use std::collections::{BTreeMap, BTreeSet}; use std::io; use std::marker::PhantomData; use std::num::NonZeroUsize; use flate2::read::GzDecoder; use log::{debug, info, trace}; use milli::update::{IndexDocumentsMethod, Setting, UpdateBuilder, UpdateFormat}; use serde::{Deserialize, Serialize, Serializer}; use crate::index_controller::UpdateResult; use super::error::Result; use super::Index; fn serialize_with_wildcard( field: &Setting>, s: S, ) -> std::result::Result where S: Serializer, { let wildcard = vec!["*".to_string()]; match field { Setting::Set(value) => Some(value), Setting::Reset => Some(&wildcard), Setting::NotSet => None, } .serialize(s) } #[derive(Clone, Default, Debug, Serialize)] pub struct Checked; #[derive(Clone, Default, Debug, Serialize, Deserialize)] pub struct Unchecked; #[derive(Debug, Clone, Default, Serialize, Deserialize)] #[serde(deny_unknown_fields)] #[serde(rename_all = "camelCase")] #[serde(bound(serialize = "T: Serialize", deserialize = "T: Deserialize<'static>"))] pub struct Settings { #[serde( default, serialize_with = "serialize_with_wildcard", skip_serializing_if = "Setting::is_not_set" )] pub displayed_attributes: Setting>, #[serde( default, serialize_with = "serialize_with_wildcard", skip_serializing_if = "Setting::is_not_set" )] pub searchable_attributes: Setting>, #[serde(default, skip_serializing_if = "Setting::is_not_set")] pub filterable_attributes: Setting>, #[serde(default, skip_serializing_if = "Setting::is_not_set")] pub sortable_attributes: Setting>, #[serde(default, skip_serializing_if = "Setting::is_not_set")] pub ranking_rules: Setting>, #[serde(default, skip_serializing_if = "Setting::is_not_set")] pub stop_words: Setting>, #[serde(default, skip_serializing_if = "Setting::is_not_set")] pub synonyms: Setting>>, #[serde(default, skip_serializing_if = "Setting::is_not_set")] pub distinct_attribute: Setting, #[serde(skip)] pub _kind: PhantomData, } impl Settings { pub fn cleared() -> Settings { Settings { displayed_attributes: Setting::Reset, searchable_attributes: Setting::Reset, filterable_attributes: Setting::Reset, sortable_attributes: Setting::Reset, ranking_rules: Setting::Reset, stop_words: Setting::Reset, synonyms: Setting::Reset, distinct_attribute: Setting::Reset, _kind: PhantomData, } } pub fn into_unchecked(self) -> Settings { let Self { displayed_attributes, searchable_attributes, filterable_attributes, sortable_attributes, ranking_rules, stop_words, synonyms, distinct_attribute, .. } = self; Settings { displayed_attributes, searchable_attributes, filterable_attributes, sortable_attributes, ranking_rules, stop_words, synonyms, distinct_attribute, _kind: PhantomData, } } } impl Settings { pub fn check(self) -> Settings { let displayed_attributes = match self.displayed_attributes { Setting::Set(fields) => { if fields.iter().any(|f| f == "*") { Setting::Reset } else { Setting::Set(fields) } } otherwise => otherwise, }; let searchable_attributes = match self.searchable_attributes { Setting::Set(fields) => { if fields.iter().any(|f| f == "*") { Setting::Reset } else { Setting::Set(fields) } } otherwise => otherwise, }; Settings { displayed_attributes, searchable_attributes, filterable_attributes: self.filterable_attributes, sortable_attributes: self.sortable_attributes, ranking_rules: self.ranking_rules, stop_words: self.stop_words, synonyms: self.synonyms, distinct_attribute: self.distinct_attribute, _kind: PhantomData, } } } #[derive(Debug, Clone, Serialize, Deserialize)] #[serde(deny_unknown_fields)] #[serde(rename_all = "camelCase")] pub struct Facets { pub level_group_size: Option, pub min_level_size: Option, } impl Index { pub fn update_documents( &self, format: UpdateFormat, method: IndexDocumentsMethod, content: Option, update_builder: UpdateBuilder, primary_key: Option<&str>, ) -> Result { let mut txn = self.write_txn()?; let result = self.update_documents_txn( &mut txn, format, method, content, update_builder, primary_key, )?; txn.commit()?; Ok(result) } pub fn update_documents_txn<'a, 'b>( &'a self, txn: &mut heed::RwTxn<'a, 'b>, format: UpdateFormat, method: IndexDocumentsMethod, content: Option, update_builder: UpdateBuilder, primary_key: Option<&str>, ) -> Result { trace!("performing document addition"); // Set the primary key if not set already, ignore if already set. if let (None, Some(primary_key)) = (self.primary_key(txn)?, primary_key) { let mut builder = UpdateBuilder::new(0).settings(txn, self); builder.set_primary_key(primary_key.to_string()); builder.execute(|_, _| ())?; } let mut builder = update_builder.index_documents(txn, self); builder.update_format(format); builder.index_documents_method(method); let indexing_callback = |indexing_step, update_id| debug!("update {}: {:?}", update_id, indexing_step); let gzipped = false; let addition = match content { Some(content) if gzipped => { builder.execute(GzDecoder::new(content), indexing_callback)? } Some(content) => builder.execute(content, indexing_callback)?, None => builder.execute(std::io::empty(), indexing_callback)?, }; info!("document addition done: {:?}", addition); Ok(UpdateResult::DocumentsAddition(addition)) } pub fn clear_documents(&self, update_builder: UpdateBuilder) -> Result { // We must use the write transaction of the update here. let mut wtxn = self.write_txn()?; let builder = update_builder.clear_documents(&mut wtxn, self); let _count = builder.execute()?; wtxn.commit() .and(Ok(UpdateResult::Other)) .map_err(Into::into) } pub fn update_settings_txn<'a, 'b>( &'a self, txn: &mut heed::RwTxn<'a, 'b>, settings: &Settings, update_builder: UpdateBuilder, ) -> Result { // We must use the write transaction of the update here. let mut builder = update_builder.settings(txn, self); match settings.searchable_attributes { Setting::Set(ref names) => builder.set_searchable_fields(names.clone()), Setting::Reset => builder.reset_searchable_fields(), Setting::NotSet => (), } match settings.displayed_attributes { Setting::Set(ref names) => builder.set_displayed_fields(names.clone()), Setting::Reset => builder.reset_displayed_fields(), Setting::NotSet => (), } match settings.filterable_attributes { Setting::Set(ref facets) => { builder.set_filterable_fields(facets.clone().into_iter().collect()) } Setting::Reset => builder.reset_filterable_fields(), Setting::NotSet => (), } match settings.sortable_attributes { Setting::Set(ref fields) => { builder.set_sortable_fields(fields.iter().cloned().collect()) } Setting::Reset => builder.reset_sortable_fields(), Setting::NotSet => (), } match settings.ranking_rules { Setting::Set(ref criteria) => builder.set_criteria(criteria.clone()), Setting::Reset => builder.reset_criteria(), Setting::NotSet => (), } match settings.stop_words { Setting::Set(ref stop_words) => builder.set_stop_words(stop_words.clone()), Setting::Reset => builder.reset_stop_words(), Setting::NotSet => (), } match settings.synonyms { Setting::Set(ref synonyms) => { builder.set_synonyms(synonyms.clone().into_iter().collect()) } Setting::Reset => builder.reset_synonyms(), Setting::NotSet => (), } match settings.distinct_attribute { Setting::Set(ref attr) => builder.set_distinct_field(attr.clone()), Setting::Reset => builder.reset_distinct_field(), Setting::NotSet => (), } builder.execute(|indexing_step, update_id| { debug!("update {}: {:?}", update_id, indexing_step) })?; Ok(UpdateResult::Other) } pub fn update_settings( &self, settings: &Settings, update_builder: UpdateBuilder, ) -> Result { let mut txn = self.write_txn()?; let result = self.update_settings_txn(&mut txn, settings, update_builder)?; txn.commit()?; Ok(result) } pub fn delete_documents( &self, document_ids: &[String], update_builder: UpdateBuilder, ) -> Result { let mut txn = self.write_txn()?; let mut builder = update_builder.delete_documents(&mut txn, self)?; // We ignore unexisting document ids document_ids.iter().for_each(|id| { builder.delete_external_id(id); }); let deleted = builder.execute()?; txn.commit() .and(Ok(UpdateResult::DocumentDeletion { deleted })) .map_err(Into::into) } } #[cfg(test)] mod test { use super::*; #[test] fn test_setting_check() { // test no changes let settings = Settings { displayed_attributes: Setting::Set(vec![String::from("hello")]), searchable_attributes: Setting::Set(vec![String::from("hello")]), filterable_attributes: Setting::NotSet, sortable_attributes: Setting::NotSet, ranking_rules: Setting::NotSet, stop_words: Setting::NotSet, synonyms: Setting::NotSet, distinct_attribute: Setting::NotSet, _kind: PhantomData::, }; let checked = settings.clone().check(); assert_eq!(settings.displayed_attributes, checked.displayed_attributes); assert_eq!( settings.searchable_attributes, checked.searchable_attributes ); // test wildcard // test no changes let settings = Settings { displayed_attributes: Setting::Set(vec![String::from("*")]), searchable_attributes: Setting::Set(vec![String::from("hello"), String::from("*")]), filterable_attributes: Setting::NotSet, sortable_attributes: Setting::NotSet, ranking_rules: Setting::NotSet, stop_words: Setting::NotSet, synonyms: Setting::NotSet, distinct_attribute: Setting::NotSet, _kind: PhantomData::, }; let checked = settings.check(); assert_eq!(checked.displayed_attributes, Setting::Reset); assert_eq!(checked.searchable_attributes, Setting::Reset); } }