mirror of
https://gitlab.com/pulsechaincom/prysm-pulse.git
synced 2024-12-22 11:32:09 +00:00
235 lines
7.4 KiB
Go
235 lines
7.4 KiB
Go
package sync
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import (
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"context"
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"fmt"
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"sort"
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"time"
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libp2pcore "github.com/libp2p/go-libp2p/core"
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"github.com/pkg/errors"
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"github.com/prysmaticlabs/prysm/v5/beacon-chain/db"
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"github.com/prysmaticlabs/prysm/v5/beacon-chain/db/filters"
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"github.com/prysmaticlabs/prysm/v5/consensus-types/blocks"
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"github.com/prysmaticlabs/prysm/v5/consensus-types/primitives"
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)
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// blockRangeBatcher encapsulates the logic for splitting up a block range request into fixed-size batches of
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// blocks that are retrieved from the database, ensured to be canonical, sequential and unique.
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// If a non-nil value for ticker is set, it will be used to pause between batches lookups, as a rate-limiter.
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type blockRangeBatcher struct {
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start primitives.Slot
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end primitives.Slot
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size uint64
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db db.NoHeadAccessDatabase
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limiter *limiter
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ticker *time.Ticker
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cf *canonicalFilter
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current *blockBatch
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}
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func newBlockRangeBatcher(rp rangeParams, bdb db.NoHeadAccessDatabase, limiter *limiter, canonical canonicalChecker, ticker *time.Ticker) (*blockRangeBatcher, error) {
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if bdb == nil {
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return nil, errors.New("nil db param, unable to initialize blockRangeBatcher")
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}
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if limiter == nil {
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return nil, errors.New("nil limiter param, unable to initialize blockRangeBatcher")
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}
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if canonical == nil {
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return nil, errors.New("nil canonicalChecker param, unable to initialize blockRangeBatcher")
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}
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if ticker == nil {
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return nil, errors.New("nil ticker param, unable to initialize blockRangeBatcher")
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}
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if rp.size == 0 {
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return nil, fmt.Errorf("invalid batch size of %d", rp.size)
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}
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if rp.end < rp.start {
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return nil, fmt.Errorf("batch end slot %d is lower than batch start %d", rp.end, rp.start)
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}
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cf := &canonicalFilter{canonical: canonical}
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return &blockRangeBatcher{
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start: rp.start,
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end: rp.end,
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size: rp.size,
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db: bdb,
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limiter: limiter,
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ticker: ticker,
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cf: cf,
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}, nil
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}
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func (bb *blockRangeBatcher) next(ctx context.Context, stream libp2pcore.Stream) (blockBatch, bool) {
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var nb blockBatch
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var more bool
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// The result of each call to next() is saved in the `current` field.
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// If current is not nil, current.next figures out the next batch based on the previous one.
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// If current is nil, newBlockBatch is used to generate the first batch.
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if bb.current != nil {
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current := *bb.current
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nb, more = current.next(bb.end, bb.size)
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} else {
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nb, more = newBlockBatch(bb.start, bb.end, bb.size)
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}
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// newBlockBatch and next() both return a boolean to indicate whether calling .next() will yield another batch
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// (based on the whether we've gotten to the end slot yet). blockRangeBatcher.next does the same,
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// and returns (zero value, false), to signal the end of the iteration.
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if !more {
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return blockBatch{}, false
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}
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if err := bb.limiter.validateRequest(stream, bb.size); err != nil {
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return blockBatch{err: errors.Wrap(err, "throttled by rate limiter")}, false
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}
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// Wait for the ticker before doing anything expensive, unless this is the first batch.
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if bb.ticker != nil && bb.current != nil {
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<-bb.ticker.C
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}
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filter := filters.NewFilter().SetStartSlot(nb.start).SetEndSlot(nb.end)
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blks, roots, err := bb.db.Blocks(ctx, filter)
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if err != nil {
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return blockBatch{err: errors.Wrap(err, "Could not retrieve blocks")}, false
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}
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rob := make([]blocks.ROBlock, 0)
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if nb.start == 0 {
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gb, err := bb.genesisBlock(ctx)
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if err != nil {
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return blockBatch{err: errors.Wrap(err, "could not retrieve genesis block")}, false
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}
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rob = append(rob, gb)
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}
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for i := 0; i < len(blks); i++ {
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rb, err := blocks.NewROBlockWithRoot(blks[i], roots[i])
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if err != nil {
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return blockBatch{err: errors.Wrap(err, "Could not initialize ROBlock")}, false
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}
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rob = append(rob, rb)
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}
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// Filter and sort our retrieved blocks, so that we only return valid sets of blocks.
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nb.lin, nb.nonlin, nb.err = bb.cf.filter(ctx, rob)
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// Decrease allowed blocks capacity by the number of streamed blocks.
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bb.limiter.add(stream, int64(1+nb.end.SubSlot(nb.start)))
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bb.current = &nb
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return *bb.current, true
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}
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func (bb *blockRangeBatcher) genesisBlock(ctx context.Context) (blocks.ROBlock, error) {
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b, err := bb.db.GenesisBlock(ctx)
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if err != nil {
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return blocks.ROBlock{}, err
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}
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htr, err := b.Block().HashTreeRoot()
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if err != nil {
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return blocks.ROBlock{}, err
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}
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return blocks.NewROBlockWithRoot(b, htr)
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}
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type blockBatch struct {
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start primitives.Slot
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end primitives.Slot
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lin []blocks.ROBlock // lin is a linear chain of blocks connected through parent_root. broken tails go in nonlin.
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nonlin []blocks.ROBlock // if there is a break in the chain of parent->child relationships, the tail is stored here.
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err error
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}
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func newBlockBatch(start, reqEnd primitives.Slot, size uint64) (blockBatch, bool) {
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if start > reqEnd {
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return blockBatch{}, false
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}
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if size == 0 {
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return blockBatch{}, false
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}
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nb := blockBatch{start: start, end: start.Add(size - 1)}
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if nb.end > reqEnd {
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nb.end = reqEnd
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}
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return nb, true
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}
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func (bb blockBatch) next(reqEnd primitives.Slot, size uint64) (blockBatch, bool) {
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if bb.error() != nil {
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return bb, false
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}
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if bb.nonLinear() {
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return blockBatch{}, false
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}
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return newBlockBatch(bb.end.Add(1), reqEnd, size)
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}
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// blocks returns the list of linear, canonical blocks read from the db.
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func (bb blockBatch) canonical() []blocks.ROBlock {
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return bb.lin
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}
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// nonLinear is used to determine if there was a break in the chain of canonical blocks as read from the db.
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// If true, code using the blockBatch should stop serving additional batches of blocks.
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func (bb blockBatch) nonLinear() bool {
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return len(bb.nonlin) > 0
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}
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func (bb blockBatch) error() error {
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return bb.err
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}
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type canonicalChecker func(context.Context, [32]byte) (bool, error)
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type canonicalFilter struct {
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prevRoot [32]byte
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canonical canonicalChecker
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}
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// filters all the provided blocks to ensure they are canonical and strictly linear.
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func (cf *canonicalFilter) filter(ctx context.Context, blks []blocks.ROBlock) ([]blocks.ROBlock, []blocks.ROBlock, error) {
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blks = sortedUniqueBlocks(blks)
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seq := make([]blocks.ROBlock, 0, len(blks))
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nseq := make([]blocks.ROBlock, 0)
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for i, b := range blks {
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cb, err := cf.canonical(ctx, b.Root())
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if err != nil {
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return nil, nil, err
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}
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if !cb {
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continue
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}
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// prevRoot will be the zero value until we find the first canonical block in the stream seen by an instance
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// of canonicalFilter. filter is called in batches; prevRoot can be the last root from the previous batch.
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first := cf.prevRoot == [32]byte{}
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// We assume blocks are processed in order, so the previous canonical root should be the parent of the next.
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if !first && cf.prevRoot != b.Block().ParentRoot() {
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// If the current block isn't descended from the last, something is wrong. Append everything remaining
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// to the list of non-linear blocks, and stop building the canonical list.
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nseq = append(nseq, blks[i:]...)
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break
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}
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seq = append(seq, blks[i])
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// Set the previous root as the
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// newly added block's root
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cf.prevRoot = b.Root()
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}
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return seq, nseq, nil
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}
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// returns a copy of the []ROBlock list in sorted order with duplicates removed
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func sortedUniqueBlocks(blks []blocks.ROBlock) []blocks.ROBlock {
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// Remove duplicate blocks received
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sort.Sort(blocks.ROBlockSlice(blks))
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if len(blks) < 2 {
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return blks
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}
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u := 0
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for i := 1; i < len(blks); i++ {
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if blks[i].Root() != blks[u].Root() {
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u += 1
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if u != i {
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blks[u] = blks[i]
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}
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}
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}
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return blks[:u+1]
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}
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