package impl import ( "context" "encoding/json" "errors" "fmt" "net/http" "os" "sort" "strconv" "time" "github.com/filecoin-project/dagstore" "github.com/filecoin-project/dagstore/shard" "github.com/filecoin-project/go-jsonrpc/auth" "github.com/filecoin-project/lotus/chain/actors/builtin" "github.com/filecoin-project/lotus/chain/gen" "github.com/google/uuid" "github.com/ipfs/go-cid" "github.com/ipfs/go-graphsync" gsimpl "github.com/ipfs/go-graphsync/impl" "github.com/ipfs/go-graphsync/peerstate" "github.com/libp2p/go-libp2p-core/host" "github.com/libp2p/go-libp2p-core/peer" "go.uber.org/fx" "golang.org/x/xerrors" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/go-address" datatransfer "github.com/filecoin-project/go-data-transfer" gst "github.com/filecoin-project/go-data-transfer/transport/graphsync" "github.com/filecoin-project/go-fil-markets/piecestore" "github.com/filecoin-project/go-fil-markets/retrievalmarket" "github.com/filecoin-project/go-fil-markets/storagemarket" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/network" sectorstorage "github.com/filecoin-project/lotus/extern/sector-storage" "github.com/filecoin-project/lotus/extern/sector-storage/fsutil" "github.com/filecoin-project/lotus/extern/sector-storage/stores" "github.com/filecoin-project/lotus/extern/sector-storage/storiface" sealing "github.com/filecoin-project/lotus/extern/storage-sealing" "github.com/filecoin-project/lotus/extern/storage-sealing/sealiface" sto "github.com/filecoin-project/specs-storage/storage" "github.com/filecoin-project/lotus/api" apitypes "github.com/filecoin-project/lotus/api/types" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/markets/storageadapter" "github.com/filecoin-project/lotus/miner" "github.com/filecoin-project/lotus/node/modules/dtypes" "github.com/filecoin-project/lotus/storage" "github.com/filecoin-project/lotus/storage/sectorblocks" ) type StorageMinerAPI struct { fx.In api.Common api.Net EnabledSubsystems api.MinerSubsystems Full api.FullNode LocalStore *stores.Local RemoteStore *stores.Remote // Markets PieceStore dtypes.ProviderPieceStore `optional:"true"` StorageProvider storagemarket.StorageProvider `optional:"true"` RetrievalProvider retrievalmarket.RetrievalProvider `optional:"true"` SectorAccessor retrievalmarket.SectorAccessor `optional:"true"` DataTransfer dtypes.ProviderDataTransfer `optional:"true"` StagingGraphsync dtypes.StagingGraphsync `optional:"true"` Transport dtypes.ProviderTransport `optional:"true"` DealPublisher *storageadapter.DealPublisher `optional:"true"` SectorBlocks *sectorblocks.SectorBlocks `optional:"true"` Host host.Host `optional:"true"` DAGStore *dagstore.DAGStore `optional:"true"` // Miner / storage Miner *storage.Miner `optional:"true"` BlockMiner *miner.Miner `optional:"true"` StorageMgr *sectorstorage.Manager `optional:"true"` IStorageMgr sectorstorage.SectorManager `optional:"true"` stores.SectorIndex storiface.WorkerReturn `optional:"true"` AddrSel *storage.AddressSelector Epp gen.WinningPoStProver `optional:"true"` DS dtypes.MetadataDS ConsiderOnlineStorageDealsConfigFunc dtypes.ConsiderOnlineStorageDealsConfigFunc `optional:"true"` SetConsiderOnlineStorageDealsConfigFunc dtypes.SetConsiderOnlineStorageDealsConfigFunc `optional:"true"` ConsiderOnlineRetrievalDealsConfigFunc dtypes.ConsiderOnlineRetrievalDealsConfigFunc `optional:"true"` SetConsiderOnlineRetrievalDealsConfigFunc dtypes.SetConsiderOnlineRetrievalDealsConfigFunc `optional:"true"` StorageDealPieceCidBlocklistConfigFunc dtypes.StorageDealPieceCidBlocklistConfigFunc `optional:"true"` SetStorageDealPieceCidBlocklistConfigFunc dtypes.SetStorageDealPieceCidBlocklistConfigFunc `optional:"true"` ConsiderOfflineStorageDealsConfigFunc dtypes.ConsiderOfflineStorageDealsConfigFunc `optional:"true"` SetConsiderOfflineStorageDealsConfigFunc dtypes.SetConsiderOfflineStorageDealsConfigFunc `optional:"true"` ConsiderOfflineRetrievalDealsConfigFunc dtypes.ConsiderOfflineRetrievalDealsConfigFunc `optional:"true"` SetConsiderOfflineRetrievalDealsConfigFunc dtypes.SetConsiderOfflineRetrievalDealsConfigFunc `optional:"true"` ConsiderVerifiedStorageDealsConfigFunc dtypes.ConsiderVerifiedStorageDealsConfigFunc `optional:"true"` SetConsiderVerifiedStorageDealsConfigFunc dtypes.SetConsiderVerifiedStorageDealsConfigFunc `optional:"true"` ConsiderUnverifiedStorageDealsConfigFunc dtypes.ConsiderUnverifiedStorageDealsConfigFunc `optional:"true"` SetConsiderUnverifiedStorageDealsConfigFunc dtypes.SetConsiderUnverifiedStorageDealsConfigFunc `optional:"true"` SetSealingConfigFunc dtypes.SetSealingConfigFunc `optional:"true"` GetSealingConfigFunc dtypes.GetSealingConfigFunc `optional:"true"` GetExpectedSealDurationFunc dtypes.GetExpectedSealDurationFunc `optional:"true"` SetExpectedSealDurationFunc dtypes.SetExpectedSealDurationFunc `optional:"true"` } var _ api.StorageMiner = &StorageMinerAPI{} func (sm *StorageMinerAPI) ServeRemote(perm bool) func(w http.ResponseWriter, r *http.Request) { return func(w http.ResponseWriter, r *http.Request) { if perm == true { if !auth.HasPerm(r.Context(), nil, api.PermAdmin) { w.WriteHeader(401) _ = json.NewEncoder(w).Encode(struct{ Error string }{"unauthorized: missing write permission"}) return } } sm.StorageMgr.ServeHTTP(w, r) } } func (sm *StorageMinerAPI) WorkerStats(context.Context) (map[uuid.UUID]storiface.WorkerStats, error) { return sm.StorageMgr.WorkerStats(), nil } func (sm *StorageMinerAPI) WorkerJobs(ctx context.Context) (map[uuid.UUID][]storiface.WorkerJob, error) { return sm.StorageMgr.WorkerJobs(), nil } func (sm *StorageMinerAPI) ActorAddress(context.Context) (address.Address, error) { return sm.Miner.Address(), nil } func (sm *StorageMinerAPI) MiningBase(ctx context.Context) (*types.TipSet, error) { mb, err := sm.BlockMiner.GetBestMiningCandidate(ctx) if err != nil { return nil, err } return mb.TipSet, nil } func (sm *StorageMinerAPI) ActorSectorSize(ctx context.Context, addr address.Address) (abi.SectorSize, error) { mi, err := sm.Full.StateMinerInfo(ctx, addr, types.EmptyTSK) if err != nil { return 0, err } return mi.SectorSize, nil } func (sm *StorageMinerAPI) PledgeSector(ctx context.Context) (abi.SectorID, error) { sr, err := sm.Miner.PledgeSector(ctx) if err != nil { return abi.SectorID{}, err } // wait for the sector to enter the Packing state // TODO: instead of polling implement some pubsub-type thing in storagefsm for { info, err := sm.Miner.SectorsStatus(ctx, sr.ID.Number, false) if err != nil { return abi.SectorID{}, xerrors.Errorf("getting pledged sector info: %w", err) } if info.State != api.SectorState(sealing.UndefinedSectorState) { return sr.ID, nil } select { case <-time.After(10 * time.Millisecond): case <-ctx.Done(): return abi.SectorID{}, ctx.Err() } } } func (sm *StorageMinerAPI) SectorsStatus(ctx context.Context, sid abi.SectorNumber, showOnChainInfo bool) (api.SectorInfo, error) { sInfo, err := sm.Miner.SectorsStatus(ctx, sid, false) if err != nil { return api.SectorInfo{}, err } if !showOnChainInfo { return sInfo, nil } onChainInfo, err := sm.Full.StateSectorGetInfo(ctx, sm.Miner.Address(), sid, types.EmptyTSK) if err != nil { return sInfo, err } if onChainInfo == nil { return sInfo, nil } sInfo.SealProof = onChainInfo.SealProof sInfo.Activation = onChainInfo.Activation sInfo.Expiration = onChainInfo.Expiration sInfo.DealWeight = onChainInfo.DealWeight sInfo.VerifiedDealWeight = onChainInfo.VerifiedDealWeight sInfo.InitialPledge = onChainInfo.InitialPledge ex, err := sm.Full.StateSectorExpiration(ctx, sm.Miner.Address(), sid, types.EmptyTSK) if err != nil { return sInfo, nil } sInfo.OnTime = ex.OnTime sInfo.Early = ex.Early return sInfo, nil } func (sm *StorageMinerAPI) SectorAddPieceToAny(ctx context.Context, size abi.UnpaddedPieceSize, r sto.Data, d api.PieceDealInfo) (api.SectorOffset, error) { so, err := sm.Miner.SectorAddPieceToAny(ctx, size, r, d) if err != nil { // jsonrpc doesn't support returning values with errors, make sure we never do that return api.SectorOffset{}, err } return so, nil } func (sm *StorageMinerAPI) SectorsUnsealPiece(ctx context.Context, sector sto.SectorRef, offset storiface.UnpaddedByteIndex, size abi.UnpaddedPieceSize, randomness abi.SealRandomness, commd *cid.Cid) error { return sm.StorageMgr.SectorsUnsealPiece(ctx, sector, offset, size, randomness, commd) } // List all staged sectors func (sm *StorageMinerAPI) SectorsList(context.Context) ([]abi.SectorNumber, error) { sectors, err := sm.Miner.ListSectors() if err != nil { return nil, err } out := make([]abi.SectorNumber, 0, len(sectors)) for _, sector := range sectors { if sector.State == sealing.UndefinedSectorState { continue // sector ID not set yet } out = append(out, sector.SectorNumber) } return out, nil } func (sm *StorageMinerAPI) SectorsListInStates(ctx context.Context, states []api.SectorState) ([]abi.SectorNumber, error) { filterStates := make(map[sealing.SectorState]struct{}) for _, state := range states { st := sealing.SectorState(state) if _, ok := sealing.ExistSectorStateList[st]; !ok { continue } filterStates[st] = struct{}{} } var sns []abi.SectorNumber if len(filterStates) == 0 { return sns, nil } sectors, err := sm.Miner.ListSectors() if err != nil { return nil, err } for i := range sectors { if _, ok := filterStates[sectors[i].State]; ok { sns = append(sns, sectors[i].SectorNumber) } } return sns, nil } func (sm *StorageMinerAPI) SectorsSummary(ctx context.Context) (map[api.SectorState]int, error) { sectors, err := sm.Miner.ListSectors() if err != nil { return nil, err } out := make(map[api.SectorState]int) for i := range sectors { state := api.SectorState(sectors[i].State) out[state]++ } return out, nil } func (sm *StorageMinerAPI) StorageLocal(ctx context.Context) (map[stores.ID]string, error) { l, err := sm.LocalStore.Local(ctx) if err != nil { return nil, err } out := map[stores.ID]string{} for _, st := range l { out[st.ID] = st.LocalPath } return out, nil } func (sm *StorageMinerAPI) SectorsRefs(ctx context.Context) (map[string][]api.SealedRef, error) { // json can't handle cids as map keys out := map[string][]api.SealedRef{} refs, err := sm.SectorBlocks.List(ctx) if err != nil { return nil, err } for k, v := range refs { out[strconv.FormatUint(k, 10)] = v } return out, nil } func (sm *StorageMinerAPI) StorageStat(ctx context.Context, id stores.ID) (fsutil.FsStat, error) { return sm.RemoteStore.FsStat(ctx, id) } func (sm *StorageMinerAPI) SectorStartSealing(ctx context.Context, number abi.SectorNumber) error { return sm.Miner.StartPackingSector(number) } func (sm *StorageMinerAPI) SectorSetSealDelay(ctx context.Context, delay time.Duration) error { cfg, err := sm.GetSealingConfigFunc() if err != nil { return xerrors.Errorf("get config: %w", err) } cfg.WaitDealsDelay = delay return sm.SetSealingConfigFunc(cfg) } func (sm *StorageMinerAPI) SectorGetSealDelay(ctx context.Context) (time.Duration, error) { cfg, err := sm.GetSealingConfigFunc() if err != nil { return 0, err } return cfg.WaitDealsDelay, nil } func (sm *StorageMinerAPI) SectorSetExpectedSealDuration(ctx context.Context, delay time.Duration) error { return sm.SetExpectedSealDurationFunc(delay) } func (sm *StorageMinerAPI) SectorGetExpectedSealDuration(ctx context.Context) (time.Duration, error) { return sm.GetExpectedSealDurationFunc() } func (sm *StorageMinerAPI) SectorsUpdate(ctx context.Context, id abi.SectorNumber, state api.SectorState) error { return sm.Miner.ForceSectorState(ctx, id, sealing.SectorState(state)) } func (sm *StorageMinerAPI) SectorRemove(ctx context.Context, id abi.SectorNumber) error { return sm.Miner.RemoveSector(ctx, id) } func (sm *StorageMinerAPI) SectorTerminate(ctx context.Context, id abi.SectorNumber) error { return sm.Miner.TerminateSector(ctx, id) } func (sm *StorageMinerAPI) SectorTerminateFlush(ctx context.Context) (*cid.Cid, error) { return sm.Miner.TerminateFlush(ctx) } func (sm *StorageMinerAPI) SectorTerminatePending(ctx context.Context) ([]abi.SectorID, error) { return sm.Miner.TerminatePending(ctx) } func (sm *StorageMinerAPI) SectorPreCommitFlush(ctx context.Context) ([]sealiface.PreCommitBatchRes, error) { return sm.Miner.SectorPreCommitFlush(ctx) } func (sm *StorageMinerAPI) SectorPreCommitPending(ctx context.Context) ([]abi.SectorID, error) { return sm.Miner.SectorPreCommitPending(ctx) } func (sm *StorageMinerAPI) SectorMarkForUpgrade(ctx context.Context, id abi.SectorNumber, snap bool) error { return sm.Miner.MarkForUpgrade(ctx, id, snap) } func (sm *StorageMinerAPI) SectorAbortUpgrade(ctx context.Context, number abi.SectorNumber) error { return sm.Miner.SectorAbortUpgrade(number) } func (sm *StorageMinerAPI) SectorCommitFlush(ctx context.Context) ([]sealiface.CommitBatchRes, error) { return sm.Miner.CommitFlush(ctx) } func (sm *StorageMinerAPI) SectorCommitPending(ctx context.Context) ([]abi.SectorID, error) { return sm.Miner.CommitPending(ctx) } func (sm *StorageMinerAPI) SectorMatchPendingPiecesToOpenSectors(ctx context.Context) error { return sm.Miner.SectorMatchPendingPiecesToOpenSectors(ctx) } func (sm *StorageMinerAPI) WorkerConnect(ctx context.Context, url string) error { w, err := connectRemoteWorker(ctx, sm, url) if err != nil { return xerrors.Errorf("connecting remote storage failed: %w", err) } log.Infof("Connected to a remote worker at %s", url) return sm.StorageMgr.AddWorker(ctx, w) } func (sm *StorageMinerAPI) SealingSchedDiag(ctx context.Context, doSched bool) (interface{}, error) { return sm.StorageMgr.SchedDiag(ctx, doSched) } func (sm *StorageMinerAPI) SealingAbort(ctx context.Context, call storiface.CallID) error { return sm.StorageMgr.Abort(ctx, call) } func (sm *StorageMinerAPI) MarketImportDealData(ctx context.Context, propCid cid.Cid, path string) error { fi, err := os.Open(path) if err != nil { return xerrors.Errorf("failed to open file: %w", err) } defer fi.Close() //nolint:errcheck return sm.StorageProvider.ImportDataForDeal(ctx, propCid, fi) } func (sm *StorageMinerAPI) listDeals(ctx context.Context) ([]api.MarketDeal, error) { ts, err := sm.Full.ChainHead(ctx) if err != nil { return nil, err } tsk := ts.Key() allDeals, err := sm.Full.StateMarketDeals(ctx, tsk) if err != nil { return nil, err } var out []api.MarketDeal for _, deal := range allDeals { if deal.Proposal.Provider == sm.Miner.Address() { out = append(out, deal) } } return out, nil } func (sm *StorageMinerAPI) MarketListDeals(ctx context.Context) ([]api.MarketDeal, error) { return sm.listDeals(ctx) } func (sm *StorageMinerAPI) MarketListRetrievalDeals(ctx context.Context) ([]retrievalmarket.ProviderDealState, error) { var out []retrievalmarket.ProviderDealState deals := sm.RetrievalProvider.ListDeals() for _, deal := range deals { if deal.ChannelID != nil { if deal.ChannelID.Initiator == "" || deal.ChannelID.Responder == "" { deal.ChannelID = nil // don't try to push unparsable peer IDs over jsonrpc } } out = append(out, deal) } return out, nil } func (sm *StorageMinerAPI) MarketGetDealUpdates(ctx context.Context) (<-chan storagemarket.MinerDeal, error) { results := make(chan storagemarket.MinerDeal) unsub := sm.StorageProvider.SubscribeToEvents(func(evt storagemarket.ProviderEvent, deal storagemarket.MinerDeal) { select { case results <- deal: case <-ctx.Done(): } }) go func() { <-ctx.Done() unsub() close(results) }() return results, nil } func (sm *StorageMinerAPI) MarketListIncompleteDeals(ctx context.Context) ([]storagemarket.MinerDeal, error) { return sm.StorageProvider.ListLocalDeals() } func (sm *StorageMinerAPI) MarketSetAsk(ctx context.Context, price types.BigInt, verifiedPrice types.BigInt, duration abi.ChainEpoch, minPieceSize abi.PaddedPieceSize, maxPieceSize abi.PaddedPieceSize) error { options := []storagemarket.StorageAskOption{ storagemarket.MinPieceSize(minPieceSize), storagemarket.MaxPieceSize(maxPieceSize), } return sm.StorageProvider.SetAsk(price, verifiedPrice, duration, options...) } func (sm *StorageMinerAPI) MarketGetAsk(ctx context.Context) (*storagemarket.SignedStorageAsk, error) { return sm.StorageProvider.GetAsk(), nil } func (sm *StorageMinerAPI) MarketSetRetrievalAsk(ctx context.Context, rask *retrievalmarket.Ask) error { sm.RetrievalProvider.SetAsk(rask) return nil } func (sm *StorageMinerAPI) MarketGetRetrievalAsk(ctx context.Context) (*retrievalmarket.Ask, error) { return sm.RetrievalProvider.GetAsk(), nil } func (sm *StorageMinerAPI) MarketListDataTransfers(ctx context.Context) ([]api.DataTransferChannel, error) { inProgressChannels, err := sm.DataTransfer.InProgressChannels(ctx) if err != nil { return nil, err } apiChannels := make([]api.DataTransferChannel, 0, len(inProgressChannels)) for _, channelState := range inProgressChannels { apiChannels = append(apiChannels, api.NewDataTransferChannel(sm.Host.ID(), channelState)) } return apiChannels, nil } func (sm *StorageMinerAPI) MarketRestartDataTransfer(ctx context.Context, transferID datatransfer.TransferID, otherPeer peer.ID, isInitiator bool) error { selfPeer := sm.Host.ID() if isInitiator { return sm.DataTransfer.RestartDataTransferChannel(ctx, datatransfer.ChannelID{Initiator: selfPeer, Responder: otherPeer, ID: transferID}) } return sm.DataTransfer.RestartDataTransferChannel(ctx, datatransfer.ChannelID{Initiator: otherPeer, Responder: selfPeer, ID: transferID}) } func (sm *StorageMinerAPI) MarketCancelDataTransfer(ctx context.Context, transferID datatransfer.TransferID, otherPeer peer.ID, isInitiator bool) error { selfPeer := sm.Host.ID() if isInitiator { return sm.DataTransfer.CloseDataTransferChannel(ctx, datatransfer.ChannelID{Initiator: selfPeer, Responder: otherPeer, ID: transferID}) } return sm.DataTransfer.CloseDataTransferChannel(ctx, datatransfer.ChannelID{Initiator: otherPeer, Responder: selfPeer, ID: transferID}) } func (sm *StorageMinerAPI) MarketDataTransferUpdates(ctx context.Context) (<-chan api.DataTransferChannel, error) { channels := make(chan api.DataTransferChannel) unsub := sm.DataTransfer.SubscribeToEvents(func(evt datatransfer.Event, channelState datatransfer.ChannelState) { channel := api.NewDataTransferChannel(sm.Host.ID(), channelState) select { case <-ctx.Done(): case channels <- channel: } }) go func() { defer unsub() <-ctx.Done() }() return channels, nil } func (sm *StorageMinerAPI) MarketDataTransferDiagnostics(ctx context.Context, mpid peer.ID) (*api.TransferDiagnostics, error) { gsTransport, ok := sm.Transport.(*gst.Transport) if !ok { return nil, errors.New("api only works for graphsync as transport") } graphsyncConcrete, ok := sm.StagingGraphsync.(*gsimpl.GraphSync) if !ok { return nil, errors.New("api only works for non-mock graphsync implementation") } inProgressChannels, err := sm.DataTransfer.InProgressChannels(ctx) if err != nil { return nil, err } allReceivingChannels := make(map[datatransfer.ChannelID]datatransfer.ChannelState) allSendingChannels := make(map[datatransfer.ChannelID]datatransfer.ChannelState) for channelID, channel := range inProgressChannels { if channel.OtherPeer() != mpid { continue } if channel.Status() == datatransfer.Completed { continue } if channel.Status() == datatransfer.Failed || channel.Status() == datatransfer.Cancelled { continue } if channel.SelfPeer() == channel.Sender() { allSendingChannels[channelID] = channel } else { allReceivingChannels[channelID] = channel } } // gather information about active transport channels transportChannels := gsTransport.ChannelsForPeer(mpid) // gather information about graphsync state for peer gsPeerState := graphsyncConcrete.PeerState(mpid) sendingTransfers := sm.generateTransfers(ctx, transportChannels.SendingChannels, gsPeerState.IncomingState, allSendingChannels) receivingTransfers := sm.generateTransfers(ctx, transportChannels.ReceivingChannels, gsPeerState.OutgoingState, allReceivingChannels) return &api.TransferDiagnostics{ SendingTransfers: sendingTransfers, ReceivingTransfers: receivingTransfers, }, nil } // generate transfers matches graphsync state and data transfer state for a given peer // to produce detailed output on what's happening with a transfer func (sm *StorageMinerAPI) generateTransfers(ctx context.Context, transportChannels map[datatransfer.ChannelID]gst.ChannelGraphsyncRequests, gsPeerState peerstate.PeerState, allChannels map[datatransfer.ChannelID]datatransfer.ChannelState) []*api.GraphSyncDataTransfer { tc := &transferConverter{ matchedChannelIds: make(map[datatransfer.ChannelID]struct{}), matchedRequests: make(map[graphsync.RequestID]*api.GraphSyncDataTransfer), gsDiagnostics: gsPeerState.Diagnostics(), requestStates: gsPeerState.RequestStates, allChannels: allChannels, } // iterate through all operating data transfer transport channels for channelID, channelRequests := range transportChannels { originalState, err := sm.DataTransfer.ChannelState(ctx, channelID) var baseDiagnostics []string var channelState *api.DataTransferChannel if err != nil { baseDiagnostics = append(baseDiagnostics, fmt.Sprintf("Unable to lookup channel state: %s", err)) } else { cs := api.NewDataTransferChannel(sm.Host.ID(), originalState) channelState = &cs } // add the current request for this channel tc.convertTransfer(channelID, true, channelState, baseDiagnostics, channelRequests.Current, true) for _, requestID := range channelRequests.Previous { // add any previous requests that were cancelled for a restart tc.convertTransfer(channelID, true, channelState, baseDiagnostics, requestID, false) } } // collect any graphsync data for channels we don't have any data transfer data for tc.collectRemainingTransfers() return tc.transfers } type transferConverter struct { matchedChannelIds map[datatransfer.ChannelID]struct{} matchedRequests map[graphsync.RequestID]*api.GraphSyncDataTransfer transfers []*api.GraphSyncDataTransfer gsDiagnostics map[graphsync.RequestID][]string requestStates graphsync.RequestStates allChannels map[datatransfer.ChannelID]datatransfer.ChannelState } // convert transfer assembles transfer and diagnostic data for a given graphsync/data-transfer request func (tc *transferConverter) convertTransfer(channelID datatransfer.ChannelID, hasChannelID bool, channelState *api.DataTransferChannel, baseDiagnostics []string, requestID graphsync.RequestID, isCurrentChannelRequest bool) { diagnostics := baseDiagnostics state, hasState := tc.requestStates[requestID] stateString := state.String() if !hasState { stateString = "no graphsync state found" } var channelIDPtr *datatransfer.ChannelID if !hasChannelID { diagnostics = append(diagnostics, fmt.Sprintf("No data transfer channel id for GraphSync request ID %d", requestID)) } else { channelIDPtr = &channelID if isCurrentChannelRequest && !hasState { diagnostics = append(diagnostics, fmt.Sprintf("No current request state for data transfer channel id %s", channelID)) } else if !isCurrentChannelRequest && hasState { diagnostics = append(diagnostics, fmt.Sprintf("Graphsync request %d is a previous request on data transfer channel id %s that was restarted, but it is still running", requestID, channelID)) } } diagnostics = append(diagnostics, tc.gsDiagnostics[requestID]...) transfer := &api.GraphSyncDataTransfer{ RequestID: requestID, RequestState: stateString, IsCurrentChannelRequest: isCurrentChannelRequest, ChannelID: channelIDPtr, ChannelState: channelState, Diagnostics: diagnostics, } tc.transfers = append(tc.transfers, transfer) tc.matchedRequests[requestID] = transfer if hasChannelID { tc.matchedChannelIds[channelID] = struct{}{} } } func (tc *transferConverter) collectRemainingTransfers() { for requestID := range tc.requestStates { if _, ok := tc.matchedRequests[requestID]; !ok { tc.convertTransfer(datatransfer.ChannelID{}, false, nil, nil, requestID, false) } } for requestID := range tc.gsDiagnostics { if _, ok := tc.matchedRequests[requestID]; !ok { tc.convertTransfer(datatransfer.ChannelID{}, false, nil, nil, requestID, false) } } for channelID, channelState := range tc.allChannels { if _, ok := tc.matchedChannelIds[channelID]; !ok { channelID := channelID cs := api.NewDataTransferChannel(channelState.SelfPeer(), channelState) transfer := &api.GraphSyncDataTransfer{ RequestID: graphsync.RequestID(-1), RequestState: "graphsync state unknown", IsCurrentChannelRequest: false, ChannelID: &channelID, ChannelState: &cs, Diagnostics: []string{"data transfer with no open transport channel, cannot determine linked graphsync request"}, } tc.transfers = append(tc.transfers, transfer) } } } func (sm *StorageMinerAPI) MarketPendingDeals(ctx context.Context) (api.PendingDealInfo, error) { return sm.DealPublisher.PendingDeals(), nil } func (sm *StorageMinerAPI) MarketRetryPublishDeal(ctx context.Context, propcid cid.Cid) error { return sm.StorageProvider.RetryDealPublishing(propcid) } func (sm *StorageMinerAPI) MarketPublishPendingDeals(ctx context.Context) error { sm.DealPublisher.ForcePublishPendingDeals() return nil } func (sm *StorageMinerAPI) DagstoreListShards(ctx context.Context) ([]api.DagstoreShardInfo, error) { if sm.DAGStore == nil { return nil, fmt.Errorf("dagstore not available on this node") } info := sm.DAGStore.AllShardsInfo() ret := make([]api.DagstoreShardInfo, 0, len(info)) for k, i := range info { ret = append(ret, api.DagstoreShardInfo{ Key: k.String(), State: i.ShardState.String(), Error: func() string { if i.Error == nil { return "" } return i.Error.Error() }(), }) } // order by key. sort.SliceStable(ret, func(i, j int) bool { return ret[i].Key < ret[j].Key }) return ret, nil } func (sm *StorageMinerAPI) DagstoreInitializeShard(ctx context.Context, key string) error { if sm.DAGStore == nil { return fmt.Errorf("dagstore not available on this node") } k := shard.KeyFromString(key) info, err := sm.DAGStore.GetShardInfo(k) if err != nil { return fmt.Errorf("failed to get shard info: %w", err) } if st := info.ShardState; st != dagstore.ShardStateNew { return fmt.Errorf("cannot initialize shard; expected state ShardStateNew, was: %s", st.String()) } ch := make(chan dagstore.ShardResult, 1) if err = sm.DAGStore.AcquireShard(ctx, k, ch, dagstore.AcquireOpts{}); err != nil { return fmt.Errorf("failed to acquire shard: %w", err) } var res dagstore.ShardResult select { case res = <-ch: case <-ctx.Done(): return ctx.Err() } if err := res.Error; err != nil { return fmt.Errorf("failed to acquire shard: %w", err) } if res.Accessor != nil { err = res.Accessor.Close() if err != nil { log.Warnw("failed to close shard accessor; continuing", "shard_key", k, "error", err) } } return nil } func (sm *StorageMinerAPI) DagstoreInitializeAll(ctx context.Context, params api.DagstoreInitializeAllParams) (<-chan api.DagstoreInitializeAllEvent, error) { if sm.DAGStore == nil { return nil, fmt.Errorf("dagstore not available on this node") } if sm.SectorAccessor == nil { return nil, fmt.Errorf("sector accessor not available on this node") } // prepare the thottler tokens. var throttle chan struct{} if c := params.MaxConcurrency; c > 0 { throttle = make(chan struct{}, c) for i := 0; i < c; i++ { throttle <- struct{}{} } } // are we initializing only unsealed pieces? onlyUnsealed := !params.IncludeSealed info := sm.DAGStore.AllShardsInfo() var toInitialize []string for k, i := range info { if i.ShardState != dagstore.ShardStateNew { continue } // if we're initializing only unsealed pieces, check if there's an // unsealed deal for this piece available. if onlyUnsealed { pieceCid, err := cid.Decode(k.String()) if err != nil { log.Warnw("DagstoreInitializeAll: failed to decode shard key as piece CID; skipping", "shard_key", k.String(), "error", err) continue } pi, err := sm.PieceStore.GetPieceInfo(pieceCid) if err != nil { log.Warnw("DagstoreInitializeAll: failed to get piece info; skipping", "piece_cid", pieceCid, "error", err) continue } var isUnsealed bool for _, d := range pi.Deals { isUnsealed, err = sm.SectorAccessor.IsUnsealed(ctx, d.SectorID, d.Offset.Unpadded(), d.Length.Unpadded()) if err != nil { log.Warnw("DagstoreInitializeAll: failed to get unsealed status; skipping deal", "deal_id", d.DealID, "error", err) continue } if isUnsealed { break } } if !isUnsealed { log.Infow("DagstoreInitializeAll: skipping piece because it's sealed", "piece_cid", pieceCid, "error", err) continue } } // yes, we're initializing this shard. toInitialize = append(toInitialize, k.String()) } total := len(toInitialize) if total == 0 { out := make(chan api.DagstoreInitializeAllEvent) close(out) return out, nil } // response channel must be closed when we're done, or the context is cancelled. // this buffering is necessary to prevent inflight children goroutines from // publishing to a closed channel (res) when the context is cancelled. out := make(chan api.DagstoreInitializeAllEvent, 32) // internal buffer. res := make(chan api.DagstoreInitializeAllEvent, 32) // returned to caller. // pump events back to caller. // two events per shard. go func() { defer close(res) for i := 0; i < total*2; i++ { select { case res <- <-out: case <-ctx.Done(): return } } }() go func() { for i, k := range toInitialize { if throttle != nil { select { case <-throttle: // acquired a throttle token, proceed. case <-ctx.Done(): return } } go func(k string, i int) { r := api.DagstoreInitializeAllEvent{ Key: k, Event: "start", Total: total, Current: i + 1, // start with 1 } select { case out <- r: case <-ctx.Done(): return } err := sm.DagstoreInitializeShard(ctx, k) if throttle != nil { throttle <- struct{}{} } r.Event = "end" if err == nil { r.Success = true } else { r.Success = false r.Error = err.Error() } select { case out <- r: case <-ctx.Done(): } }(k, i) } }() return res, nil } func (sm *StorageMinerAPI) DagstoreRecoverShard(ctx context.Context, key string) error { if sm.DAGStore == nil { return fmt.Errorf("dagstore not available on this node") } k := shard.KeyFromString(key) info, err := sm.DAGStore.GetShardInfo(k) if err != nil { return fmt.Errorf("failed to get shard info: %w", err) } if st := info.ShardState; st != dagstore.ShardStateErrored { return fmt.Errorf("cannot recover shard; expected state ShardStateErrored, was: %s", st.String()) } ch := make(chan dagstore.ShardResult, 1) if err = sm.DAGStore.RecoverShard(ctx, k, ch, dagstore.RecoverOpts{}); err != nil { return fmt.Errorf("failed to recover shard: %w", err) } var res dagstore.ShardResult select { case res = <-ch: case <-ctx.Done(): return ctx.Err() } return res.Error } func (sm *StorageMinerAPI) DagstoreGC(ctx context.Context) ([]api.DagstoreShardResult, error) { if sm.DAGStore == nil { return nil, fmt.Errorf("dagstore not available on this node") } res, err := sm.DAGStore.GC(ctx) if err != nil { return nil, fmt.Errorf("failed to gc: %w", err) } ret := make([]api.DagstoreShardResult, 0, len(res.Shards)) for k, err := range res.Shards { r := api.DagstoreShardResult{Key: k.String()} if err == nil { r.Success = true } else { r.Success = false r.Error = err.Error() } ret = append(ret, r) } return ret, nil } func (sm *StorageMinerAPI) DealsList(ctx context.Context) ([]api.MarketDeal, error) { return sm.listDeals(ctx) } func (sm *StorageMinerAPI) RetrievalDealsList(ctx context.Context) (map[retrievalmarket.ProviderDealIdentifier]retrievalmarket.ProviderDealState, error) { return sm.RetrievalProvider.ListDeals(), nil } func (sm *StorageMinerAPI) DealsConsiderOnlineStorageDeals(ctx context.Context) (bool, error) { return sm.ConsiderOnlineStorageDealsConfigFunc() } func (sm *StorageMinerAPI) DealsSetConsiderOnlineStorageDeals(ctx context.Context, b bool) error { return sm.SetConsiderOnlineStorageDealsConfigFunc(b) } func (sm *StorageMinerAPI) DealsConsiderOnlineRetrievalDeals(ctx context.Context) (bool, error) { return sm.ConsiderOnlineRetrievalDealsConfigFunc() } func (sm *StorageMinerAPI) DealsSetConsiderOnlineRetrievalDeals(ctx context.Context, b bool) error { return sm.SetConsiderOnlineRetrievalDealsConfigFunc(b) } func (sm *StorageMinerAPI) DealsConsiderOfflineStorageDeals(ctx context.Context) (bool, error) { return sm.ConsiderOfflineStorageDealsConfigFunc() } func (sm *StorageMinerAPI) DealsSetConsiderOfflineStorageDeals(ctx context.Context, b bool) error { return sm.SetConsiderOfflineStorageDealsConfigFunc(b) } func (sm *StorageMinerAPI) DealsConsiderOfflineRetrievalDeals(ctx context.Context) (bool, error) { return sm.ConsiderOfflineRetrievalDealsConfigFunc() } func (sm *StorageMinerAPI) DealsSetConsiderOfflineRetrievalDeals(ctx context.Context, b bool) error { return sm.SetConsiderOfflineRetrievalDealsConfigFunc(b) } func (sm *StorageMinerAPI) DealsConsiderVerifiedStorageDeals(ctx context.Context) (bool, error) { return sm.ConsiderVerifiedStorageDealsConfigFunc() } func (sm *StorageMinerAPI) DealsSetConsiderVerifiedStorageDeals(ctx context.Context, b bool) error { return sm.SetConsiderVerifiedStorageDealsConfigFunc(b) } func (sm *StorageMinerAPI) DealsConsiderUnverifiedStorageDeals(ctx context.Context) (bool, error) { return sm.ConsiderUnverifiedStorageDealsConfigFunc() } func (sm *StorageMinerAPI) DealsSetConsiderUnverifiedStorageDeals(ctx context.Context, b bool) error { return sm.SetConsiderUnverifiedStorageDealsConfigFunc(b) } func (sm *StorageMinerAPI) DealsGetExpectedSealDurationFunc(ctx context.Context) (time.Duration, error) { return sm.GetExpectedSealDurationFunc() } func (sm *StorageMinerAPI) DealsSetExpectedSealDurationFunc(ctx context.Context, d time.Duration) error { return sm.SetExpectedSealDurationFunc(d) } func (sm *StorageMinerAPI) DealsImportData(ctx context.Context, deal cid.Cid, fname string) error { fi, err := os.Open(fname) if err != nil { return xerrors.Errorf("failed to open given file: %w", err) } defer fi.Close() //nolint:errcheck return sm.StorageProvider.ImportDataForDeal(ctx, deal, fi) } func (sm *StorageMinerAPI) DealsPieceCidBlocklist(ctx context.Context) ([]cid.Cid, error) { return sm.StorageDealPieceCidBlocklistConfigFunc() } func (sm *StorageMinerAPI) DealsSetPieceCidBlocklist(ctx context.Context, cids []cid.Cid) error { return sm.SetStorageDealPieceCidBlocklistConfigFunc(cids) } func (sm *StorageMinerAPI) StorageAddLocal(ctx context.Context, path string) error { if sm.StorageMgr == nil { return xerrors.Errorf("no storage manager") } return sm.StorageMgr.AddLocalStorage(ctx, path) } func (sm *StorageMinerAPI) PiecesListPieces(ctx context.Context) ([]cid.Cid, error) { return sm.PieceStore.ListPieceInfoKeys() } func (sm *StorageMinerAPI) PiecesListCidInfos(ctx context.Context) ([]cid.Cid, error) { return sm.PieceStore.ListCidInfoKeys() } func (sm *StorageMinerAPI) PiecesGetPieceInfo(ctx context.Context, pieceCid cid.Cid) (*piecestore.PieceInfo, error) { pi, err := sm.PieceStore.GetPieceInfo(pieceCid) if err != nil { return nil, err } return &pi, nil } func (sm *StorageMinerAPI) PiecesGetCIDInfo(ctx context.Context, payloadCid cid.Cid) (*piecestore.CIDInfo, error) { ci, err := sm.PieceStore.GetCIDInfo(payloadCid) if err != nil { return nil, err } return &ci, nil } func (sm *StorageMinerAPI) CreateBackup(ctx context.Context, fpath string) error { return backup(ctx, sm.DS, fpath) } func (sm *StorageMinerAPI) CheckProvable(ctx context.Context, pp abi.RegisteredPoStProof, sectors []sto.SectorRef, expensive bool) (map[abi.SectorNumber]string, error) { var rg storiface.RGetter if expensive { rg = func(ctx context.Context, id abi.SectorID) (cid.Cid, error) { si, err := sm.Miner.SectorsStatus(ctx, id.Number, false) if err != nil { return cid.Undef, err } if si.CommR == nil { return cid.Undef, xerrors.Errorf("commr is nil") } return *si.CommR, nil } } bad, err := sm.StorageMgr.CheckProvable(ctx, pp, sectors, rg) if err != nil { return nil, err } var out = make(map[abi.SectorNumber]string) for sid, err := range bad { out[sid.Number] = err } return out, nil } func (sm *StorageMinerAPI) ActorAddressConfig(ctx context.Context) (api.AddressConfig, error) { return sm.AddrSel.AddressConfig, nil } func (sm *StorageMinerAPI) Discover(ctx context.Context) (apitypes.OpenRPCDocument, error) { return build.OpenRPCDiscoverJSON_Miner(), nil } func (sm *StorageMinerAPI) ComputeProof(ctx context.Context, ssi []builtin.ExtendedSectorInfo, rand abi.PoStRandomness, poStEpoch abi.ChainEpoch, nv network.Version) ([]builtin.PoStProof, error) { return sm.Epp.ComputeProof(ctx, ssi, rand, poStEpoch, nv) } func (sm *StorageMinerAPI) RuntimeSubsystems(context.Context) (res api.MinerSubsystems, err error) { return sm.EnabledSubsystems, nil }