commit
e456451a89
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@ -1,7 +1,6 @@
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{
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"ImportPath": "github.com/ethereum/go-ethereum",
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"GoVersion": "go1.5.2",
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"GodepVersion": "v60",
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"Packages": [
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"./..."
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],
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@ -21,8 +20,8 @@
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},
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{
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"ImportPath": "github.com/ethereum/ethash",
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"Comment": "v23.1-242-gbc9ba4d",
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"Rev": "bc9ba4d6a83a0fe308fefd8c6001b8ed1607137f"
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"Comment": "v23.1-245-g25b32de",
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"Rev": "25b32de0c0271065c28c3719c2bfe86959d72f0c"
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},
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{
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"ImportPath": "github.com/fatih/color",
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@ -105,6 +105,15 @@ func freeCache(cache *cache) {
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cache.ptr = nil
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}
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func (cache *cache) compute(dagSize uint64, hash common.Hash, nonce uint64) (ok bool, mixDigest, result common.Hash) {
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ret := C.ethash_light_compute_internal(cache.ptr, C.uint64_t(dagSize), hashToH256(hash), C.uint64_t(nonce))
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// Make sure cache is live until after the C call.
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// This is important because a GC might happen and execute
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// the finalizer before the call completes.
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_ = cache
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return bool(ret.success), h256ToHash(ret.mix_hash), h256ToHash(ret.result)
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}
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// Light implements the Verify half of the proof of work. It uses a few small
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// in-memory caches to verify the nonces found by Full.
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type Light struct {
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@ -140,29 +149,23 @@ func (l *Light) Verify(block pow.Block) bool {
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cache := l.getCache(blockNum)
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dagSize := C.ethash_get_datasize(C.uint64_t(blockNum))
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if l.test {
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dagSize = dagSizeForTesting
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}
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// Recompute the hash using the cache.
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hash := hashToH256(block.HashNoNonce())
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ret := C.ethash_light_compute_internal(cache.ptr, dagSize, hash, C.uint64_t(block.Nonce()))
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if !ret.success {
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ok, mixDigest, result := cache.compute(uint64(dagSize), block.HashNoNonce(), block.Nonce())
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if !ok {
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return false
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}
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// avoid mixdigest malleability as it's not included in a block's "hashNononce"
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if block.MixDigest() != h256ToHash(ret.mix_hash) {
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if block.MixDigest() != mixDigest {
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return false
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}
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// Make sure cache is live until after the C call.
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// This is important because a GC might happen and execute
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// the finalizer before the call completes.
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_ = cache
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// The actual check.
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target := new(big.Int).Div(maxUint256, difficulty)
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return h256ToHash(ret.result).Big().Cmp(target) <= 0
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return result.Big().Cmp(target) <= 0
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}
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func h256ToHash(in C.ethash_h256_t) common.Hash {
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@ -138,7 +138,7 @@ func PrintDevices() {
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platforms, err := cl.GetPlatforms()
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if err != nil {
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fmt.Println("Plaform error (check your OpenCL installation): %v", err)
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fmt.Println("Plaform error (check your OpenCL installation):", err)
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return
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}
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@ -267,13 +267,13 @@ func initCLDevice(deviceId int, device *cl.Device, c *OpenCLMiner) error {
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context, err := cl.CreateContext([]*cl.Device{device})
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if err != nil {
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return fmt.Errorf("failed creating context:", err)
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return fmt.Errorf("failed creating context: %v", err)
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}
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// TODO: test running with CL_QUEUE_PROFILING_ENABLE for profiling?
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queue, err := context.CreateCommandQueue(device, 0)
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if err != nil {
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return fmt.Errorf("command queue err:", err)
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return fmt.Errorf("command queue err: %v", err)
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}
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// See [4] section 3.2 and [3] "clBuildProgram".
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@ -287,7 +287,7 @@ func initCLDevice(deviceId int, device *cl.Device, c *OpenCLMiner) error {
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program, err := context.CreateProgramWithSource([]string{kernelCode})
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if err != nil {
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return fmt.Errorf("program err:", err)
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return fmt.Errorf("program err: %v", err)
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}
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/* if using AMD OpenCL impl, you can set this to debug on x86 CPU device.
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@ -303,7 +303,7 @@ func initCLDevice(deviceId int, device *cl.Device, c *OpenCLMiner) error {
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buildOpts := ""
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err = program.BuildProgram([]*cl.Device{device}, buildOpts)
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if err != nil {
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return fmt.Errorf("program build err:", err)
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return fmt.Errorf("program build err: %v", err)
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}
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var searchKernelName, hashKernelName string
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@ -313,7 +313,7 @@ func initCLDevice(deviceId int, device *cl.Device, c *OpenCLMiner) error {
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searchKernel, err := program.CreateKernel(searchKernelName)
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hashKernel, err := program.CreateKernel(hashKernelName)
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if err != nil {
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return fmt.Errorf("kernel err:", err)
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return fmt.Errorf("kernel err: %v", err)
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}
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// TODO: when this DAG size appears, patch the Go bindings
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@ -328,28 +328,28 @@ func initCLDevice(deviceId int, device *cl.Device, c *OpenCLMiner) error {
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dagBuf := *(new(*cl.MemObject))
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dagBuf, err = context.CreateEmptyBuffer(cl.MemReadOnly, int(c.dagSize))
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if err != nil {
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return fmt.Errorf("allocating dag buf failed: ", err)
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return fmt.Errorf("allocating dag buf failed: %v", err)
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}
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// write DAG to device mem
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dagPtr := unsafe.Pointer(c.ethash.Full.current.ptr.data)
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_, err = queue.EnqueueWriteBuffer(dagBuf, true, 0, int(c.dagSize), dagPtr, nil)
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if err != nil {
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return fmt.Errorf("writing to dag buf failed: ", err)
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return fmt.Errorf("writing to dag buf failed: %v", err)
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}
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searchBuffers := make([]*cl.MemObject, searchBufSize)
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for i := 0; i < searchBufSize; i++ {
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searchBuff, err := context.CreateEmptyBuffer(cl.MemWriteOnly, (1+maxSearchResults)*SIZEOF_UINT32)
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if err != nil {
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return fmt.Errorf("search buffer err:", err)
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return fmt.Errorf("search buffer err: %v", err)
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}
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searchBuffers[i] = searchBuff
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}
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headerBuf, err := context.CreateEmptyBuffer(cl.MemReadOnly, 32)
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if err != nil {
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return fmt.Errorf("header buffer err:", err)
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return fmt.Errorf("header buffer err: %v", err)
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}
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// Unique, random nonces are crucial for mining efficieny.
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@ -556,13 +556,13 @@ func (c *OpenCLMiner) Search(block pow.Block, stop <-chan struct{}, index int) (
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upperNonce := uint64(binary.LittleEndian.Uint32(results[lo:hi]))
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checkNonce = p.startNonce + upperNonce
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if checkNonce != 0 {
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cn := C.uint64_t(checkNonce)
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ds := C.uint64_t(c.dagSize)
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// We verify that the nonce is indeed a solution by
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// executing the Ethash verification function (on the CPU).
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ret := C.ethash_light_compute_internal(c.ethash.Light.current.ptr, ds, hashToH256(headerHash), cn)
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cache := c.ethash.Light.getCache(block.NumberU64())
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ok, mixDigest, result := cache.compute(c.dagSize, headerHash, checkNonce)
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// TODO: return result first
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if ret.success && h256ToHash(ret.result).Big().Cmp(target256) <= 0 {
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if ok && result.Big().Cmp(target256) <= 0 {
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_, err = d.queue.EnqueueUnmapMemObject(d.searchBuffers[p.bufIndex], cres, nil)
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if err != nil {
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fmt.Println("Error in Search clEnqueueUnmapMemObject: ", err)
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@ -573,9 +573,8 @@ func (c *OpenCLMiner) Search(block pow.Block, stop <-chan struct{}, index int) (
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fmt.Println("Error in Search WaitForEvents: ", err)
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}
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}
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return checkNonce, C.GoBytes(unsafe.Pointer(&ret.mix_hash), C.int(32))
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return checkNonce, mixDigest.Bytes()
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}
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_, err := d.queue.EnqueueWriteBuffer(d.searchBuffers[p.bufIndex], false, 0, 4, unsafe.Pointer(&zero), nil)
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if err != nil {
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fmt.Println("Error in Search cl: EnqueueWriteBuffer", err)
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|
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@ -3,7 +3,7 @@ package xhandler
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import (
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"net/http"
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"github.com/ethereum/go-ethereum/Godeps/_workspace/src/golang.org/x/net/context"
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"golang.org/x/net/context"
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)
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// Chain is an helper to chain middleware handlers together for an easier
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|
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|
@ -4,7 +4,7 @@ import (
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"net/http"
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"time"
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"github.com/ethereum/go-ethereum/Godeps/_workspace/src/golang.org/x/net/context"
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"golang.org/x/net/context"
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)
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// CloseHandler returns a Handler cancelling the context when the client
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|
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|
@ -14,7 +14,7 @@ package xhandler
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import (
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"net/http"
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"github.com/ethereum/go-ethereum/Godeps/_workspace/src/golang.org/x/net/context"
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"golang.org/x/net/context"
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)
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// HandlerC is a net/context aware http.Handler
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|
|
|
@ -56,8 +56,7 @@ func (s *Ethereum) StartMining(threads int, gpus string) error {
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}
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||||
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// TODO: re-creating miner is a bit ugly
|
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cl := ethash.NewCL(ids)
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s.miner = miner.New(s, s.EventMux(), cl)
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s.miner = miner.New(s, s.chainConfig, s.EventMux(), ethash.NewCL(ids))
|
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go s.miner.Start(eb, len(ids))
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return nil
|
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}
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||||
|
|
Loading…
Reference in New Issue