package stmgr import ( "context" "github.com/ipfs/go-cid" cbor "github.com/ipfs/go-ipld-cbor" "golang.org/x/xerrors" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/big" msig0 "github.com/filecoin-project/specs-actors/actors/builtin/multisig" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/actors/adt" "github.com/filecoin-project/lotus/chain/actors/builtin" _init "github.com/filecoin-project/lotus/chain/actors/builtin/init" "github.com/filecoin-project/lotus/chain/actors/builtin/market" "github.com/filecoin-project/lotus/chain/actors/builtin/miner" "github.com/filecoin-project/lotus/chain/actors/builtin/multisig" "github.com/filecoin-project/lotus/chain/actors/builtin/power" "github.com/filecoin-project/lotus/chain/actors/builtin/reward" "github.com/filecoin-project/lotus/chain/actors/builtin/verifreg" "github.com/filecoin-project/lotus/chain/state" "github.com/filecoin-project/lotus/chain/types" ) // sets up information about the vesting schedule func (sm *StateManager) setupGenesisVestingSchedule(ctx context.Context) error { gb, err := sm.cs.GetGenesis(ctx) if err != nil { return xerrors.Errorf("getting genesis block: %w", err) } gts, err := types.NewTipSet([]*types.BlockHeader{gb}) if err != nil { return xerrors.Errorf("getting genesis tipset: %w", err) } st, _, err := sm.TipSetState(ctx, gts) if err != nil { return xerrors.Errorf("getting genesis tipset state: %w", err) } cst := cbor.NewCborStore(sm.cs.StateBlockstore()) sTree, err := state.LoadStateTree(cst, st) if err != nil { return xerrors.Errorf("loading state tree: %w", err) } gmf, err := getFilMarketLocked(ctx, sTree) if err != nil { return xerrors.Errorf("setting up genesis market funds: %w", err) } gp, err := getFilPowerLocked(ctx, sTree) if err != nil { return xerrors.Errorf("setting up genesis pledge: %w", err) } sm.genesisMarketFunds = gmf sm.genesisPledge = gp totalsByEpoch := make(map[abi.ChainEpoch]abi.TokenAmount) // 6 months sixMonths := abi.ChainEpoch(183 * builtin.EpochsInDay) totalsByEpoch[sixMonths] = big.NewInt(49_929_341) totalsByEpoch[sixMonths] = big.Add(totalsByEpoch[sixMonths], big.NewInt(32_787_700)) // 1 year oneYear := abi.ChainEpoch(365 * builtin.EpochsInDay) totalsByEpoch[oneYear] = big.NewInt(22_421_712) // 2 years twoYears := abi.ChainEpoch(2 * 365 * builtin.EpochsInDay) totalsByEpoch[twoYears] = big.NewInt(7_223_364) // 3 years threeYears := abi.ChainEpoch(3 * 365 * builtin.EpochsInDay) totalsByEpoch[threeYears] = big.NewInt(87_637_883) // 6 years sixYears := abi.ChainEpoch(6 * 365 * builtin.EpochsInDay) totalsByEpoch[sixYears] = big.NewInt(100_000_000) totalsByEpoch[sixYears] = big.Add(totalsByEpoch[sixYears], big.NewInt(300_000_000)) sm.preIgnitionVesting = make([]msig0.State, 0, len(totalsByEpoch)) for k, v := range totalsByEpoch { ns := msig0.State{ InitialBalance: v, UnlockDuration: k, PendingTxns: cid.Undef, } sm.preIgnitionVesting = append(sm.preIgnitionVesting, ns) } return nil } // sets up information about the vesting schedule post the ignition upgrade func (sm *StateManager) setupPostIgnitionVesting(ctx context.Context) error { totalsByEpoch := make(map[abi.ChainEpoch]abi.TokenAmount) // 6 months sixMonths := abi.ChainEpoch(183 * builtin.EpochsInDay) totalsByEpoch[sixMonths] = big.NewInt(49_929_341) totalsByEpoch[sixMonths] = big.Add(totalsByEpoch[sixMonths], big.NewInt(32_787_700)) // 1 year oneYear := abi.ChainEpoch(365 * builtin.EpochsInDay) totalsByEpoch[oneYear] = big.NewInt(22_421_712) // 2 years twoYears := abi.ChainEpoch(2 * 365 * builtin.EpochsInDay) totalsByEpoch[twoYears] = big.NewInt(7_223_364) // 3 years threeYears := abi.ChainEpoch(3 * 365 * builtin.EpochsInDay) totalsByEpoch[threeYears] = big.NewInt(87_637_883) // 6 years sixYears := abi.ChainEpoch(6 * 365 * builtin.EpochsInDay) totalsByEpoch[sixYears] = big.NewInt(100_000_000) totalsByEpoch[sixYears] = big.Add(totalsByEpoch[sixYears], big.NewInt(300_000_000)) sm.postIgnitionVesting = make([]msig0.State, 0, len(totalsByEpoch)) for k, v := range totalsByEpoch { ns := msig0.State{ // In the pre-ignition logic, we incorrectly set this value in Fil, not attoFil, an off-by-10^18 error InitialBalance: big.Mul(v, big.NewInt(int64(build.FilecoinPrecision))), UnlockDuration: k, PendingTxns: cid.Undef, // In the pre-ignition logic, the start epoch was 0. This changes in the fork logic of the Ignition upgrade itself. StartEpoch: build.UpgradeLiftoffHeight, } sm.postIgnitionVesting = append(sm.postIgnitionVesting, ns) } return nil } // sets up information about the vesting schedule post the calico upgrade func (sm *StateManager) setupPostCalicoVesting(ctx context.Context) error { totalsByEpoch := make(map[abi.ChainEpoch]abi.TokenAmount) // 0 days zeroDays := abi.ChainEpoch(0) totalsByEpoch[zeroDays] = big.NewInt(10_632_000) // 6 months sixMonths := abi.ChainEpoch(183 * builtin.EpochsInDay) totalsByEpoch[sixMonths] = big.NewInt(19_015_887) totalsByEpoch[sixMonths] = big.Add(totalsByEpoch[sixMonths], big.NewInt(32_787_700)) // 1 year oneYear := abi.ChainEpoch(365 * builtin.EpochsInDay) totalsByEpoch[oneYear] = big.NewInt(22_421_712) totalsByEpoch[oneYear] = big.Add(totalsByEpoch[oneYear], big.NewInt(9_400_000)) // 2 years twoYears := abi.ChainEpoch(2 * 365 * builtin.EpochsInDay) totalsByEpoch[twoYears] = big.NewInt(7_223_364) // 3 years threeYears := abi.ChainEpoch(3 * 365 * builtin.EpochsInDay) totalsByEpoch[threeYears] = big.NewInt(87_637_883) totalsByEpoch[threeYears] = big.Add(totalsByEpoch[threeYears], big.NewInt(898_958)) // 6 years sixYears := abi.ChainEpoch(6 * 365 * builtin.EpochsInDay) totalsByEpoch[sixYears] = big.NewInt(100_000_000) totalsByEpoch[sixYears] = big.Add(totalsByEpoch[sixYears], big.NewInt(300_000_000)) totalsByEpoch[sixYears] = big.Add(totalsByEpoch[sixYears], big.NewInt(9_805_053)) sm.postCalicoVesting = make([]msig0.State, 0, len(totalsByEpoch)) for k, v := range totalsByEpoch { ns := msig0.State{ InitialBalance: big.Mul(v, big.NewInt(int64(build.FilecoinPrecision))), UnlockDuration: k, PendingTxns: cid.Undef, StartEpoch: build.UpgradeLiftoffHeight, } sm.postCalicoVesting = append(sm.postCalicoVesting, ns) } return nil } // GetVestedFunds returns all funds that have "left" actors that are in the genesis state: // - For Multisigs, it counts the actual amounts that have vested at the given epoch // - For Accounts, it counts max(currentBalance - genesisBalance, 0). func (sm *StateManager) GetFilVested(ctx context.Context, height abi.ChainEpoch) (abi.TokenAmount, error) { vf := big.Zero() sm.genesisMsigLk.Lock() defer sm.genesisMsigLk.Unlock() // TODO: combine all this? if sm.preIgnitionVesting == nil || sm.genesisPledge.IsZero() || sm.genesisMarketFunds.IsZero() { err := sm.setupGenesisVestingSchedule(ctx) if err != nil { return vf, xerrors.Errorf("failed to setup pre-ignition vesting schedule: %w", err) } } if sm.postIgnitionVesting == nil { err := sm.setupPostIgnitionVesting(ctx) if err != nil { return vf, xerrors.Errorf("failed to setup post-ignition vesting schedule: %w", err) } } if sm.postCalicoVesting == nil { err := sm.setupPostCalicoVesting(ctx) if err != nil { return vf, xerrors.Errorf("failed to setup post-calico vesting schedule: %w", err) } } if height <= build.UpgradeIgnitionHeight { for _, v := range sm.preIgnitionVesting { au := big.Sub(v.InitialBalance, v.AmountLocked(height)) vf = big.Add(vf, au) } } else if height <= build.UpgradeCalicoHeight { for _, v := range sm.postIgnitionVesting { // In the pre-ignition logic, we simply called AmountLocked(height), assuming startEpoch was 0. // The start epoch changed in the Ignition upgrade. au := big.Sub(v.InitialBalance, v.AmountLocked(height-v.StartEpoch)) vf = big.Add(vf, au) } } else { for _, v := range sm.postCalicoVesting { // In the pre-ignition logic, we simply called AmountLocked(height), assuming startEpoch was 0. // The start epoch changed in the Ignition upgrade. au := big.Sub(v.InitialBalance, v.AmountLocked(height-v.StartEpoch)) vf = big.Add(vf, au) } } // After UpgradeAssemblyHeight these funds are accounted for in GetFilReserveDisbursed if height <= build.UpgradeAssemblyHeight { // continue to use preIgnitionGenInfos, nothing changed at the Ignition epoch vf = big.Add(vf, sm.genesisPledge) // continue to use preIgnitionGenInfos, nothing changed at the Ignition epoch vf = big.Add(vf, sm.genesisMarketFunds) } return vf, nil } func GetFilReserveDisbursed(ctx context.Context, st *state.StateTree) (abi.TokenAmount, error) { ract, err := st.GetActor(builtin.ReserveAddress) if err != nil { return big.Zero(), xerrors.Errorf("failed to get reserve actor: %w", err) } // If money enters the reserve actor, this could lead to a negative term return big.Sub(big.NewFromGo(build.InitialFilReserved), ract.Balance), nil } func GetFilMined(ctx context.Context, st *state.StateTree) (abi.TokenAmount, error) { ractor, err := st.GetActor(reward.Address) if err != nil { return big.Zero(), xerrors.Errorf("failed to load reward actor state: %w", err) } rst, err := reward.Load(adt.WrapStore(ctx, st.Store), ractor) if err != nil { return big.Zero(), err } return rst.TotalStoragePowerReward() } func getFilMarketLocked(ctx context.Context, st *state.StateTree) (abi.TokenAmount, error) { act, err := st.GetActor(market.Address) if err != nil { return big.Zero(), xerrors.Errorf("failed to load market actor: %w", err) } mst, err := market.Load(adt.WrapStore(ctx, st.Store), act) if err != nil { return big.Zero(), xerrors.Errorf("failed to load market state: %w", err) } return mst.TotalLocked() } func getFilPowerLocked(ctx context.Context, st *state.StateTree) (abi.TokenAmount, error) { pactor, err := st.GetActor(power.Address) if err != nil { return big.Zero(), xerrors.Errorf("failed to load power actor: %w", err) } pst, err := power.Load(adt.WrapStore(ctx, st.Store), pactor) if err != nil { return big.Zero(), xerrors.Errorf("failed to load power state: %w", err) } return pst.TotalLocked() } func GetFilLocked(ctx context.Context, st *state.StateTree) (abi.TokenAmount, error) { filMarketLocked, err := getFilMarketLocked(ctx, st) if err != nil { return big.Zero(), xerrors.Errorf("failed to get filMarketLocked: %w", err) } filPowerLocked, err := getFilPowerLocked(ctx, st) if err != nil { return big.Zero(), xerrors.Errorf("failed to get filPowerLocked: %w", err) } return types.BigAdd(filMarketLocked, filPowerLocked), nil } func GetFilBurnt(ctx context.Context, st *state.StateTree) (abi.TokenAmount, error) { burnt, err := st.GetActor(builtin.BurntFundsActorAddr) if err != nil { return big.Zero(), xerrors.Errorf("failed to load burnt actor: %w", err) } return burnt.Balance, nil } func (sm *StateManager) GetVMCirculatingSupply(ctx context.Context, height abi.ChainEpoch, st *state.StateTree) (abi.TokenAmount, error) { cs, err := sm.GetVMCirculatingSupplyDetailed(ctx, height, st) if err != nil { return types.EmptyInt, err } return cs.FilCirculating, err } func (sm *StateManager) GetVMCirculatingSupplyDetailed(ctx context.Context, height abi.ChainEpoch, st *state.StateTree) (api.CirculatingSupply, error) { filVested, err := sm.GetFilVested(ctx, height) if err != nil { return api.CirculatingSupply{}, xerrors.Errorf("failed to calculate filVested: %w", err) } filReserveDisbursed := big.Zero() if height > build.UpgradeAssemblyHeight { filReserveDisbursed, err = GetFilReserveDisbursed(ctx, st) if err != nil { return api.CirculatingSupply{}, xerrors.Errorf("failed to calculate filReserveDisbursed: %w", err) } } filMined, err := GetFilMined(ctx, st) if err != nil { return api.CirculatingSupply{}, xerrors.Errorf("failed to calculate filMined: %w", err) } filBurnt, err := GetFilBurnt(ctx, st) if err != nil { return api.CirculatingSupply{}, xerrors.Errorf("failed to calculate filBurnt: %w", err) } filLocked, err := GetFilLocked(ctx, st) if err != nil { return api.CirculatingSupply{}, xerrors.Errorf("failed to calculate filLocked: %w", err) } ret := types.BigAdd(filVested, filMined) ret = types.BigAdd(ret, filReserveDisbursed) ret = types.BigSub(ret, filBurnt) ret = types.BigSub(ret, filLocked) if ret.LessThan(big.Zero()) { ret = big.Zero() } return api.CirculatingSupply{ FilVested: filVested, FilMined: filMined, FilBurnt: filBurnt, FilLocked: filLocked, FilCirculating: ret, FilReserveDisbursed: filReserveDisbursed, }, nil } func (sm *StateManager) GetCirculatingSupply(ctx context.Context, height abi.ChainEpoch, st *state.StateTree) (abi.TokenAmount, error) { circ := big.Zero() unCirc := big.Zero() err := st.ForEach(func(a address.Address, actor *types.Actor) error { switch { case actor.Balance.IsZero(): // Do nothing for zero-balance actors break case a == _init.Address || a == reward.Address || a == verifreg.Address || // The power actor itself should never receive funds a == power.Address || a == builtin.SystemActorAddr || a == builtin.CronActorAddr || a == builtin.BurntFundsActorAddr || a == builtin.SaftAddress || a == builtin.ReserveAddress || a == builtin.EthereumAddressManager: unCirc = big.Add(unCirc, actor.Balance) case a == market.Address: mst, err := market.Load(sm.cs.ActorStore(ctx), actor) if err != nil { return err } lb, err := mst.TotalLocked() if err != nil { return err } circ = big.Add(circ, big.Sub(actor.Balance, lb)) unCirc = big.Add(unCirc, lb) case builtin.IsAccountActor(actor.Code) || builtin.IsPaymentChannelActor(actor.Code) || builtin.IsEthAccountActor(actor.Code) || builtin.IsEvmActor(actor.Code) || builtin.IsPlaceholderActor(actor.Code): circ = big.Add(circ, actor.Balance) case builtin.IsStorageMinerActor(actor.Code): mst, err := miner.Load(sm.cs.ActorStore(ctx), actor) if err != nil { return err } ab, err := mst.AvailableBalance(actor.Balance) if err == nil { circ = big.Add(circ, ab) unCirc = big.Add(unCirc, big.Sub(actor.Balance, ab)) } else { // Assume any error is because the miner state is "broken" (lower actor balance than locked funds) // In this case, the actor's entire balance is considered "uncirculating" unCirc = big.Add(unCirc, actor.Balance) } case builtin.IsMultisigActor(actor.Code): mst, err := multisig.Load(sm.cs.ActorStore(ctx), actor) if err != nil { return err } lb, err := mst.LockedBalance(height) if err != nil { return err } ab := big.Sub(actor.Balance, lb) circ = big.Add(circ, big.Max(ab, big.Zero())) unCirc = big.Add(unCirc, big.Min(actor.Balance, lb)) default: return xerrors.Errorf("unexpected actor: %s", a) } return nil }) if err != nil { return types.EmptyInt, err } total := big.Add(circ, unCirc) if !total.Equals(types.TotalFilecoinInt) { return types.EmptyInt, xerrors.Errorf("total filecoin didn't add to expected amount: %s != %s", total, types.TotalFilecoinInt) } return circ, nil }