lotus/api/api_full.go

1219 lines
58 KiB
Go

package api
import (
"context"
"encoding/json"
"fmt"
"time"
blocks "github.com/ipfs/go-block-format"
"github.com/ipfs/go-cid"
"github.com/libp2p/go-libp2p-core/peer"
"github.com/filecoin-project/go-address"
"github.com/filecoin-project/go-bitfield"
datatransfer "github.com/filecoin-project/go-data-transfer"
"github.com/filecoin-project/go-fil-markets/retrievalmarket"
"github.com/filecoin-project/go-fil-markets/storagemarket"
"github.com/filecoin-project/go-state-types/abi"
"github.com/filecoin-project/go-state-types/big"
"github.com/filecoin-project/go-state-types/builtin/v8/market"
"github.com/filecoin-project/go-state-types/builtin/v8/miner"
"github.com/filecoin-project/go-state-types/builtin/v8/paych"
"github.com/filecoin-project/go-state-types/crypto"
"github.com/filecoin-project/go-state-types/dline"
apitypes "github.com/filecoin-project/lotus/api/types"
"github.com/filecoin-project/lotus/chain/actors/builtin"
lminer "github.com/filecoin-project/lotus/chain/actors/builtin/miner"
"github.com/filecoin-project/lotus/chain/actors/builtin/power"
"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/lotus/node/modules/dtypes"
"github.com/filecoin-project/lotus/node/repo/imports"
)
//go:generate go run github.com/golang/mock/mockgen -destination=mocks/mock_full.go -package=mocks . FullNode
// ChainIO abstracts operations for accessing raw IPLD objects.
type ChainIO interface {
ChainReadObj(context.Context, cid.Cid) ([]byte, error)
ChainHasObj(context.Context, cid.Cid) (bool, error)
ChainPutObj(context.Context, blocks.Block) error
}
const LookbackNoLimit = abi.ChainEpoch(-1)
// MODIFYING THE API INTERFACE
//
// NOTE: This is the V1 (Unstable) API - to add methods to the V0 (Stable) API
// you'll have to add those methods to interfaces in `api/v0api`
//
// When adding / changing methods in this file:
// * Do the change here
// * Adjust implementation in `node/impl/`
// * Run `make gen` - this will:
// * Generate proxy structs
// * Generate mocks
// * Generate markdown docs
// * Generate openrpc blobs
// FullNode API is a low-level interface to the Filecoin network full node
type FullNode interface {
Common
Net
// MethodGroup: Chain
// The Chain method group contains methods for interacting with the
// blockchain, but that do not require any form of state computation.
// ChainNotify returns channel with chain head updates.
// First message is guaranteed to be of len == 1, and type == 'current'.
ChainNotify(context.Context) (<-chan []*HeadChange, error) //perm:read
// ChainHead returns the current head of the chain.
ChainHead(context.Context) (*types.TipSet, error) //perm:read
// ChainGetBlock returns the block specified by the given CID.
ChainGetBlock(context.Context, cid.Cid) (*types.BlockHeader, error) //perm:read
// ChainGetTipSet returns the tipset specified by the given TipSetKey.
ChainGetTipSet(context.Context, types.TipSetKey) (*types.TipSet, error) //perm:read
// ChainGetBlockMessages returns messages stored in the specified block.
//
// Note: If there are multiple blocks in a tipset, it's likely that some
// messages will be duplicated. It's also possible for blocks in a tipset to have
// different messages from the same sender at the same nonce. When that happens,
// only the first message (in a block with lowest ticket) will be considered
// for execution
//
// NOTE: THIS METHOD SHOULD ONLY BE USED FOR GETTING MESSAGES IN A SPECIFIC BLOCK
//
// DO NOT USE THIS METHOD TO GET MESSAGES INCLUDED IN A TIPSET
// Use ChainGetParentMessages, which will perform correct message deduplication
ChainGetBlockMessages(ctx context.Context, blockCid cid.Cid) (*BlockMessages, error) //perm:read
// ChainGetParentReceipts returns receipts for messages in parent tipset of
// the specified block. The receipts in the list returned is one-to-one with the
// messages returned by a call to ChainGetParentMessages with the same blockCid.
ChainGetParentReceipts(ctx context.Context, blockCid cid.Cid) ([]*types.MessageReceipt, error) //perm:read
// ChainGetParentMessages returns messages stored in parent tipset of the
// specified block.
ChainGetParentMessages(ctx context.Context, blockCid cid.Cid) ([]Message, error) //perm:read
// ChainGetMessagesInTipset returns message stores in current tipset
ChainGetMessagesInTipset(ctx context.Context, tsk types.TipSetKey) ([]Message, error) //perm:read
// ChainGetTipSetByHeight looks back for a tipset at the specified epoch.
// If there are no blocks at the specified epoch, a tipset at an earlier epoch
// will be returned.
ChainGetTipSetByHeight(context.Context, abi.ChainEpoch, types.TipSetKey) (*types.TipSet, error) //perm:read
// ChainGetTipSetAfterHeight looks back for a tipset at the specified epoch.
// If there are no blocks at the specified epoch, the first non-nil tipset at a later epoch
// will be returned.
ChainGetTipSetAfterHeight(context.Context, abi.ChainEpoch, types.TipSetKey) (*types.TipSet, error) //perm:read
// ChainReadObj reads ipld nodes referenced by the specified CID from chain
// blockstore and returns raw bytes.
ChainReadObj(context.Context, cid.Cid) ([]byte, error) //perm:read
// ChainDeleteObj deletes node referenced by the given CID
ChainDeleteObj(context.Context, cid.Cid) error //perm:admin
// ChainHasObj checks if a given CID exists in the chain blockstore.
ChainHasObj(context.Context, cid.Cid) (bool, error) //perm:read
// ChainPutObj puts a given object into the block store
ChainPutObj(context.Context, blocks.Block) error //perm:admin
// ChainStatObj returns statistics about the graph referenced by 'obj'.
// If 'base' is also specified, then the returned stat will be a diff
// between the two objects.
ChainStatObj(ctx context.Context, obj cid.Cid, base cid.Cid) (ObjStat, error) //perm:read
// ChainSetHead forcefully sets current chain head. Use with caution.
ChainSetHead(context.Context, types.TipSetKey) error //perm:admin
// ChainGetGenesis returns the genesis tipset.
ChainGetGenesis(context.Context) (*types.TipSet, error) //perm:read
// ChainTipSetWeight computes weight for the specified tipset.
ChainTipSetWeight(context.Context, types.TipSetKey) (types.BigInt, error) //perm:read
ChainGetNode(ctx context.Context, p string) (*IpldObject, error) //perm:read
// ChainGetMessage reads a message referenced by the specified CID from the
// chain blockstore.
ChainGetMessage(context.Context, cid.Cid) (*types.Message, error) //perm:read
// ChainGetPath returns a set of revert/apply operations needed to get from
// one tipset to another, for example:
//```
// to
// ^
// from tAA
// ^ ^
// tBA tAB
// ^---*--^
// ^
// tRR
//```
// Would return `[revert(tBA), apply(tAB), apply(tAA)]`
ChainGetPath(ctx context.Context, from types.TipSetKey, to types.TipSetKey) ([]*HeadChange, error) //perm:read
// ChainExport returns a stream of bytes with CAR dump of chain data.
// The exported chain data includes the header chain from the given tipset
// back to genesis, the entire genesis state, and the most recent 'nroots'
// state trees.
// If oldmsgskip is set, messages from before the requested roots are also not included.
ChainExport(ctx context.Context, nroots abi.ChainEpoch, oldmsgskip bool, tsk types.TipSetKey) (<-chan []byte, error) //perm:read
// ChainCheckBlockstore performs an (asynchronous) health check on the chain/state blockstore
// if supported by the underlying implementation.
ChainCheckBlockstore(context.Context) error //perm:admin
// ChainBlockstoreInfo returns some basic information about the blockstore
ChainBlockstoreInfo(context.Context) (map[string]interface{}, error) //perm:read
// GasEstimateFeeCap estimates gas fee cap
GasEstimateFeeCap(context.Context, *types.Message, int64, types.TipSetKey) (types.BigInt, error) //perm:read
// GasEstimateGasLimit estimates gas used by the message and returns it.
// It fails if message fails to execute.
GasEstimateGasLimit(context.Context, *types.Message, types.TipSetKey) (int64, error) //perm:read
// GasEstimateGasPremium estimates what gas price should be used for a
// message to have high likelihood of inclusion in `nblocksincl` epochs.
GasEstimateGasPremium(_ context.Context, nblocksincl uint64,
sender address.Address, gaslimit int64, tsk types.TipSetKey) (types.BigInt, error) //perm:read
// GasEstimateMessageGas estimates gas values for unset message gas fields
GasEstimateMessageGas(context.Context, *types.Message, *MessageSendSpec, types.TipSetKey) (*types.Message, error) //perm:read
// MethodGroup: Sync
// The Sync method group contains methods for interacting with and
// observing the lotus sync service.
// SyncState returns the current status of the lotus sync system.
SyncState(context.Context) (*SyncState, error) //perm:read
// SyncSubmitBlock can be used to submit a newly created block to the.
// network through this node
SyncSubmitBlock(ctx context.Context, blk *types.BlockMsg) error //perm:write
// SyncIncomingBlocks returns a channel streaming incoming, potentially not
// yet synced block headers.
SyncIncomingBlocks(ctx context.Context) (<-chan *types.BlockHeader, error) //perm:read
// SyncCheckpoint marks a blocks as checkpointed, meaning that it won't ever fork away from it.
SyncCheckpoint(ctx context.Context, tsk types.TipSetKey) error //perm:admin
// SyncMarkBad marks a blocks as bad, meaning that it won't ever by synced.
// Use with extreme caution.
SyncMarkBad(ctx context.Context, bcid cid.Cid) error //perm:admin
// SyncUnmarkBad unmarks a blocks as bad, making it possible to be validated and synced again.
SyncUnmarkBad(ctx context.Context, bcid cid.Cid) error //perm:admin
// SyncUnmarkAllBad purges bad block cache, making it possible to sync to chains previously marked as bad
SyncUnmarkAllBad(ctx context.Context) error //perm:admin
// SyncCheckBad checks if a block was marked as bad, and if it was, returns
// the reason.
SyncCheckBad(ctx context.Context, bcid cid.Cid) (string, error) //perm:read
// SyncValidateTipset indicates whether the provided tipset is valid or not
SyncValidateTipset(ctx context.Context, tsk types.TipSetKey) (bool, error) //perm:read
// MethodGroup: Mpool
// The Mpool methods are for interacting with the message pool. The message pool
// manages all incoming and outgoing 'messages' going over the network.
// MpoolPending returns pending mempool messages.
MpoolPending(context.Context, types.TipSetKey) ([]*types.SignedMessage, error) //perm:read
// MpoolSelect returns a list of pending messages for inclusion in the next block
MpoolSelect(context.Context, types.TipSetKey, float64) ([]*types.SignedMessage, error) //perm:read
// MpoolPush pushes a signed message to mempool.
MpoolPush(context.Context, *types.SignedMessage) (cid.Cid, error) //perm:write
// MpoolPushUntrusted pushes a signed message to mempool from untrusted sources.
MpoolPushUntrusted(context.Context, *types.SignedMessage) (cid.Cid, error) //perm:write
// MpoolPushMessage atomically assigns a nonce, signs, and pushes a message
// to mempool.
// maxFee is only used when GasFeeCap/GasPremium fields aren't specified
//
// When maxFee is set to 0, MpoolPushMessage will guess appropriate fee
// based on current chain conditions
MpoolPushMessage(ctx context.Context, msg *types.Message, spec *MessageSendSpec) (*types.SignedMessage, error) //perm:sign
// MpoolBatchPush batch pushes a signed message to mempool.
MpoolBatchPush(context.Context, []*types.SignedMessage) ([]cid.Cid, error) //perm:write
// MpoolBatchPushUntrusted batch pushes a signed message to mempool from untrusted sources.
MpoolBatchPushUntrusted(context.Context, []*types.SignedMessage) ([]cid.Cid, error) //perm:write
// MpoolBatchPushMessage batch pushes a unsigned message to mempool.
MpoolBatchPushMessage(context.Context, []*types.Message, *MessageSendSpec) ([]*types.SignedMessage, error) //perm:sign
// MpoolCheckMessages performs logical checks on a batch of messages
MpoolCheckMessages(context.Context, []*MessagePrototype) ([][]MessageCheckStatus, error) //perm:read
// MpoolCheckPendingMessages performs logical checks for all pending messages from a given address
MpoolCheckPendingMessages(context.Context, address.Address) ([][]MessageCheckStatus, error) //perm:read
// MpoolCheckReplaceMessages performs logical checks on pending messages with replacement
MpoolCheckReplaceMessages(context.Context, []*types.Message) ([][]MessageCheckStatus, error) //perm:read
// MpoolGetNonce gets next nonce for the specified sender.
// Note that this method may not be atomic. Use MpoolPushMessage instead.
MpoolGetNonce(context.Context, address.Address) (uint64, error) //perm:read
MpoolSub(context.Context) (<-chan MpoolUpdate, error) //perm:read
// MpoolClear clears pending messages from the mpool
MpoolClear(context.Context, bool) error //perm:write
// MpoolGetConfig returns (a copy of) the current mpool config
MpoolGetConfig(context.Context) (*types.MpoolConfig, error) //perm:read
// MpoolSetConfig sets the mpool config to (a copy of) the supplied config
MpoolSetConfig(context.Context, *types.MpoolConfig) error //perm:admin
// MethodGroup: Miner
MinerGetBaseInfo(context.Context, address.Address, abi.ChainEpoch, types.TipSetKey) (*MiningBaseInfo, error) //perm:read
MinerCreateBlock(context.Context, *BlockTemplate) (*types.BlockMsg, error) //perm:write
// // UX ?
// MethodGroup: WalletF
// WalletNew creates a new address in the wallet with the given sigType.
// Available key types: bls, secp256k1, secp256k1-ledger
// Support for numerical types: 1 - secp256k1, 2 - BLS is deprecated
WalletNew(context.Context, types.KeyType) (address.Address, error) //perm:write
// WalletHas indicates whether the given address is in the wallet.
WalletHas(context.Context, address.Address) (bool, error) //perm:write
// WalletList lists all the addresses in the wallet.
WalletList(context.Context) ([]address.Address, error) //perm:write
// WalletBalance returns the balance of the given address at the current head of the chain.
WalletBalance(context.Context, address.Address) (types.BigInt, error) //perm:read
// WalletSign signs the given bytes using the given address.
WalletSign(context.Context, address.Address, []byte) (*crypto.Signature, error) //perm:sign
// WalletSignMessage signs the given message using the given address.
WalletSignMessage(context.Context, address.Address, *types.Message) (*types.SignedMessage, error) //perm:sign
// WalletVerify takes an address, a signature, and some bytes, and indicates whether the signature is valid.
// The address does not have to be in the wallet.
WalletVerify(context.Context, address.Address, []byte, *crypto.Signature) (bool, error) //perm:read
// WalletDefaultAddress returns the address marked as default in the wallet.
WalletDefaultAddress(context.Context) (address.Address, error) //perm:write
// WalletSetDefault marks the given address as as the default one.
WalletSetDefault(context.Context, address.Address) error //perm:write
// WalletExport returns the private key of an address in the wallet.
WalletExport(context.Context, address.Address) (*types.KeyInfo, error) //perm:admin
// WalletImport receives a KeyInfo, which includes a private key, and imports it into the wallet.
WalletImport(context.Context, *types.KeyInfo) (address.Address, error) //perm:admin
// WalletDelete deletes an address from the wallet.
WalletDelete(context.Context, address.Address) error //perm:admin
// WalletValidateAddress validates whether a given string can be decoded as a well-formed address
WalletValidateAddress(context.Context, string) (address.Address, error) //perm:read
// Other
// MethodGroup: Client
// The Client methods all have to do with interacting with the storage and
// retrieval markets as a client
// ClientImport imports file under the specified path into filestore.
ClientImport(ctx context.Context, ref FileRef) (*ImportRes, error) //perm:admin
// ClientRemoveImport removes file import
ClientRemoveImport(ctx context.Context, importID imports.ID) error //perm:admin
// ClientStartDeal proposes a deal with a miner.
ClientStartDeal(ctx context.Context, params *StartDealParams) (*cid.Cid, error) //perm:admin
// ClientStatelessDeal fire-and-forget-proposes an offline deal to a miner without subsequent tracking.
ClientStatelessDeal(ctx context.Context, params *StartDealParams) (*cid.Cid, error) //perm:write
// ClientGetDealInfo returns the latest information about a given deal.
ClientGetDealInfo(context.Context, cid.Cid) (*DealInfo, error) //perm:read
// ClientListDeals returns information about the deals made by the local client.
ClientListDeals(ctx context.Context) ([]DealInfo, error) //perm:write
// ClientGetDealUpdates returns the status of updated deals
ClientGetDealUpdates(ctx context.Context) (<-chan DealInfo, error) //perm:write
// ClientGetDealStatus returns status given a code
ClientGetDealStatus(ctx context.Context, statusCode uint64) (string, error) //perm:read
// ClientHasLocal indicates whether a certain CID is locally stored.
ClientHasLocal(ctx context.Context, root cid.Cid) (bool, error) //perm:write
// ClientFindData identifies peers that have a certain file, and returns QueryOffers (one per peer).
ClientFindData(ctx context.Context, root cid.Cid, piece *cid.Cid) ([]QueryOffer, error) //perm:read
// ClientMinerQueryOffer returns a QueryOffer for the specific miner and file.
ClientMinerQueryOffer(ctx context.Context, miner address.Address, root cid.Cid, piece *cid.Cid) (QueryOffer, error) //perm:read
// ClientRetrieve initiates the retrieval of a file, as specified in the order.
ClientRetrieve(ctx context.Context, params RetrievalOrder) (*RestrievalRes, error) //perm:admin
// ClientRetrieveWait waits for retrieval to be complete
ClientRetrieveWait(ctx context.Context, deal retrievalmarket.DealID) error //perm:admin
// ClientExport exports a file stored in the local filestore to a system file
ClientExport(ctx context.Context, exportRef ExportRef, fileRef FileRef) error //perm:admin
// ClientListRetrievals returns information about retrievals made by the local client
ClientListRetrievals(ctx context.Context) ([]RetrievalInfo, error) //perm:write
// ClientGetRetrievalUpdates returns status of updated retrieval deals
ClientGetRetrievalUpdates(ctx context.Context) (<-chan RetrievalInfo, error) //perm:write
// ClientQueryAsk returns a signed StorageAsk from the specified miner.
ClientQueryAsk(ctx context.Context, p peer.ID, miner address.Address) (*StorageAsk, error) //perm:read
// ClientCalcCommP calculates the CommP and data size of the specified CID
ClientDealPieceCID(ctx context.Context, root cid.Cid) (DataCIDSize, error) //perm:read
// ClientCalcCommP calculates the CommP for a specified file
ClientCalcCommP(ctx context.Context, inpath string) (*CommPRet, error) //perm:write
// ClientGenCar generates a CAR file for the specified file.
ClientGenCar(ctx context.Context, ref FileRef, outpath string) error //perm:write
// ClientDealSize calculates real deal data size
ClientDealSize(ctx context.Context, root cid.Cid) (DataSize, error) //perm:read
// ClientListTransfers returns the status of all ongoing transfers of data
ClientListDataTransfers(ctx context.Context) ([]DataTransferChannel, error) //perm:write
ClientDataTransferUpdates(ctx context.Context) (<-chan DataTransferChannel, error) //perm:write
// ClientRestartDataTransfer attempts to restart a data transfer with the given transfer ID and other peer
ClientRestartDataTransfer(ctx context.Context, transferID datatransfer.TransferID, otherPeer peer.ID, isInitiator bool) error //perm:write
// ClientCancelDataTransfer cancels a data transfer with the given transfer ID and other peer
ClientCancelDataTransfer(ctx context.Context, transferID datatransfer.TransferID, otherPeer peer.ID, isInitiator bool) error //perm:write
// ClientRetrieveTryRestartInsufficientFunds attempts to restart stalled retrievals on a given payment channel
// which are stuck due to insufficient funds
ClientRetrieveTryRestartInsufficientFunds(ctx context.Context, paymentChannel address.Address) error //perm:write
// ClientCancelRetrievalDeal cancels an ongoing retrieval deal based on DealID
ClientCancelRetrievalDeal(ctx context.Context, dealid retrievalmarket.DealID) error //perm:write
// ClientUnimport removes references to the specified file from filestore
//ClientUnimport(path string)
// ClientListImports lists imported files and their root CIDs
ClientListImports(ctx context.Context) ([]Import, error) //perm:write
//ClientListAsks() []Ask
// MethodGroup: State
// The State methods are used to query, inspect, and interact with chain state.
// Most methods take a TipSetKey as a parameter. The state looked up is the parent state of the tipset.
// A nil TipSetKey can be provided as a param, this will cause the heaviest tipset in the chain to be used.
// StateCall runs the given message and returns its result without any persisted changes.
//
// StateCall applies the message to the tipset's parent state. The
// message is not applied on-top-of the messages in the passed-in
// tipset.
StateCall(context.Context, *types.Message, types.TipSetKey) (*InvocResult, error) //perm:read
// StateReplay replays a given message, assuming it was included in a block in the specified tipset.
//
// If a tipset key is provided, and a replacing message is found on chain,
// the method will return an error saying that the message wasn't found
//
// If no tipset key is provided, the appropriate tipset is looked up, and if
// the message was gas-repriced, the on-chain message will be replayed - in
// that case the returned InvocResult.MsgCid will not match the Cid param
//
// If the caller wants to ensure that exactly the requested message was executed,
// they MUST check that InvocResult.MsgCid is equal to the provided Cid.
// Without this check both the requested and original message may appear as
// successfully executed on-chain, which may look like a double-spend.
//
// A replacing message is a message with a different CID, any of Gas values, and
// different signature, but with all other parameters matching (source/destination,
// nonce, params, etc.)
StateReplay(context.Context, types.TipSetKey, cid.Cid) (*InvocResult, error) //perm:read
// StateGetActor returns the indicated actor's nonce and balance.
StateGetActor(ctx context.Context, actor address.Address, tsk types.TipSetKey) (*types.Actor, error) //perm:read
// StateReadState returns the indicated actor's state.
StateReadState(ctx context.Context, actor address.Address, tsk types.TipSetKey) (*ActorState, error) //perm:read
// StateListMessages looks back and returns all messages with a matching to or from address, stopping at the given height.
StateListMessages(ctx context.Context, match *MessageMatch, tsk types.TipSetKey, toht abi.ChainEpoch) ([]cid.Cid, error) //perm:read
// StateDecodeParams attempts to decode the provided params, based on the recipient actor address and method number.
StateDecodeParams(ctx context.Context, toAddr address.Address, method abi.MethodNum, params []byte, tsk types.TipSetKey) (interface{}, error) //perm:read
// StateEncodeParams attempts to encode the provided json params to the binary from
StateEncodeParams(ctx context.Context, toActCode cid.Cid, method abi.MethodNum, params json.RawMessage) ([]byte, error) //perm:read
// StateNetworkName returns the name of the network the node is synced to
StateNetworkName(context.Context) (dtypes.NetworkName, error) //perm:read
// StateMinerSectors returns info about the given miner's sectors. If the filter bitfield is nil, all sectors are included.
StateMinerSectors(context.Context, address.Address, *bitfield.BitField, types.TipSetKey) ([]*miner.SectorOnChainInfo, error) //perm:read
// StateMinerActiveSectors returns info about sectors that a given miner is actively proving.
StateMinerActiveSectors(context.Context, address.Address, types.TipSetKey) ([]*miner.SectorOnChainInfo, error) //perm:read
// StateMinerProvingDeadline calculates the deadline at some epoch for a proving period
// and returns the deadline-related calculations.
StateMinerProvingDeadline(context.Context, address.Address, types.TipSetKey) (*dline.Info, error) //perm:read
// StateMinerPower returns the power of the indicated miner
StateMinerPower(context.Context, address.Address, types.TipSetKey) (*MinerPower, error) //perm:read
// StateMinerInfo returns info about the indicated miner
StateMinerInfo(context.Context, address.Address, types.TipSetKey) (MinerInfo, error) //perm:read
// StateMinerDeadlines returns all the proving deadlines for the given miner
StateMinerDeadlines(context.Context, address.Address, types.TipSetKey) ([]Deadline, error) //perm:read
// StateMinerPartitions returns all partitions in the specified deadline
StateMinerPartitions(ctx context.Context, m address.Address, dlIdx uint64, tsk types.TipSetKey) ([]Partition, error) //perm:read
// StateMinerFaults returns a bitfield indicating the faulty sectors of the given miner
StateMinerFaults(context.Context, address.Address, types.TipSetKey) (bitfield.BitField, error) //perm:read
// StateAllMinerFaults returns all non-expired Faults that occur within lookback epochs of the given tipset
StateAllMinerFaults(ctx context.Context, lookback abi.ChainEpoch, ts types.TipSetKey) ([]*Fault, error) //perm:read
// StateMinerRecoveries returns a bitfield indicating the recovering sectors of the given miner
StateMinerRecoveries(context.Context, address.Address, types.TipSetKey) (bitfield.BitField, error) //perm:read
// StateMinerInitialPledgeCollateral returns the precommit deposit for the specified miner's sector
StateMinerPreCommitDepositForPower(context.Context, address.Address, miner.SectorPreCommitInfo, types.TipSetKey) (types.BigInt, error) //perm:read
// StateMinerInitialPledgeCollateral returns the initial pledge collateral for the specified miner's sector
StateMinerInitialPledgeCollateral(context.Context, address.Address, miner.SectorPreCommitInfo, types.TipSetKey) (types.BigInt, error) //perm:read
// StateMinerAvailableBalance returns the portion of a miner's balance that can be withdrawn or spent
StateMinerAvailableBalance(context.Context, address.Address, types.TipSetKey) (types.BigInt, error) //perm:read
// StateMinerSectorAllocated checks if a sector number is marked as allocated.
StateMinerSectorAllocated(context.Context, address.Address, abi.SectorNumber, types.TipSetKey) (bool, error) //perm:read
// StateSectorPreCommitInfo returns the PreCommit info for the specified miner's sector.
// Returns nil and no error if the sector isn't precommitted.
//
// Note that the sector number may be allocated while PreCommitInfo is nil. This means that either allocated sector
// numbers were compacted, and the sector number was marked as allocated in order to reduce size of the allocated
// sectors bitfield, or that the sector was precommitted, but the precommit has expired.
StateSectorPreCommitInfo(context.Context, address.Address, abi.SectorNumber, types.TipSetKey) (*miner.SectorPreCommitOnChainInfo, error) //perm:read
// StateSectorGetInfo returns the on-chain info for the specified miner's sector. Returns null in case the sector info isn't found
// NOTE: returned info.Expiration may not be accurate in some cases, use StateSectorExpiration to get accurate
// expiration epoch
StateSectorGetInfo(context.Context, address.Address, abi.SectorNumber, types.TipSetKey) (*miner.SectorOnChainInfo, error) //perm:read
// StateSectorExpiration returns epoch at which given sector will expire
StateSectorExpiration(context.Context, address.Address, abi.SectorNumber, types.TipSetKey) (*lminer.SectorExpiration, error) //perm:read
// StateSectorPartition finds deadline/partition with the specified sector
StateSectorPartition(ctx context.Context, maddr address.Address, sectorNumber abi.SectorNumber, tok types.TipSetKey) (*lminer.SectorLocation, error) //perm:read
// StateSearchMsg looks back up to limit epochs in the chain for a message, and returns its receipt and the tipset where it was executed
//
// NOTE: If a replacing message is found on chain, this method will return
// a MsgLookup for the replacing message - the MsgLookup.Message will be a different
// CID than the one provided in the 'cid' param, MsgLookup.Receipt will contain the
// result of the execution of the replacing message.
//
// If the caller wants to ensure that exactly the requested message was executed,
// they must check that MsgLookup.Message is equal to the provided 'cid', or set the
// `allowReplaced` parameter to false. Without this check, and with `allowReplaced`
// set to true, both the requested and original message may appear as
// successfully executed on-chain, which may look like a double-spend.
//
// A replacing message is a message with a different CID, any of Gas values, and
// different signature, but with all other parameters matching (source/destination,
// nonce, params, etc.)
StateSearchMsg(ctx context.Context, from types.TipSetKey, msg cid.Cid, limit abi.ChainEpoch, allowReplaced bool) (*MsgLookup, error) //perm:read
// StateWaitMsg looks back up to limit epochs in the chain for a message.
// If not found, it blocks until the message arrives on chain, and gets to the
// indicated confidence depth.
//
// NOTE: If a replacing message is found on chain, this method will return
// a MsgLookup for the replacing message - the MsgLookup.Message will be a different
// CID than the one provided in the 'cid' param, MsgLookup.Receipt will contain the
// result of the execution of the replacing message.
//
// If the caller wants to ensure that exactly the requested message was executed,
// they must check that MsgLookup.Message is equal to the provided 'cid', or set the
// `allowReplaced` parameter to false. Without this check, and with `allowReplaced`
// set to true, both the requested and original message may appear as
// successfully executed on-chain, which may look like a double-spend.
//
// A replacing message is a message with a different CID, any of Gas values, and
// different signature, but with all other parameters matching (source/destination,
// nonce, params, etc.)
StateWaitMsg(ctx context.Context, cid cid.Cid, confidence uint64, limit abi.ChainEpoch, allowReplaced bool) (*MsgLookup, error) //perm:read
// StateListMiners returns the addresses of every miner that has claimed power in the Power Actor
StateListMiners(context.Context, types.TipSetKey) ([]address.Address, error) //perm:read
// StateListActors returns the addresses of every actor in the state
StateListActors(context.Context, types.TipSetKey) ([]address.Address, error) //perm:read
// StateMarketBalance looks up the Escrow and Locked balances of the given address in the Storage Market
StateMarketBalance(context.Context, address.Address, types.TipSetKey) (MarketBalance, error) //perm:read
// StateMarketParticipants returns the Escrow and Locked balances of every participant in the Storage Market
StateMarketParticipants(context.Context, types.TipSetKey) (map[string]MarketBalance, error) //perm:read
// StateMarketDeals returns information about every deal in the Storage Market
StateMarketDeals(context.Context, types.TipSetKey) (map[string]*MarketDeal, error) //perm:read
// StateMarketStorageDeal returns information about the indicated deal
StateMarketStorageDeal(context.Context, abi.DealID, types.TipSetKey) (*MarketDeal, error) //perm:read
// StateComputeDataCID computes DataCID from a set of on-chain deals
StateComputeDataCID(ctx context.Context, maddr address.Address, sectorType abi.RegisteredSealProof, deals []abi.DealID, tsk types.TipSetKey) (cid.Cid, error) //perm:read
// StateLookupID retrieves the ID address of the given address
StateLookupID(context.Context, address.Address, types.TipSetKey) (address.Address, error) //perm:read
// StateAccountKey returns the public key address of the given ID address for secp and bls accounts
StateAccountKey(context.Context, address.Address, types.TipSetKey) (address.Address, error) //perm:read
// StateLookupRobustAddress returns the public key address of the given ID address for non-account addresses (multisig, miners etc)
StateLookupRobustAddress(context.Context, address.Address, types.TipSetKey) (address.Address, error) //perm:read
// StateChangedActors returns all the actors whose states change between the two given state CIDs
// TODO: Should this take tipset keys instead?
StateChangedActors(context.Context, cid.Cid, cid.Cid) (map[string]types.Actor, error) //perm:read
// StateMinerSectorCount returns the number of sectors in a miner's sector set and proving set
StateMinerSectorCount(context.Context, address.Address, types.TipSetKey) (MinerSectors, error) //perm:read
// StateCompute is a flexible command that applies the given messages on the given tipset.
// The messages are run as though the VM were at the provided height.
//
// When called, StateCompute will:
// - Load the provided tipset, or use the current chain head if not provided
// - Compute the tipset state of the provided tipset on top of the parent state
// - (note that this step runs before vmheight is applied to the execution)
// - Execute state upgrade if any were scheduled at the epoch, or in null
// blocks preceding the tipset
// - Call the cron actor on null blocks preceding the tipset
// - For each block in the tipset
// - Apply messages in blocks in the specified
// - Award block reward by calling the reward actor
// - Call the cron actor for the current epoch
// - If the specified vmheight is higher than the current epoch, apply any
// needed state upgrades to the state
// - Apply the specified messages to the state
//
// The vmheight parameter sets VM execution epoch, and can be used to simulate
// message execution in different network versions. If the specified vmheight
// epoch is higher than the epoch of the specified tipset, any state upgrades
// until the vmheight will be executed on the state before applying messages
// specified by the user.
//
// Note that the initial tipset state computation is not affected by the
// vmheight parameter - only the messages in the `apply` set are
//
// If the caller wants to simply compute the state, vmheight should be set to
// the epoch of the specified tipset.
//
// Messages in the `apply` parameter must have the correct nonces, and gas
// values set.
StateCompute(context.Context, abi.ChainEpoch, []*types.Message, types.TipSetKey) (*ComputeStateOutput, error) //perm:read
// StateVerifierStatus returns the data cap for the given address.
// Returns nil if there is no entry in the data cap table for the
// address.
StateVerifierStatus(ctx context.Context, addr address.Address, tsk types.TipSetKey) (*abi.StoragePower, error) //perm:read
// StateVerifiedClientStatus returns the data cap for the given address.
// Returns nil if there is no entry in the data cap table for the
// address.
StateVerifiedClientStatus(ctx context.Context, addr address.Address, tsk types.TipSetKey) (*abi.StoragePower, error) //perm:read
// StateVerifiedClientStatus returns the address of the Verified Registry's root key
StateVerifiedRegistryRootKey(ctx context.Context, tsk types.TipSetKey) (address.Address, error) //perm:read
// StateDealProviderCollateralBounds returns the min and max collateral a storage provider
// can issue. It takes the deal size and verified status as parameters.
StateDealProviderCollateralBounds(context.Context, abi.PaddedPieceSize, bool, types.TipSetKey) (DealCollateralBounds, error) //perm:read
// StateCirculatingSupply returns the exact circulating supply of Filecoin at the given tipset.
// This is not used anywhere in the protocol itself, and is only for external consumption.
StateCirculatingSupply(context.Context, types.TipSetKey) (abi.TokenAmount, error) //perm:read
// StateVMCirculatingSupplyInternal returns an approximation of the circulating supply of Filecoin at the given tipset.
// This is the value reported by the runtime interface to actors code.
StateVMCirculatingSupplyInternal(context.Context, types.TipSetKey) (CirculatingSupply, error) //perm:read
// StateNetworkVersion returns the network version at the given tipset
StateNetworkVersion(context.Context, types.TipSetKey) (apitypes.NetworkVersion, error) //perm:read
// StateGetRandomnessFromTickets is used to sample the chain for randomness.
StateGetRandomnessFromTickets(ctx context.Context, personalization crypto.DomainSeparationTag, randEpoch abi.ChainEpoch, entropy []byte, tsk types.TipSetKey) (abi.Randomness, error) //perm:read
// StateGetRandomnessFromBeacon is used to sample the beacon for randomness.
StateGetRandomnessFromBeacon(ctx context.Context, personalization crypto.DomainSeparationTag, randEpoch abi.ChainEpoch, entropy []byte, tsk types.TipSetKey) (abi.Randomness, error) //perm:read
// StateGetBeaconEntry returns the beacon entry for the given filecoin epoch. If
// the entry has not yet been produced, the call will block until the entry
// becomes available
StateGetBeaconEntry(ctx context.Context, epoch abi.ChainEpoch) (*types.BeaconEntry, error) //perm:read
// StateGetNetworkParams return current network params
StateGetNetworkParams(ctx context.Context) (*NetworkParams, error) //perm:read
// MethodGroup: Msig
// The Msig methods are used to interact with multisig wallets on the
// filecoin network
// MsigGetAvailableBalance returns the portion of a multisig's balance that can be withdrawn or spent
MsigGetAvailableBalance(context.Context, address.Address, types.TipSetKey) (types.BigInt, error) //perm:read
// MsigGetVestingSchedule returns the vesting details of a given multisig.
MsigGetVestingSchedule(context.Context, address.Address, types.TipSetKey) (MsigVesting, error) //perm:read
// MsigGetVested returns the amount of FIL that vested in a multisig in a certain period.
// It takes the following params: <multisig address>, <start epoch>, <end epoch>
MsigGetVested(context.Context, address.Address, types.TipSetKey, types.TipSetKey) (types.BigInt, error) //perm:read
//MsigGetPending returns pending transactions for the given multisig
//wallet. Once pending transactions are fully approved, they will no longer
//appear here.
MsigGetPending(context.Context, address.Address, types.TipSetKey) ([]*MsigTransaction, error) //perm:read
// MsigCreate creates a multisig wallet
// It takes the following params: <required number of senders>, <approving addresses>, <unlock duration>
//<initial balance>, <sender address of the create msg>, <gas price>
MsigCreate(context.Context, uint64, []address.Address, abi.ChainEpoch, types.BigInt, address.Address, types.BigInt) (*MessagePrototype, error) //perm:sign
// MsigPropose proposes a multisig message
// It takes the following params: <multisig address>, <recipient address>, <value to transfer>,
// <sender address of the propose msg>, <method to call in the proposed message>, <params to include in the proposed message>
MsigPropose(context.Context, address.Address, address.Address, types.BigInt, address.Address, uint64, []byte) (*MessagePrototype, error) //perm:sign
// MsigApprove approves a previously-proposed multisig message by transaction ID
// It takes the following params: <multisig address>, <proposed transaction ID> <signer address>
MsigApprove(context.Context, address.Address, uint64, address.Address) (*MessagePrototype, error) //perm:sign
// MsigApproveTxnHash approves a previously-proposed multisig message, specified
// using both transaction ID and a hash of the parameters used in the
// proposal. This method of approval can be used to ensure you only approve
// exactly the transaction you think you are.
// It takes the following params: <multisig address>, <proposed message ID>, <proposer address>, <recipient address>, <value to transfer>,
// <sender address of the approve msg>, <method to call in the proposed message>, <params to include in the proposed message>
MsigApproveTxnHash(context.Context, address.Address, uint64, address.Address, address.Address, types.BigInt, address.Address, uint64, []byte) (*MessagePrototype, error) //perm:sign
// MsigCancel cancels a previously-proposed multisig message
// It takes the following params: <multisig address>, <proposed transaction ID> <signer address>
MsigCancel(context.Context, address.Address, uint64, address.Address) (*MessagePrototype, error) //perm:sign
// MsigCancel cancels a previously-proposed multisig message
// It takes the following params: <multisig address>, <proposed transaction ID>, <recipient address>, <value to transfer>,
// <sender address of the cancel msg>, <method to call in the proposed message>, <params to include in the proposed message>
MsigCancelTxnHash(context.Context, address.Address, uint64, address.Address, types.BigInt, address.Address, uint64, []byte) (*MessagePrototype, error) //perm:sign
// MsigAddPropose proposes adding a signer in the multisig
// It takes the following params: <multisig address>, <sender address of the propose msg>,
// <new signer>, <whether the number of required signers should be increased>
MsigAddPropose(context.Context, address.Address, address.Address, address.Address, bool) (*MessagePrototype, error) //perm:sign
// MsigAddApprove approves a previously proposed AddSigner message
// It takes the following params: <multisig address>, <sender address of the approve msg>, <proposed message ID>,
// <proposer address>, <new signer>, <whether the number of required signers should be increased>
MsigAddApprove(context.Context, address.Address, address.Address, uint64, address.Address, address.Address, bool) (*MessagePrototype, error) //perm:sign
// MsigAddCancel cancels a previously proposed AddSigner message
// It takes the following params: <multisig address>, <sender address of the cancel msg>, <proposed message ID>,
// <new signer>, <whether the number of required signers should be increased>
MsigAddCancel(context.Context, address.Address, address.Address, uint64, address.Address, bool) (*MessagePrototype, error) //perm:sign
// MsigSwapPropose proposes swapping 2 signers in the multisig
// It takes the following params: <multisig address>, <sender address of the propose msg>,
// <old signer>, <new signer>
MsigSwapPropose(context.Context, address.Address, address.Address, address.Address, address.Address) (*MessagePrototype, error) //perm:sign
// MsigSwapApprove approves a previously proposed SwapSigner
// It takes the following params: <multisig address>, <sender address of the approve msg>, <proposed message ID>,
// <proposer address>, <old signer>, <new signer>
MsigSwapApprove(context.Context, address.Address, address.Address, uint64, address.Address, address.Address, address.Address) (*MessagePrototype, error) //perm:sign
// MsigSwapCancel cancels a previously proposed SwapSigner message
// It takes the following params: <multisig address>, <sender address of the cancel msg>, <proposed message ID>,
// <old signer>, <new signer>
MsigSwapCancel(context.Context, address.Address, address.Address, uint64, address.Address, address.Address) (*MessagePrototype, error) //perm:sign
// MsigRemoveSigner proposes the removal of a signer from the multisig.
// It accepts the multisig to make the change on, the proposer address to
// send the message from, the address to be removed, and a boolean
// indicating whether or not the signing threshold should be lowered by one
// along with the address removal.
MsigRemoveSigner(ctx context.Context, msig address.Address, proposer address.Address, toRemove address.Address, decrease bool) (*MessagePrototype, error) //perm:sign
// MarketAddBalance adds funds to the market actor
MarketAddBalance(ctx context.Context, wallet, addr address.Address, amt types.BigInt) (cid.Cid, error) //perm:sign
// MarketGetReserved gets the amount of funds that are currently reserved for the address
MarketGetReserved(ctx context.Context, addr address.Address) (types.BigInt, error) //perm:sign
// MarketReserveFunds reserves funds for a deal
MarketReserveFunds(ctx context.Context, wallet address.Address, addr address.Address, amt types.BigInt) (cid.Cid, error) //perm:sign
// MarketReleaseFunds releases funds reserved by MarketReserveFunds
MarketReleaseFunds(ctx context.Context, addr address.Address, amt types.BigInt) error //perm:sign
// MarketWithdraw withdraws unlocked funds from the market actor
MarketWithdraw(ctx context.Context, wallet, addr address.Address, amt types.BigInt) (cid.Cid, error) //perm:sign
// MethodGroup: Paych
// The Paych methods are for interacting with and managing payment channels
// PaychGet gets or creates a payment channel between address pair
// The specified amount will be reserved for use. If there aren't enough non-reserved funds
// available, funds will be added through an on-chain message.
// - When opts.OffChain is true, this call will not cause any messages to be sent to the chain (no automatic
// channel creation/funds adding). If the operation can't be performed without sending a message an error will be
// returned. Note that even when this option is specified, this call can be blocked by previous operations on the
// channel waiting for on-chain operations.
PaychGet(ctx context.Context, from, to address.Address, amt types.BigInt, opts PaychGetOpts) (*ChannelInfo, error) //perm:sign
// PaychFund gets or creates a payment channel between address pair.
// The specified amount will be added to the channel through on-chain send for future use
PaychFund(ctx context.Context, from, to address.Address, amt types.BigInt) (*ChannelInfo, error) //perm:sign
PaychGetWaitReady(context.Context, cid.Cid) (address.Address, error) //perm:sign
PaychAvailableFunds(ctx context.Context, ch address.Address) (*ChannelAvailableFunds, error) //perm:sign
PaychAvailableFundsByFromTo(ctx context.Context, from, to address.Address) (*ChannelAvailableFunds, error) //perm:sign
PaychList(context.Context) ([]address.Address, error) //perm:read
PaychStatus(context.Context, address.Address) (*PaychStatus, error) //perm:read
PaychSettle(context.Context, address.Address) (cid.Cid, error) //perm:sign
PaychCollect(context.Context, address.Address) (cid.Cid, error) //perm:sign
PaychAllocateLane(ctx context.Context, ch address.Address) (uint64, error) //perm:sign
PaychNewPayment(ctx context.Context, from, to address.Address, vouchers []VoucherSpec) (*PaymentInfo, error) //perm:sign
PaychVoucherCheckValid(context.Context, address.Address, *paych.SignedVoucher) error //perm:read
PaychVoucherCheckSpendable(context.Context, address.Address, *paych.SignedVoucher, []byte, []byte) (bool, error) //perm:read
PaychVoucherCreate(context.Context, address.Address, types.BigInt, uint64) (*VoucherCreateResult, error) //perm:sign
PaychVoucherAdd(context.Context, address.Address, *paych.SignedVoucher, []byte, types.BigInt) (types.BigInt, error) //perm:write
PaychVoucherList(context.Context, address.Address) ([]*paych.SignedVoucher, error) //perm:write
PaychVoucherSubmit(context.Context, address.Address, *paych.SignedVoucher, []byte, []byte) (cid.Cid, error) //perm:sign
// MethodGroup: Node
// These methods are general node management and status commands
NodeStatus(ctx context.Context, inclChainStatus bool) (NodeStatus, error) //perm:read
// CreateBackup creates node backup onder the specified file name. The
// method requires that the lotus daemon is running with the
// LOTUS_BACKUP_BASE_PATH environment variable set to some path, and that
// the path specified when calling CreateBackup is within the base path
CreateBackup(ctx context.Context, fpath string) error //perm:admin
}
type StorageAsk struct {
Response *storagemarket.StorageAsk
DealProtocols []string
}
type FileRef struct {
Path string
IsCAR bool
}
type MinerSectors struct {
// Live sectors that should be proven.
Live uint64
// Sectors actively contributing to power.
Active uint64
// Sectors with failed proofs.
Faulty uint64
}
type ImportRes struct {
Root cid.Cid
ImportID imports.ID
}
type Import struct {
Key imports.ID
Err string
Root *cid.Cid
// Source is the provenance of the import, e.g. "import", "unknown", else.
// Currently useless but may be used in the future.
Source string
// FilePath is the path of the original file. It is important that the file
// is retained at this path, because it will be referenced during
// the transfer (when we do the UnixFS chunking, we don't duplicate the
// leaves, but rather point to chunks of the original data through
// positional references).
FilePath string
// CARPath is the path of the CAR file containing the DAG for this import.
CARPath string
}
type DealInfo struct {
ProposalCid cid.Cid
State storagemarket.StorageDealStatus
Message string // more information about deal state, particularly errors
DealStages *storagemarket.DealStages
Provider address.Address
DataRef *storagemarket.DataRef
PieceCID cid.Cid
Size uint64
PricePerEpoch types.BigInt
Duration uint64
DealID abi.DealID
CreationTime time.Time
Verified bool
TransferChannelID *datatransfer.ChannelID
DataTransfer *DataTransferChannel
}
type MsgLookup struct {
Message cid.Cid // Can be different than requested, in case it was replaced, but only gas values changed
Receipt types.MessageReceipt
ReturnDec interface{}
TipSet types.TipSetKey
Height abi.ChainEpoch
}
type MsgGasCost struct {
Message cid.Cid // Can be different than requested, in case it was replaced, but only gas values changed
GasUsed abi.TokenAmount
BaseFeeBurn abi.TokenAmount
OverEstimationBurn abi.TokenAmount
MinerPenalty abi.TokenAmount
MinerTip abi.TokenAmount
Refund abi.TokenAmount
TotalCost abi.TokenAmount
}
// BlsMessages[x].cid = Cids[x]
// SecpkMessages[y].cid = Cids[BlsMessages.length + y]
type BlockMessages struct {
BlsMessages []*types.Message
SecpkMessages []*types.SignedMessage
Cids []cid.Cid
}
type Message struct {
Cid cid.Cid
Message *types.Message
}
type ActorState struct {
Balance types.BigInt
Code cid.Cid
State interface{}
}
type PCHDir int
const (
PCHUndef PCHDir = iota
PCHInbound
PCHOutbound
)
type PaychGetOpts struct {
OffChain bool
}
type PaychStatus struct {
ControlAddr address.Address
Direction PCHDir
}
type ChannelInfo struct {
Channel address.Address
WaitSentinel cid.Cid
}
type ChannelAvailableFunds struct {
// Channel is the address of the channel
Channel *address.Address
// From is the from address of the channel (channel creator)
From address.Address
// To is the to address of the channel
To address.Address
// ConfirmedAmt is the total amount of funds that have been confirmed on-chain for the channel
ConfirmedAmt types.BigInt
// PendingAmt is the amount of funds that are pending confirmation on-chain
PendingAmt types.BigInt
// NonReservedAmt is part of ConfirmedAmt that is available for use (e.g. when the payment channel was pre-funded)
NonReservedAmt types.BigInt
// PendingAvailableAmt is the amount of funds that are pending confirmation on-chain that will become available once confirmed
PendingAvailableAmt types.BigInt
// PendingWaitSentinel can be used with PaychGetWaitReady to wait for
// confirmation of pending funds
PendingWaitSentinel *cid.Cid
// QueuedAmt is the amount that is queued up behind a pending request
QueuedAmt types.BigInt
// VoucherRedeemedAmt is the amount that is redeemed by vouchers on-chain
// and in the local datastore
VoucherReedeemedAmt types.BigInt
}
type PaymentInfo struct {
Channel address.Address
WaitSentinel cid.Cid
Vouchers []*paych.SignedVoucher
}
type VoucherSpec struct {
Amount types.BigInt
TimeLockMin abi.ChainEpoch
TimeLockMax abi.ChainEpoch
MinSettle abi.ChainEpoch
Extra *paych.ModVerifyParams
}
// VoucherCreateResult is the response to calling PaychVoucherCreate
type VoucherCreateResult struct {
// Voucher that was created, or nil if there was an error or if there
// were insufficient funds in the channel
Voucher *paych.SignedVoucher
// Shortfall is the additional amount that would be needed in the channel
// in order to be able to create the voucher
Shortfall types.BigInt
}
type MinerPower struct {
MinerPower power.Claim
TotalPower power.Claim
HasMinPower bool
}
type QueryOffer struct {
Err string
Root cid.Cid
Piece *cid.Cid
Size uint64
MinPrice types.BigInt
UnsealPrice types.BigInt
PricePerByte abi.TokenAmount
PaymentInterval uint64
PaymentIntervalIncrease uint64
Miner address.Address
MinerPeer retrievalmarket.RetrievalPeer
}
func (o *QueryOffer) Order(client address.Address) RetrievalOrder {
return RetrievalOrder{
Root: o.Root,
Piece: o.Piece,
Size: o.Size,
Total: o.MinPrice,
UnsealPrice: o.UnsealPrice,
PaymentInterval: o.PaymentInterval,
PaymentIntervalIncrease: o.PaymentIntervalIncrease,
Client: client,
Miner: o.Miner,
MinerPeer: &o.MinerPeer,
}
}
type MarketBalance struct {
Escrow big.Int
Locked big.Int
}
type MarketDeal struct {
Proposal market.DealProposal
State market.DealState
}
type RetrievalOrder struct {
Root cid.Cid
Piece *cid.Cid
DataSelector *Selector
// todo: Size/Total are only used for calculating price per byte; we should let users just pass that
Size uint64
Total types.BigInt
UnsealPrice types.BigInt
PaymentInterval uint64
PaymentIntervalIncrease uint64
Client address.Address
Miner address.Address
MinerPeer *retrievalmarket.RetrievalPeer
}
type InvocResult struct {
MsgCid cid.Cid
Msg *types.Message
MsgRct *types.MessageReceipt
GasCost MsgGasCost
ExecutionTrace types.ExecutionTrace
Error string
Duration time.Duration
}
type MethodCall struct {
types.MessageReceipt
Error string
}
type StartDealParams struct {
Data *storagemarket.DataRef
Wallet address.Address
Miner address.Address
EpochPrice types.BigInt
MinBlocksDuration uint64
ProviderCollateral big.Int
DealStartEpoch abi.ChainEpoch
FastRetrieval bool
VerifiedDeal bool
}
func (s *StartDealParams) UnmarshalJSON(raw []byte) (err error) {
type sdpAlias StartDealParams
sdp := sdpAlias{
FastRetrieval: true,
}
if err := json.Unmarshal(raw, &sdp); err != nil {
return err
}
*s = StartDealParams(sdp)
return nil
}
type IpldObject struct {
Cid cid.Cid
Obj interface{}
}
type ActiveSync struct {
WorkerID uint64
Base *types.TipSet
Target *types.TipSet
Stage SyncStateStage
Height abi.ChainEpoch
Start time.Time
End time.Time
Message string
}
type SyncState struct {
ActiveSyncs []ActiveSync
VMApplied uint64
}
type SyncStateStage int
const (
StageIdle = SyncStateStage(iota)
StageHeaders
StagePersistHeaders
StageMessages
StageSyncComplete
StageSyncErrored
StageFetchingMessages
)
func (v SyncStateStage) String() string {
switch v {
case StageIdle:
return "idle"
case StageHeaders:
return "header sync"
case StagePersistHeaders:
return "persisting headers"
case StageMessages:
return "message sync"
case StageSyncComplete:
return "complete"
case StageSyncErrored:
return "error"
case StageFetchingMessages:
return "fetching messages"
default:
return fmt.Sprintf("<unknown: %d>", v)
}
}
type MpoolChange int
const (
MpoolAdd MpoolChange = iota
MpoolRemove
)
type MpoolUpdate struct {
Type MpoolChange
Message *types.SignedMessage
}
type ComputeStateOutput struct {
Root cid.Cid
Trace []*InvocResult
}
type DealCollateralBounds struct {
Min abi.TokenAmount
Max abi.TokenAmount
}
type CirculatingSupply struct {
FilVested abi.TokenAmount
FilMined abi.TokenAmount
FilBurnt abi.TokenAmount
FilLocked abi.TokenAmount
FilCirculating abi.TokenAmount
FilReserveDisbursed abi.TokenAmount
}
type MiningBaseInfo struct {
MinerPower types.BigInt
NetworkPower types.BigInt
Sectors []builtin.ExtendedSectorInfo
WorkerKey address.Address
SectorSize abi.SectorSize
PrevBeaconEntry types.BeaconEntry
BeaconEntries []types.BeaconEntry
EligibleForMining bool
}
type BlockTemplate struct {
Miner address.Address
Parents types.TipSetKey
Ticket *types.Ticket
Eproof *types.ElectionProof
BeaconValues []types.BeaconEntry
Messages []*types.SignedMessage
Epoch abi.ChainEpoch
Timestamp uint64
WinningPoStProof []builtin.PoStProof
}
type DataSize struct {
PayloadSize int64
PieceSize abi.PaddedPieceSize
}
type DataCIDSize struct {
PayloadSize int64
PieceSize abi.PaddedPieceSize
PieceCID cid.Cid
}
type CommPRet struct {
Root cid.Cid
Size abi.UnpaddedPieceSize
}
type HeadChange struct {
Type string
Val *types.TipSet
}
type MsigProposeResponse int
const (
MsigApprove MsigProposeResponse = iota
MsigCancel
)
type Deadline struct {
PostSubmissions bitfield.BitField
DisputableProofCount uint64
}
type Partition struct {
AllSectors bitfield.BitField
FaultySectors bitfield.BitField
RecoveringSectors bitfield.BitField
LiveSectors bitfield.BitField
ActiveSectors bitfield.BitField
}
type Fault struct {
Miner address.Address
Epoch abi.ChainEpoch
}
var EmptyVesting = MsigVesting{
InitialBalance: types.EmptyInt,
StartEpoch: -1,
UnlockDuration: -1,
}
type MsigVesting struct {
InitialBalance abi.TokenAmount
StartEpoch abi.ChainEpoch
UnlockDuration abi.ChainEpoch
}
type MessageMatch struct {
To address.Address
From address.Address
}
type MsigTransaction struct {
ID int64
To address.Address
Value abi.TokenAmount
Method abi.MethodNum
Params []byte
Approved []address.Address
}