"id"` Searches []QueryProfileShardResult `json:"searches"` Aggregations []ProfileResult `json:"aggregations"` } // QueryProfileShardResult is a container class to hold the profile results // for a single shard in the request. It comtains a list of query profiles, // a collector tree and a total rewrite tree. type QueryProfileShardResult struct { Query []ProfileResult `json:"query,omitempty"` RewriteTime int64 `json:"rewrite_time,omitempty"` Collector []interface{} `json:"collector,omitempty"` } // CollectorResult holds the profile timings of the collectors used in the // search. Children's CollectorResults may be embedded inside of a parent // CollectorResult. type CollectorResult struct { Name string `json:"name,omitempty"` Reason string `json:"reason,omitempty"` Time string `json:"time,omitempty"` TimeNanos int64 `json:"time_in_nanos,omitempty"` Children []CollectorResult `json:"children,omitempty"` } // ProfileResult is the internal representation of a profiled query, // corresponding to a single node in the query tree. type ProfileResult struct { Type string `json:"type"` Description string `json:"description,omitempty"` NodeTime string `json:"time,omitempty"` NodeTimeNanos int64 `json:"time_in_nanos,omitempty"` Breakdown map[string]int64 `json:"breakdown,omitempty"` Children []ProfileResult `json:"children,omitempty"` } // Aggregations (see search_aggs.go) // Highlighting // SearchHitHighlight is the highlight information of a search hit. // See https://www.elastic.co/guide/en/elasticsearch/reference/7.0/search-request-highlighting.html // for a general discussion of highlighting. type SearchHitHighlight map[string][]string