package vm import ( "fmt" proof2 "github.com/filecoin-project/specs-actors/v2/actors/runtime/proof" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/big" "github.com/filecoin-project/go-state-types/crypto" "github.com/filecoin-project/lotus/chain/actors/builtin" ) type scalingCost struct { flat int64 scale int64 } type pricelistV0 struct { computeGasMulti int64 storageGasMulti int64 /////////////////////////////////////////////////////////////////////////// // System operations /////////////////////////////////////////////////////////////////////////// // Gas cost charged to the originator of an on-chain message (regardless of // whether it succeeds or fails in application) is given by: // OnChainMessageBase + len(serialized message)*OnChainMessagePerByte // Together, these account for the cost of message propagation and validation, // up to but excluding any actual processing by the VM. // This is the cost a block producer burns when including an invalid message. onChainMessageComputeBase int64 onChainMessageStorageBase int64 onChainMessageStoragePerByte int64 // Gas cost charged to the originator of a non-nil return value produced // by an on-chain message is given by: // len(return value)*OnChainReturnValuePerByte onChainReturnValuePerByte int64 // Gas cost for any message send execution(including the top-level one // initiated by an on-chain message). // This accounts for the cost of loading sender and receiver actors and // (for top-level messages) incrementing the sender's sequence number. // Load and store of actor sub-state is charged separately. sendBase int64 // Gas cost charged, in addition to SendBase, if a message send // is accompanied by any nonzero currency amount. // Accounts for writing receiver's new balance (the sender's state is // already accounted for). sendTransferFunds int64 // Gsa cost charged, in addition to SendBase, if message only transfers funds. sendTransferOnlyPremium int64 // Gas cost charged, in addition to SendBase, if a message invokes // a method on the receiver. // Accounts for the cost of loading receiver code and method dispatch. sendInvokeMethod int64 // Gas cost for any Get operation to the IPLD store // in the runtime VM context. ipldGetBase int64 // Gas cost (Base + len*PerByte) for any Put operation to the IPLD store // in the runtime VM context. // // Note: these costs should be significantly higher than the costs for Get // operations, since they reflect not only serialization/deserialization // but also persistent storage of chain data. ipldPutBase int64 ipldPutPerByte int64 // Gas cost for creating a new actor (via InitActor's Exec method). // // Note: this costs assume that the extra will be partially or totally refunded while // the base is covering for the put. createActorCompute int64 createActorStorage int64 // Gas cost for deleting an actor. // // Note: this partially refunds the create cost to incentivise the deletion of the actors. deleteActor int64 verifySignature map[crypto.SigType]int64 hashingBase int64 computeUnsealedSectorCidBase int64 verifySealBase int64 verifyAggregateSealBase int64 verifyPostLookup map[abi.RegisteredPoStProof]scalingCost verifyPostDiscount bool verifyConsensusFault int64 } var _ Pricelist = (*pricelistV0)(nil) // OnChainMessage returns the gas used for storing a message of a given size in the chain. func (pl *pricelistV0) OnChainMessage(msgSize int) GasCharge { return newGasCharge("OnChainMessage", pl.onChainMessageComputeBase, (pl.onChainMessageStorageBase+pl.onChainMessageStoragePerByte*int64(msgSize))*pl.storageGasMulti) } // OnChainReturnValue returns the gas used for storing the response of a message in the chain. func (pl *pricelistV0) OnChainReturnValue(dataSize int) GasCharge { return newGasCharge("OnChainReturnValue", 0, int64(dataSize)*pl.onChainReturnValuePerByte*pl.storageGasMulti) } // OnMethodInvocation returns the gas used when invoking a method. func (pl *pricelistV0) OnMethodInvocation(value abi.TokenAmount, methodNum abi.MethodNum) GasCharge { ret := pl.sendBase extra := "" if big.Cmp(value, abi.NewTokenAmount(0)) != 0 { ret += pl.sendTransferFunds if methodNum == builtin.MethodSend { // transfer only ret += pl.sendTransferOnlyPremium } extra += "t" } if methodNum != builtin.MethodSend { extra += "i" // running actors is cheaper becase we hand over to actors ret += pl.sendInvokeMethod } return newGasCharge("OnMethodInvocation", ret, 0).WithExtra(extra) } // OnIpldGet returns the gas used for storing an object func (pl *pricelistV0) OnIpldGet() GasCharge { return newGasCharge("OnIpldGet", pl.ipldGetBase, 0).WithVirtual(114617, 0) } // OnIpldPut returns the gas used for storing an object func (pl *pricelistV0) OnIpldPut(dataSize int) GasCharge { return newGasCharge("OnIpldPut", pl.ipldPutBase, int64(dataSize)*pl.ipldPutPerByte*pl.storageGasMulti). WithExtra(dataSize).WithVirtual(400000, int64(dataSize)*1300) } // OnCreateActor returns the gas used for creating an actor func (pl *pricelistV0) OnCreateActor() GasCharge { return newGasCharge("OnCreateActor", pl.createActorCompute, pl.createActorStorage*pl.storageGasMulti) } // OnDeleteActor returns the gas used for deleting an actor func (pl *pricelistV0) OnDeleteActor() GasCharge { return newGasCharge("OnDeleteActor", 0, pl.deleteActor*pl.storageGasMulti) } // OnVerifySignature func (pl *pricelistV0) OnVerifySignature(sigType crypto.SigType, planTextSize int) (GasCharge, error) { cost, ok := pl.verifySignature[sigType] if !ok { return GasCharge{}, fmt.Errorf("cost function for signature type %d not supported", sigType) } sigName, _ := sigType.Name() return newGasCharge("OnVerifySignature", cost, 0). WithExtra(map[string]interface{}{ "type": sigName, "size": planTextSize, }), nil } // OnHashing func (pl *pricelistV0) OnHashing(dataSize int) GasCharge { return newGasCharge("OnHashing", pl.hashingBase, 0).WithExtra(dataSize) } // OnComputeUnsealedSectorCid func (pl *pricelistV0) OnComputeUnsealedSectorCid(proofType abi.RegisteredSealProof, pieces []abi.PieceInfo) GasCharge { return newGasCharge("OnComputeUnsealedSectorCid", pl.computeUnsealedSectorCidBase, 0) } // OnVerifySeal func (pl *pricelistV0) OnVerifySeal(info proof2.SealVerifyInfo) GasCharge { // TODO: this needs more cost tunning, check with @lotus // this is not used return newGasCharge("OnVerifySeal", pl.verifySealBase, 0) } // OnVerifyAggregateSeals func (pl *pricelistV0) OnVerifyAggregateSeals() GasCharge { // TODO: this needs more cost tunning return newGasCharge("OnVerifyAggregateSeals", pl.verifyAggregateSealBase, 0) } // OnVerifyPost func (pl *pricelistV0) OnVerifyPost(info proof2.WindowPoStVerifyInfo) GasCharge { sectorSize := "unknown" var proofType abi.RegisteredPoStProof if len(info.Proofs) != 0 { proofType = info.Proofs[0].PoStProof ss, err := info.Proofs[0].PoStProof.SectorSize() if err == nil { sectorSize = ss.ShortString() } } cost, ok := pl.verifyPostLookup[proofType] if !ok { cost = pl.verifyPostLookup[abi.RegisteredPoStProof_StackedDrgWindow512MiBV1] } gasUsed := cost.flat + int64(len(info.ChallengedSectors))*cost.scale if pl.verifyPostDiscount { gasUsed /= 2 // XXX: this is an artificial discount } return newGasCharge("OnVerifyPost", gasUsed, 0). WithVirtual(117680921+43780*int64(len(info.ChallengedSectors)), 0). WithExtra(map[string]interface{}{ "type": sectorSize, "size": len(info.ChallengedSectors), }) } // OnVerifyConsensusFault func (pl *pricelistV0) OnVerifyConsensusFault() GasCharge { return newGasCharge("OnVerifyConsensusFault", pl.verifyConsensusFault, 0) }