636 lines
19 KiB
Go
636 lines
19 KiB
Go
package miner
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import (
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"bytes"
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"context"
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"crypto/rand"
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"encoding/binary"
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"fmt"
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"os"
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"sync"
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"time"
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"github.com/hashicorp/golang-lru/arc/v2"
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logging "github.com/ipfs/go-log/v2"
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"go.opencensus.io/trace"
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"golang.org/x/xerrors"
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"github.com/filecoin-project/go-address"
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"github.com/filecoin-project/go-state-types/abi"
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"github.com/filecoin-project/go-state-types/big"
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"github.com/filecoin-project/go-state-types/crypto"
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"github.com/filecoin-project/go-state-types/proof"
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"github.com/filecoin-project/lotus/api"
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"github.com/filecoin-project/lotus/api/v1api"
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"github.com/filecoin-project/lotus/build"
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"github.com/filecoin-project/lotus/chain/actors/builtin"
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"github.com/filecoin-project/lotus/chain/actors/policy"
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"github.com/filecoin-project/lotus/chain/gen"
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"github.com/filecoin-project/lotus/chain/gen/slashfilter"
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lrand "github.com/filecoin-project/lotus/chain/rand"
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"github.com/filecoin-project/lotus/chain/types"
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cliutil "github.com/filecoin-project/lotus/cli/util"
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"github.com/filecoin-project/lotus/journal"
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)
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var log = logging.Logger("miner")
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// Journal event types.
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const (
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evtTypeBlockMined = iota
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)
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// waitFunc is expected to pace block mining at the configured network rate.
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//
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// baseTime is the timestamp of the mining base, i.e. the timestamp
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// of the tipset we're planning to construct upon.
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//
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// Upon each mining loop iteration, the returned callback is called reporting
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// whether we mined a block in this round or not.
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type waitFunc func(ctx context.Context, baseTime uint64) (func(bool, abi.ChainEpoch, error), abi.ChainEpoch, error)
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func randTimeOffset(width time.Duration) time.Duration {
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buf := make([]byte, 8)
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rand.Reader.Read(buf) //nolint:errcheck
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val := time.Duration(binary.BigEndian.Uint64(buf) % uint64(width))
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return val - (width / 2)
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}
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// NewMiner instantiates a miner with a concrete WinningPoStProver and a miner
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// address (which can be different from the worker's address).
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func NewMiner(api v1api.FullNode, epp gen.WinningPoStProver, addr address.Address, sf *slashfilter.SlashFilter, j journal.Journal) *Miner {
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arc, err := arc.NewARC[abi.ChainEpoch, bool](10000)
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if err != nil {
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panic(err)
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}
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return &Miner{
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api: api,
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epp: epp,
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address: addr,
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waitFunc: func(ctx context.Context, baseTime uint64) (func(bool, abi.ChainEpoch, error), abi.ChainEpoch, error) {
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// wait around for half the block time in case other parents come in
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//
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// if we're mining a block in the past via catch-up/rush mining,
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// such as when recovering from a network halt, this sleep will be
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// for a negative duration, and therefore **will return
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// immediately**.
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//
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// the result is that we WILL NOT wait, therefore fast-forwarding
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// and thus healing the chain by backfilling it with null rounds
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// rapidly.
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deadline := baseTime + build.PropagationDelaySecs
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baseT := time.Unix(int64(deadline), 0)
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baseT = baseT.Add(randTimeOffset(time.Second))
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build.Clock.Sleep(build.Clock.Until(baseT))
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return func(bool, abi.ChainEpoch, error) {}, 0, nil
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},
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sf: sf,
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minedBlockHeights: arc,
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evtTypes: [...]journal.EventType{
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evtTypeBlockMined: j.RegisterEventType("miner", "block_mined"),
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},
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journal: j,
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}
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}
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// Miner encapsulates the mining processes of the system.
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//
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// Refer to the godocs on mineOne and mine methods for more detail.
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type Miner struct {
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api v1api.FullNode
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epp gen.WinningPoStProver
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lk sync.Mutex
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address address.Address
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stop chan struct{}
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stopping chan struct{}
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waitFunc waitFunc
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// lastWork holds the last MiningBase we built upon.
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lastWork *MiningBase
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sf *slashfilter.SlashFilter
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// minedBlockHeights is a safeguard that caches the last heights we mined.
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// It is consulted before publishing a newly mined block, for a sanity check
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// intended to avoid slashings in case of a bug.
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minedBlockHeights *arc.ARCCache[abi.ChainEpoch, bool]
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evtTypes [1]journal.EventType
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journal journal.Journal
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}
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// Address returns the address of the miner.
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func (m *Miner) Address() address.Address {
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m.lk.Lock()
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defer m.lk.Unlock()
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return m.address
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}
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// Start starts the mining operation. It spawns a goroutine and returns
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// immediately. Start is not idempotent.
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func (m *Miner) Start(_ context.Context) error {
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m.lk.Lock()
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defer m.lk.Unlock()
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if m.stop != nil {
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return fmt.Errorf("miner already started")
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}
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m.stop = make(chan struct{})
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go m.mine(context.TODO())
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return nil
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}
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// Stop stops the mining operation. It is not idempotent, and multiple adjacent
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// calls to Stop will fail.
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func (m *Miner) Stop(ctx context.Context) error {
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m.lk.Lock()
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m.stopping = make(chan struct{})
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stopping := m.stopping
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close(m.stop)
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m.lk.Unlock()
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select {
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case <-stopping:
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return nil
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case <-ctx.Done():
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return ctx.Err()
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}
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}
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func (m *Miner) niceSleep(d time.Duration) bool {
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select {
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case <-build.Clock.After(d):
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return true
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case <-m.stop:
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log.Infow("received interrupt while trying to sleep in mining cycle")
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return false
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}
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}
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// mine runs the mining loop. It performs the following:
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//
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// 1. Queries our current best currently-known mining candidate (tipset to
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// build upon).
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// 2. Waits until the propagation delay of the network has elapsed (currently
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// 6 seconds). The waiting is done relative to the timestamp of the best
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// candidate, which means that if it's way in the past, we won't wait at
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// all (e.g. in catch-up or rush mining).
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// 3. After the wait, we query our best mining candidate. This will be the one
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// we'll work with.
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// 4. Sanity check that we _actually_ have a new mining base to mine on. If
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// not, wait one epoch + propagation delay, and go back to the top.
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// 5. We attempt to mine a block, by calling mineOne (refer to godocs). This
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// method will either return a block if we were eligible to mine, or nil
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// if we weren't.
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// 6a. If we mined a block, we update our state and push it out to the network
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// via gossipsub.
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// 6b. If we didn't mine a block, we consider this to be a nil round on top of
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// the mining base we selected. If other miner or miners on the network
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// were eligible to mine, we will receive their blocks via gossipsub and
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// we will select that tipset on the next iteration of the loop, thus
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// discarding our null round.
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func (m *Miner) mine(ctx context.Context) {
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ctx, span := trace.StartSpan(ctx, "/mine")
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defer span.End()
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go m.doWinPoStWarmup(ctx)
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var lastBase MiningBase
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minerLoop:
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for {
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ctx := cliutil.OnSingleNode(ctx)
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select {
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case <-m.stop:
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stopping := m.stopping
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m.stop = nil
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m.stopping = nil
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close(stopping)
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return
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default:
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}
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var base *MiningBase
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var onDone func(bool, abi.ChainEpoch, error)
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var injectNulls abi.ChainEpoch
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for {
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prebase, err := m.GetBestMiningCandidate(ctx)
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if err != nil {
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log.Errorf("failed to get best mining candidate: %s", err)
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if !m.niceSleep(time.Second * 5) {
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continue minerLoop
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}
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continue
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}
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if base != nil && base.TipSet.Height() == prebase.TipSet.Height() && base.NullRounds == prebase.NullRounds {
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base = prebase
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break
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}
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if base != nil {
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onDone(false, 0, nil)
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}
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// TODO: need to change the orchestration here. the problem is that
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// we are waiting *after* we enter this loop and selecta mining
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// candidate, which is almost certain to change in multiminer
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// tests. Instead, we should block before entering the loop, so
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// that when the test 'MineOne' function is triggered, we pull our
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// best mining candidate at that time.
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// Wait until propagation delay period after block we plan to mine on
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onDone, injectNulls, err = m.waitFunc(ctx, prebase.TipSet.MinTimestamp())
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if err != nil {
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log.Error(err)
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continue
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}
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// just wait for the beacon entry to become available before we select our final mining base
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_, err = m.api.StateGetBeaconEntry(ctx, prebase.TipSet.Height()+prebase.NullRounds+1)
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if err != nil {
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log.Errorf("failed getting beacon entry: %s", err)
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if !m.niceSleep(time.Second) {
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continue minerLoop
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}
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continue
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}
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base = prebase
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}
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base.NullRounds += injectNulls // testing
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if base.TipSet.Equals(lastBase.TipSet) && lastBase.NullRounds == base.NullRounds {
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log.Warnf("BestMiningCandidate from the previous round: %s (nulls:%d)", lastBase.TipSet.Cids(), lastBase.NullRounds)
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if !m.niceSleep(time.Duration(build.BlockDelaySecs) * time.Second) {
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continue minerLoop
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}
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continue
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}
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b, err := m.mineOne(ctx, base)
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if err != nil {
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log.Errorf("mining block failed: %+v", err)
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if !m.niceSleep(time.Second) {
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continue minerLoop
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}
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onDone(false, 0, err)
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continue
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}
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lastBase = *base
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var h abi.ChainEpoch
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if b != nil {
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h = b.Header.Height
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}
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onDone(b != nil, h, nil)
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if b != nil {
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m.journal.RecordEvent(m.evtTypes[evtTypeBlockMined], func() interface{} {
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return map[string]interface{}{
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"parents": base.TipSet.Cids(),
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"nulls": base.NullRounds,
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"epoch": b.Header.Height,
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"timestamp": b.Header.Timestamp,
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"cid": b.Header.Cid(),
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}
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})
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btime := time.Unix(int64(b.Header.Timestamp), 0)
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now := build.Clock.Now()
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switch {
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case btime == now:
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// block timestamp is perfectly aligned with time.
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case btime.After(now):
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if !m.niceSleep(build.Clock.Until(btime)) {
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log.Warnf("received interrupt while waiting to broadcast block, will shutdown after block is sent out")
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build.Clock.Sleep(build.Clock.Until(btime))
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}
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default:
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log.Warnw("mined block in the past",
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"block-time", btime, "time", build.Clock.Now(), "difference", build.Clock.Since(btime))
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}
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if os.Getenv("LOTUS_MINER_NO_SLASHFILTER") != "_yes_i_know_i_can_and_probably_will_lose_all_my_fil_and_power_" {
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witness, fault, err := m.sf.MinedBlock(ctx, b.Header, base.TipSet.Height()+base.NullRounds)
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if err != nil {
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log.Errorf("<!!> SLASH FILTER ERRORED: %s", err)
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// Continue here, because it's _probably_ wiser to not submit this block
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continue
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}
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if fault {
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log.Errorf("<!!> SLASH FILTER DETECTED FAULT due to blocks %s and %s", b.Header.Cid(), witness)
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continue
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}
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}
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if _, ok := m.minedBlockHeights.Get(b.Header.Height); ok {
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log.Warnw("Created a block at the same height as another block we've created", "height", b.Header.Height, "miner", b.Header.Miner, "parents", b.Header.Parents)
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continue
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}
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m.minedBlockHeights.Add(b.Header.Height, true)
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if err := m.api.SyncSubmitBlock(ctx, b); err != nil {
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log.Errorf("failed to submit newly mined block: %+v", err)
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}
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} else {
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base.NullRounds++
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// Wait until the next epoch, plus the propagation delay, so a new tipset
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// has enough time to form.
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//
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// See: https://github.com/filecoin-project/lotus/issues/1845
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nextRound := time.Unix(int64(base.TipSet.MinTimestamp()+build.BlockDelaySecs*uint64(base.NullRounds))+int64(build.PropagationDelaySecs), 0)
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select {
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case <-build.Clock.After(build.Clock.Until(nextRound)):
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case <-m.stop:
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stopping := m.stopping
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m.stop = nil
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m.stopping = nil
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close(stopping)
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return
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}
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}
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}
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}
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// MiningBase is the tipset on top of which we plan to construct our next block.
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// Refer to godocs on GetBestMiningCandidate.
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type MiningBase struct {
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TipSet *types.TipSet
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NullRounds abi.ChainEpoch
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}
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// GetBestMiningCandidate implements the fork choice rule from a miner's
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// perspective.
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//
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// It obtains the current chain head (HEAD), and compares it to the last tipset
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// we selected as our mining base (LAST). If HEAD's weight is larger than
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// LAST's weight, it selects HEAD to build on. Else, it selects LAST.
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func (m *Miner) GetBestMiningCandidate(ctx context.Context) (*MiningBase, error) {
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m.lk.Lock()
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defer m.lk.Unlock()
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bts, err := m.api.ChainHead(ctx)
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if err != nil {
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return nil, err
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}
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if m.lastWork != nil {
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if m.lastWork.TipSet.Equals(bts) {
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return m.lastWork, nil
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}
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btsw, err := m.api.ChainTipSetWeight(ctx, bts.Key())
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if err != nil {
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return nil, err
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}
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ltsw, err := m.api.ChainTipSetWeight(ctx, m.lastWork.TipSet.Key())
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if err != nil {
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m.lastWork = nil
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return nil, err
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}
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if types.BigCmp(btsw, ltsw) <= 0 {
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return m.lastWork, nil
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}
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}
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m.lastWork = &MiningBase{TipSet: bts}
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return m.lastWork, nil
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}
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// mineOne attempts to mine a single block, and does so synchronously, if and
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// only if we are eligible to mine.
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//
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// {hint/landmark}: This method coordinates all the steps involved in mining a
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// block, including the condition of whether mine or not at all depending on
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// whether we win the round or not.
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//
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// This method does the following:
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//
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// 1.
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func (m *Miner) mineOne(ctx context.Context, base *MiningBase) (minedBlock *types.BlockMsg, err error) {
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log.Debugw("attempting to mine a block", "tipset", types.LogCids(base.TipSet.Cids()))
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tStart := build.Clock.Now()
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round := base.TipSet.Height() + base.NullRounds + 1
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// always write out a log
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var winner *types.ElectionProof
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var mbi *api.MiningBaseInfo
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var rbase types.BeaconEntry
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defer func() {
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var hasMinPower bool
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// mbi can be nil if we are deep in penalty and there are 0 eligible sectors
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// in the current deadline. If this case - put together a dummy one for reporting
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// https://github.com/filecoin-project/lotus/blob/v1.9.0/chain/stmgr/utils.go#L500-L502
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if mbi == nil {
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mbi = &api.MiningBaseInfo{
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NetworkPower: big.NewInt(-1), // we do not know how big the network is at this point
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EligibleForMining: false,
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MinerPower: big.NewInt(0), // but we do know we do not have anything eligible
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}
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// try to opportunistically pull actual power and plug it into the fake mbi
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if pow, err := m.api.StateMinerPower(ctx, m.address, base.TipSet.Key()); err == nil && pow != nil {
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hasMinPower = pow.HasMinPower
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mbi.MinerPower = pow.MinerPower.QualityAdjPower
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mbi.NetworkPower = pow.TotalPower.QualityAdjPower
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}
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}
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isLate := uint64(tStart.Unix()) > (base.TipSet.MinTimestamp() + uint64(base.NullRounds*builtin.EpochDurationSeconds) + build.PropagationDelaySecs)
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logStruct := []interface{}{
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"tookMilliseconds", (build.Clock.Now().UnixNano() - tStart.UnixNano()) / 1_000_000,
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"forRound", int64(round),
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"baseEpoch", int64(base.TipSet.Height()),
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"baseDeltaSeconds", uint64(tStart.Unix()) - base.TipSet.MinTimestamp(),
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"nullRounds", int64(base.NullRounds),
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"lateStart", isLate,
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"beaconEpoch", rbase.Round,
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"lookbackEpochs", int64(policy.ChainFinality), // hardcoded as it is unlikely to change again: https://github.com/filecoin-project/lotus/blob/v1.8.0/chain/actors/policy/policy.go#L180-L186
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"networkPowerAtLookback", mbi.NetworkPower.String(),
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"minerPowerAtLookback", mbi.MinerPower.String(),
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"isEligible", mbi.EligibleForMining,
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"isWinner", (winner != nil),
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"error", err,
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}
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if err != nil {
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log.Errorw("completed mineOne", logStruct...)
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} else if isLate || (hasMinPower && !mbi.EligibleForMining) {
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log.Warnw("completed mineOne", logStruct...)
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} else {
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log.Infow("completed mineOne", logStruct...)
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}
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}()
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mbi, err = m.api.MinerGetBaseInfo(ctx, m.address, round, base.TipSet.Key())
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if err != nil {
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err = xerrors.Errorf("failed to get mining base info: %w", err)
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return nil, err
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}
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if mbi == nil {
|
|
return nil, nil
|
|
}
|
|
|
|
if !mbi.EligibleForMining {
|
|
// slashed or just have no power yet
|
|
return nil, nil
|
|
}
|
|
|
|
tPowercheck := build.Clock.Now()
|
|
|
|
bvals := mbi.BeaconEntries
|
|
rbase = mbi.PrevBeaconEntry
|
|
if len(bvals) > 0 {
|
|
rbase = bvals[len(bvals)-1]
|
|
}
|
|
|
|
ticket, err := m.computeTicket(ctx, &rbase, round, base.TipSet.MinTicket(), mbi)
|
|
if err != nil {
|
|
err = xerrors.Errorf("scratching ticket failed: %w", err)
|
|
return nil, err
|
|
}
|
|
|
|
winner, err = gen.IsRoundWinner(ctx, round, m.address, rbase, mbi, m.api)
|
|
if err != nil {
|
|
err = xerrors.Errorf("failed to check if we win next round: %w", err)
|
|
return nil, err
|
|
}
|
|
|
|
if winner == nil {
|
|
return nil, nil
|
|
}
|
|
|
|
tTicket := build.Clock.Now()
|
|
|
|
buf := new(bytes.Buffer)
|
|
if err := m.address.MarshalCBOR(buf); err != nil {
|
|
err = xerrors.Errorf("failed to marshal miner address: %w", err)
|
|
return nil, err
|
|
}
|
|
|
|
rand, err := lrand.DrawRandomness(rbase.Data, crypto.DomainSeparationTag_WinningPoStChallengeSeed, round, buf.Bytes())
|
|
if err != nil {
|
|
err = xerrors.Errorf("failed to get randomness for winning post: %w", err)
|
|
return nil, err
|
|
}
|
|
|
|
prand := abi.PoStRandomness(rand)
|
|
|
|
tSeed := build.Clock.Now()
|
|
nv, err := m.api.StateNetworkVersion(ctx, base.TipSet.Key())
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
postProof, err := m.epp.ComputeProof(ctx, mbi.Sectors, prand, round, nv)
|
|
if err != nil {
|
|
err = xerrors.Errorf("failed to compute winning post proof: %w", err)
|
|
return nil, err
|
|
}
|
|
|
|
tProof := build.Clock.Now()
|
|
|
|
// get pending messages early,
|
|
msgs, err := m.api.MpoolSelect(context.TODO(), base.TipSet.Key(), ticket.Quality())
|
|
if err != nil {
|
|
err = xerrors.Errorf("failed to select messages for block: %w", err)
|
|
return nil, err
|
|
}
|
|
|
|
tPending := build.Clock.Now()
|
|
|
|
// TODO: winning post proof
|
|
minedBlock, err = m.createBlock(base, m.address, ticket, winner, bvals, postProof, msgs)
|
|
if err != nil {
|
|
err = xerrors.Errorf("failed to create block: %w", err)
|
|
return nil, err
|
|
}
|
|
|
|
tCreateBlock := build.Clock.Now()
|
|
dur := tCreateBlock.Sub(tStart)
|
|
parentMiners := make([]address.Address, len(base.TipSet.Blocks()))
|
|
for i, header := range base.TipSet.Blocks() {
|
|
parentMiners[i] = header.Miner
|
|
}
|
|
log.Infow("mined new block", "cid", minedBlock.Cid(), "height", int64(minedBlock.Header.Height), "miner", minedBlock.Header.Miner, "parents", parentMiners, "parentTipset", base.TipSet.Key().String(), "took", dur)
|
|
if dur > time.Second*time.Duration(build.BlockDelaySecs) {
|
|
log.Warnw("CAUTION: block production took longer than the block delay. Your computer may not be fast enough to keep up",
|
|
"tPowercheck ", tPowercheck.Sub(tStart),
|
|
"tTicket ", tTicket.Sub(tPowercheck),
|
|
"tSeed ", tSeed.Sub(tTicket),
|
|
"tProof ", tProof.Sub(tSeed),
|
|
"tPending ", tPending.Sub(tProof),
|
|
"tCreateBlock ", tCreateBlock.Sub(tPending))
|
|
}
|
|
|
|
return minedBlock, nil
|
|
}
|
|
|
|
func (m *Miner) computeTicket(ctx context.Context, brand *types.BeaconEntry, round abi.ChainEpoch, chainRand *types.Ticket, mbi *api.MiningBaseInfo) (*types.Ticket, error) {
|
|
buf := new(bytes.Buffer)
|
|
if err := m.address.MarshalCBOR(buf); err != nil {
|
|
return nil, xerrors.Errorf("failed to marshal address to cbor: %w", err)
|
|
}
|
|
|
|
if round > build.UpgradeSmokeHeight {
|
|
buf.Write(chainRand.VRFProof)
|
|
}
|
|
|
|
input, err := lrand.DrawRandomness(brand.Data, crypto.DomainSeparationTag_TicketProduction, round-build.TicketRandomnessLookback, buf.Bytes())
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
vrfOut, err := gen.ComputeVRF(ctx, m.api.WalletSign, mbi.WorkerKey, input)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
return &types.Ticket{
|
|
VRFProof: vrfOut,
|
|
}, nil
|
|
}
|
|
|
|
func (m *Miner) createBlock(base *MiningBase, addr address.Address, ticket *types.Ticket,
|
|
eproof *types.ElectionProof, bvals []types.BeaconEntry, wpostProof []proof.PoStProof, msgs []*types.SignedMessage) (*types.BlockMsg, error) {
|
|
uts := base.TipSet.MinTimestamp() + build.BlockDelaySecs*(uint64(base.NullRounds)+1)
|
|
|
|
nheight := base.TipSet.Height() + base.NullRounds + 1
|
|
|
|
// why even return this? that api call could just submit it for us
|
|
return m.api.MinerCreateBlock(context.TODO(), &api.BlockTemplate{
|
|
Miner: addr,
|
|
Parents: base.TipSet.Key(),
|
|
Ticket: ticket,
|
|
Eproof: eproof,
|
|
BeaconValues: bvals,
|
|
Messages: msgs,
|
|
Epoch: nheight,
|
|
Timestamp: uts,
|
|
WinningPoStProof: wpostProof,
|
|
})
|
|
}
|