Files
wehub-resource-sync 498b235461
Build and test / Build and test AMD64 Ubuntu 22.04 (push) Failing after 0s
Publish Builder / amazonlinux2023 (push) Failing after 1s
Build and test / UT for Go (push) Has been skipped
Publish KRTE Images / KRTE (push) Failing after 1s
Build and test / Integration Test (push) Has been skipped
Build and test / Upload Code Coverage (push) Has been skipped
Publish Builder / rockylinux9 (push) Failing after 1s
Publish Builder / ubuntu22.04 (push) Failing after 0s
Publish Builder / ubuntu24.04 (push) Failing after 0s
Publish Gpu Builder / publish-gpu-builder (push) Failing after 1s
Publish Test Images / PyTest (push) Failing after 0s
Build and test / UT for Cpp (push) Has been cancelled
chore: import upstream snapshot with attribution
2026-07-13 12:31:17 +08:00

120 lines
4.6 KiB
Go

// Licensed to the LF AI & Data foundation under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package pkoracle
import (
"github.com/milvus-io/milvus-proto/go-api/v3/commonpb"
"github.com/milvus-io/milvus/internal/storage"
"github.com/milvus-io/milvus/pkg/v3/util/typeutil"
)
var _ Candidate = (*ExternalSegmentCandidate)(nil)
// ExternalSegmentCandidate is a Candidate implementation for external collections.
// External collections use virtual PKs in the format: (segmentID << 32) | offset.
// Instead of using bloom filters, this candidate uses segment-based PK matching:
// a PK belongs to this segment if (pk >> 32) == (segmentID & 0xFFFFFFFF).
// Note: Only the lower 32 bits of segmentID are preserved in the virtual PK.
type ExternalSegmentCandidate struct {
segmentID int64
truncatedSegmentID int64 // Lower 32 bits of segmentID for comparison with virtual PK
partitionID int64
segType commonpb.SegmentState
}
// NewExternalSegmentCandidate creates a new ExternalSegmentCandidate.
func NewExternalSegmentCandidate(segmentID int64, partitionID int64, segType commonpb.SegmentState) *ExternalSegmentCandidate {
return &ExternalSegmentCandidate{
segmentID: segmentID,
truncatedSegmentID: segmentID & 0xFFFFFFFF, // Keep only lower 32 bits
partitionID: partitionID,
segType: segType,
}
}
// extractSegmentIDFromVirtualPK extracts the truncated segment ID from a virtual PK.
// Delegates to typeutil, the single source of truth for the virtual PK layout.
func extractSegmentIDFromVirtualPK(virtualPK int64) int64 {
return typeutil.ExtractSegmentIDFromVirtualPK(virtualPK)
}
// MayPkExist checks if the primary key could exist in this segment.
// For external collections, virtual PK format is (segmentID << 32) | offset,
// so we determine segment membership by extracting segmentID from the PK.
func (c *ExternalSegmentCandidate) MayPkExist(lc *storage.LocationsCache) bool {
pk := lc.GetPk()
if int64Pk, ok := pk.(*storage.Int64PrimaryKey); ok {
return extractSegmentIDFromVirtualPK(int64Pk.Value) == c.truncatedSegmentID
}
// External collections only support int64 virtual PK
return false
}
// BatchPkExist checks if multiple primary keys could exist in this segment.
func (c *ExternalSegmentCandidate) BatchPkExist(lc *storage.BatchLocationsCache) []bool {
pks := lc.PKs()
hits := make([]bool, len(pks))
for i, pk := range pks {
if int64Pk, ok := pk.(*storage.Int64PrimaryKey); ok {
hits[i] = extractSegmentIDFromVirtualPK(int64Pk.Value) == c.truncatedSegmentID
}
}
return hits
}
// ID returns the segment ID.
func (c *ExternalSegmentCandidate) ID() int64 {
return c.segmentID
}
// Partition returns the partition ID.
func (c *ExternalSegmentCandidate) Partition() int64 {
return c.partitionID
}
// Type returns the segment type.
func (c *ExternalSegmentCandidate) Type() commonpb.SegmentState {
return c.segType
}
// PkCandidateExist returns true — external candidates are always ready (deterministic PK mapping).
func (c *ExternalSegmentCandidate) PkCandidateExist() bool {
return true
}
// UpdatePkCandidate is a no-op for external candidates (virtual PKs are deterministic).
func (c *ExternalSegmentCandidate) UpdatePkCandidate(_ []storage.PrimaryKey) {}
// Stats returns nil — external candidates have no PK statistics.
func (c *ExternalSegmentCandidate) Stats() *storage.PkStatistics {
return nil
}
// GetMinPk returns nil — external candidates have no PK range statistics.
func (c *ExternalSegmentCandidate) GetMinPk() *storage.PrimaryKey { return nil }
// GetMaxPk returns nil — external candidates have no PK range statistics.
func (c *ExternalSegmentCandidate) GetMaxPk() *storage.PrimaryKey { return nil }
// Charge is a no-op for external candidates (no bloom filter memory to track).
func (c *ExternalSegmentCandidate) Charge() {}
// Refund is a no-op for external candidates (no resources to refund).
func (c *ExternalSegmentCandidate) Refund() {}