mirror of https://github.com/status-im/op-geth.git
475 lines
16 KiB
Go
475 lines
16 KiB
Go
// Copyright 2016 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more detailct.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package les
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import (
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"encoding/binary"
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"math"
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"sync"
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"sync/atomic"
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"time"
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"github.com/ethereum/go-ethereum/common/mclock"
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"github.com/ethereum/go-ethereum/eth"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/les/flowcontrol"
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"github.com/ethereum/go-ethereum/log"
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)
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const makeCostStats = false // make request cost statistics during operation
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var (
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// average request cost estimates based on serving time
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reqAvgTimeCost = requestCostTable{
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GetBlockHeadersMsg: {150000, 30000},
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GetBlockBodiesMsg: {0, 700000},
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GetReceiptsMsg: {0, 1000000},
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GetCodeMsg: {0, 450000},
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GetProofsV2Msg: {0, 600000},
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GetHelperTrieProofsMsg: {0, 1000000},
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SendTxV2Msg: {0, 450000},
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GetTxStatusMsg: {0, 250000},
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}
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// maximum incoming message size estimates
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reqMaxInSize = requestCostTable{
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GetBlockHeadersMsg: {40, 0},
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GetBlockBodiesMsg: {0, 40},
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GetReceiptsMsg: {0, 40},
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GetCodeMsg: {0, 80},
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GetProofsV2Msg: {0, 80},
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GetHelperTrieProofsMsg: {0, 20},
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SendTxV2Msg: {0, 16500},
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GetTxStatusMsg: {0, 50},
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}
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// maximum outgoing message size estimates
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reqMaxOutSize = requestCostTable{
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GetBlockHeadersMsg: {0, 556},
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GetBlockBodiesMsg: {0, 100000},
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GetReceiptsMsg: {0, 200000},
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GetCodeMsg: {0, 50000},
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GetProofsV2Msg: {0, 4000},
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GetHelperTrieProofsMsg: {0, 4000},
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SendTxV2Msg: {0, 100},
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GetTxStatusMsg: {0, 100},
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}
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// request amounts that have to fit into the minimum buffer size minBufferMultiplier times
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minBufferReqAmount = map[uint64]uint64{
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GetBlockHeadersMsg: 192,
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GetBlockBodiesMsg: 1,
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GetReceiptsMsg: 1,
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GetCodeMsg: 1,
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GetProofsV2Msg: 1,
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GetHelperTrieProofsMsg: 16,
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SendTxV2Msg: 8,
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GetTxStatusMsg: 64,
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}
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minBufferMultiplier = 3
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)
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const (
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maxCostFactor = 2 // ratio of maximum and average cost estimates
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gfUsageThreshold = 0.5
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gfUsageTC = time.Second
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gfRaiseTC = time.Second * 200
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gfDropTC = time.Second * 50
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gfDbKey = "_globalCostFactorV3"
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)
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// costTracker is responsible for calculating costs and cost estimates on the
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// server side. It continuously updates the global cost factor which is defined
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// as the number of cost units per nanosecond of serving time in a single thread.
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// It is based on statistics collected during serving requests in high-load periods
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// and practically acts as a one-dimension request price scaling factor over the
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// pre-defined cost estimate table.
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//
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// The reason for dynamically maintaining the global factor on the server side is:
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// the estimated time cost of the request is fixed(hardcoded) but the configuration
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// of the machine running the server is really different. Therefore, the request serving
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// time in different machine will vary greatly. And also, the request serving time
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// in same machine may vary greatly with different request pressure.
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//
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// In order to more effectively limit resources, we apply the global factor to serving
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// time to make the result as close as possible to the estimated time cost no matter
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// the server is slow or fast. And also we scale the totalRecharge with global factor
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// so that fast server can serve more requests than estimation and slow server can
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// reduce request pressure.
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//
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// Instead of scaling the cost values, the real value of cost units is changed by
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// applying the factor to the serving times. This is more convenient because the
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// changes in the cost factor can be applied immediately without always notifying
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// the clients about the changed cost tables.
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type costTracker struct {
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db ethdb.Database
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stopCh chan chan struct{}
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inSizeFactor float64
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outSizeFactor float64
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factor float64
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utilTarget float64
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minBufLimit uint64
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gfLock sync.RWMutex
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reqInfoCh chan reqInfo
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totalRechargeCh chan uint64
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stats map[uint64][]uint64 // Used for testing purpose.
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}
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// newCostTracker creates a cost tracker and loads the cost factor statistics from the database.
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// It also returns the minimum capacity that can be assigned to any peer.
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func newCostTracker(db ethdb.Database, config *eth.Config) (*costTracker, uint64) {
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utilTarget := float64(config.LightServ) * flowcontrol.FixedPointMultiplier / 100
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ct := &costTracker{
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db: db,
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stopCh: make(chan chan struct{}),
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reqInfoCh: make(chan reqInfo, 100),
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utilTarget: utilTarget,
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}
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if config.LightBandwidthIn > 0 {
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ct.inSizeFactor = utilTarget / float64(config.LightBandwidthIn)
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}
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if config.LightBandwidthOut > 0 {
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ct.outSizeFactor = utilTarget / float64(config.LightBandwidthOut)
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}
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if makeCostStats {
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ct.stats = make(map[uint64][]uint64)
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for code := range reqAvgTimeCost {
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ct.stats[code] = make([]uint64, 10)
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}
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}
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ct.gfLoop()
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costList := ct.makeCostList(ct.globalFactor() * 1.25)
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for _, c := range costList {
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amount := minBufferReqAmount[c.MsgCode]
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cost := c.BaseCost + amount*c.ReqCost
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if cost > ct.minBufLimit {
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ct.minBufLimit = cost
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}
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}
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ct.minBufLimit *= uint64(minBufferMultiplier)
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return ct, (ct.minBufLimit-1)/bufLimitRatio + 1
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}
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// stop stops the cost tracker and saves the cost factor statistics to the database
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func (ct *costTracker) stop() {
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stopCh := make(chan struct{})
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ct.stopCh <- stopCh
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<-stopCh
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if makeCostStats {
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ct.printStats()
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}
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}
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// makeCostList returns upper cost estimates based on the hardcoded cost estimate
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// tables and the optionally specified incoming/outgoing bandwidth limits
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func (ct *costTracker) makeCostList(globalFactor float64) RequestCostList {
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maxCost := func(avgTimeCost, inSize, outSize uint64) uint64 {
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cost := avgTimeCost * maxCostFactor
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inSizeCost := uint64(float64(inSize) * ct.inSizeFactor * globalFactor)
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if inSizeCost > cost {
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cost = inSizeCost
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}
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outSizeCost := uint64(float64(outSize) * ct.outSizeFactor * globalFactor)
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if outSizeCost > cost {
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cost = outSizeCost
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}
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return cost
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}
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var list RequestCostList
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for code, data := range reqAvgTimeCost {
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baseCost := maxCost(data.baseCost, reqMaxInSize[code].baseCost, reqMaxOutSize[code].baseCost)
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reqCost := maxCost(data.reqCost, reqMaxInSize[code].reqCost, reqMaxOutSize[code].reqCost)
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if ct.minBufLimit != 0 {
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// if minBufLimit is set then always enforce maximum request cost <= minBufLimit
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maxCost := baseCost + reqCost*minBufferReqAmount[code]
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if maxCost > ct.minBufLimit {
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mul := 0.999 * float64(ct.minBufLimit) / float64(maxCost)
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baseCost = uint64(float64(baseCost) * mul)
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reqCost = uint64(float64(reqCost) * mul)
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}
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}
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list = append(list, requestCostListItem{
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MsgCode: code,
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BaseCost: baseCost,
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ReqCost: reqCost,
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})
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}
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return list
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}
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// reqInfo contains the estimated time cost and the actual request serving time
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// which acts as a feed source to update factor maintained by costTracker.
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type reqInfo struct {
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// avgTimeCost is the estimated time cost corresponding to maxCostTable.
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avgTimeCost float64
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// servingTime is the CPU time corresponding to the actual processing of
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// the request.
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servingTime float64
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}
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// gfLoop starts an event loop which updates the global cost factor which is
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// calculated as a weighted average of the average estimate / serving time ratio.
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// The applied weight equals the serving time if gfUsage is over a threshold,
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// zero otherwise. gfUsage is the recent average serving time per time unit in
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// an exponential moving window. This ensures that statistics are collected only
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// under high-load circumstances where the measured serving times are relevant.
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// The total recharge parameter of the flow control system which controls the
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// total allowed serving time per second but nominated in cost units, should
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// also be scaled with the cost factor and is also updated by this loop.
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func (ct *costTracker) gfLoop() {
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var (
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factor, totalRecharge float64
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gfLog, recentTime, recentAvg float64
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lastUpdate, expUpdate = mclock.Now(), mclock.Now()
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)
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// Load historical cost factor statistics from the database.
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data, _ := ct.db.Get([]byte(gfDbKey))
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if len(data) == 8 {
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gfLog = math.Float64frombits(binary.BigEndian.Uint64(data[:]))
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}
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ct.factor = math.Exp(gfLog)
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factor, totalRecharge = ct.factor, ct.utilTarget*ct.factor
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// In order to perform factor data statistics under the high request pressure,
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// we only adjust factor when recent factor usage beyond the threshold.
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threshold := gfUsageThreshold * float64(gfUsageTC) * ct.utilTarget / flowcontrol.FixedPointMultiplier
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go func() {
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saveCostFactor := func() {
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var data [8]byte
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binary.BigEndian.PutUint64(data[:], math.Float64bits(gfLog))
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ct.db.Put([]byte(gfDbKey), data[:])
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log.Debug("global cost factor saved", "value", factor)
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}
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saveTicker := time.NewTicker(time.Minute * 10)
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for {
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select {
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case r := <-ct.reqInfoCh:
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requestServedMeter.Mark(int64(r.servingTime))
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requestEstimatedMeter.Mark(int64(r.avgTimeCost / factor))
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requestServedTimer.Update(time.Duration(r.servingTime))
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relativeCostHistogram.Update(int64(r.avgTimeCost / factor / r.servingTime))
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now := mclock.Now()
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dt := float64(now - expUpdate)
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expUpdate = now
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exp := math.Exp(-dt / float64(gfUsageTC))
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// calculate factor correction until now, based on previous values
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var gfCorr float64
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max := recentTime
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if recentAvg > max {
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max = recentAvg
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}
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// we apply continuous correction when MAX(recentTime, recentAvg) > threshold
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if max > threshold {
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// calculate correction time between last expUpdate and now
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if max*exp >= threshold {
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gfCorr = dt
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} else {
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gfCorr = math.Log(max/threshold) * float64(gfUsageTC)
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}
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// calculate log(factor) correction with the right direction and time constant
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if recentTime > recentAvg {
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// drop factor if actual serving times are larger than average estimates
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gfCorr /= -float64(gfDropTC)
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} else {
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// raise factor if actual serving times are smaller than average estimates
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gfCorr /= float64(gfRaiseTC)
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}
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}
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// update recent cost values with current request
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recentTime = recentTime*exp + r.servingTime
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recentAvg = recentAvg*exp + r.avgTimeCost/factor
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if gfCorr != 0 {
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// Apply the correction to factor
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gfLog += gfCorr
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factor = math.Exp(gfLog)
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// Notify outside modules the new factor and totalRecharge.
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if time.Duration(now-lastUpdate) > time.Second {
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totalRecharge, lastUpdate = ct.utilTarget*factor, now
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ct.gfLock.Lock()
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ct.factor = factor
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ch := ct.totalRechargeCh
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ct.gfLock.Unlock()
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if ch != nil {
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select {
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case ct.totalRechargeCh <- uint64(totalRecharge):
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default:
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}
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}
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log.Debug("global cost factor updated", "factor", factor)
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}
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}
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recentServedGauge.Update(int64(recentTime))
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recentEstimatedGauge.Update(int64(recentAvg))
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totalRechargeGauge.Update(int64(totalRecharge))
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case <-saveTicker.C:
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saveCostFactor()
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case stopCh := <-ct.stopCh:
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saveCostFactor()
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close(stopCh)
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return
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}
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}
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}()
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}
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// globalFactor returns the current value of the global cost factor
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func (ct *costTracker) globalFactor() float64 {
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ct.gfLock.RLock()
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defer ct.gfLock.RUnlock()
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return ct.factor
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}
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// totalRecharge returns the current total recharge parameter which is used by
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// flowcontrol.ClientManager and is scaled by the global cost factor
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func (ct *costTracker) totalRecharge() uint64 {
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ct.gfLock.RLock()
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defer ct.gfLock.RUnlock()
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return uint64(ct.factor * ct.utilTarget)
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}
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// subscribeTotalRecharge returns all future updates to the total recharge value
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// through a channel and also returns the current value
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func (ct *costTracker) subscribeTotalRecharge(ch chan uint64) uint64 {
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ct.gfLock.Lock()
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defer ct.gfLock.Unlock()
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ct.totalRechargeCh = ch
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return uint64(ct.factor * ct.utilTarget)
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}
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// updateStats updates the global cost factor and (if enabled) the real cost vs.
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// average estimate statistics
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func (ct *costTracker) updateStats(code, amount, servingTime, realCost uint64) {
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avg := reqAvgTimeCost[code]
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avgTimeCost := avg.baseCost + amount*avg.reqCost
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select {
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case ct.reqInfoCh <- reqInfo{float64(avgTimeCost), float64(servingTime)}:
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default:
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}
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if makeCostStats {
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realCost <<= 4
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l := 0
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for l < 9 && realCost > avgTimeCost {
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l++
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realCost >>= 1
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}
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atomic.AddUint64(&ct.stats[code][l], 1)
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}
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}
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// realCost calculates the final cost of a request based on actual serving time,
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// incoming and outgoing message size
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//
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// Note: message size is only taken into account if bandwidth limitation is applied
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// and the cost based on either message size is greater than the cost based on
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// serving time. A maximum of the three costs is applied instead of their sum
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// because the three limited resources (serving thread time and i/o bandwidth) can
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// also be maxed out simultaneously.
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func (ct *costTracker) realCost(servingTime uint64, inSize, outSize uint32) uint64 {
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cost := float64(servingTime)
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inSizeCost := float64(inSize) * ct.inSizeFactor
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if inSizeCost > cost {
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cost = inSizeCost
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}
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outSizeCost := float64(outSize) * ct.outSizeFactor
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if outSizeCost > cost {
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cost = outSizeCost
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}
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return uint64(cost * ct.globalFactor())
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}
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// printStats prints the distribution of real request cost relative to the average estimates
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func (ct *costTracker) printStats() {
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if ct.stats == nil {
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return
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}
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for code, arr := range ct.stats {
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log.Info("Request cost statistics", "code", code, "1/16", arr[0], "1/8", arr[1], "1/4", arr[2], "1/2", arr[3], "1", arr[4], "2", arr[5], "4", arr[6], "8", arr[7], "16", arr[8], ">16", arr[9])
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}
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}
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type (
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// requestCostTable assigns a cost estimate function to each request type
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// which is a linear function of the requested amount
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// (cost = baseCost + reqCost * amount)
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requestCostTable map[uint64]*requestCosts
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requestCosts struct {
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baseCost, reqCost uint64
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}
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// RequestCostList is a list representation of request costs which is used for
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// database storage and communication through the network
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RequestCostList []requestCostListItem
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requestCostListItem struct {
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MsgCode, BaseCost, ReqCost uint64
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}
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)
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// getMaxCost calculates the estimated cost for a given request type and amount
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func (table requestCostTable) getMaxCost(code, amount uint64) uint64 {
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costs := table[code]
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return costs.baseCost + amount*costs.reqCost
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}
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// decode converts a cost list to a cost table
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func (list RequestCostList) decode(protocolLength uint64) requestCostTable {
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table := make(requestCostTable)
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for _, e := range list {
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if e.MsgCode < protocolLength {
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table[e.MsgCode] = &requestCosts{
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baseCost: e.BaseCost,
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reqCost: e.ReqCost,
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}
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}
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}
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return table
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}
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// testCostList returns a dummy request cost list used by tests
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func testCostList(testCost uint64) RequestCostList {
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cl := make(RequestCostList, len(reqAvgTimeCost))
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var max uint64
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for code := range reqAvgTimeCost {
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if code > max {
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max = code
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}
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}
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i := 0
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for code := uint64(0); code <= max; code++ {
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if _, ok := reqAvgTimeCost[code]; ok {
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cl[i].MsgCode = code
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cl[i].BaseCost = testCost
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cl[i].ReqCost = 0
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i++
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}
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}
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return cl
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}
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