// Copyright 2023 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package blobpool import ( "math" "math/bits" "github.com/holiman/uint256" ) // log1_125 is used in the eviction priority calculation. var log1_125 = math.Log(1.125) // evictionPriority calculates the eviction priority based on the algorithm // described in the BlobPool docs for both fee components. // // This method takes about 8ns on a very recent laptop CPU, recalculating about // 125 million transaction priority values per second. func evictionPriority(basefeeJumps float64, txBasefeeJumps, blobfeeJumps, txBlobfeeJumps float64) int { var ( basefeePriority = evictionPriority1D(basefeeJumps, txBasefeeJumps) blobfeePriority = evictionPriority1D(blobfeeJumps, txBlobfeeJumps) ) if basefeePriority < blobfeePriority { return basefeePriority } return blobfeePriority } // evictionPriority1D calculates the eviction priority based on the algorithm // described in the BlobPool docs for a single fee component. func evictionPriority1D(basefeeJumps float64, txfeeJumps float64) int { jumps := txfeeJumps - basefeeJumps if int(jumps) == 0 { return 0 // can't log2 0 } if jumps < 0 { return -intLog2(uint(-math.Floor(jumps))) } return intLog2(uint(math.Ceil(jumps))) } // dynamicFeeJumps calculates the log1.125(fee), namely the number of fee jumps // needed to reach the requested one. We only use it when calculating the jumps // between 2 fees, so it doesn't matter from what exact number it returns. // It returns the result from (0, 1, 1.125). // // This method is very expensive, taking about 75ns on a very recent laptop CPU, // but the result does not change with the lifetime of a transaction, so it can // be cached. func dynamicFeeJumps(fee *uint256.Int) float64 { if fee.IsZero() { return 0 // can't log2 zero, should never happen outside tests, but don't choke } return math.Log(fee.Float64()) / log1_125 } // intLog2 is a helper to calculate the integral part of a log2 of an unsigned // integer. It is a very specific calculation that's not particularly useful in // general, but it's what we need here (it's fast). func intLog2(n uint) int { switch { case n == 0: panic("log2(0) is undefined") case n < 2048: return bits.UintSize - bits.LeadingZeros(n) - 1 default: // The input is log1.125(uint256) = log2(uint256) / log2(1.125). At the // most extreme, log2(uint256) will be a bit below 257, and the constant // log2(1.125) ~= 0.17. The larges input thus is ~257 / ~0.17 ~= ~1511. panic("dynamic fee jump diffs cannot reach this") } }