package deals import ( "context" "github.com/filecoin-project/go-lotus/chain/types" "github.com/filecoin-project/go-lotus/storage/sectorblocks" "math" "github.com/filecoin-project/go-lotus/api" "github.com/filecoin-project/go-lotus/chain/address" "github.com/filecoin-project/go-lotus/node/modules/dtypes" "github.com/ipfs/go-cid" "github.com/ipfs/go-datastore" "github.com/ipfs/go-datastore/namespace" cbor "github.com/ipfs/go-ipld-cbor" inet "github.com/libp2p/go-libp2p-core/network" "github.com/libp2p/go-libp2p-core/peer" ) func init() { cbor.RegisterCborType(MinerDeal{}) } type MinerDeal struct { Client peer.ID Proposal StorageDealProposal ProposalCid cid.Cid State DealState Ref cid.Cid SectorID uint64 // Set when State >= Staged s inet.Stream } type Handler struct { pricePerByteBlock types.BigInt // how much we want for storing one byte for one block secst *sectorblocks.SectorBlocks full api.FullNode // TODO: Use a custom protocol or graphsync in the future // TODO: GC dag dtypes.StagingDAG deals StateStore conns map[cid.Cid]inet.Stream actor address.Address incoming chan MinerDeal updated chan dealUpdate stop chan struct{} stopped chan struct{} } type dealUpdate struct { newState DealState id cid.Cid err error mut func(*MinerDeal) } func NewHandler(ds dtypes.MetadataDS, secst *sectorblocks.SectorBlocks, dag dtypes.StagingDAG, fullNode api.FullNode) (*Handler, error) { addr, err := ds.Get(datastore.NewKey("miner-address")) if err != nil { return nil, err } minerAddress, err := address.NewFromBytes(addr) if err != nil { return nil, err } return &Handler{ secst: secst, dag: dag, full: fullNode, pricePerByteBlock: types.NewInt(3), // TODO: allow setting conns: map[cid.Cid]inet.Stream{}, incoming: make(chan MinerDeal), updated: make(chan dealUpdate), stop: make(chan struct{}), stopped: make(chan struct{}), actor: minerAddress, deals: StateStore{ds: namespace.Wrap(ds, datastore.NewKey("/deals/client"))}, }, nil } func (h *Handler) Run(ctx context.Context) { // TODO: restore state go func() { defer log.Error("quitting deal handler loop") defer close(h.stopped) for { select { case deal := <-h.incoming: // Accepted h.onIncoming(deal) case update := <-h.updated: // Staged h.onUpdated(ctx, update) case <-h.stop: return } } }() } func (h *Handler) onIncoming(deal MinerDeal) { log.Info("incoming deal") h.conns[deal.ProposalCid] = deal.s if err := h.deals.Begin(deal.ProposalCid, deal); err != nil { // This can happen when client re-sends proposal h.failDeal(deal.ProposalCid, err) log.Errorf("deal tracking failed: %s", err) return } go func() { h.updated <- dealUpdate{ newState: Accepted, id: deal.ProposalCid, err: nil, } }() } func (h *Handler) onUpdated(ctx context.Context, update dealUpdate) { log.Infof("Deal %s updated state to %d", update.id, update.newState) if update.err != nil { log.Errorf("deal %s failed: %s", update.id, update.err) h.failDeal(update.id, update.err) return } var deal MinerDeal err := h.deals.MutateMiner(update.id, func(d *MinerDeal) error { d.State = update.newState if update.mut != nil { update.mut(d) } deal = *d return nil }) if err != nil { h.failDeal(update.id, err) return } switch update.newState { case Accepted: h.handle(ctx, deal, h.accept, Staged) case Staged: h.handle(ctx, deal, h.staged, Sealing) case Sealing: h.handle(ctx, deal, h.sealing, Complete) } } func (h *Handler) newDeal(s inet.Stream, proposal StorageDealProposal) (MinerDeal, error) { // TODO: Review: Not signed? proposalNd, err := cbor.WrapObject(proposal, math.MaxUint64, -1) if err != nil { return MinerDeal{}, err } ref, err := cid.Parse(proposal.PieceRef) if err != nil { return MinerDeal{}, err } return MinerDeal{ Client: s.Conn().RemotePeer(), Proposal: proposal, ProposalCid: proposalNd.Cid(), State: Unknown, Ref: ref, s: s, }, nil } func (h *Handler) HandleStream(s inet.Stream) { log.Info("Handling storage deal proposal!") proposal, err := h.readProposal(s) if err != nil { log.Error(err) s.Close() return } deal, err := h.newDeal(s, proposal.Proposal) if err != nil { log.Error(err) s.Close() return } h.incoming <- deal } func (h *Handler) Stop() { close(h.stop) <-h.stopped }