// 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 importv2 import ( "sync" "go.uber.org/zap" "github.com/milvus-io/milvus/pkg/v2/log" "github.com/milvus-io/milvus/pkg/v2/util/hardware" "github.com/milvus-io/milvus/pkg/v2/util/paramtable" ) var ( globalMemoryAllocator MemoryAllocator globalMemoryAllocatorOnce sync.Once ) // GetMemoryAllocator returns the global memory allocator instance func GetMemoryAllocator() MemoryAllocator { globalMemoryAllocatorOnce.Do(func() { globalMemoryAllocator = NewMemoryAllocator(int64(hardware.GetMemoryCount())) }) return globalMemoryAllocator } // MemoryAllocator handles memory allocation and deallocation for import tasks type MemoryAllocator interface { // BlockingAllocate blocks until memory is available and then allocates // This method will block until memory becomes available BlockingAllocate(taskID int64, size int64) // Release releases memory of the specified size Release(taskID int64, size int64) } type memoryAllocator struct { systemTotalMemory int64 usedMemory int64 mutex sync.RWMutex cond *sync.Cond } // NewMemoryAllocator creates a new MemoryAllocator instance func NewMemoryAllocator(systemTotalMemory int64) MemoryAllocator { log.Info("new import memory allocator", zap.Int64("systemTotalMemory", systemTotalMemory)) ma := &memoryAllocator{ systemTotalMemory: systemTotalMemory, usedMemory: 0, } ma.cond = sync.NewCond(&ma.mutex) return ma } // BlockingAllocate blocks until memory is available and then allocates func (ma *memoryAllocator) BlockingAllocate(taskID int64, size int64) { ma.mutex.Lock() defer ma.mutex.Unlock() percentage := paramtable.Get().DataNodeCfg.ImportMemoryLimitPercentage.GetAsFloat() memoryLimit := int64(float64(ma.systemTotalMemory) * percentage / 100.0) // Wait until enough memory is available for ma.usedMemory+size > memoryLimit { log.Warn("task waiting for memory allocation...", zap.Int64("taskID", taskID), zap.Int64("requestedSize", size), zap.Int64("usedMemory", ma.usedMemory), zap.Int64("availableMemory", memoryLimit-ma.usedMemory)) ma.cond.Wait() } // Allocate memory ma.usedMemory += size log.Info("memory allocated successfully", zap.Int64("taskID", taskID), zap.Int64("allocatedSize", size), zap.Int64("usedMemory", ma.usedMemory), zap.Int64("availableMemory", memoryLimit-ma.usedMemory)) } // Release releases memory of the specified size func (ma *memoryAllocator) Release(taskID int64, size int64) { ma.mutex.Lock() defer ma.mutex.Unlock() ma.usedMemory -= size if ma.usedMemory < 0 { ma.usedMemory = 0 // Prevent negative memory usage log.Warn("memory release resulted in negative usage, reset to 0", zap.Int64("taskID", taskID), zap.Int64("releaseSize", size)) } log.Info("memory released successfully", zap.Int64("taskID", taskID), zap.Int64("releasedSize", size), zap.Int64("usedMemory", ma.usedMemory)) // Wake up waiting tasks after memory is released ma.cond.Broadcast() }