package main import ( "bytes" "container/list" "context" "encoding/json" "fmt" "math" "sync" "time" "github.com/filecoin-project/go-address" "github.com/ipfs/go-cid" cbg "github.com/whyrusleeping/cbor-gen" "github.com/filecoin-project/specs-actors/actors/abi" "github.com/filecoin-project/specs-actors/actors/abi/big" "github.com/filecoin-project/specs-actors/actors/builtin" "github.com/filecoin-project/specs-actors/actors/builtin/miner" "github.com/filecoin-project/specs-actors/actors/builtin/power" "github.com/filecoin-project/specs-actors/actors/util/adt" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/chain/store" "github.com/filecoin-project/lotus/chain/types" parmap "github.com/filecoin-project/lotus/lib/parmap" ) func runSyncer(ctx context.Context, api api.FullNode, st *storage, maxBatch int) { notifs, err := api.ChainNotify(ctx) if err != nil { panic(err) } go func() { for notif := range notifs { for _, change := range notif { switch change.Type { case store.HCCurrent: fallthrough case store.HCApply: syncHead(ctx, api, st, change.Val, maxBatch) case store.HCRevert: log.Warnf("revert todo") } if change.Type == store.HCCurrent { go subMpool(ctx, api, st) go subBlocks(ctx, api, st) } } } }() } type minerStateInfo struct { // common addr address.Address act types.Actor stateroot cid.Cid // miner specific state miner.State info miner.MinerInfo // tracked by power actor rawPower big.Int qalPower big.Int ssize uint64 psize uint64 } type actorInfo struct { stateroot cid.Cid tsKey types.TipSetKey state string } func syncHead(ctx context.Context, api api.FullNode, st *storage, headTs *types.TipSet, maxBatch int) { var alk sync.Mutex log.Infof("Getting synced block list") hazlist := st.hasList() log.Infof("Getting headers / actors") // global list of all blocks that need to be synced allToSync := map[cid.Cid]*types.BlockHeader{} // a stack toVisit := list.New() for _, header := range headTs.Blocks() { toVisit.PushBack(header) } // TODO consider making a db query to check where syncing left off at in the case of a restart and avoid reprocessing // those entries, or write value to file on shutdown // walk the entire chain starting from headTS for toVisit.Len() > 0 { bh := toVisit.Remove(toVisit.Back()).(*types.BlockHeader) _, has := hazlist[bh.Cid()] if _, seen := allToSync[bh.Cid()]; seen || has { continue } allToSync[bh.Cid()] = bh if len(allToSync)%500 == 10 { log.Debugf("to visit: (%d) %s @%d", len(allToSync), bh.Cid(), bh.Height) } if len(bh.Parents) == 0 { continue } pts, err := api.ChainGetTipSet(ctx, types.NewTipSetKey(bh.Parents...)) if err != nil { log.Error(err) continue } for _, header := range pts.Blocks() { toVisit.PushBack(header) } } // Main worker loop, this loop runs until all tipse from headTS to genesis have been processed. for len(allToSync) > 0 { // first map is addresses -> common actors states (head, code, balance, nonce) // second map common actor states -> chain state (tipset, stateroot) & unique actor state (deserialization of their head CID) represented as json. actors := map[address.Address]map[types.Actor]actorInfo{} // map of actor public key address to ID address addressToID := map[address.Address]address.Address{} minH := abi.ChainEpoch(math.MaxInt64) // find the blockheader with the lowest height for _, header := range allToSync { if header.Height < minH { minH = header.Height } } // toSync maps block cids to their headers and contains all block headers that will be synced in this batch // `maxBatch` is a tunable parameter to control how many blocks we sync per iteration. toSync := map[cid.Cid]*types.BlockHeader{} for c, header := range allToSync { if header.Height < minH+abi.ChainEpoch(maxBatch) { toSync[c] = header addressToID[header.Miner] = address.Undef } } // remove everything we are syncing this round from the global list of blocks to sync for c := range toSync { delete(allToSync, c) } log.Infow("Starting Sync", "height", minH, "numBlocks", len(toSync), "maxBatch", maxBatch) // map of addresses to changed actors var changes map[string]types.Actor // collect all actor state that has changes between block headers paDone := 0 parmap.Par(50, parmap.MapArr(toSync), func(bh *types.BlockHeader) { paDone++ if paDone%100 == 0 { log.Infof("pa: %d %d%%", paDone, (paDone*100)/len(toSync)) } if len(bh.Parents) == 0 { // genesis case genesisTs, _ := types.NewTipSet([]*types.BlockHeader{bh}) aadrs, err := api.StateListActors(ctx, genesisTs.Key()) if err != nil { log.Error(err) return } // TODO suspicious there is not a lot to be gained by doing this in parallel since the genesis state // is unlikely to contain a lot of actors, why not for loop here? parmap.Par(50, aadrs, func(addr address.Address) { act, err := api.StateGetActor(ctx, addr, genesisTs.Key()) if err != nil { log.Error(err) return } ast, err := api.StateReadState(ctx, addr, genesisTs.Key()) if err != nil { log.Error(err) return } state, err := json.Marshal(ast.State) if err != nil { log.Error(err) return } alk.Lock() _, ok := actors[addr] if !ok { actors[addr] = map[types.Actor]actorInfo{} } actors[addr][*act] = actorInfo{ stateroot: bh.ParentStateRoot, tsKey: genesisTs.Key(), state: string(state), } addressToID[addr] = address.Undef alk.Unlock() }) return } pts, err := api.ChainGetTipSet(ctx, types.NewTipSetKey(bh.Parents...)) if err != nil { log.Error(err) return } // TODO Does this return actors that have been deleted between states? // collect all actors that had state changes between the blockheader parent-state and its grandparent-state. changes, err = api.StateChangedActors(ctx, pts.ParentState(), bh.ParentStateRoot) if err != nil { log.Error(err) return } // record the state of all actors that have changed for a, act := range changes { act := act addr, err := address.NewFromString(a) if err != nil { log.Error(err) return } ast, err := api.StateReadState(ctx, addr, pts.Key()) if err != nil { log.Error(err) return } state, err := json.Marshal(ast.State) if err != nil { log.Error(err) return } alk.Lock() _, ok := actors[addr] if !ok { actors[addr] = map[types.Actor]actorInfo{} } // a change occurred for the actor with address `addr` and state `act` at tipset `pts`. actors[addr][act] = actorInfo{ stateroot: bh.ParentStateRoot, state: string(state), tsKey: pts.Key(), } addressToID[addr] = address.Undef alk.Unlock() } }) // map of tipset to all miners that had a head-change at that tipset. minerTips := make(map[types.TipSetKey][]*minerStateInfo, len(changes)) // heads we've seen, im being paranoid headsSeen := make(map[cid.Cid]struct{}, len(actors)) log.Infof("Getting messages") msgs, incls := fetchMessages(ctx, api, toSync) log.Infof("Resolving addresses") for _, message := range msgs { addressToID[message.To] = address.Undef addressToID[message.From] = address.Undef } parmap.Par(50, parmap.KMapArr(addressToID), func(addr address.Address) { // FIXME: cannot use EmptyTSK here since actorID's can change during reorgs, need to use the corresponding tipset. // TODO: figure out a way to get the corresponding tipset... raddr, err := api.StateLookupID(ctx, addr, types.EmptyTSK) if err != nil { log.Warn(err) return } alk.Lock() addressToID[addr] = raddr alk.Unlock() }) log.Infof("Getting miner info") minerChanges := 0 for addr, m := range actors { for actor, c := range m { if actor.Code != builtin.StorageMinerActorCodeID { continue } // only want miner actors with head change events if _, found := headsSeen[actor.Head]; found { continue } minerChanges++ minerTips[c.tsKey] = append(minerTips[c.tsKey], &minerStateInfo{ addr: addr, act: actor, stateroot: c.stateroot, state: miner.State{}, info: miner.MinerInfo{}, rawPower: big.Zero(), qalPower: big.Zero(), }) headsSeen[actor.Head] = struct{}{} } } minerProcessingStartedAt := time.Now() log.Infow("Processing miners", "numTips", len(minerTips), "numMinerChanges", minerChanges) // extract the power actor state at each tipset, loop over all miners that changed at said tipset and extract their // claims from the power actor state. This ensures we only fetch the power actors state once for each tipset. parmap.Par(50, parmap.KVMapArr(minerTips), func(it func() (types.TipSetKey, []*minerStateInfo)) { tsKey, minerInfo := it() // get the power actors claims map mp, err := getPowerActorClaimsMap(ctx, api, tsKey) if err != nil { log.Error(err) return } // Get miner raw and quality power for _, mi := range minerInfo { var claim power.Claim // get miner claim from power actors claim map and store if found, else the miner had no claim at // this tipset found, err := mp.Get(adt.AddrKey(mi.addr), &claim) if err != nil { log.Error(err) } if found { mi.qalPower = claim.QualityAdjPower mi.rawPower = claim.RawBytePower } // Get the miner state info astb, err := api.ChainReadObj(ctx, mi.act.Head) if err != nil { log.Error(err) return } if err := mi.state.UnmarshalCBOR(bytes.NewReader(astb)); err != nil { log.Error(err) return } mi.info = mi.state.Info } // TODO Get the Sector Count // FIXME this is returning a lot of "address not found" errors, which is strange given that StateChangedActors // retruns all actors that had a state change at tipset `k.tsKey`, maybe its returning deleted miners too?? /* sszs, err := api.StateMinerSectorCount(ctx, k.addr, k.tsKey) if err != nil { info.psize = 0 info.ssize = 0 } else { info.psize = sszs.Pset info.ssize = sszs.Sset } */ }) log.Infow("Completed Miner Processing", "duration", time.Since(minerProcessingStartedAt).String(), "processed", minerChanges) log.Info("Getting receipts") receipts := fetchParentReceipts(ctx, api, toSync) log.Info("Storing headers") if err := st.storeHeaders(toSync, true); err != nil { log.Errorf("%+v", err) return } log.Info("Storing address mapping") if err := st.storeAddressMap(addressToID); err != nil { log.Error(err) return } log.Info("Storing actors") if err := st.storeActors(actors); err != nil { log.Error(err) return } log.Info("Storing miners") if err := st.storeMiners(minerTips); err != nil { log.Error(err) return } log.Info("Storing miner sectors") sectorStart := time.Now() if err := st.storeSectors(minerTips, api); err != nil { log.Error(err) return } log.Infow("Finished storing miner sectors", "duration", time.Since(sectorStart).String()) log.Info("Storing miner sectors heads") if err := st.storeMinerSectorsHeads(minerTips, api); err != nil { log.Error(err) return } log.Infof("Storing messages") if err := st.storeMessages(msgs); err != nil { log.Error(err) return } log.Info("Storing message inclusions") if err := st.storeMsgInclusions(incls); err != nil { log.Error(err) return } log.Infof("Storing parent receipts") if err := st.storeReceipts(receipts); err != nil { log.Error(err) return } log.Infof("Sync stage done") } log.Infof("Get deals") // TODO: incremental, gather expired deals, err := api.StateMarketDeals(ctx, headTs.Key()) if err != nil { log.Error(err) return } log.Infof("Store deals") if err := st.storeDeals(deals); err != nil { log.Error(err) return } log.Infof("Refresh views") if err := st.refreshViews(); err != nil { log.Error(err) return } log.Infof("Sync done") } func fetchMessages(ctx context.Context, api api.FullNode, toSync map[cid.Cid]*types.BlockHeader) (map[cid.Cid]*types.Message, map[cid.Cid][]cid.Cid) { var lk sync.Mutex messages := map[cid.Cid]*types.Message{} inclusions := map[cid.Cid][]cid.Cid{} // block -> msgs parmap.Par(50, parmap.MapArr(toSync), func(header *types.BlockHeader) { msgs, err := api.ChainGetBlockMessages(ctx, header.Cid()) if err != nil { log.Error(err) return } vmm := make([]*types.Message, 0, len(msgs.Cids)) for _, m := range msgs.BlsMessages { vmm = append(vmm, m) } for _, m := range msgs.SecpkMessages { vmm = append(vmm, &m.Message) } lk.Lock() for _, message := range vmm { messages[message.Cid()] = message inclusions[header.Cid()] = append(inclusions[header.Cid()], message.Cid()) } lk.Unlock() }) return messages, inclusions } type mrec struct { msg cid.Cid state cid.Cid idx int } func fetchParentReceipts(ctx context.Context, api api.FullNode, toSync map[cid.Cid]*types.BlockHeader) map[mrec]*types.MessageReceipt { var lk sync.Mutex out := map[mrec]*types.MessageReceipt{} parmap.Par(50, parmap.MapArr(toSync), func(header *types.BlockHeader) { recs, err := api.ChainGetParentReceipts(ctx, header.Cid()) if err != nil { log.Error(err) return } msgs, err := api.ChainGetParentMessages(ctx, header.Cid()) if err != nil { log.Error(err) return } lk.Lock() for i, r := range recs { out[mrec{ msg: msgs[i].Cid, state: header.ParentStateRoot, idx: i, }] = r } lk.Unlock() }) return out } // load the power actor state clam as an adt.Map at the tipset `ts`. func getPowerActorClaimsMap(ctx context.Context, api api.FullNode, ts types.TipSetKey) (*adt.Map, error) { powerActor, err := api.StateGetActor(ctx, builtin.StoragePowerActorAddr, ts) if err != nil { return nil, err } powerRaw, err := api.ChainReadObj(ctx, powerActor.Head) if err != nil { return nil, err } var powerActorState power.State if err := powerActorState.UnmarshalCBOR(bytes.NewReader(powerRaw)); err != nil { return nil, fmt.Errorf("failed to unmarshal power actor state: %w", err) } s := &apiIpldStore{ctx, api} return adt.AsMap(s, powerActorState.Claims) } // require for AMT and HAMT access // TODO extract this to a common location in lotus and reuse the code type apiIpldStore struct { ctx context.Context api api.FullNode } func (ht *apiIpldStore) Context() context.Context { return ht.ctx } func (ht *apiIpldStore) Get(ctx context.Context, c cid.Cid, out interface{}) error { raw, err := ht.api.ChainReadObj(ctx, c) if err != nil { return err } cu, ok := out.(cbg.CBORUnmarshaler) if ok { if err := cu.UnmarshalCBOR(bytes.NewReader(raw)); err != nil { return err } return nil } return fmt.Errorf("Object does not implement CBORUnmarshaler: %T", out) } func (ht *apiIpldStore) Put(ctx context.Context, v interface{}) (cid.Cid, error) { return cid.Undef, fmt.Errorf("Put is not implemented on apiIpldStore") }