consensus/ethash: use atomic type (#27068)
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b1972627d9
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3768b00747
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@ -163,7 +163,7 @@ func generateCache(dest []uint32, epoch uint64, seed []byte) {
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rows := int(size) / hashBytes
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// Start a monitoring goroutine to report progress on low end devices
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var progress uint32
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var progress atomic.Uint32
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done := make(chan struct{})
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defer close(done)
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@ -174,7 +174,7 @@ func generateCache(dest []uint32, epoch uint64, seed []byte) {
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case <-done:
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return
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case <-time.After(3 * time.Second):
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logger.Info("Generating ethash verification cache", "percentage", atomic.LoadUint32(&progress)*100/uint32(rows)/(cacheRounds+1), "elapsed", common.PrettyDuration(time.Since(start)))
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logger.Info("Generating ethash verification cache", "percentage", progress.Load()*100/uint32(rows)/(cacheRounds+1), "elapsed", common.PrettyDuration(time.Since(start)))
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}
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}
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}()
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@ -185,7 +185,7 @@ func generateCache(dest []uint32, epoch uint64, seed []byte) {
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keccak512(cache, seed)
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for offset := uint64(hashBytes); offset < size; offset += hashBytes {
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keccak512(cache[offset:], cache[offset-hashBytes:offset])
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atomic.AddUint32(&progress, 1)
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progress.Add(1)
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}
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// Use a low-round version of randmemohash
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temp := make([]byte, hashBytes)
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@ -200,7 +200,7 @@ func generateCache(dest []uint32, epoch uint64, seed []byte) {
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bitutil.XORBytes(temp, cache[srcOff:srcOff+hashBytes], cache[xorOff:xorOff+hashBytes])
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keccak512(cache[dstOff:], temp)
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atomic.AddUint32(&progress, 1)
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progress.Add(1)
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}
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}
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// Swap the byte order on big endian systems and return
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@ -299,7 +299,7 @@ func generateDataset(dest []uint32, epoch uint64, cache []uint32) {
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var pend sync.WaitGroup
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pend.Add(threads)
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var progress uint64
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var progress atomic.Uint64
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for i := 0; i < threads; i++ {
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go func(id int) {
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defer pend.Done()
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@ -323,7 +323,7 @@ func generateDataset(dest []uint32, epoch uint64, cache []uint32) {
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}
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copy(dataset[index*hashBytes:], item)
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if status := atomic.AddUint64(&progress, 1); status%percent == 0 {
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if status := progress.Add(1); status%percent == 0 {
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logger.Info("Generating DAG in progress", "percentage", (status*100)/(size/hashBytes), "elapsed", common.PrettyDuration(time.Since(start)))
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}
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}
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@ -308,12 +308,12 @@ func (c *cache) finalizer() {
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// dataset wraps an ethash dataset with some metadata to allow easier concurrent use.
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type dataset struct {
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epoch uint64 // Epoch for which this cache is relevant
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dump *os.File // File descriptor of the memory mapped cache
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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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epoch uint64 // Epoch for which this cache is relevant
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dump *os.File // File descriptor of the memory mapped cache
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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 atomic.Bool // 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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@ -326,7 +326,7 @@ func newDataset(epoch uint64) *dataset {
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func (d *dataset) generate(dir string, limit int, lock bool, 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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defer d.done.Store(true)
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csize := cacheSize(d.epoch*epochLength + 1)
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dsize := datasetSize(d.epoch*epochLength + 1)
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@ -390,7 +390,7 @@ func (d *dataset) generate(dir string, limit int, lock bool, test bool) {
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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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return d.done.Load()
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}
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// finalizer closes any file handlers and memory maps open.
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