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2773bdef89ab460aea4353d4d98833a4eeaa4918
prysm/beacon-chain/db/filesystem/data_column_cache.go
Manu NALEPA 2773bdef89 Remove NUMBER_OF_COLUMNS and MAX_CELLS_IN_EXTENDED_MATRIX configuration. (#16073) 
**What type of PR is this?**
Other

**What does this PR do? Why is it needed?**
This pull request removes `NUMBER_OF_COLUMNS` and
`MAX_CELLS_IN_EXTENDED_MATRIX` configuration.

**Other notes for review**
Please read commit by commit, with commit messages.

**Acknowledgements**
- [x] I have read
[CONTRIBUTING.md](https://github.com/prysmaticlabs/prysm/blob/develop/CONTRIBUTING.md).
- [x] I have included a uniquely named [changelog fragment
file](https://github.com/prysmaticlabs/prysm/blob/develop/CONTRIBUTING.md#maintaining-changelogmd).
- [x] I have added a description to this PR with sufficient context for
reviewers to understand this PR.
2025-11-29 09:30:54 +00:00

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package filesystem
import (
"sync"
fieldparams "github.com/OffchainLabs/prysm/v7/config/fieldparams"
"github.com/OffchainLabs/prysm/v7/config/params"
"github.com/OffchainLabs/prysm/v7/consensus-types/primitives"
"github.com/pkg/errors"
)
var errDataColumnIndexOutOfBounds = errors.New("data column index too high")
// DataColumnStorageSummary represents cached information about the DataColumnSidecars on disk for each root the cache knows about.
type DataColumnStorageSummary struct {
epoch primitives.Epoch
mask [fieldparams.NumberOfColumns]bool
}
// NewDataColumnStorageSummary creates a new DataColumnStorageSummary for a given epoch and mask.
func NewDataColumnStorageSummary(epoch primitives.Epoch, mask [fieldparams.NumberOfColumns]bool) DataColumnStorageSummary {
return DataColumnStorageSummary{
epoch: epoch,
mask: mask,
}
}
// HasIndex returns true if the DataColumnSidecar at the given index is available in the filesystem.
func (s DataColumnStorageSummary) HasIndex(index uint64) bool {
if index >= uint64(fieldparams.NumberOfColumns) {
return false
}
return s.mask[index]
}
// HasAtLeastOneIndex returns true if at least one of the DataColumnSidecars at the given indices is available in the filesystem.
func (s DataColumnStorageSummary) HasAtLeastOneIndex(indices []uint64) bool {
size := uint64(len(s.mask))
for _, index := range indices {
if index < size && s.mask[index] {
return true
}
}
return false
}
// Count returns the number of available data columns.
func (s DataColumnStorageSummary) Count() uint64 {
count := uint64(0)
for _, available := range s.mask {
if available {
count++
}
}
return count
}
// AllAvailable returns true if we have all data columns for corresponding indices.
func (s DataColumnStorageSummary) AllAvailable(indices map[uint64]bool) bool {
if len(indices) > len(s.mask) {
return false
}
for index := range indices {
if !s.mask[index] {
return false
}
}
return true
}
// Stored returns a map of all stored data columns.
func (s DataColumnStorageSummary) Stored() map[uint64]bool {
stored := make(map[uint64]bool, fieldparams.NumberOfColumns)
for index, exists := range s.mask {
if exists {
stored[uint64(index)] = true
}
}
return stored
}
type dataColumnStorageSummaryCache struct {
mu sync.RWMutex
dataColumnCount float64
lowestCachedEpoch primitives.Epoch
highestCachedEpoch primitives.Epoch
cache map[[fieldparams.RootLength]byte]DataColumnStorageSummary
}
func newDataColumnStorageSummaryCache() *dataColumnStorageSummaryCache {
return &dataColumnStorageSummaryCache{
cache: make(map[[fieldparams.RootLength]byte]DataColumnStorageSummary),
lowestCachedEpoch: params.BeaconConfig().FarFutureEpoch,
}
}
// Summary returns the DataColumnStorageSummary for `root`.
// The DataColumnStorageSummary can be used to check for the presence of DataColumnSidecars based on Index.
func (sc *dataColumnStorageSummaryCache) Summary(root [fieldparams.RootLength]byte) DataColumnStorageSummary {
sc.mu.RLock()
defer sc.mu.RUnlock()
return sc.cache[root]
}
func (sc *dataColumnStorageSummaryCache) HighestEpoch() primitives.Epoch {
sc.mu.RLock()
defer sc.mu.RUnlock()
return sc.highestCachedEpoch
}
// set updates the cache.
func (sc *dataColumnStorageSummaryCache) set(dataColumnsIdent DataColumnsIdent) error {
sc.mu.Lock()
defer sc.mu.Unlock()
summary := sc.cache[dataColumnsIdent.Root]
summary.epoch = dataColumnsIdent.Epoch
count := uint64(0)
for _, index := range dataColumnsIdent.Indices {
if index >= fieldparams.NumberOfColumns {
return errDataColumnIndexOutOfBounds
}
if summary.mask[index] {
continue
}
count++
summary.mask[index] = true
sc.lowestCachedEpoch = min(sc.lowestCachedEpoch, dataColumnsIdent.Epoch)
sc.highestCachedEpoch = max(sc.highestCachedEpoch, dataColumnsIdent.Epoch)
}
sc.cache[dataColumnsIdent.Root] = summary
countFloat := float64(count)
sc.dataColumnCount += countFloat
dataColumnDiskCount.Set(sc.dataColumnCount)
dataColumnWrittenCounter.Add(countFloat)
return nil
}
// get returns the DataColumnStorageSummary for the given block root.
// If the root is not in the cache, the second return value will be false.
func (sc *dataColumnStorageSummaryCache) get(blockRoot [fieldparams.RootLength]byte) (DataColumnStorageSummary, bool) {
sc.mu.RLock()
defer sc.mu.RUnlock()
v, ok := sc.cache[blockRoot]
return v, ok
}
// evict removes the DataColumnStorageSummary for the given block root from the cache.
func (s *dataColumnStorageSummaryCache) evict(blockRoot [fieldparams.RootLength]byte) int {
deleted := 0
s.mu.Lock()
defer s.mu.Unlock()
summary, ok := s.cache[blockRoot]
if !ok {
return 0
}
for i := range summary.mask {
if summary.mask[i] {
deleted += 1
}
}
delete(s.cache, blockRoot)
if deleted > 0 {
s.dataColumnCount -= float64(deleted)
dataColumnDiskCount.Set(s.dataColumnCount)
}
// The lowest and highest cached epoch may no longer be valid here,
// but is not worth the effort to recalculate.
return deleted
}
// pruneUpTo removes all entries from the cache up to the given target epoch included.
func (sc *dataColumnStorageSummaryCache) pruneUpTo(targetEpoch primitives.Epoch) uint64 {
sc.mu.Lock()
defer sc.mu.Unlock()
prunedCount := uint64(0)
newLowestCachedEpoch := params.BeaconConfig().FarFutureEpoch
newHighestCachedEpoch := primitives.Epoch(0)
for blockRoot, summary := range sc.cache {
epoch := summary.epoch
if epoch > targetEpoch {
newLowestCachedEpoch = min(newLowestCachedEpoch, epoch)
newHighestCachedEpoch = max(newHighestCachedEpoch, epoch)
}
if epoch <= targetEpoch {
for i := range summary.mask {
if summary.mask[i] {
prunedCount += 1
}
}
delete(sc.cache, blockRoot)
}
}
if prunedCount > 0 {
sc.lowestCachedEpoch = newLowestCachedEpoch
sc.highestCachedEpoch = newHighestCachedEpoch
sc.dataColumnCount -= float64(prunedCount)
dataColumnDiskCount.Set(sc.dataColumnCount)
}
return prunedCount
}
// clear removes all entries from the cache.
func (sc *dataColumnStorageSummaryCache) clear() uint64 {
return sc.pruneUpTo(params.BeaconConfig().FarFutureEpoch)
}
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