lbcd/claimtrie/node/manager.go

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package node
import (
"fmt"
"sort"
"github.com/pkg/errors"
"github.com/lbryio/lbcd/chaincfg/chainhash"
"github.com/lbryio/lbcd/claimtrie/change"
"github.com/lbryio/lbcd/claimtrie/param"
)
type Manager interface {
AppendChange(chg change.Change)
IncrementHeightTo(height int32, temporary bool) ([][]byte, error)
DecrementHeightTo(affectedNames [][]byte, height int32) ([][]byte, error)
Height() int32
Close() error
NodeAt(height int32, name []byte) (*Node, error)
IterateNames(predicate func(name []byte) bool)
Hash(name []byte) (*chainhash.Hash, int32)
Flush() error
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ClearCache()
}
type BaseManager struct {
repo Repo
height int32
changes []change.Change
tempChanges map[string][]change.Change
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cache *Cache
}
func NewBaseManager(repo Repo) (*BaseManager, error) {
nm := &BaseManager{
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repo: repo,
cache: NewCache(10000), // TODO: how many should we cache?
}
return nm, nil
}
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func (nm *BaseManager) ClearCache() {
nm.cache.clear()
}
func (nm *BaseManager) NodeAt(height int32, name []byte) (*Node, error) {
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n, changes, oldHeight := nm.cache.fetch(name, height)
if n == nil {
changes, err := nm.repo.LoadChanges(name)
if err != nil {
return nil, errors.Wrap(err, "in load changes")
}
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if nm.tempChanges != nil { // making an assumption that we only ever have tempChanges for a single block
changes = append(changes, nm.tempChanges[string(name)]...)
}
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n, err = nm.newNodeFromChanges(changes, height)
if err != nil {
return nil, errors.Wrap(err, "in new node")
}
// TODO: how can we tell what needs to be cached?
if nm.tempChanges == nil && height == nm.height && n != nil && (len(changes) > 4 || len(name) < 12) {
nm.cache.insert(name, n, height)
}
} else {
if nm.tempChanges != nil { // making an assumption that we only ever have tempChanges for a single block
changes = append(changes, nm.tempChanges[string(name)]...)
n = n.Clone()
} else if height != nm.height {
n = n.Clone()
}
updated, err := nm.updateFromChanges(n, changes, height)
if err != nil {
return nil, errors.Wrap(err, "in update from changes")
}
if !updated {
n.AdjustTo(oldHeight, height, name)
}
if nm.tempChanges == nil && height == nm.height {
nm.cache.insert(name, n, height)
}
}
return n, nil
}
// Node returns a node at the current height.
// The returned node may have pending changes.
func (nm *BaseManager) node(name []byte) (*Node, error) {
return nm.NodeAt(nm.height, name)
}
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func (nm *BaseManager) updateFromChanges(n *Node, changes []change.Change, height int32) (bool, error) {
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count := len(changes)
if count == 0 {
return false, nil
}
previous := changes[0].Height
for i, chg := range changes {
if chg.Height < previous {
panic("expected the changes to be in order by height")
}
if chg.Height > height {
count = i
break
}
if previous < chg.Height {
n.AdjustTo(previous, chg.Height-1, chg.Name) // update bids and activation
previous = chg.Height
}
delay := nm.getDelayForName(n, chg)
err := n.ApplyChange(chg, delay)
if err != nil {
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return false, errors.Wrap(err, "in apply change")
}
}
if count <= 0 {
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// we applied no changes, which means we shouldn't exist if we had all the changes
// or might mean nothing significant if we are applying a partial changeset
return false, nil
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}
lastChange := changes[count-1]
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n.AdjustTo(lastChange.Height, height, lastChange.Name)
return true, nil
}
// newNodeFromChanges returns a new Node constructed from the changes.
// The changes must preserve their order received.
func (nm *BaseManager) newNodeFromChanges(changes []change.Change, height int32) (*Node, error) {
if len(changes) == 0 {
return nil, nil
}
n := New()
updated, err := nm.updateFromChanges(n, changes, height)
if err != nil {
return nil, errors.Wrap(err, "in update from changes")
}
if updated {
return n, nil
}
return nil, nil
}
func (nm *BaseManager) AppendChange(chg change.Change) {
nm.changes = append(nm.changes, chg)
// worth putting in this kind of thing pre-emptively?
// log.Debugf("CHG: %d, %s, %v, %s, %d", chg.Height, chg.Name, chg.Type, chg.ClaimID, chg.Amount)
}
func collectChildNames(changes []change.Change) {
// we need to determine which children (names that start with the same name) go with which change
// if we have the names in order then we can avoid iterating through all names in the change list
// and we can possibly reuse the previous list.
// what would happen in the old code:
// spending a claim (which happens before every update) could remove a node from the cached trie
// in which case we would fall back on the data from the previous block (where it obviously wasn't spent).
// It would only delete the node if it had no children, but have even some rare situations
// Where all of the children happen to be deleted first. That's what we must detect here.
// Algorithm:
// For each non-spend change
// Loop through all the spends before you and add them to your child list if they are your child
type pair struct {
name string
order int
}
spends := make([]pair, 0, len(changes))
for i := range changes {
t := changes[i].Type
if t != change.SpendClaim {
continue
}
spends = append(spends, pair{string(changes[i].Name), i})
}
sort.Slice(spends, func(i, j int) bool {
return spends[i].name < spends[j].name
})
for i := range changes {
t := changes[i].Type
if t == change.SpendClaim || t == change.SpendSupport {
continue
}
a := string(changes[i].Name)
sc := map[string]bool{}
idx := sort.Search(len(spends), func(k int) bool {
return spends[k].name > a
})
for idx < len(spends) {
b := spends[idx].name
if len(b) <= len(a) || a != b[:len(a)] {
break // since they're ordered alphabetically, we should be able to break out once we're past matches
}
if spends[idx].order < i {
sc[b] = true
}
idx++
}
changes[i].SpentChildren = sc
}
}
// to understand the above function, it may be helpful to refer to the slower implementation:
//func collectChildNamesSlow(changes []change.Change) {
// for i := range changes {
// t := changes[i].Type
// if t == change.SpendClaim || t == change.SpendSupport {
// continue
// }
// a := changes[i].Name
// sc := map[string]bool{}
// for j := 0; j < i; j++ {
// t = changes[j].Type
// if t != change.SpendClaim {
// continue
// }
// b := changes[j].Name
// if len(b) >= len(a) && bytes.Equal(a, b[:len(a)]) {
// sc[string(b)] = true
// }
// }
// changes[i].SpentChildren = sc
// }
//}
func (nm *BaseManager) IncrementHeightTo(height int32, temporary bool) ([][]byte, error) {
if height <= nm.height {
panic("invalid height")
}
if height >= param.ActiveParams.MaxRemovalWorkaroundHeight {
// not technically needed until block 884430, but to be true to the arbitrary rollback length...
collectChildNames(nm.changes)
}
if temporary {
if nm.tempChanges != nil {
return nil, errors.Errorf("expected nil temporary changes")
}
nm.tempChanges = map[string][]change.Change{}
}
names := make([][]byte, 0, len(nm.changes))
for i := range nm.changes {
names = append(names, nm.changes[i].Name)
if temporary {
name := string(nm.changes[i].Name)
nm.tempChanges[name] = append(nm.tempChanges[name], nm.changes[i])
}
}
if !temporary {
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nm.cache.addChanges(nm.changes, height)
if err := nm.repo.AppendChanges(nm.changes); err != nil { // destroys names
return nil, errors.Wrap(err, "in append changes")
}
}
// Truncate the buffer size to zero.
if len(nm.changes) > 1000 { // TODO: determine a good number here
nm.changes = nil // release the RAM
} else {
nm.changes = nm.changes[:0]
}
nm.height = height
return names, nil
}
func (nm *BaseManager) DecrementHeightTo(affectedNames [][]byte, height int32) ([][]byte, error) {
if height >= nm.height {
return affectedNames, errors.Errorf("invalid height of %d for %d", height, nm.height)
}
if nm.tempChanges != nil {
if height != nm.height-1 {
return affectedNames, errors.Errorf("invalid temporary rollback at %d to %d", height, nm.height)
}
for key := range nm.tempChanges {
affectedNames = append(affectedNames, []byte(key))
}
nm.tempChanges = nil
} else {
for _, name := range affectedNames {
if err := nm.repo.DropChanges(name, height); err != nil {
return affectedNames, errors.Wrap(err, "in drop changes")
}
}
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nm.cache.drop(affectedNames)
}
nm.height = height
return affectedNames, nil
}
func (nm *BaseManager) getDelayForName(n *Node, chg change.Change) int32 {
// Note: we don't consider the active status of BestClaim here on purpose.
// That's because we deactivate and reactivate as part of claim updates.
// However, the final status will be accounted for when we compute the takeover heights;
// claims may get activated early at that point.
hasBest := n.BestClaim != nil
if hasBest && n.BestClaim.ClaimID == chg.ClaimID {
return 0
}
if chg.ActiveHeight >= chg.Height { // ActiveHeight is usually unset (aka, zero)
return chg.ActiveHeight - chg.Height
}
if !hasBest {
return 0
}
delay := calculateDelay(chg.Height, n.TakenOverAt)
if delay > 0 && nm.aWorkaroundIsNeeded(n, chg) {
if chg.Height >= nm.height {
LogOnce(fmt.Sprintf("Delay workaround applies to %s at %d, ClaimID: %s",
chg.Name, chg.Height, chg.ClaimID))
}
return 0
}
return delay
}
func hasZeroActiveClaims(n *Node) bool {
// this isn't quite the same as having an active best (since that is only updated after all changes are processed)
for _, c := range n.Claims {
if c.Status == Activated {
return false
}
}
return true
}
// aWorkaroundIsNeeded handles bugs that existed in previous versions
func (nm *BaseManager) aWorkaroundIsNeeded(n *Node, chg change.Change) bool {
if chg.Type == change.SpendClaim || chg.Type == change.SpendSupport {
return false
}
if chg.Height >= param.ActiveParams.MaxRemovalWorkaroundHeight {
// TODO: hard fork this out; it's a bug from previous versions:
// old 17.3 C++ code we're trying to mimic (where empty means no active claims):
// auto it = nodesToAddOrUpdate.find(name); // nodesToAddOrUpdate is the working changes, base is previous block
// auto answer = (it || (it = base->find(name))) && !it->empty() ? nNextHeight - it->nHeightOfLastTakeover : 0;
return hasZeroActiveClaims(n) && nm.hasChildren(chg.Name, chg.Height, chg.SpentChildren, 2)
} else if len(n.Claims) > 0 {
// NOTE: old code had a bug in it where nodes with no claims but with children would get left in the cache after removal.
// This would cause the getNumBlocksOfContinuousOwnership to return zero (causing incorrect takeover height calc).
w, ok := param.DelayWorkarounds[string(chg.Name)]
if ok {
for _, h := range w {
if chg.Height == h {
return true
}
}
}
}
return false
}
func calculateDelay(curr, tookOver int32) int32 {
delay := (curr - tookOver) / param.ActiveParams.ActiveDelayFactor
if delay > param.ActiveParams.MaxActiveDelay {
return param.ActiveParams.MaxActiveDelay
}
return delay
}
func (nm *BaseManager) Height() int32 {
return nm.height
}
func (nm *BaseManager) Close() error {
return errors.WithStack(nm.repo.Close())
}
func (nm *BaseManager) hasChildren(name []byte, height int32, spentChildren map[string]bool, required int) bool {
c := map[byte]bool{}
if spentChildren == nil {
spentChildren = map[string]bool{}
}
err := nm.repo.IterateChildren(name, func(changes []change.Change) bool {
// if the key is unseen, generate a node for it to height
// if that node is active then increase the count
if len(changes) == 0 {
return true
}
if c[changes[0].Name[len(name)]] { // assuming all names here are longer than starter name
return true // we already checked a similar name
}
if spentChildren[string(changes[0].Name)] {
return true // children that are spent in the same block cannot count as active children
}
n, _ := nm.newNodeFromChanges(changes, height)
if n != nil && n.HasActiveBestClaim() {
c[changes[0].Name[len(name)]] = true
if len(c) >= required {
return false
}
}
return true
})
return err == nil && len(c) >= required
}
func (nm *BaseManager) IterateNames(predicate func(name []byte) bool) {
nm.repo.IterateAll(predicate)
}
func (nm *BaseManager) Hash(name []byte) (*chainhash.Hash, int32) {
n, err := nm.node(name)
if err != nil || n == nil {
return nil, 0
}
if len(n.Claims) > 0 {
if n.BestClaim != nil && n.BestClaim.Status == Activated {
h := calculateNodeHash(n.BestClaim.OutPoint, n.TakenOverAt)
return h, n.NextUpdate()
}
}
return nil, n.NextUpdate()
}
func (nm *BaseManager) Flush() error {
return nm.repo.Flush()
}