meilisearch/src/update/index_documents/transform.rs

435 lines
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Rust
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use std::borrow::Cow;
use std::convert::TryFrom;
use std::fs::File;
use std::io::{Read, Seek, SeekFrom};
use std::iter::Peekable;
use anyhow::{anyhow, Context};
use fst::{IntoStreamer, Streamer};
use grenad::CompressionType;
use roaring::RoaringBitmap;
use serde_json::{Map, Value};
use crate::{BEU32, MergeFn, Index, FieldsIdsMap};
use crate::update::AvailableDocumentsIds;
use super::merge_function::merge_two_obkvs;
use super::{create_writer, create_sorter, IndexDocumentsMethod};
pub struct TransformOutput {
pub primary_key: u8,
pub fields_ids_map: FieldsIdsMap,
pub users_ids_documents_ids: fst::Map<Vec<u8>>,
pub new_documents_ids: RoaringBitmap,
pub replaced_documents_ids: RoaringBitmap,
pub documents_count: usize,
pub documents_file: File,
}
/// Extract the users ids, deduplicate and compute the new internal documents ids
/// and fields ids, writing all the documents under their internal ids into a final file.
///
/// Outputs the new `FieldsIdsMap`, the new `UsersIdsDocumentsIds` map, the new documents ids,
/// the replaced documents ids, the number of documents in this update and the file
/// containing all those documents.
pub struct Transform<'t, 'i> {
pub rtxn: &'t heed::RoTxn<'i>,
pub index: &'i Index,
pub chunk_compression_type: CompressionType,
pub chunk_compression_level: Option<u32>,
pub chunk_fusing_shrink_size: Option<u64>,
pub max_nb_chunks: Option<usize>,
pub max_memory: Option<usize>,
pub index_documents_method: IndexDocumentsMethod,
pub autogenerate_docids: bool,
}
impl Transform<'_, '_> {
pub fn from_json<R: Read>(self, reader: R) -> anyhow::Result<TransformOutput> {
self.from_generic_json(reader, false)
}
pub fn from_json_stream<R: Read>(self, reader: R) -> anyhow::Result<TransformOutput> {
self.from_generic_json(reader, true)
}
fn from_generic_json<R: Read>(self, reader: R, is_stream: bool) -> anyhow::Result<TransformOutput> {
let mut fields_ids_map = self.index.fields_ids_map(self.rtxn)?;
let users_ids_documents_ids = self.index.users_ids_documents_ids(self.rtxn).unwrap();
let primary_key = self.index.primary_key(self.rtxn)?;
// Deserialize the whole batch of documents in memory.
let mut documents: Peekable<Box<dyn Iterator<Item=serde_json::Result<Map<String, Value>>>>> = if is_stream {
let iter = serde_json::Deserializer::from_reader(reader).into_iter();
let iter = Box::new(iter) as Box<dyn Iterator<Item=_>>;
iter.peekable()
} else {
let vec: Vec<_> = serde_json::from_reader(reader)?;
let iter = vec.into_iter().map(Ok);
let iter = Box::new(iter) as Box<dyn Iterator<Item=_>>;
iter.peekable()
};
// We extract the primary key from the first document in
// the batch if it hasn't already been defined in the index.
let primary_key = match primary_key {
Some(primary_key) => primary_key,
None => {
// We ignore a potential error here as we can't early return it now,
// the peek method gives us only a reference on the next item,
// we will eventually return it in the iteration just after.
let first = documents.peek().and_then(|r| r.as_ref().ok());
match first.and_then(|doc| doc.keys().find(|k| k.contains("id"))) {
Some(key) => fields_ids_map.insert(&key).context("field id limit reached")?,
None => {
if !self.autogenerate_docids {
// If there is no primary key in the current document batch, we must
// return an error and not automatically generate any document id.
return Err(anyhow!("missing primary key"))
}
fields_ids_map.insert("id").context("field id limit reached")?
},
}
},
};
if documents.peek().is_none() {
return Ok(TransformOutput {
primary_key,
fields_ids_map,
users_ids_documents_ids: fst::Map::default(),
new_documents_ids: RoaringBitmap::new(),
replaced_documents_ids: RoaringBitmap::new(),
documents_count: 0,
documents_file: tempfile::tempfile()?,
});
}
// Get the primary key field name now, this way we will
// be able to get the value in the JSON Map document.
let primary_key_name = fields_ids_map
.name(primary_key)
.expect("found the primary key name")
.to_owned();
// We must choose the appropriate merge function for when two or more documents
// with the same user id must be merged or fully replaced in the same batch.
let merge_function = match self.index_documents_method {
IndexDocumentsMethod::ReplaceDocuments => keep_latest_obkv,
IndexDocumentsMethod::UpdateDocuments => merge_obkvs,
};
// We initialize the sorter with the user indexing settings.
let mut sorter = create_sorter(
merge_function,
self.chunk_compression_type,
self.chunk_compression_level,
self.chunk_fusing_shrink_size,
self.max_nb_chunks,
self.max_memory,
);
let mut json_buffer = Vec::new();
let mut obkv_buffer = Vec::new();
let mut uuid_buffer = [0; uuid::adapter::Hyphenated::LENGTH];
for result in documents {
let document = result?;
obkv_buffer.clear();
let mut writer = obkv::KvWriter::new(&mut obkv_buffer);
// We prepare the fields ids map with the documents keys.
for (key, _value) in &document {
fields_ids_map.insert(&key).context("field id limit reached")?;
}
// We retrieve the user id from the document based on the primary key name,
// if the document id isn't present we generate a uuid.
let user_id = match document.get(&primary_key_name) {
Some(value) => match value {
Value::String(string) => Cow::Borrowed(string.as_str()),
Value::Number(number) => Cow::Owned(number.to_string()),
_ => return Err(anyhow!("documents ids must be either strings or numbers")),
},
None => {
if !self.autogenerate_docids {
return Err(anyhow!("missing primary key"));
}
let uuid = uuid::Uuid::new_v4().to_hyphenated().encode_lower(&mut uuid_buffer);
Cow::Borrowed(uuid)
},
};
// We iterate in the fields ids ordered.
for (field_id, name) in fields_ids_map.iter() {
json_buffer.clear();
// We try to extract the value from the document and if we don't find anything
// and this should be the document id we return the one we generated.
if let Some(value) = document.get(name) {
// We serialize the attribute values.
serde_json::to_writer(&mut json_buffer, value)?;
writer.insert(field_id, &json_buffer)?;
}
else if field_id == primary_key {
// We validate the document id [a-zA-Z0-9\-_].
let user_id = match validate_document_id(&user_id) {
Some(valid) => valid,
None => return Err(anyhow!("invalid document id: {:?}", user_id)),
};
// We serialize the document id.
serde_json::to_writer(&mut json_buffer, &user_id)?;
writer.insert(field_id, &json_buffer)?;
}
}
// We use the extracted/generated user id as the key for this document.
sorter.insert(user_id.as_bytes(), &obkv_buffer)?;
}
// Now that we have a valid sorter that contains the user id and the obkv we
// give it to the last transforming function which returns the TransformOutput.
self.from_sorter(sorter, primary_key, fields_ids_map, users_ids_documents_ids)
}
pub fn from_csv<R: Read>(self, reader: R) -> anyhow::Result<TransformOutput> {
let mut fields_ids_map = self.index.fields_ids_map(self.rtxn)?;
let users_ids_documents_ids = self.index.users_ids_documents_ids(self.rtxn).unwrap();
let mut csv = csv::Reader::from_reader(reader);
let headers = csv.headers()?;
let primary_key = self.index.primary_key(self.rtxn)?;
// Generate the new fields ids based on the current fields ids and this CSV headers.
let mut fields_ids = Vec::new();
for (i, header) in headers.iter().enumerate() {
let id = fields_ids_map.insert(header).context("field id limit reached)")?;
fields_ids.push((id, i));
}
// Extract the position of the primary key in the current headers, None if not found.
let user_id_pos = match primary_key {
Some(primary_key) => {
// Te primary key have is known so we must find the position in the CSV headers.
let name = fields_ids_map.name(primary_key).expect("found the primary key name");
headers.iter().position(|h| h == name)
},
None => headers.iter().position(|h| h.contains("id")),
};
// Returns the field id in the fileds ids map, create an "id" field
// in case it is not in the current headers.
let primary_key_field_id = match user_id_pos {
Some(pos) => fields_ids_map.id(&headers[pos]).expect("found the primary key"),
None => {
if !self.autogenerate_docids {
// If there is no primary key in the current document batch, we must
// return an error and not automatically generate any document id.
return Err(anyhow!("missing primary key"))
}
let field_id = fields_ids_map.insert("id").context("field id limit reached")?;
// We make sure to add the primary key field id to the fields ids,
// this way it is added to the obks.
fields_ids.push((field_id, usize::max_value()));
field_id
},
};
// We sort the fields ids by the fields ids map id, this way we are sure to iterate over
// the records fields in the fields ids map order and correctly generate the obkv.
fields_ids.sort_unstable_by_key(|(field_id, _)| *field_id);
// We initialize the sorter with the user indexing settings.
let mut sorter = create_sorter(
keep_latest_obkv,
self.chunk_compression_type,
self.chunk_compression_level,
self.chunk_fusing_shrink_size,
self.max_nb_chunks,
self.max_memory,
);
// We write into the sorter to merge and deduplicate the documents
// based on the users ids.
let mut json_buffer = Vec::new();
let mut obkv_buffer = Vec::new();
let mut uuid_buffer = [0; uuid::adapter::Hyphenated::LENGTH];
let mut record = csv::StringRecord::new();
while csv.read_record(&mut record)? {
obkv_buffer.clear();
let mut writer = obkv::KvWriter::new(&mut obkv_buffer);
// We extract the user id if we know where it is or generate an UUID V4 otherwise.
let user_id = match user_id_pos {
Some(pos) => {
let user_id = &record[pos];
// We validate the document id [a-zA-Z0-9\-_].
match validate_document_id(&user_id) {
Some(valid) => valid,
None => return Err(anyhow!("invalid document id: {:?}", user_id)),
}
},
None => uuid::Uuid::new_v4().to_hyphenated().encode_lower(&mut uuid_buffer),
};
// When the primary_key_field_id is found in the fields ids list
// we return the generated document id instead of the record field.
let iter = fields_ids.iter()
.map(|(fi, i)| {
let field = if *fi == primary_key_field_id { user_id } else { &record[*i] };
(fi, field)
});
// We retrieve the field id based on the fields ids map fields ids order.
for (field_id, field) in iter {
// We serialize the attribute values as JSON strings.
json_buffer.clear();
serde_json::to_writer(&mut json_buffer, &field)?;
writer.insert(*field_id, &json_buffer)?;
}
// We use the extracted/generated user id as the key for this document.
sorter.insert(user_id, &obkv_buffer)?;
}
// Now that we have a valid sorter that contains the user id and the obkv we
// give it to the last transforming function which returns the TransformOutput.
self.from_sorter(sorter, primary_key_field_id, fields_ids_map, users_ids_documents_ids)
}
/// Generate the `TransformOutput` based on the given sorter that can be generated from any
/// format like CSV, JSON or JSON stream. This sorter must contain a key that is the document
/// id for the user side and the value must be an obkv where keys are valid fields ids.
fn from_sorter(
self,
sorter: grenad::Sorter<MergeFn>,
primary_key: u8,
fields_ids_map: FieldsIdsMap,
users_ids_documents_ids: fst::Map<Cow<'_, [u8]>>,
) -> anyhow::Result<TransformOutput>
{
let documents_ids = self.index.documents_ids(self.rtxn)?;
let mut available_documents_ids = AvailableDocumentsIds::from_documents_ids(&documents_ids);
// Once we have sort and deduplicated the documents we write them into a final file.
let mut final_sorter = create_sorter(
|_docid, _obkvs| Err(anyhow!("cannot merge two documents")),
self.chunk_compression_type,
self.chunk_compression_level,
self.chunk_fusing_shrink_size,
self.max_nb_chunks,
self.max_memory,
);
let mut new_users_ids_documents_ids_builder = fst::MapBuilder::memory();
let mut replaced_documents_ids = RoaringBitmap::new();
let mut new_documents_ids = RoaringBitmap::new();
let mut obkv_buffer = Vec::new();
// While we write into final file we get or generate the internal documents ids.
let mut documents_count = 0;
let mut iter = sorter.into_iter()?;
while let Some((user_id, update_obkv)) = iter.next()? {
let (docid, obkv) = match users_ids_documents_ids.get(user_id) {
Some(docid) => {
// If we find the user id in the current users ids documents ids map
// we use it and insert it in the list of replaced documents.
let docid = u32::try_from(docid).expect("valid document id");
replaced_documents_ids.insert(docid);
// Depending on the update indexing method we will merge
// the document update with the current document or not.
match self.index_documents_method {
IndexDocumentsMethod::ReplaceDocuments => (docid, update_obkv),
IndexDocumentsMethod::UpdateDocuments => {
let key = BEU32::new(docid);
let base_obkv = self.index.documents.get(&self.rtxn, &key)?
.context("document not found")?;
let update_obkv = obkv::KvReader::new(update_obkv);
merge_two_obkvs(base_obkv, update_obkv, &mut obkv_buffer);
(docid, obkv_buffer.as_slice())
}
}
},
None => {
// If this user id is new we add it to the users ids documents ids map
// for new ids and into the list of new documents.
let new_docid = available_documents_ids.next()
.context("no more available documents ids")?;
new_users_ids_documents_ids_builder.insert(user_id, new_docid as u64)?;
new_documents_ids.insert(new_docid);
(new_docid, update_obkv)
},
};
// We insert the document under the documents ids map into the final file.
final_sorter.insert(docid.to_be_bytes(), obkv)?;
documents_count += 1;
}
// We create a final writer to write the new documents in order from the sorter.
let file = tempfile::tempfile()?;
let mut writer = create_writer(self.chunk_compression_type, self.chunk_compression_level, file)?;
// Once we have written all the documents into the final sorter, we write the documents
// into this writer, extract the file and reset the seek to be able to read it again.
final_sorter.write_into(&mut writer)?;
let mut documents_file = writer.into_inner()?;
documents_file.seek(SeekFrom::Start(0))?;
// We create the union between the existing users ids documents ids with the new ones.
let new_users_ids_documents_ids = new_users_ids_documents_ids_builder.into_map();
let union_ = fst::map::OpBuilder::new()
.add(&users_ids_documents_ids)
.add(&new_users_ids_documents_ids)
.r#union();
// We stream and merge the new users ids documents ids map with the existing one.
let mut users_ids_documents_ids_builder = fst::MapBuilder::memory();
let mut iter = union_.into_stream();
while let Some((user_id, vals)) = iter.next() {
assert_eq!(vals.len(), 1, "there must be exactly one document id");
users_ids_documents_ids_builder.insert(user_id, vals[0].value)?;
}
Ok(TransformOutput {
primary_key,
fields_ids_map,
users_ids_documents_ids: users_ids_documents_ids_builder.into_map(),
new_documents_ids,
replaced_documents_ids,
documents_count,
documents_file,
})
}
}
/// Only the last value associated with an id is kept.
fn keep_latest_obkv(_key: &[u8], obkvs: &[Cow<[u8]>]) -> anyhow::Result<Vec<u8>> {
obkvs.last().context("no last value").map(|last| last.clone().into_owned())
}
/// Merge all the obks in the order we see them.
fn merge_obkvs(_key: &[u8], obkvs: &[Cow<[u8]>]) -> anyhow::Result<Vec<u8>> {
let mut iter = obkvs.iter();
let first = iter.next().map(|b| b.clone().into_owned()).context("no first value")?;
Ok(iter.fold(first, |acc, current| {
let first = obkv::KvReader::new(&acc);
let second = obkv::KvReader::new(current);
let mut buffer = Vec::new();
merge_two_obkvs(first, second, &mut buffer);
buffer
}))
}
fn validate_document_id(document_id: &str) -> Option<&str> {
let document_id = document_id.trim();
Some(document_id).filter(|id| {
!id.is_empty() && id.chars().all(|c| {
matches!(c, 'a'..='z' | 'A'..='Z' | '0'..='9' | '-' | '_')
})
})
}