from chromadb.db.base import SqlDB, ParameterValue, get_sql from chromadb.ingest import ( Producer, Consumer, encode_vector, decode_vector, ConsumerCallbackFn, ) from chromadb.types import ( SubmitEmbeddingRecord, EmbeddingRecord, SeqId, ScalarEncoding, Operation, ) from chromadb.config import System from chromadb.telemetry.opentelemetry import ( OpenTelemetryClient, OpenTelemetryGranularity, trace_method, ) from overrides import override from collections import defaultdict from typing import Sequence, Tuple, Optional, Dict, Set, cast from uuid import UUID from pypika import Table, functions import uuid import json import logging logger = logging.getLogger(__name__) _operation_codes = { Operation.ADD: 0, Operation.UPDATE: 1, Operation.UPSERT: 2, Operation.DELETE: 3, } _operation_codes_inv = {v: k for k, v in _operation_codes.items()} # Set in conftest.py to rethrow errors in the "async" path during testing # https://doc.pytest.org/en/latest/example/simple.html#detect-if-running-from-within-a-pytest-run _called_from_test = False class SqlEmbeddingsQueue(SqlDB, Producer, Consumer): """A SQL database that stores embeddings, allowing a traditional RDBMS to be used as the primary ingest queue and satisfying the top level Producer/Consumer interfaces. Note that this class is only suitable for use cases where the producer and consumer are in the same process. This is because notifiaction of new embeddings happens solely in-process: this implementation does not actively listen to the the database for new records added by other processes. """ class Subscription: id: UUID topic_name: str start: int end: int callback: ConsumerCallbackFn def __init__( self, id: UUID, topic_name: str, start: int, end: int, callback: ConsumerCallbackFn, ): self.id = id self.topic_name = topic_name self.start = start self.end = end self.callback = callback _subscriptions: Dict[str, Set[Subscription]] _max_batch_size: Optional[int] # How many variables are in the insert statement for a single record VARIABLES_PER_RECORD = 6 def __init__(self, system: System): self._subscriptions = defaultdict(set) self._max_batch_size = None self._opentelemetry_client = system.require(OpenTelemetryClient) super().__init__(system) @trace_method("SqlEmbeddingsQueue.reset_state", OpenTelemetryGranularity.ALL) @override def reset_state(self) -> None: super().reset_state() self._subscriptions = defaultdict(set) @override def create_topic(self, topic_name: str) -> None: # Topic creation is implicit for this impl pass @trace_method("SqlEmbeddingsQueue.delete_topic", OpenTelemetryGranularity.ALL) @override def delete_topic(self, topic_name: str) -> None: t = Table("embeddings_queue") q = ( self.querybuilder() .from_(t) .where(t.topic == ParameterValue(topic_name)) .delete() ) with self.tx() as cur: sql, params = get_sql(q, self.parameter_format()) cur.execute(sql, params) @trace_method("SqlEmbeddingsQueue.submit_embedding", OpenTelemetryGranularity.ALL) @override def submit_embedding( self, topic_name: str, embedding: SubmitEmbeddingRecord ) -> SeqId: if not self._running: raise RuntimeError("Component not running") return self.submit_embeddings(topic_name, [embedding])[0] @trace_method("SqlEmbeddingsQueue.submit_embeddings", OpenTelemetryGranularity.ALL) @override def submit_embeddings( self, topic_name: str, embeddings: Sequence[SubmitEmbeddingRecord] ) -> Sequence[SeqId]: if not self._running: raise RuntimeError("Component not running") if len(embeddings) == 0: return [] if len(embeddings) > self.max_batch_size: raise ValueError( f""" Cannot submit more than {self.max_batch_size:,} embeddings at once. Please submit your embeddings in batches of size {self.max_batch_size:,} or less. """ ) t = Table("embeddings_queue") insert = ( self.querybuilder() .into(t) .columns(t.operation, t.topic, t.id, t.vector, t.encoding, t.metadata) ) id_to_idx: Dict[str, int] = {} for embedding in embeddings: ( embedding_bytes, encoding, metadata, ) = self._prepare_vector_encoding_metadata(embedding) insert = insert.insert( ParameterValue(_operation_codes[embedding["operation"]]), ParameterValue(topic_name), ParameterValue(embedding["id"]), ParameterValue(embedding_bytes), ParameterValue(encoding), ParameterValue(metadata), ) id_to_idx[embedding["id"]] = len(id_to_idx) with self.tx() as cur: sql, params = get_sql(insert, self.parameter_format()) # The returning clause does not guarantee order, so we need to do reorder # the results. https://www.sqlite.org/lang_returning.html sql = f"{sql} RETURNING seq_id, id" # Pypika doesn't support RETURNING results = cur.execute(sql, params).fetchall() # Reorder the results seq_ids = [cast(SeqId, None)] * len( results ) # Lie to mypy: https://stackoverflow.com/questions/76694215/python-type-casting-when-preallocating-list embedding_records = [] for seq_id, id in results: seq_ids[id_to_idx[id]] = seq_id submit_embedding_record = embeddings[id_to_idx[id]] # We allow notifying consumers out of order relative to one call to # submit_embeddings so we do not reorder the records before submitting them embedding_record = EmbeddingRecord( id=id, seq_id=seq_id, embedding=submit_embedding_record["embedding"], encoding=submit_embedding_record["encoding"], metadata=submit_embedding_record["metadata"], operation=submit_embedding_record["operation"], ) embedding_records.append(embedding_record) self._notify_all(topic_name, embedding_records) return seq_ids @trace_method("SqlEmbeddingsQueue.subscribe", OpenTelemetryGranularity.ALL) @override def subscribe( self, topic_name: str, consume_fn: ConsumerCallbackFn, start: Optional[SeqId] = None, end: Optional[SeqId] = None, id: Optional[UUID] = None, ) -> UUID: if not self._running: raise RuntimeError("Component not running") subscription_id = id or uuid.uuid4() start, end = self._validate_range(start, end) subscription = self.Subscription( subscription_id, topic_name, start, end, consume_fn ) # Backfill first, so if it errors we do not add the subscription self._backfill(subscription) self._subscriptions[topic_name].add(subscription) return subscription_id @trace_method("SqlEmbeddingsQueue.unsubscribe", OpenTelemetryGranularity.ALL) @override def unsubscribe(self, subscription_id: UUID) -> None: for topic_name, subscriptions in self._subscriptions.items(): for subscription in subscriptions: if subscription.id == subscription_id: subscriptions.remove(subscription) if len(subscriptions) == 0: del self._subscriptions[topic_name] return @override def min_seqid(self) -> SeqId: return -1 @override def max_seqid(self) -> SeqId: return 2**63 - 1 @property @trace_method("SqlEmbeddingsQueue.max_batch_size", OpenTelemetryGranularity.ALL) @override def max_batch_size(self) -> int: if self._max_batch_size is None: with self.tx() as cur: cur.execute("PRAGMA compile_options;") compile_options = cur.fetchall() for option in compile_options: if "MAX_VARIABLE_NUMBER" in option[0]: # The pragma returns a string like 'MAX_VARIABLE_NUMBER=999' self._max_batch_size = int(option[0].split("=")[1]) // ( self.VARIABLES_PER_RECORD ) if self._max_batch_size is None: # This value is the default for sqlite3 versions < 3.32.0 # It is the safest value to use if we can't find the pragma for some # reason self._max_batch_size = 999 // self.VARIABLES_PER_RECORD return self._max_batch_size @trace_method( "SqlEmbeddingsQueue._prepare_vector_encoding_metadata", OpenTelemetryGranularity.ALL, ) def _prepare_vector_encoding_metadata( self, embedding: SubmitEmbeddingRecord ) -> Tuple[Optional[bytes], Optional[str], Optional[str]]: if embedding["embedding"]: encoding_type = cast(ScalarEncoding, embedding["encoding"]) encoding = encoding_type.value embedding_bytes = encode_vector(embedding["embedding"], encoding_type) else: embedding_bytes = None encoding = None metadata = json.dumps(embedding["metadata"]) if embedding["metadata"] else None return embedding_bytes, encoding, metadata @trace_method("SqlEmbeddingsQueue._backfill", OpenTelemetryGranularity.ALL) def _backfill(self, subscription: Subscription) -> None: """Backfill the given subscription with any currently matching records in the DB""" t = Table("embeddings_queue") q = ( self.querybuilder() .from_(t) .where(t.topic == ParameterValue(subscription.topic_name)) .where(t.seq_id > ParameterValue(subscription.start)) .where(t.seq_id <= ParameterValue(subscription.end)) .select(t.seq_id, t.operation, t.id, t.vector, t.encoding, t.metadata) .orderby(t.seq_id) ) with self.tx() as cur: sql, params = get_sql(q, self.parameter_format()) cur.execute(sql, params) rows = cur.fetchall() for row in rows: if row[3]: encoding = ScalarEncoding(row[4]) vector = decode_vector(row[3], encoding) else: encoding = None vector = None self._notify_one( subscription, [ EmbeddingRecord( seq_id=row[0], operation=_operation_codes_inv[row[1]], id=row[2], embedding=vector, encoding=encoding, metadata=json.loads(row[5]) if row[5] else None, ) ], ) @trace_method("SqlEmbeddingsQueue._validate_range", OpenTelemetryGranularity.ALL) def _validate_range( self, start: Optional[SeqId], end: Optional[SeqId] ) -> Tuple[int, int]: """Validate and normalize the start and end SeqIDs for a subscription using this impl.""" start = start or self._next_seq_id() end = end or self.max_seqid() if not isinstance(start, int) or not isinstance(end, int): raise TypeError("SeqIDs must be integers for sql-based EmbeddingsDB") if start >= end: raise ValueError(f"Invalid SeqID range: {start} to {end}") return start, end @trace_method("SqlEmbeddingsQueue._next_seq_id", OpenTelemetryGranularity.ALL) def _next_seq_id(self) -> int: """Get the next SeqID for this database.""" t = Table("embeddings_queue") q = self.querybuilder().from_(t).select(functions.Max(t.seq_id)) with self.tx() as cur: cur.execute(q.get_sql()) return int(cur.fetchone()[0]) + 1 @trace_method("SqlEmbeddingsQueue._notify_all", OpenTelemetryGranularity.ALL) def _notify_all(self, topic: str, embeddings: Sequence[EmbeddingRecord]) -> None: """Send a notification to each subscriber of the given topic.""" if self._running: for sub in self._subscriptions[topic]: self._notify_one(sub, embeddings) @trace_method("SqlEmbeddingsQueue._notify_one", OpenTelemetryGranularity.ALL) def _notify_one( self, sub: Subscription, embeddings: Sequence[EmbeddingRecord] ) -> None: """Send a notification to a single subscriber.""" # Filter out any embeddings that are not in the subscription range should_unsubscribe = False filtered_embeddings = [] for embedding in embeddings: if embedding["seq_id"] <= sub.start: continue if embedding["seq_id"] > sub.end: should_unsubscribe = True break filtered_embeddings.append(embedding) # Log errors instead of throwing them to preserve async semantics # for consistency between local and distributed configurations try: if len(filtered_embeddings) > 0: sub.callback(filtered_embeddings) if should_unsubscribe: self.unsubscribe(sub.id) except BaseException as e: logger.error( f"Exception occurred invoking consumer for subscription {sub.id.hex}" + f"to topic {sub.topic_name} %s", str(e), ) if _called_from_test: raise e