Official Go implementation of the Ethereum protocol
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go-ethereum/swarm/storage/mru/lookup/lookup.go

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// Copyright 2018 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 lookup defines resource lookup algorithms and provides tools to place updates
so they can be found
*/
package lookup
const maxuint64 = ^uint64(0)
// LowestLevel establishes the frequency resolution of the lookup algorithm as a power of 2.
const LowestLevel uint8 = 0 // default is 0 (1 second)
// HighestLevel sets the lowest frequency the algorithm will operate at, as a power of 2.
// 25 -> 2^25 equals to roughly one year.
const HighestLevel = 25 // default is 25 (~1 year)
// DefaultLevel sets what level will be chosen to search when there is no hint
const DefaultLevel = HighestLevel
//Algorithm is the function signature of a lookup algorithm
type Algorithm func(now uint64, hint Epoch, read ReadFunc) (value interface{}, err error)
// Lookup finds the update with the highest timestamp that is smaller or equal than 'now'
// It takes a hint which should be the epoch where the last known update was
// If you don't know in what epoch the last update happened, simply submit lookup.NoClue
// read() will be called on each lookup attempt
// Returns an error only if read() returns an error
// Returns nil if an update was not found
var Lookup Algorithm = FluzCapacitorAlgorithm
// ReadFunc is a handler called by Lookup each time it attempts to find a value
// It should return <nil> if a value is not found
// It should return <nil> if a value is found, but its timestamp is higher than "now"
// It should only return an error in case the handler wants to stop the
// lookup process entirely.
type ReadFunc func(epoch Epoch, now uint64) (interface{}, error)
// NoClue is a hint that can be provided when the Lookup caller does not have
// a clue about where the last update may be
var NoClue = Epoch{}
// getBaseTime returns the epoch base time of the given
// time and level
func getBaseTime(t uint64, level uint8) uint64 {
return t & (maxuint64 << level)
}
// Hint creates a hint based only on the last known update time
func Hint(last uint64) Epoch {
return Epoch{
Time: last,
Level: DefaultLevel,
}
}
// GetNextLevel returns the frequency level a next update should be placed at, provided where
// the last update was and what time it is now.
// This is the first nonzero bit of the XOR of 'last' and 'now', counting from the highest significant bit
// but limited to not return a level that is smaller than the last-1
func GetNextLevel(last Epoch, now uint64) uint8 {
// First XOR the last epoch base time with the current clock.
// This will set all the common most significant bits to zero.
mix := (last.Base() ^ now)
// Then, make sure we stop the below loop before one level below the current, by setting
// that level's bit to 1.
// If the next level is lower than the current one, it must be exactly level-1 and not lower.
mix |= (1 << (last.Level - 1))
// if the last update was more than 2^highestLevel seconds ago, choose the highest level
if mix > (maxuint64 >> (64 - HighestLevel - 1)) {
return HighestLevel
}
// set up a mask to scan for nonzero bits, starting at the highest level
mask := uint64(1 << (HighestLevel))
for i := uint8(HighestLevel); i > LowestLevel; i-- {
if mix&mask != 0 { // if we find a nonzero bit, this is the level the next update should be at.
return i
}
mask = mask >> 1 // move our bit one position to the right
}
return 0
}
// GetNextEpoch returns the epoch where the next update should be located
// according to where the previous update was
// and what time it is now.
func GetNextEpoch(last Epoch, now uint64) Epoch {
if last == NoClue {
return GetFirstEpoch(now)
}
level := GetNextLevel(last, now)
return Epoch{
Level: level,
Time: now,
}
}
// GetFirstEpoch returns the epoch where the first update should be located
// based on what time it is now.
func GetFirstEpoch(now uint64) Epoch {
return Epoch{Level: HighestLevel, Time: now}
}
var worstHint = Epoch{Time: 0, Level: 63}
// FluzCapacitorAlgorithm works by narrowing the epoch search area if an update is found
// going back and forth in time
// First, it will attempt to find an update where it should be now if the hint was
// really the last update. If that lookup fails, then the last update must be either the hint itself
// or the epochs right below. If however, that lookup succeeds, then the update must be
// that one or within the epochs right below.
// see the guide for a more graphical representation
func FluzCapacitorAlgorithm(now uint64, hint Epoch, read ReadFunc) (value interface{}, err error) {
var lastFound interface{}
var epoch Epoch
if hint == NoClue {
hint = worstHint
}
t := now
for {
epoch = GetNextEpoch(hint, t)
value, err = read(epoch, now)
if err != nil {
return nil, err
}
if value != nil {
lastFound = value
if epoch.Level == LowestLevel || epoch.Equals(hint) {
return value, nil
}
hint = epoch
continue
}
if epoch.Base() == hint.Base() {
if lastFound != nil {
return lastFound, nil
}
// we have reached the hint itself
if hint == worstHint {
return nil, nil
}
// check it out
value, err = read(hint, now)
if err != nil {
return nil, err
}
if value != nil {
return value, nil
}
// bad hint.
epoch = hint
hint = worstHint
}
base := epoch.Base()
if base == 0 {
return nil, nil
}
t = base - 1
}
}