forked from cerc-io/plugeth
consensus/ethash: use DAGs for remote mining, generate async
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e598ae5c01
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d8541a9f99
@ -461,6 +461,13 @@ func calcDifficultyFrontier(time uint64, parent *types.Header) *big.Int {
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// VerifySeal implements consensus.Engine, checking whether the given block satisfies
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// the PoW difficulty requirements.
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func (ethash *Ethash) VerifySeal(chain consensus.ChainReader, header *types.Header) error {
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return ethash.verifySeal(chain, header, false)
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}
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// verifySeal checks whether a block satisfies the PoW difficulty requirements,
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// either using the usual ethash cache for it, or alternatively using a full DAG
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// to make remote mining fast.
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func (ethash *Ethash) verifySeal(chain consensus.ChainReader, header *types.Header, fulldag bool) error {
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// If we're running a fake PoW, accept any seal as valid
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if ethash.config.PowMode == ModeFake || ethash.config.PowMode == ModeFullFake {
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time.Sleep(ethash.fakeDelay)
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@ -471,25 +478,48 @@ func (ethash *Ethash) VerifySeal(chain consensus.ChainReader, header *types.Head
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}
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// If we're running a shared PoW, delegate verification to it
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if ethash.shared != nil {
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return ethash.shared.VerifySeal(chain, header)
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return ethash.shared.verifySeal(chain, header, fulldag)
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}
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// Ensure that we have a valid difficulty for the block
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if header.Difficulty.Sign() <= 0 {
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return errInvalidDifficulty
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}
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// Recompute the digest and PoW value and verify against the header
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// Recompute the digest and PoW values
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number := header.Number.Uint64()
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cache := ethash.cache(number)
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size := datasetSize(number)
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if ethash.config.PowMode == ModeTest {
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size = 32 * 1024
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}
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digest, result := hashimotoLight(size, cache.cache, header.HashNoNonce().Bytes(), header.Nonce.Uint64())
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// Caches are unmapped in a finalizer. Ensure that the cache stays live
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// until after the call to hashimotoLight so it's not unmapped while being used.
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runtime.KeepAlive(cache)
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var (
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digest []byte
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result []byte
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)
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// If fast-but-heavy PoW verification was requested, use an ethash dataset
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if fulldag {
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dataset := ethash.dataset(number, true)
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if dataset.generated() {
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digest, result = hashimotoFull(dataset.dataset, header.HashNoNonce().Bytes(), header.Nonce.Uint64())
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// Datasets are unmapped in a finalizer. Ensure that the dataset stays alive
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// until after the call to hashimotoFull so it's not unmapped while being used.
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runtime.KeepAlive(dataset)
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} else {
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// Dataset not yet generated, don't hang, use a cache instead
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fulldag = false
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}
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}
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// If slow-but-light PoW verification was requested (or DAG not yet ready), use an ethash cache
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if !fulldag {
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cache := ethash.cache(number)
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size := datasetSize(number)
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if ethash.config.PowMode == ModeTest {
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size = 32 * 1024
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}
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digest, result = hashimotoLight(size, cache.cache, header.HashNoNonce().Bytes(), header.Nonce.Uint64())
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// Caches are unmapped in a finalizer. Ensure that the cache stays alive
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// until after the call to hashimotoLight so it's not unmapped while being used.
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runtime.KeepAlive(cache)
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}
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// Verify the calculated values against the ones provided in the header
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if !bytes.Equal(header.MixDigest[:], digest) {
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return errInvalidMixDigest
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}
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@ -29,6 +29,7 @@ import (
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"runtime"
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"strconv"
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"sync"
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"sync/atomic"
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"time"
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"unsafe"
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@ -281,6 +282,7 @@ type dataset struct {
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mmap mmap.MMap // Memory map itself to unmap before releasing
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dataset []uint32 // The actual cache data content
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once sync.Once // Ensures the cache is generated only once
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done uint32 // Atomic flag to determine generation status
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}
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// newDataset creates a new ethash mining dataset and returns it as a plain Go
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@ -292,6 +294,9 @@ func newDataset(epoch uint64) interface{} {
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// generate ensures that the dataset content is generated before use.
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func (d *dataset) generate(dir string, limit int, test bool) {
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d.once.Do(func() {
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// Mark the dataset generated after we're done. This is needed for remote
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defer atomic.StoreUint32(&d.done, 1)
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csize := cacheSize(d.epoch*epochLength + 1)
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dsize := datasetSize(d.epoch*epochLength + 1)
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seed := seedHash(d.epoch*epochLength + 1)
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@ -306,6 +311,8 @@ func (d *dataset) generate(dir string, limit int, test bool) {
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d.dataset = make([]uint32, dsize/4)
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generateDataset(d.dataset, d.epoch, cache)
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return
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}
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// Disk storage is needed, this will get fancy
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var endian string
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@ -348,6 +355,13 @@ func (d *dataset) generate(dir string, limit int, test bool) {
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})
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}
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// generated returns whether this particular dataset finished generating already
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// or not (it may not have been started at all). This is useful for remote miners
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// to default to verification caches instead of blocking on DAG generations.
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func (d *dataset) generated() bool {
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return atomic.LoadUint32(&d.done) == 1
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}
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// finalizer closes any file handlers and memory maps open.
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func (d *dataset) finalizer() {
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if d.mmap != nil {
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@ -589,20 +603,34 @@ func (ethash *Ethash) cache(block uint64) *cache {
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// dataset tries to retrieve a mining dataset for the specified block number
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// by first checking against a list of in-memory datasets, then against DAGs
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// stored on disk, and finally generating one if none can be found.
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func (ethash *Ethash) dataset(block uint64) *dataset {
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//
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// If async is specified, not only the future but the current DAG is also
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// generates on a background thread.
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func (ethash *Ethash) dataset(block uint64, async bool) *dataset {
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// Retrieve the requested ethash dataset
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epoch := block / epochLength
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currentI, futureI := ethash.datasets.get(epoch)
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current := currentI.(*dataset)
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// Wait for generation finish.
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current.generate(ethash.config.DatasetDir, ethash.config.DatasetsOnDisk, ethash.config.PowMode == ModeTest)
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// If async is specified, generate everything in a background thread
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if async && !current.generated() {
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go func() {
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current.generate(ethash.config.DatasetDir, ethash.config.DatasetsOnDisk, ethash.config.PowMode == ModeTest)
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// If we need a new future dataset, now's a good time to regenerate it.
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if futureI != nil {
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future := futureI.(*dataset)
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go future.generate(ethash.config.DatasetDir, ethash.config.DatasetsOnDisk, ethash.config.PowMode == ModeTest)
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if futureI != nil {
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future := futureI.(*dataset)
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future.generate(ethash.config.DatasetDir, ethash.config.DatasetsOnDisk, ethash.config.PowMode == ModeTest)
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}
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}()
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} else {
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// Either blocking generation was requested, or already done
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current.generate(ethash.config.DatasetDir, ethash.config.DatasetsOnDisk, ethash.config.PowMode == ModeTest)
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if futureI != nil {
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future := futureI.(*dataset)
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go future.generate(ethash.config.DatasetDir, ethash.config.DatasetsOnDisk, ethash.config.PowMode == ModeTest)
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}
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}
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return current
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}
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@ -114,7 +114,7 @@ func (ethash *Ethash) mine(block *types.Block, id int, seed uint64, abort chan s
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hash = header.HashNoNonce().Bytes()
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target = new(big.Int).Div(two256, header.Difficulty)
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number = header.Number.Uint64()
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dataset = ethash.dataset(number)
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dataset = ethash.dataset(number, false)
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)
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// Start generating random nonces until we abort or find a good one
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var (
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@ -233,21 +233,22 @@ func (ethash *Ethash) remote(notify []string) {
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log.Info("Work submitted but none pending", "hash", hash)
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return false
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}
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// Verify the correctness of submitted result.
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header := block.Header()
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header.Nonce = nonce
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header.MixDigest = mixDigest
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if err := ethash.VerifySeal(nil, header); err != nil {
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log.Warn("Invalid proof-of-work submitted", "hash", hash, "err", err)
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start := time.Now()
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if err := ethash.verifySeal(nil, header, true); err != nil {
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log.Warn("Invalid proof-of-work submitted", "hash", hash, "elapsed", time.Since(start), "err", err)
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return false
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}
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// Make sure the result channel is created.
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if ethash.resultCh == nil {
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log.Warn("Ethash result channel is empty, submitted mining result is rejected")
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return false
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}
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log.Trace("Verified correct proof-of-work", "hash", hash, "elapsed", time.Since(start))
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// Solutions seems to be valid, return to the miner and notify acceptance.
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select {
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