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// 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 <http://www.gnu.org/licenses/>.
package blobpool
import (
"container/heap"
"math"
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"slices"
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"github.com/ethereum/go-ethereum/common"
"github.com/holiman/uint256"
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"golang.org/x/exp/maps"
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)
// evictHeap is a helper data structure to keep track of the cheapest bottleneck
// transaction from each account to determine which account to evict from.
//
// The heap internally tracks a slice of cheapest transactions from each account
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// and a mapping from addresses to indices for direct removals/updates.
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//
// The goal of the heap is to decide which account has the worst bottleneck to
// evict transactions from.
type evictHeap struct {
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metas map [ common . Address ] [ ] * blobTxMeta // Pointer to the blob pool's index for price retrievals
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basefeeJumps float64 // Pre-calculated absolute dynamic fee jumps for the base fee
blobfeeJumps float64 // Pre-calculated absolute dynamic fee jumps for the blob fee
addrs [ ] common . Address // Heap of addresses to retrieve the cheapest out of
index map [ common . Address ] int // Indices into the heap for replacements
}
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// newPriceHeap creates a new heap of cheapest accounts in the blob pool to evict
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// from in case of over saturation.
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func newPriceHeap ( basefee * uint256 . Int , blobfee * uint256 . Int , index map [ common . Address ] [ ] * blobTxMeta ) * evictHeap {
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heap := & evictHeap {
metas : index ,
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index : make ( map [ common . Address ] int , len ( index ) ) ,
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}
// Populate the heap in account sort order. Not really needed in practice,
// but it makes the heap initialization deterministic and less annoying to
// test in unit tests.
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heap . addrs = maps . Keys ( index )
slices . SortFunc ( heap . addrs , common . Address . Cmp )
for i , addr := range heap . addrs {
heap . index [ addr ] = i
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}
heap . reinit ( basefee , blobfee , true )
return heap
}
// reinit updates the pre-calculated dynamic fee jumps in the price heap and runs
// the sorting algorithm from scratch on the entire heap.
func ( h * evictHeap ) reinit ( basefee * uint256 . Int , blobfee * uint256 . Int , force bool ) {
// If the update is mostly the same as the old, don't sort pointlessly
basefeeJumps := dynamicFeeJumps ( basefee )
blobfeeJumps := dynamicFeeJumps ( blobfee )
if ! force && math . Abs ( h . basefeeJumps - basefeeJumps ) < 0.01 && math . Abs ( h . blobfeeJumps - blobfeeJumps ) < 0.01 { // TODO(karalabe): 0.01 enough, maybe should be smaller? Maybe this optimization is moot?
return
}
// One or both of the dynamic fees jumped, resort the pool
h . basefeeJumps = basefeeJumps
h . blobfeeJumps = blobfeeJumps
heap . Init ( h )
}
// Len implements sort.Interface as part of heap.Interface, returning the number
// of accounts in the pool which can be considered for eviction.
func ( h * evictHeap ) Len ( ) int {
return len ( h . addrs )
}
// Less implements sort.Interface as part of heap.Interface, returning which of
// the two requested accounts has a cheaper bottleneck.
func ( h * evictHeap ) Less ( i , j int ) bool {
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txsI := h . metas [ h . addrs [ i ] ]
txsJ := h . metas [ h . addrs [ j ] ]
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lastI := txsI [ len ( txsI ) - 1 ]
lastJ := txsJ [ len ( txsJ ) - 1 ]
prioI := evictionPriority ( h . basefeeJumps , lastI . evictionExecFeeJumps , h . blobfeeJumps , lastI . evictionBlobFeeJumps )
if prioI > 0 {
prioI = 0
}
prioJ := evictionPriority ( h . basefeeJumps , lastJ . evictionExecFeeJumps , h . blobfeeJumps , lastJ . evictionBlobFeeJumps )
if prioJ > 0 {
prioJ = 0
}
if prioI == prioJ {
return lastI . evictionExecTip . Lt ( lastJ . evictionExecTip )
}
return prioI < prioJ
}
// Swap implements sort.Interface as part of heap.Interface, maintaining both the
// order of the accounts according to the heap, and the account->item slot mapping
// for replacements.
func ( h * evictHeap ) Swap ( i , j int ) {
h . index [ h . addrs [ i ] ] , h . index [ h . addrs [ j ] ] = h . index [ h . addrs [ j ] ] , h . index [ h . addrs [ i ] ]
h . addrs [ i ] , h . addrs [ j ] = h . addrs [ j ] , h . addrs [ i ]
}
// Push implements heap.Interface, appending an item to the end of the account
// ordering as well as the address to item slot mapping.
func ( h * evictHeap ) Push ( x any ) {
h . index [ x . ( common . Address ) ] = len ( h . addrs )
h . addrs = append ( h . addrs , x . ( common . Address ) )
}
// Pop implements heap.Interface, removing and returning the last element of the
// heap.
//
// Note, use `heap.Pop`, not `evictHeap.Pop`. This method is used by Go's heap,
// to provide the functionality, it does not embed it.
func ( h * evictHeap ) Pop ( ) any {
// Remove the last element from the heap
size := len ( h . addrs )
addr := h . addrs [ size - 1 ]
h . addrs = h . addrs [ : size - 1 ]
// Unindex the removed element and return
delete ( h . index , addr )
return addr
}