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chore: import upstream snapshot with attribution
2026-07-13 12:31:17 +08:00

173 lines
5.6 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 segments
import (
"math"
"strconv"
"testing"
"github.com/stretchr/testify/assert"
"github.com/milvus-io/milvus/pkg/v3/config"
"github.com/milvus-io/milvus/pkg/v3/util/conc"
"github.com/milvus-io/milvus/pkg/v3/util/hardware"
"github.com/milvus-io/milvus/pkg/v3/util/paramtable"
)
func TestResizePools(t *testing.T) {
paramtable.Get().Init(paramtable.NewBaseTable(paramtable.SkipRemote(true)))
pt := paramtable.Get()
defer func() {
pt.Reset(pt.QueryNodeCfg.MaxReadConcurrency.Key)
pt.Reset(pt.QueryNodeCfg.CGOPoolSizeRatio.Key)
pt.Reset(pt.CommonCfg.MiddlePriorityThreadCoreCoefficient.Key)
pt.Reset(pt.QueryNodeCfg.BloomFilterApplyParallelFactor.Key)
}()
t.Run("SQPool", func(t *testing.T) {
expectedCap := int(math.Ceil(pt.QueryNodeCfg.MaxReadConcurrency.GetAsFloat() * pt.QueryNodeCfg.CGOPoolSizeRatio.GetAsFloat()))
ResizeSQPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetSQPool().Cap())
pt.Save(pt.QueryNodeCfg.CGOPoolSizeRatio.Key, strconv.FormatFloat(pt.QueryNodeCfg.CGOPoolSizeRatio.GetAsFloat()*2, 'f', 10, 64))
expectedCap = int(math.Ceil(pt.QueryNodeCfg.MaxReadConcurrency.GetAsFloat() * pt.QueryNodeCfg.CGOPoolSizeRatio.GetAsFloat()))
ResizeSQPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetSQPool().Cap())
pt.Save(pt.QueryNodeCfg.CGOPoolSizeRatio.Key, "0")
ResizeSQPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetSQPool().Cap(), "pool shall not be resized when newSize is 0")
})
t.Run("LoadPool", func(t *testing.T) {
expectedCap := hardware.GetCPUNum() * pt.CommonCfg.MiddlePriorityThreadCoreCoefficient.GetAsInt()
ResizeLoadPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetLoadPool().Cap())
pt.Save(pt.CommonCfg.MiddlePriorityThreadCoreCoefficient.Key, strconv.FormatFloat(pt.CommonCfg.MiddlePriorityThreadCoreCoefficient.GetAsFloat()*2, 'f', 10, 64))
ResizeLoadPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetLoadPool().Cap())
pt.Save(pt.CommonCfg.MiddlePriorityThreadCoreCoefficient.Key, "0")
ResizeLoadPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetLoadPool().Cap())
})
t.Run("MutatePool", func(t *testing.T) {
defer pt.Save(pt.QueryNodeCfg.MutatePoolSizeFactor.Key, "2")
expectedCap := hardware.GetCPUNum() * pt.QueryNodeCfg.MutatePoolSizeFactor.GetAsInt()
ResizeMutatePool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetMutatePool().Cap())
pt.Save(pt.QueryNodeCfg.MutatePoolSizeFactor.Key, "4")
ResizeMutatePool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, hardware.GetCPUNum()*4, GetMutatePool().Cap())
// factor <= 0 clamps to CPUNum so the mutate pool is never zero-sized.
pt.Save(pt.QueryNodeCfg.MutatePoolSizeFactor.Key, "0")
ResizeMutatePool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, hardware.GetCPUNum(), GetMutatePool().Cap())
})
t.Run("DynamicPool", func(t *testing.T) {
defer pt.Save(pt.QueryNodeCfg.DynamicPoolSizeFactor.Key, "1")
pt.Save(pt.QueryNodeCfg.DynamicPoolSizeFactor.Key, "3")
ResizeDynamicPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, hardware.GetCPUNum()*3, GetDynamicPool().Cap())
// factor <= 0 clamps to CPUNum.
pt.Save(pt.QueryNodeCfg.DynamicPoolSizeFactor.Key, "0")
ResizeDynamicPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, hardware.GetCPUNum(), GetDynamicPool().Cap())
})
t.Run("DeletePool", func(t *testing.T) {
defer pt.Save(pt.QueryNodeCfg.DeletePoolSizeFactor.Key, "1")
pt.Save(pt.QueryNodeCfg.DeletePoolSizeFactor.Key, "3")
ResizeDeletePool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, hardware.GetCPUNum()*3, GetDeletePool().Cap())
// factor <= 0 clamps to CPUNum.
pt.Save(pt.QueryNodeCfg.DeletePoolSizeFactor.Key, "0")
ResizeDeletePool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, hardware.GetCPUNum(), GetDeletePool().Cap())
})
t.Run("BfApplyPool", func(t *testing.T) {
expectedCap := hardware.GetCPUNum() * pt.QueryNodeCfg.BloomFilterApplyParallelFactor.GetAsInt()
ResizeBFApplyPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetBFApplyPool().Cap())
pt.Save(pt.QueryNodeCfg.BloomFilterApplyParallelFactor.Key, strconv.FormatFloat(pt.QueryNodeCfg.BloomFilterApplyParallelFactor.GetAsFloat()*2, 'f', 10, 64))
ResizeBFApplyPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetBFApplyPool().Cap())
pt.Save(pt.QueryNodeCfg.BloomFilterApplyParallelFactor.Key, "0")
ResizeBFApplyPool(&config.Event{
HasUpdated: true,
})
assert.Equal(t, expectedCap, GetBFApplyPool().Cap())
})
t.Run("error_pool", func(*testing.T) {
pool := conc.NewDefaultPool[any]()
c := pool.Cap()
resizePool(pool, c*2, "debug")
assert.Equal(t, c, pool.Cap())
})
}