Documentation ¶
Index ¶
- Constants
- Variables
- func ActorNameByCode(code cid.Cid) string
- func ConsensusMinerMinPower(p stabi.RegisteredPoStProof) (stabi.StoragePower, error)
- func IsBuiltinActor(code cid.Cid) bool
- func IsPrincipal(code cid.Cid) bool
- func PoStProofWindowPoStPartitionSectors(p stabi.RegisteredPoStProof) (uint64, error)
- func QuantizeUp(e abi.ChainEpoch, unit abi.ChainEpoch, offsetSeed abi.ChainEpoch) abi.ChainEpoch
- func RequestMinerControlAddrs(rt runtime.Runtime, minerAddr addr.Address) (ownerAddr addr.Address, workerAddr addr.Address, controlAddrs []addr.Address)
- func RequireNoErr(rt runtime.Runtime, err error, defaultExitCode exitcode.ExitCode, msg string, ...)
- func RequireParam(rt runtime.Runtime, predicate bool, msg string, args ...interface{})
- func RequirePredicate(rt runtime.Runtime, predicate bool, code exitcode.ExitCode, msg string, ...)
- func RequireState(rt runtime.Runtime, predicate bool, msg string, args ...interface{})
- func RequireSuccess(rt runtime.Runtime, e exitcode.ExitCode, msg string, args ...interface{})
- func ResolveToIDAddr(rt runtime.Runtime, address addr.Address) (addr.Address, error)
- func SealProofSectorMaximumLifetime(p stabi.RegisteredSealProof) (stabi.ChainEpoch, error)
- func SealProofWindowPoStPartitionSectors(p stabi.RegisteredSealProof) (uint64, error)
- type ApplyRewardParams
- type BigFrac
- type CBORBytes
- type ConfirmSectorProofsParams
- type DeferredCronEventParams
- type Discard
- type MessageAccumulator
- func (ma *MessageAccumulator) Add(msg string)
- func (ma *MessageAccumulator) AddAll(other *MessageAccumulator)
- func (ma *MessageAccumulator) Addf(format string, args ...interface{})
- func (ma *MessageAccumulator) IsEmpty() bool
- func (ma *MessageAccumulator) Messages() []string
- func (ma *MessageAccumulator) Require(predicate bool, msg string, args ...interface{})
- func (ma *MessageAccumulator) RequireNoError(err error, msg string, args ...interface{})
- func (ma *MessageAccumulator) WithPrefix(format string, args ...interface{}) *MessageAccumulator
- type MinerAddrs
- type PoStProofPolicy
- type QuantSpec
- type SealProofPolicy
Constants ¶
const ( MethodSend = builtin0.MethodSend MethodConstructor = builtin0.MethodConstructor )
const DefaultHamtBitwidth = 5
Default log2 of branching factor for HAMTs. This value has been empirically chosen, but the optimal value for maps with different mutation profiles may differ.
const EpochDurationSeconds = 30
PARAM_SPEC The duration of a chain epoch. Motivation: It guarantees that a block is propagated and WinningPoSt can be successfully done in time all supported miners. Usage: It is used for deriving epoch-denominated periods that are more naturally expressed in clock time. TODO: In lieu of a real configuration mechanism for this value, we'd like to make it a var so that implementations can override it at runtime. Doing so requires changing all the static references to it in this repo to go through late-binding function calls, or they'll see the "wrong" value. https://github.com/filecoin-project/specs-actors/issues/353 If EpochDurationSeconds is changed, update `BaselineExponent`, `lambda`, and // `expLamSubOne` in ./reward/reward_logic.go You can re-calculate these constants by changing the epoch duration in ./reward/reward_calc.py and running it.
const EpochsIn540Days = stabi.ChainEpoch(540 * EpochsInDay)
For V1 Stacked DRG sectors, the max is 540 days since Network Version 11
according to https://github.com/filecoin-project/FIPs/blob/master/FIPS/fip-0014.md
const EpochsInDay = 24 * EpochsInHour
const EpochsInFiveYears = stabi.ChainEpoch(5 * EpochsInYear)
For V1_1 Stacked DRG sectors, the max is 5 years
const EpochsInHour = SecondsInHour / EpochDurationSeconds
const EpochsInYear = 365 * EpochsInDay
const FirstNonSingletonActorId = 100
const SecondsInDay = 24 * SecondsInHour
const SecondsInHour = 60 * 60
const SectorQualityPrecision = 20
Precision used for making QA power calculations
Variables ¶
var ( SystemActorCodeID cid.Cid InitActorCodeID cid.Cid CronActorCodeID cid.Cid AccountActorCodeID cid.Cid StoragePowerActorCodeID cid.Cid StorageMinerActorCodeID cid.Cid StorageMarketActorCodeID cid.Cid PaymentChannelActorCodeID cid.Cid MultisigActorCodeID cid.Cid RewardActorCodeID cid.Cid VerifiedRegistryActorCodeID cid.Cid CallerTypesSignable []cid.Cid )
The built-in actor code IDs
var ( // Distinguished AccountActor that is the source of system implicit messages. SystemActorAddr = mustMakeAddress(0) InitActorAddr = mustMakeAddress(1) RewardActorAddr = mustMakeAddress(2) CronActorAddr = mustMakeAddress(3) StoragePowerActorAddr = mustMakeAddress(4) StorageMarketActorAddr = mustMakeAddress(5) VerifiedRegistryActorAddr = mustMakeAddress(6) // Distinguished AccountActor that is the destination of all burnt funds. BurntFundsActorAddr = mustMakeAddress(99) )
Addresses for singleton system actors.
var DealWeightMultiplier = big.NewInt(10)
Quality multiplier for unverified deals in a sector
var ExpectedLeadersPerEpoch = int64(5)
PARAM_SPEC Expected number of block quality in an epoch (e.g. 1 block with block quality 5, or 5 blocks with quality 1) Motivation: It ensures that there is enough on-chain throughput Usage: It is used to calculate the block reward.
var MethodsAccount = struct { Constructor abi.MethodNum PubkeyAddress abi.MethodNum }{MethodConstructor, 2}
var MethodsCron = struct { Constructor abi.MethodNum EpochTick abi.MethodNum }{MethodConstructor, 2}
var MethodsInit = struct { Constructor abi.MethodNum Exec abi.MethodNum }{MethodConstructor, 2}
var MethodsMarket = struct { Constructor abi.MethodNum AddBalance abi.MethodNum WithdrawBalance abi.MethodNum PublishStorageDeals abi.MethodNum VerifyDealsForActivation abi.MethodNum ActivateDeals abi.MethodNum OnMinerSectorsTerminate abi.MethodNum ComputeDataCommitment abi.MethodNum CronTick abi.MethodNum }{MethodConstructor, 2, 3, 4, 5, 6, 7, 8, 9}
var MethodsMiner = struct { Constructor abi.MethodNum ControlAddresses abi.MethodNum ChangeWorkerAddress abi.MethodNum ChangePeerID abi.MethodNum SubmitWindowedPoSt abi.MethodNum PreCommitSector abi.MethodNum ProveCommitSector abi.MethodNum ExtendSectorExpiration abi.MethodNum TerminateSectors abi.MethodNum DeclareFaults abi.MethodNum DeclareFaultsRecovered abi.MethodNum OnDeferredCronEvent abi.MethodNum CheckSectorProven abi.MethodNum ApplyRewards abi.MethodNum ReportConsensusFault abi.MethodNum WithdrawBalance abi.MethodNum ConfirmSectorProofsValid abi.MethodNum ChangeMultiaddrs abi.MethodNum CompactPartitions abi.MethodNum CompactSectorNumbers abi.MethodNum ConfirmUpdateWorkerKey abi.MethodNum RepayDebt abi.MethodNum ChangeOwnerAddress abi.MethodNum DisputeWindowedPoSt abi.MethodNum PreCommitSectorBatch abi.MethodNum ProveCommitAggregate abi.MethodNum ProveReplicaUpdates abi.MethodNum }{MethodConstructor, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27}
var MethodsMultisig = struct { Constructor abi.MethodNum Propose abi.MethodNum Approve abi.MethodNum Cancel abi.MethodNum AddSigner abi.MethodNum RemoveSigner abi.MethodNum SwapSigner abi.MethodNum ChangeNumApprovalsThreshold abi.MethodNum LockBalance abi.MethodNum }{MethodConstructor, 2, 3, 4, 5, 6, 7, 8, 9}
var MethodsPaych = struct { Constructor abi.MethodNum UpdateChannelState abi.MethodNum Settle abi.MethodNum Collect abi.MethodNum }{MethodConstructor, 2, 3, 4}
var MethodsPower = struct { Constructor abi.MethodNum CreateMiner abi.MethodNum UpdateClaimedPower abi.MethodNum EnrollCronEvent abi.MethodNum CronTick abi.MethodNum UpdatePledgeTotal abi.MethodNum Deprecated1 abi.MethodNum SubmitPoRepForBulkVerify abi.MethodNum CurrentTotalPower abi.MethodNum }{MethodConstructor, 2, 3, 4, 5, 6, 7, 8, 9}
var MethodsReward = struct { Constructor abi.MethodNum AwardBlockReward abi.MethodNum ThisEpochReward abi.MethodNum UpdateNetworkKPI abi.MethodNum }{MethodConstructor, 2, 3, 4}
var MethodsVerifiedRegistry = struct { Constructor abi.MethodNum AddVerifier abi.MethodNum RemoveVerifier abi.MethodNum AddVerifiedClient abi.MethodNum UseBytes abi.MethodNum RestoreBytes abi.MethodNum RemoveVerifiedClientDataCap abi.MethodNum }{MethodConstructor, 2, 3, 4, 5, 6, 7}
var NoQuantization = NewQuantSpec(1, 0)
var OneNanoFIL = big.NewInt(1_000_000_000)
1 NanoFIL
var PoStProofPolicies = map[stabi.RegisteredPoStProof]*PoStProofPolicy{ stabi.RegisteredPoStProof_StackedDrgWindow2KiBV1: { WindowPoStPartitionSectors: 2, ConsensusMinerMinPower: stabi.NewStoragePower(10 << 40), }, stabi.RegisteredPoStProof_StackedDrgWindow8MiBV1: { WindowPoStPartitionSectors: 2, ConsensusMinerMinPower: stabi.NewStoragePower(10 << 40), }, stabi.RegisteredPoStProof_StackedDrgWindow512MiBV1: { WindowPoStPartitionSectors: 2, ConsensusMinerMinPower: stabi.NewStoragePower(10 << 40), }, stabi.RegisteredPoStProof_StackedDrgWindow32GiBV1: { WindowPoStPartitionSectors: 2349, ConsensusMinerMinPower: stabi.NewStoragePower(10 << 40), }, stabi.RegisteredPoStProof_StackedDrgWindow64GiBV1: { WindowPoStPartitionSectors: 2300, ConsensusMinerMinPower: stabi.NewStoragePower(10 << 40), }, }
Partition sizes must match those used by the proofs library. See https://github.com/filecoin-project/rust-fil-proofs/blob/master/filecoin-proofs/src/constants.rs#L85
var QualityBaseMultiplier = big.NewInt(10)
Quality multiplier for committed capacity (no deals) in a sector
var SealProofPoliciesV11 = map[stabi.RegisteredSealProof]*SealProofPolicy{ stabi.RegisteredSealProof_StackedDrg2KiBV1: { SectorMaxLifetime: EpochsIn540Days, }, stabi.RegisteredSealProof_StackedDrg8MiBV1: { SectorMaxLifetime: EpochsIn540Days, }, stabi.RegisteredSealProof_StackedDrg512MiBV1: { SectorMaxLifetime: EpochsIn540Days, }, stabi.RegisteredSealProof_StackedDrg32GiBV1: { SectorMaxLifetime: EpochsIn540Days, }, stabi.RegisteredSealProof_StackedDrg64GiBV1: { SectorMaxLifetime: EpochsIn540Days, }, stabi.RegisteredSealProof_StackedDrg2KiBV1_1: { SectorMaxLifetime: EpochsInFiveYears, }, stabi.RegisteredSealProof_StackedDrg8MiBV1_1: { SectorMaxLifetime: EpochsInFiveYears, }, stabi.RegisteredSealProof_StackedDrg512MiBV1_1: { SectorMaxLifetime: EpochsInFiveYears, }, stabi.RegisteredSealProof_StackedDrg32GiBV1_1: { SectorMaxLifetime: EpochsInFiveYears, }, stabi.RegisteredSealProof_StackedDrg64GiBV1_1: { SectorMaxLifetime: EpochsInFiveYears, }, }
540-day maximum life time setting for V1 since network version 11
var TokenPrecision = big.NewIntUnsigned(1_000_000_000_000_000_000)
Number of token units in an abstract "FIL" token. The network works purely in the indivisible token amounts. This constant converts to a fixed decimal with more human-friendly scale.
var TotalFilecoin = big.Mul(big.NewIntUnsigned(2_000_000_000), TokenPrecision)
The maximum supply of Filecoin that will ever exist (in token units)
var VerifiedDealWeightMultiplier = big.NewInt(100)
Quality multiplier for verified deals in a sector
Functions ¶
func ActorNameByCode ¶
func ActorNameByCode(code cid.Cid) string
ActorNameByCode returns the (string) name of the actor given a cid code.
func ConsensusMinerMinPower ¶
func ConsensusMinerMinPower(p stabi.RegisteredPoStProof) (stabi.StoragePower, error)
The minimum power of an individual miner to meet the threshold for leader election (in bytes). Motivation: - Limits sybil generation - Improves consensus fault detection - Guarantees a minimum fee for consensus faults - Ensures that a specific soundness for the power table Note: We may be able to reduce this in the future, addressing consensus faults with more complicated penalties, sybil generation with crypto-economic mechanism, and PoSt soundness by increasing the challenges for small miners.
func IsBuiltinActor ¶
func IsBuiltinActor(code cid.Cid) bool
IsBuiltinActor returns true if the code belongs to an actor defined in this repo.
func IsPrincipal ¶
func IsPrincipal(code cid.Cid) bool
Tests whether a code CID represents an actor that can be an external principal: i.e. an account or multisig. We could do something more sophisticated here: https://github.com/filecoin-project/specs-actors/issues/178
func PoStProofWindowPoStPartitionSectors ¶
func PoStProofWindowPoStPartitionSectors(p stabi.RegisteredPoStProof) (uint64, error)
Returns the partition size, in sectors, associated with a Window PoSt proof type. The partition size is the number of sectors proved in a single PoSt proof.
func QuantizeUp ¶
func QuantizeUp(e abi.ChainEpoch, unit abi.ChainEpoch, offsetSeed abi.ChainEpoch) abi.ChainEpoch
Rounds e to the nearest exact multiple of the quantization unit offset by offsetSeed % unit, rounding up. This function is equivalent to `unit * ceil(e - (offsetSeed % unit) / unit) + (offsetSeed % unit)` with the variables/operations are over real numbers instead of ints. Precondition: unit >= 0 else behaviour is undefined
func RequireNoErr ¶
func RequireNoErr(rt runtime.Runtime, err error, defaultExitCode exitcode.ExitCode, msg string, args ...interface{})
Aborts with a formatted message if err is not nil. The provided message will be suffixed by ": %s" and the provided args suffixed by the err.
func RequireParam ¶
Aborts with an ErrIllegalArgument if predicate is not true.
func RequirePredicate ¶
func RequirePredicate(rt runtime.Runtime, predicate bool, code exitcode.ExitCode, msg string, args ...interface{})
Aborts with `code` if predicate is not true.
func RequireState ¶
Aborts with an ErrIllegalState if predicate is not true. This method is intended for use like an assertion. Don't use this shorthand for states which are logically possible, as it will hide (non-)coverage of the Abort call from code coverage metrics.
func RequireSuccess ¶
Propagates a failed send by aborting the current method with the same exit code.
func ResolveToIDAddr ¶
ResolveToIDAddr resolves the given address to it's ID address form. If an ID address for the given address dosen't exist yet, it tries to create one by sending a zero balance to the given address.
func SealProofSectorMaximumLifetime ¶
func SealProofSectorMaximumLifetime(p stabi.RegisteredSealProof) (stabi.ChainEpoch, error)
SectorMaximumLifetime is the maximum duration a sector sealed with this proof may exist between activation and expiration
func SealProofWindowPoStPartitionSectors ¶
func SealProofWindowPoStPartitionSectors(p stabi.RegisteredSealProof) (uint64, error)
Returns the partition size, in sectors, associated with a seal proof type. The partition size is the number of sectors proved in a single PoSt proof.
Types ¶
type ApplyRewardParams ¶
type ApplyRewardParams = builtin2.ApplyRewardParams
Note: we could move this alias back to the mutually-importing packages that use it, now that they can instead both alias the v2 version.
type ApplyRewardParams struct { Reward abi.TokenAmount Penalty abi.TokenAmount }
type ConfirmSectorProofsParams ¶
type ConfirmSectorProofsParams struct { Sectors []abi.SectorNumber RewardSmoothed smoothing.FilterEstimate RewardBaselinePower abi.StoragePower QualityAdjPowerSmoothed smoothing.FilterEstimate }
Note: we could move this alias back to the mutually-importing packages that use it, now that they can instead both alias the v2 version.
func (*ConfirmSectorProofsParams) MarshalCBOR ¶
func (t *ConfirmSectorProofsParams) MarshalCBOR(w io.Writer) error
func (*ConfirmSectorProofsParams) UnmarshalCBOR ¶
func (t *ConfirmSectorProofsParams) UnmarshalCBOR(r io.Reader) error
type DeferredCronEventParams ¶
type DeferredCronEventParams struct { EventPayload []byte RewardSmoothed smoothing.FilterEstimate QualityAdjPowerSmoothed smoothing.FilterEstimate }
func (*DeferredCronEventParams) MarshalCBOR ¶
func (t *DeferredCronEventParams) MarshalCBOR(w io.Writer) error
func (*DeferredCronEventParams) UnmarshalCBOR ¶
func (t *DeferredCronEventParams) UnmarshalCBOR(r io.Reader) error
type MessageAccumulator ¶
type MessageAccumulator struct {
// contains filtered or unexported fields
}
Accumulates a sequence of messages (e.g. validation failures).
func (*MessageAccumulator) Add ¶
func (ma *MessageAccumulator) Add(msg string)
Adds messages to the accumulator.
func (*MessageAccumulator) AddAll ¶
func (ma *MessageAccumulator) AddAll(other *MessageAccumulator)
Adds messages from another accumulator to this one.
func (*MessageAccumulator) Addf ¶
func (ma *MessageAccumulator) Addf(format string, args ...interface{})
Adds a message to the accumulator
func (*MessageAccumulator) IsEmpty ¶
func (ma *MessageAccumulator) IsEmpty() bool
func (*MessageAccumulator) Messages ¶
func (ma *MessageAccumulator) Messages() []string
func (*MessageAccumulator) Require ¶
func (ma *MessageAccumulator) Require(predicate bool, msg string, args ...interface{})
Adds a message if predicate is false.
func (*MessageAccumulator) RequireNoError ¶
func (ma *MessageAccumulator) RequireNoError(err error, msg string, args ...interface{})
func (*MessageAccumulator) WithPrefix ¶
func (ma *MessageAccumulator) WithPrefix(format string, args ...interface{}) *MessageAccumulator
Returns a new accumulator backed by the same collection, that will prefix each new message with a formatted string.
type MinerAddrs ¶
This type duplicates the Miner.ControlAddresses return type, to work around a circular dependency between actors.
func (*MinerAddrs) MarshalCBOR ¶
func (t *MinerAddrs) MarshalCBOR(w io.Writer) error
func (*MinerAddrs) UnmarshalCBOR ¶
func (t *MinerAddrs) UnmarshalCBOR(r io.Reader) error
type PoStProofPolicy ¶
type PoStProofPolicy struct { WindowPoStPartitionSectors uint64 ConsensusMinerMinPower stabi.StoragePower }
Policy values associated with a PoSt proof type.
type QuantSpec ¶
type QuantSpec struct {
// contains filtered or unexported fields
}
A spec for quantization.
func NewQuantSpec ¶
func NewQuantSpec(unit, offset abi.ChainEpoch) QuantSpec
func (QuantSpec) QuantizeDown ¶
func (q QuantSpec) QuantizeDown(e abi.ChainEpoch) abi.ChainEpoch
func (QuantSpec) QuantizeUp ¶
func (q QuantSpec) QuantizeUp(e abi.ChainEpoch) abi.ChainEpoch
type SealProofPolicy ¶
type SealProofPolicy struct {
SectorMaxLifetime stabi.ChainEpoch
}
Policy values associated with a seal proof type.