github.com/hxx258456/ccgo@v0.0.5-0.20230213014102-48b35f46f66f/grpc/internal/transport/bdp_estimator.go (about) 1 /* 2 * 3 * Copyright 2017 gRPC authors. 4 * 5 * Licensed under the Apache License, Version 2.0 (the "License"); 6 * you may not use this file except in compliance with the License. 7 * You may obtain a copy of the License at 8 * 9 * http://www.apache.org/licenses/LICENSE-2.0 10 * 11 * Unless required by applicable law or agreed to in writing, software 12 * distributed under the License is distributed on an "AS IS" BASIS, 13 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14 * See the License for the specific language governing permissions and 15 * limitations under the License. 16 * 17 */ 18 19 package transport 20 21 import ( 22 "sync" 23 "time" 24 ) 25 26 const ( 27 // bdpLimit is the maximum value the flow control windows will be increased 28 // to. TCP typically limits this to 4MB, but some systems go up to 16MB. 29 // Since this is only a limit, it is safe to make it optimistic. 30 bdpLimit = (1 << 20) * 16 31 // alpha is a constant factor used to keep a moving average 32 // of RTTs. 33 alpha = 0.9 34 // If the current bdp sample is greater than or equal to 35 // our beta * our estimated bdp and the current bandwidth 36 // sample is the maximum bandwidth observed so far, we 37 // increase our bbp estimate by a factor of gamma. 38 beta = 0.66 39 // To put our bdp to be smaller than or equal to twice the real BDP, 40 // we should multiply our current sample with 4/3, however to round things out 41 // we use 2 as the multiplication factor. 42 gamma = 2 43 ) 44 45 // Adding arbitrary data to ping so that its ack can be identified. 46 // Easter-egg: what does the ping message say? 47 var bdpPing = &ping{data: [8]byte{2, 4, 16, 16, 9, 14, 7, 7}} 48 49 type bdpEstimator struct { 50 // sentAt is the time when the ping was sent. 51 sentAt time.Time 52 53 mu sync.Mutex 54 // bdp is the current bdp estimate. 55 bdp uint32 56 // sample is the number of bytes received in one measurement cycle. 57 sample uint32 58 // bwMax is the maximum bandwidth noted so far (bytes/sec). 59 bwMax float64 60 // bool to keep track of the beginning of a new measurement cycle. 61 isSent bool 62 // Callback to update the window sizes. 63 updateFlowControl func(n uint32) 64 // sampleCount is the number of samples taken so far. 65 sampleCount uint64 66 // round trip time (seconds) 67 rtt float64 68 } 69 70 // timesnap registers the time bdp ping was sent out so that 71 // network rtt can be calculated when its ack is received. 72 // It is called (by controller) when the bdpPing is 73 // being written on the wire. 74 func (b *bdpEstimator) timesnap(d [8]byte) { 75 if bdpPing.data != d { 76 return 77 } 78 b.sentAt = time.Now() 79 } 80 81 // add adds bytes to the current sample for calculating bdp. 82 // It returns true only if a ping must be sent. This can be used 83 // by the caller (handleData) to make decision about batching 84 // a window update with it. 85 func (b *bdpEstimator) add(n uint32) bool { 86 b.mu.Lock() 87 defer b.mu.Unlock() 88 if b.bdp == bdpLimit { 89 return false 90 } 91 if !b.isSent { 92 b.isSent = true 93 b.sample = n 94 b.sentAt = time.Time{} 95 b.sampleCount++ 96 return true 97 } 98 b.sample += n 99 return false 100 } 101 102 // calculate is called when an ack for a bdp ping is received. 103 // Here we calculate the current bdp and bandwidth sample and 104 // decide if the flow control windows should go up. 105 func (b *bdpEstimator) calculate(d [8]byte) { 106 // Check if the ping acked for was the bdp ping. 107 if bdpPing.data != d { 108 return 109 } 110 b.mu.Lock() 111 rttSample := time.Since(b.sentAt).Seconds() 112 if b.sampleCount < 10 { 113 // Bootstrap rtt with an average of first 10 rtt samples. 114 b.rtt += (rttSample - b.rtt) / float64(b.sampleCount) 115 } else { 116 // Heed to the recent past more. 117 b.rtt += (rttSample - b.rtt) * float64(alpha) 118 } 119 b.isSent = false 120 // The number of bytes accumulated so far in the sample is smaller 121 // than or equal to 1.5 times the real BDP on a saturated connection. 122 bwCurrent := float64(b.sample) / (b.rtt * float64(1.5)) 123 if bwCurrent > b.bwMax { 124 b.bwMax = bwCurrent 125 } 126 // If the current sample (which is smaller than or equal to the 1.5 times the real BDP) is 127 // greater than or equal to 2/3rd our perceived bdp AND this is the maximum bandwidth seen so far, we 128 // should update our perception of the network BDP. 129 if float64(b.sample) >= beta*float64(b.bdp) && bwCurrent == b.bwMax && b.bdp != bdpLimit { 130 sampleFloat := float64(b.sample) 131 b.bdp = uint32(gamma * sampleFloat) 132 if b.bdp > bdpLimit { 133 b.bdp = bdpLimit 134 } 135 bdp := b.bdp 136 b.mu.Unlock() 137 b.updateFlowControl(bdp) 138 return 139 } 140 b.mu.Unlock() 141 }