modules

package
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Published: Apr 25, 2017 License: MIT Imports: 13 Imported by: 49

Documentation

Overview

Package modules contains definitions for all of the major modules of Sia, as well as some helper functions for performing actions that are common to multiple modules.

Index

Constants

View Source
const (
	// AcceptResponse is the response given to an RPC call to indicate
	// acceptance, i.e. that the sender wishes to continue communication.
	AcceptResponse = "accept"

	// StopResponse is the response given to an RPC call to indicate graceful
	// termination, i.e. that the sender wishes to cease communication, but
	// not due to an error.
	StopResponse = "stop"

	// NegotiateDownloadTime defines the amount of time that the renter and
	// host have to negotiate a download request batch. The time is set high
	// enough that two nodes behind Tor have a reasonable chance of completing
	// the negotiation.
	NegotiateDownloadTime = 600 * time.Second

	// NegotiateFileContractTime defines the amount of time that the renter and
	// host have to negotiate a file contract. The time is set high enough that
	// a node behind Tor has a reasonable chance at making the multiple
	// required round trips to complete the negotiation.
	NegotiateFileContractTime = 360 * time.Second

	// NegotiateFileContractRevisionTime defines the minimum amount of time
	// that the renter and host have to negotiate a file contract revision. The
	// time is set high enough that a full 4MB can be piped through a
	// connection that is running over Tor.
	NegotiateFileContractRevisionTime = 600 * time.Second

	// NegotiateRecentRevisionTime establishes the minimum amount of time that
	// the connection deadline is expected to be set to when a recent file
	// contract revision is being requested from the host. The deadline is long
	// enough that the connection should be successful even if both parties are
	// running Tor.
	NegotiateRecentRevisionTime = 120 * time.Second

	// NegotiateRenewContractTime defines the minimum amount of time that the
	// renter and host have to negotiate a final contract renewal. The time is
	// high enough that the negotiation can occur over a Tor connection, and
	// that both the host and the renter can have time to process large Merkle
	// tree calculations that may be involved with renewing a file contract.
	NegotiateRenewContractTime = 600 * time.Second

	// NegotiateSettingsTime establishes the minimum amount of time that the
	// connection deadline is expected to be set to when settings are being
	// requested from the host. The deadline is long enough that the connection
	// should be successful even if both parties are on Tor.
	NegotiateSettingsTime = 120 * time.Second

	// NegotiateMaxDownloadActionRequestSize defines the maximum size that a
	// download request can be. Note, this is not a max size for the data that
	// can be requested, but instead is a max size for the definition of the
	// data being requested.
	NegotiateMaxDownloadActionRequestSize = 50e3

	// NegotiateMaxErrorSize indicates the maximum number of bytes that can be
	// used to encode an error being sent during negotiation.
	NegotiateMaxErrorSize = 256

	// NegotiateMaxFileContractRevisionSize specifies the maximum size that a
	// file contract revision is allowed to have when being sent over the wire
	// during negotiation.
	NegotiateMaxFileContractRevisionSize = 3e3

	// NegotiateMaxFileContractSetLen determines the maximum allowed size of a
	// transaction set that can be sent when trying to negotiate a file
	// contract. The transaction set will contain all of the unconfirmed
	// dependencies of the file contract, meaning that it can be quite large.
	// The transaction pool's size limit for transaction sets has been chosen
	// as a reasonable guideline for determining what is too large.
	NegotiateMaxFileContractSetLen = TransactionSetSizeLimit - 1e3

	// NegotiateMaxHostExternalSettingsLen is the maximum allowed size of an
	// encoded HostExternalSettings.
	NegotiateMaxHostExternalSettingsLen = 16000

	// NegotiateMaxSiaPubkeySize defines the maximum size that a SiaPubkey is
	// allowed to be when being sent over the wire during negotiation.
	NegotiateMaxSiaPubkeySize = 1e3

	// NegotiateMaxTransactionSignatureSize defines the maximum size that a
	// transaction signature is allowed to be when being sent over the wire
	// during negotiation.
	NegotiateMaxTransactionSignatureSize = 2e3

	// NegotiateMaxTransactionSignaturesSize defines the maximum size that a
	// transaction signature slice is allowed to be when being sent over the
	// wire during negotiation.
	NegotiateMaxTransactionSignaturesSize = 5e3
)
View Source
const (
	// ContractManagerDir is the standard name used for the directory that
	// contains all files directly related to the contract manager.
	ContractManagerDir = "contractmanager"

	// StorageManagerDir is standard name used for the directory that contains
	// all of the storage manager files.
	StorageManagerDir = "storagemanager"
)
View Source
const (
	// TransactionSizeLimit defines the size of the largest transaction that
	// will be accepted by the transaction pool according to the IsStandard
	// rules.
	TransactionSizeLimit = 32e3

	// TransactionSetSizeLimit defines the largest set of dependent unconfirmed
	// transactions that will be accepted by the transaction pool.
	TransactionSetSizeLimit = 250e3
)
View Source
const (
	// WalletDir is the directory that contains the wallet persistence.
	WalletDir = "wallet"

	// SeedChecksumSize is the number of bytes that are used to checksum
	// addresses to prevent accidental spending.
	SeedChecksumSize = 6

	// PublicKeysPerSeed define the number of public keys that get pregenerated
	// for a seed at startup when searching for balances in the blockchain.
	PublicKeysPerSeed = 2500
)
View Source
const (
	// ExplorerDir is the name of the directory that is typically used for the
	// explorer.
	ExplorerDir = "explorer"
)
View Source
const (
	// GatewayDir is the name of the directory used to store the gateway's
	// persistent data.
	GatewayDir = "gateway"
)
View Source
const (
	// HostDir names the directory that contains the host persistence.
	HostDir = "host"
)
View Source
const MaxEncodedNetAddressLength = 266

MaxEncodedNetAddressLength is the maximum length of a NetAddress encoded with the encode package. 266 was chosen because the maximum length for the hostname is 254 + 1 for the separating colon + 5 for the port + 8 byte string length prefix.

View Source
const (
	// MinerDir is the name of the directory that is used to store the miner's
	// persistent data.
	MinerDir = "miner"
)
View Source
const (
	// RenterDir is the name of the directory that is used to store the
	// renter's persistent data.
	RenterDir = "renter"
)

Variables

View Source
var (
	// ConsensusChangeBeginning is a special consensus change id that tells the
	// consensus set to provide all consensus changes starting from the very
	// first diff, which includes the genesis block diff.
	ConsensusChangeBeginning = ConsensusChangeID{}

	// ConsensusChangeRecent is a special consensus change id that tells the
	// consensus set to provide the most recent consensus change, instead of
	// starting from a specific value (which may not be known to the caller).
	ConsensusChangeRecent = ConsensusChangeID{1}

	// ErrBlockKnown is an error indicating that a block is already in the
	// database.
	ErrBlockKnown = errors.New("block already present in database")

	// ErrBlockUnsolved indicates that a block did not meet the required POW
	// target.
	ErrBlockUnsolved = errors.New("block does not meet target")

	// ErrInvalidConsensusChangeID indicates that ConsensusSetPersistSubscribe
	// was called with a consensus change id that is not recognized. Most
	// commonly, this means that the consensus set was deleted or replaced and
	// now the module attempting the subscription has desynchronized. This error
	// should be handled by the module, and not reported to the user.
	ErrInvalidConsensusChangeID = errors.New("consensus subscription has invalid id - files are inconsistent")

	// ErrNonExtendingBlock indicates that a block is valid but does not result
	// in a fork that is the heaviest known fork - the consensus set has not
	// changed as a result of seeing the block.
	ErrNonExtendingBlock = errors.New("block does not extend the longest fork")
)
View Source
var (
	// BytesPerTerabyte is the conversion rate between bytes and terabytes.
	BytesPerTerabyte = types.NewCurrency64(1e12)

	// BlockBytesPerMonthTerabyte is the conversion rate between block-bytes and month-TB.
	BlockBytesPerMonthTerabyte = BytesPerTerabyte.Mul64(4320)

	// HostWorkingStatusChecking is returned from WorkingStatus() if the host is
	// still determining if it is working, that is, if settings calls are
	// incrementing.
	HostWorkingStatusChecking = HostWorkingStatus("checking")

	// HostWorkingStatusNotWorking is returned from WorkingStatus() if the host
	// has not received any settings calls over the duration of
	// workingStatusFrequency.
	HostWorkingStatusNotWorking = HostWorkingStatus("not working")

	// HostWorkingStatusWorking is returned from WorkingStatus() if the host has
	// received more than workingThreshold settings calls over the duration of
	// workingStatusFrequency.
	HostWorkingStatusWorking = HostWorkingStatus("working")

	// HostConnectabilityStatusChecking is returned from ConnectabilityStatus()
	// if the host is still determining if it is connectable.
	HostConnectabilityStatusChecking = HostConnectabilityStatus("checking")

	// HostConnectabilityStatusConnectable is returned from
	// ConnectabilityStatus() if the host is connectable at its configured
	// netaddress.
	HostConnectabilityStatusConnectable = HostConnectabilityStatus("connectable")

	// HostConnectabilityStatusNotConnectable is returned from
	// ConnectabilityStatus() if the host is not connectable at its configured
	// netaddress.
	HostConnectabilityStatusNotConnectable = HostConnectabilityStatus("not connectable")
)
View Source
var (
	// ActionDelete is the specifier for a RevisionAction that deletes a
	// sector.
	ActionDelete = types.Specifier{'D', 'e', 'l', 'e', 't', 'e'}

	// ActionInsert is the specifier for a RevisionAction that inserts a
	// sector.
	ActionInsert = types.Specifier{'I', 'n', 's', 'e', 'r', 't'}

	// ActionModify is the specifier for a RevisionAction that modifies sector
	// data.
	ActionModify = types.Specifier{'M', 'o', 'd', 'i', 'f', 'y'}

	// ErrAnnNotAnnouncement indicates that the provided host announcement does
	// not use a recognized specifier, indicating that it's either not a host
	// announcement or it's not a recognized version of a host announcement.
	ErrAnnNotAnnouncement = errors.New("provided data does not form a recognized host announcement")

	// ErrAnnUnrecognizedSignature is returned when the signature in a host
	// announcement is not a type of signature that is recognized.
	ErrAnnUnrecognizedSignature = errors.New("the signature provided in the host announcement is not recognized")

	// ErrRevisionCoveredFields is returned if there is a covered fields object
	// in a transaction signature which has the 'WholeTransaction' field set to
	// true, meaning that miner fees cannot be added to the transaction without
	// invalidating the signature.
	ErrRevisionCoveredFields = errors.New("file contract revision transaction signature does not allow miner fees to be added")

	// ErrRevisionSigCount is returned when a file contract revision has the
	// wrong number of transaction signatures.
	ErrRevisionSigCount = errors.New("file contract revision has the wrong number of transaction signatures")

	// ErrStopResponse is the error returned by ReadNegotiationAcceptance when
	// it reads the StopResponse string.
	ErrStopResponse = errors.New("sender wishes to stop communicating")

	// PrefixHostAnnouncement is used to indicate that a transaction's
	// Arbitrary Data field contains a host announcement. The encoded
	// announcement will follow this prefix.
	PrefixHostAnnouncement = types.Specifier{'H', 'o', 's', 't', 'A', 'n', 'n', 'o', 'u', 'n', 'c', 'e', 'm', 'e', 'n', 't'}

	// RPCDownload is the specifier for downloading a file from a host.
	RPCDownload = types.Specifier{'D', 'o', 'w', 'n', 'l', 'o', 'a', 'd', 2}

	// RPCFormContract is the specifier for forming a contract with a host.
	RPCFormContract = types.Specifier{'F', 'o', 'r', 'm', 'C', 'o', 'n', 't', 'r', 'a', 'c', 't', 2}

	// RPCRenewContract is the specifier to renewing an existing contract.
	RPCRenewContract = types.Specifier{'R', 'e', 'n', 'e', 'w', 'C', 'o', 'n', 't', 'r', 'a', 'c', 't', 2}

	// RPCReviseContract is the specifier for revising an existing file
	// contract.
	RPCReviseContract = types.Specifier{'R', 'e', 'v', 'i', 's', 'e', 'C', 'o', 'n', 't', 'r', 'a', 'c', 't', 2}

	// RPCRecentRevision is the specifier for getting the most recent file
	// contract revision for a given file contract.
	RPCRecentRevision = types.Specifier{'R', 'e', 'c', 'e', 'n', 't', 'R', 'e', 'v', 'i', 's', 'i', 'o', 'n', 2}

	// RPCSettings is the specifier for requesting settings from the host.
	RPCSettings = types.Specifier{'S', 'e', 't', 't', 'i', 'n', 'g', 's', 2}

	// SectorSize defines how large a sector should be in bytes. The sector
	// size needs to be a power of two to be compatible with package
	// merkletree. 4MB has been chosen for the live network because large
	// sectors significantly reduce the tracking overhead experienced by the
	// renter and the host.
	SectorSize = build.Select(build.Var{
		Dev:      uint64(1 << 18),
		Standard: uint64(1 << 22),
		Testing:  uint64(1 << 12),
	}).(uint64)
)
View Source
var (
	// ErrDuplicateTransactionSet is the error that gets returned if a
	// duplicate transaction set is given to the transaction pool.
	ErrDuplicateTransactionSet = errors.New("transaction set contains only duplicate transactions")

	// ErrLargeTransaction is the error that gets returned if a transaction
	// provided to the transaction pool is larger than what is allowed by the
	// IsStandard rules.
	ErrLargeTransaction = errors.New("transaction is too large for this transaction pool")

	// ErrLargeTransactionSet is the error that gets returned if a transaction
	// set given to the transaction pool is larger than the limit placed by the
	// IsStandard rules of the transaction pool.
	ErrLargeTransactionSet = errors.New("transaction set is too large for this transaction pool")

	// ErrInvalidArbPrefix is the error that gets returned if a transaction is
	// submitted to the transaction pool which contains a prefix that is not
	// recognized. This helps prevent miners on old versions from mining
	// potentially illegal transactions in the event of a soft-fork.
	ErrInvalidArbPrefix = errors.New("transaction contains non-standard arbitrary data")

	// PrefixNonSia defines the prefix that should be appended to any
	// transactions that use the arbitrary data for reasons outside of the
	// standard Sia protocol. This will prevent these transactions from being
	// rejected by the IsStandard set of rules, but also means that the data
	// will never be used within the formal Sia protocol.
	PrefixNonSia = types.Specifier{'N', 'o', 'n', 'S', 'i', 'a'}

	// TransactionPoolDir is the name of the directory that is used to store
	// the transaction pool's persistent data.
	TransactionPoolDir = "transactionpool"
)
View Source
var (
	// ErrBadEncryptionKey is returned if the incorrect encryption key to a
	// file is provided.
	ErrBadEncryptionKey = errors.New("provided encryption key is incorrect")

	// ErrLowBalance is returned if the wallet does not have enough funds to
	// complete the desired action.
	ErrLowBalance = errors.New("insufficient balance")

	// ErrIncompleteTransactions is returned if the wallet has incomplete
	// transactions being built that are using all of the current outputs, and
	// therefore the wallet is unable to spend money despite it not technically
	// being 'unconfirmed' yet.
	ErrIncompleteTransactions = errors.New("wallet has coins spent in incomplete transactions - not enough remaining coins")

	// ErrLockedWallet is returned when an action cannot be performed due to
	// the wallet being locked.
	ErrLockedWallet = errors.New("wallet must be unlocked before it can be used")
)
View Source
var (
	// BootstrapPeers is a list of peers that can be used to find other peers -
	// when a client first connects to the network, the only options for
	// finding peers are either manual entry of peers or to use a hardcoded
	// bootstrap point. While the bootstrap point could be a central service,
	// it can also be a list of peers that are known to be stable. We have
	// chosen to hardcode known-stable peers.
	BootstrapPeers = build.Select(build.Var{
		Standard: []NetAddress{
			"101.200.214.115:9981",
			"109.172.42.157:9981",
			"113.98.98.164:9981",
			"139.162.152.204:9981",
			"142.4.209.72:9981",
			"148.251.221.163:9981",
			"162.210.249.170:9981",
			"162.222.23.93:9981",
			"176.9.72.2:9981",
			"18.239.0.53:9981",
			"188.166.61.155:9981",
			"188.166.61.157:9981",
			"188.166.61.158:9981",
			"190.10.8.173:9981",
			"194.135.90.38:9981",
			"195.154.243.233:9981",
			"210.14.155.90:9981",
			"213.251.158.199:9981",
			"217.65.8.75:9981",
			"23.239.14.98:9971",
			"23.239.14.98:9981",
			"37.139.28.207:9981",
			"45.79.159.167:9981",
			"46.105.118.15:9981",
			"64.31.31.106:9981",
			"73.73.50.191:33721",
			"78.119.218.13:9981",
			"79.172.204.10:9981",
			"80.234.37.94:9981",
			"82.196.11.170:9981",
			"82.196.5.50:9981",
			"82.220.99.82:9981",
			"85.255.197.69:9981",
			"95.85.14.54:9981",
			"95.85.15.69:9981",
			"95.85.15.71:9981",
		},
		Dev:     []NetAddress(nil),
		Testing: []NetAddress(nil),
	}).([]NetAddress)
)
View Source
var (
	// SafeMutexDelay is the recommended timeout for the deadlock detecting
	// mutex. This value is DEPRECATED, as safe mutexes are no longer
	// recommended. Instead, the locking conventions should be followed and a
	// traditional mutex or a demote mutex should be used.
	SafeMutexDelay time.Duration
)

Functions

func CalculateFee added in v1.0.0

func CalculateFee(ts []types.Transaction) types.Currency

CalculateFee returns the fee-per-byte of a transaction set.

func CreateAnnouncement added in v1.0.0

func CreateAnnouncement(addr NetAddress, pk types.SiaPublicKey, sk crypto.SecretKey) (signedAnnouncement []byte, err error)

CreateAnnouncement will take a host announcement and encode it, returning the exact []byte that should be added to the arbitrary data of a transaction.

func ReadNegotiationAcceptance added in v1.0.0

func ReadNegotiationAcceptance(r io.Reader) error

ReadNegotiationAcceptance reads an accept/reject response from r (usually a net.Conn). If the response is not AcceptResponse, ReadNegotiationAcceptance returns the response as an error. If the response is StopResponse, ErrStopResponse is returned, allowing for direct error comparison.

Note that since errors returned by ReadNegotiationAcceptance are newly allocated, they cannot be compared to other errors in the traditional fashion.

func SeedToString added in v1.0.0

func SeedToString(seed Seed, did mnemonics.DictionaryID) (string, error)

SeedToString converts a wallet seed to a human friendly string.

func VerifyFileContractRevisionTransactionSignatures added in v1.0.0

func VerifyFileContractRevisionTransactionSignatures(fcr types.FileContractRevision, tsigs []types.TransactionSignature, height types.BlockHeight) error

VerifyFileContractRevisionTransactionSignatures checks that the signatures on a file contract revision are valid and cover the right fields.

func WriteNegotiationAcceptance added in v1.0.0

func WriteNegotiationAcceptance(w io.Writer) error

WriteNegotiationAcceptance writes the 'accept' response to w (usually a net.Conn).

func WriteNegotiationRejection added in v1.0.0

func WriteNegotiationRejection(w io.Writer, err error) error

WriteNegotiationRejection will write a rejection response to w (usually a net.Conn) and return the input error. If the write fails, the write error is joined with the input error.

func WriteNegotiationStop added in v1.0.0

func WriteNegotiationStop(w io.Writer) error

WriteNegotiationStop writes the 'stop' response to w (usually a net.Conn).

Types

type Allowance added in v1.0.0

type Allowance struct {
	Funds       types.Currency    `json:"funds"`
	Hosts       uint64            `json:"hosts"`
	Period      types.BlockHeight `json:"period"`
	RenewWindow types.BlockHeight `json:"renewwindow"`
}

An Allowance dictates how much the Renter is allowed to spend in a given period. Note that funds are spent on both storage and bandwidth.

type BlockFacts added in v1.0.0

type BlockFacts struct {
	BlockID           types.BlockID     `json:"blockid"`
	Difficulty        types.Currency    `json:"difficulty"`
	EstimatedHashrate types.Currency    `json:"estimatedhashrate"`
	Height            types.BlockHeight `json:"height"`
	MaturityTimestamp types.Timestamp   `json:"maturitytimestamp"`
	Target            types.Target      `json:"target"`
	TotalCoins        types.Currency    `json:"totalcoins"`

	// Transaction type counts.
	MinerPayoutCount          uint64 `json:"minerpayoutcount"`
	TransactionCount          uint64 `json:"transactioncount"`
	SiacoinInputCount         uint64 `json:"siacoininputcount"`
	SiacoinOutputCount        uint64 `json:"siacoinoutputcount"`
	FileContractCount         uint64 `json:"filecontractcount"`
	FileContractRevisionCount uint64 `json:"filecontractrevisioncount"`
	StorageProofCount         uint64 `json:"storageproofcount"`
	SiafundInputCount         uint64 `json:"siafundinputcount"`
	SiafundOutputCount        uint64 `json:"siafundoutputcount"`
	MinerFeeCount             uint64 `json:"minerfeecount"`
	ArbitraryDataCount        uint64 `json:"arbitrarydatacount"`
	TransactionSignatureCount uint64 `json:"transactionsignaturecount"`

	// Factoids about file contracts.
	ActiveContractCost  types.Currency `json:"activecontractcost"`
	ActiveContractCount uint64         `json:"activecontractcount"`
	ActiveContractSize  types.Currency `json:"activecontractsize"`
	TotalContractCost   types.Currency `json:"totalcontractcost"`
	TotalContractSize   types.Currency `json:"totalcontractsize"`
	TotalRevisionVolume types.Currency `json:"totalrevisionvolume"`
}

BlockFacts returns a bunch of statistics about the consensus set as they were at a specific block.

type BlockManager added in v1.0.0

type BlockManager interface {
	// HeaderForWork returns a block header that can be grinded on and
	// resubmitted to the miner. HeaderForWork() will remember the block that
	// corresponds to the header for 50 calls.
	HeaderForWork() (types.BlockHeader, types.Target, error)

	// SubmitHeader takes a block header that has been worked on and has a
	// valid target.
	SubmitHeader(types.BlockHeader) error

	// BlocksMined returns the number of blocks and stale blocks that have been
	// mined using this miner.
	BlocksMined() (goodBlocks, staleBlocks int)
}

BlockManager contains functions that can interface with external miners, providing and receiving blocks that have experienced nonce grinding.

type CPUMiner added in v1.0.0

type CPUMiner interface {
	// CPUHashrate returns the hashrate of the cpu miner in hashes per second.
	CPUHashrate() int

	// Mining returns true if the cpu miner is enabled, and false otherwise.
	CPUMining() bool

	// StartMining turns on the miner, which will endlessly work for new
	// blocks.
	StartCPUMining()

	// StopMining turns off the miner, but keeps the same number of threads.
	StopCPUMining()
}

CPUMiner provides access to a single-threaded cpu miner.

type ConsensusChange added in v0.3.3

type ConsensusChange struct {
	// ID is a unique id for the consensus change derived from the reverted
	// and applied blocks.
	ID ConsensusChangeID

	// RevertedBlocks is the list of blocks that were reverted by the change.
	// The reverted blocks were always all reverted before the applied blocks
	// were applied. The revered blocks are presented in the order that they
	// were reverted.
	RevertedBlocks []types.Block

	// AppliedBlocks is the list of blocks that were applied by the change. The
	// applied blocks are always all applied after all the reverted blocks were
	// reverted. The applied blocks are presented in the order that they were
	// applied.
	AppliedBlocks []types.Block

	// SiacoinOutputDiffs contains the set of siacoin diffs that were applied
	// to the consensus set in the recent change. The direction for the set of
	// diffs is 'DiffApply'.
	SiacoinOutputDiffs []SiacoinOutputDiff

	// FileContractDiffs contains the set of file contract diffs that were
	// applied to the consensus set in the recent change. The direction for the
	// set of diffs is 'DiffApply'.
	FileContractDiffs []FileContractDiff

	// SiafundOutputDiffs contains the set of siafund diffs that were applied
	// to the consensus set in the recent change. The direction for the set of
	// diffs is 'DiffApply'.
	SiafundOutputDiffs []SiafundOutputDiff

	// DelayedSiacoinOutputDiffs contains the set of delayed siacoin output
	// diffs that were applied to the consensus set in the recent change.
	DelayedSiacoinOutputDiffs []DelayedSiacoinOutputDiff

	// SiafundPoolDiffs are the siafund pool diffs that were applied to the
	// consensus set in the recent change.
	SiafundPoolDiffs []SiafundPoolDiff

	// ChildTarget defines the target of any block that would be the child
	// of the block most recently appended to the consensus set.
	ChildTarget types.Target

	// MinimumValidChildTimestamp defines the minimum allowed timestamp for
	// any block that is the child of the block most recently appended to
	// the consensus set.
	MinimumValidChildTimestamp types.Timestamp

	// Synced indicates whether or not the ConsensusSet is synced with its
	// peers.
	Synced bool

	// TryTransactionSet is an unlocked version of
	// ConsensusSet.TryTransactionSet. This allows the TryTransactionSet
	// function to be called by a subscriber during
	// ProcessConsensusChange.
	TryTransactionSet func([]types.Transaction) (ConsensusChange, error)
}

A ConsensusChange enumerates a set of changes that occurred to the consensus set.

func (ConsensusChange) Append added in v1.0.0

Append takes to ConsensusChange objects and adds all of their diffs together.

NOTE: It is possible for diffs to overlap or be inconsistent. This function should only be used with consecutive or disjoint consensus change objects.

type ConsensusChangeID added in v1.0.0

type ConsensusChangeID crypto.Hash

ConsensusChangeID is the id of a consensus change.

type ConsensusConflict added in v1.0.0

type ConsensusConflict string

ConsensusConflict implements the error interface, and indicates that a transaction was rejected due to being incompatible with the current consensus set, meaning either a double spend or a consensus rule violation - it is unlikely that the transaction will ever be valid.

func NewConsensusConflict added in v1.0.0

func NewConsensusConflict(s string) ConsensusConflict

NewConsensusConflict returns a consensus conflict, which implements the error interface.

func (ConsensusConflict) Error added in v1.0.0

func (cc ConsensusConflict) Error() string

Error implements the error interface, turning the consensus conflict into an acceptable error type.

type ConsensusSet added in v0.3.2

type ConsensusSet interface {
	// AcceptBlock adds a block to consensus. An error will be returned if the
	// block is invalid, has been seen before, is an orphan, or doesn't
	// contribute to the heaviest fork known to the consensus set. If the block
	// does not become the head of the heaviest known fork but is otherwise
	// valid, it will be remembered by the consensus set but an error will
	// still be returned.
	AcceptBlock(types.Block) error

	// BlockAtHeight returns the block found at the input height, with a
	// bool to indicate whether that block exists.
	BlockAtHeight(types.BlockHeight) (types.Block, bool)

	// ChildTarget returns the target required to extend the current heaviest
	// fork. This function is typically used by miners looking to extend the
	// heaviest fork.
	ChildTarget(types.BlockID) (types.Target, bool)

	// Close will shut down the consensus set, giving the module enough time to
	// run any required closing routines.
	Close() error

	// ConsensusSetSubscribe adds a subscriber to the list of subscribers
	// and gives them every consensus change that has occurred since the
	// change with the provided id. There are a few special cases,
	// described by the ConsensusChangeX variables in this package.
	ConsensusSetSubscribe(ConsensusSetSubscriber, ConsensusChangeID) error

	// CurrentBlock returns the latest block in the heaviest known
	// blockchain.
	CurrentBlock() types.Block

	// Flush will cause the consensus set to finish all in-progress
	// routines.
	Flush() error

	// Height returns the current height of consensus.
	Height() types.BlockHeight

	// Synced returns true if the consensus set is synced with the network.
	Synced() bool

	// InCurrentPath returns true if the block id presented is found in the
	// current path, false otherwise.
	InCurrentPath(types.BlockID) bool

	// MinimumValidChildTimestamp returns the earliest timestamp that is
	// valid on the current longest fork according to the consensus set. This is
	// a required piece of information for the miner, who could otherwise be at
	// risk of mining invalid blocks.
	MinimumValidChildTimestamp(types.BlockID) (types.Timestamp, bool)

	// StorageProofSegment returns the segment to be used in the storage proof for
	// a given file contract.
	StorageProofSegment(types.FileContractID) (uint64, error)

	// TryTransactionSet checks whether the transaction set would be valid if
	// it were added in the next block. A consensus change is returned
	// detailing the diffs that would result from the application of the
	// transaction.
	TryTransactionSet([]types.Transaction) (ConsensusChange, error)

	// Unsubscribe removes a subscriber from the list of subscribers,
	// allowing for garbage collection and rescanning. If the subscriber is
	// not found in the subscriber database, no action is taken.
	Unsubscribe(ConsensusSetSubscriber)
}

A ConsensusSet accepts blocks and builds an understanding of network consensus.

type ConsensusSetSubscriber added in v0.3.2

type ConsensusSetSubscriber interface {
	// ProcessConsensusChange sends a consensus update to a module through
	// a function call. Updates will always be sent in the correct order.
	// There may not be any reverted blocks, but there will always be
	// applied blocks.
	ProcessConsensusChange(ConsensusChange)
}

A ConsensusSetSubscriber is an object that receives updates to the consensus set every time there is a change in consensus.

type DelayedSiacoinOutputDiff added in v0.3.3

type DelayedSiacoinOutputDiff struct {
	Direction      DiffDirection
	ID             types.SiacoinOutputID
	SiacoinOutput  types.SiacoinOutput
	MaturityHeight types.BlockHeight
}

A DelayedSiacoinOutputDiff indicates the introduction of a siacoin output that cannot be spent until after maturing for 144 blocks. When the output has matured, a SiacoinOutputDiff will be provided.

type DiffDirection added in v0.3.1

type DiffDirection bool

A DiffDirection indicates the "direction" of a diff, either applied or reverted. A bool is used to restrict the value to these two possibilities.

const (
	// ConsensusDir is the name of the directory used for all of the consensus
	// persistence files.
	ConsensusDir = "consensus"

	// DiffApply indicates that a diff is being applied to the consensus set.
	DiffApply DiffDirection = true

	// DiffRevert indicates that a diff is being reverted from the consensus
	// set.
	DiffRevert DiffDirection = false
)

type DownloadAction added in v1.0.0

type DownloadAction struct {
	MerkleRoot crypto.Hash
	Offset     uint64
	Length     uint64
}

A DownloadAction is a description of a download that the renter would like to make. The MerkleRoot indicates the root of the sector, the offset indicates what portion of the sector is being downloaded, and the length indicates how many bytes should be grabbed starting from the offset.

type DownloadInfo

type DownloadInfo struct {
	SiaPath     string    `json:"siapath"`
	Destination string    `json:"destination"`
	Filesize    uint64    `json:"filesize"`
	Received    uint64    `json:"received"`
	StartTime   time.Time `json:"starttime"`
	Error       string    `json:"error"`
}

DownloadInfo provides information about a file that has been requested for download.

type EncryptionManager added in v1.0.0

type EncryptionManager interface {
	// Encrypt will encrypt the wallet using the input key. Upon
	// encryption, a primary seed will be created for the wallet (no seed
	// exists prior to this point). If the key is blank, then the hash of
	// the seed that is generated will be used as the key.
	//
	// Encrypt can only be called once throughout the life of the wallet
	// and will return an error on subsequent calls (even after restarting
	// the wallet). To reset the wallet, the wallet files must be moved to
	// a different directory or deleted.
	Encrypt(masterKey crypto.TwofishKey) (Seed, error)

	// Reset will reset the wallet, clearing the database and returning it to
	// the unencrypted state. Reset can only be called on a wallet that has
	// already been encrypted.
	Reset() error

	// Encrypted returns whether or not the wallet has been encrypted yet.
	// After being encrypted for the first time, the wallet can only be
	// unlocked using the encryption password.
	Encrypted() bool

	// InitFromSeed functions like Encrypt, but using a specified seed.
	// Unlike Encrypt, the blockchain will be scanned to determine the
	// seed's progress. For this reason, InitFromSeed should not be called
	// until the blockchain is fully synced.
	InitFromSeed(masterKey crypto.TwofishKey, seed Seed) error

	// Lock deletes all keys in memory and prevents the wallet from being
	// used to spend coins or extract keys until 'Unlock' is called.
	Lock() error

	// Unlock must be called before the wallet is usable. All wallets and
	// wallet seeds are encrypted by default, and the wallet will not know
	// which addresses to watch for on the blockchain until unlock has been
	// called.
	//
	// All items in the wallet are encrypted using different keys which are
	// derived from the master key.
	Unlock(masterKey crypto.TwofishKey) error

	// Unlocked returns true if the wallet is currently unlocked, false
	// otherwise.
	Unlocked() bool
}

EncryptionManager can encrypt, lock, unlock, and indicate the current status of the EncryptionManager.

type ErasureCoder added in v1.0.0

type ErasureCoder interface {
	// NumPieces is the number of pieces returned by Encode.
	NumPieces() int

	// MinPieces is the minimum number of pieces that must be present to
	// recover the original data.
	MinPieces() int

	// Encode splits data into equal-length pieces, with some pieces
	// containing parity data.
	Encode(data []byte) ([][]byte, error)

	// Recover recovers the original data from pieces (including parity) and
	// writes it to w. pieces should be identical to the slice returned by
	// Encode (length and order must be preserved), but with missing elements
	// set to nil. n is the number of bytes to be written to w; this is
	// necessary because pieces may have been padded with zeros during
	// encoding.
	Recover(pieces [][]byte, n uint64, w io.Writer) error
}

An ErasureCoder is an error-correcting encoder and decoder.

type Explorer added in v1.0.0

type Explorer interface {
	// Block returns the block that matches the input block id. The bool
	// indicates whether the block appears in the blockchain.
	Block(types.BlockID) (types.Block, types.BlockHeight, bool)

	// BlockFacts returns a set of statistics about the blockchain as they
	// appeared at a given block.
	BlockFacts(types.BlockHeight) (BlockFacts, bool)

	// LatestBlockFacts returns the block facts of the last block
	// in the explorer's database.
	LatestBlockFacts() BlockFacts

	// Transaction returns the block that contains the input transaction
	// id. The transaction itself is either the block (indicating the miner
	// payouts are somehow involved), or it is a transaction inside of the
	// block. The bool indicates whether the transaction is found in the
	// consensus set.
	Transaction(types.TransactionID) (types.Block, types.BlockHeight, bool)

	// UnlockHash returns all of the transaction ids associated with the
	// provided unlock hash.
	UnlockHash(types.UnlockHash) []types.TransactionID

	// SiacoinOutput will return the siacoin output associated with the
	// input id.
	SiacoinOutput(types.SiacoinOutputID) (types.SiacoinOutput, bool)

	// SiacoinOutputID returns all of the transaction ids associated with
	// the provided siacoin output id.
	SiacoinOutputID(types.SiacoinOutputID) []types.TransactionID

	// FileContractHistory returns the history associated with a file
	// contract, which includes the file contract itself and all of the
	// revisions that have been submitted to the blockchain. The first bool
	// indicates whether the file contract exists, and the second bool
	// indicates whether a storage proof was successfully submitted for the
	// file contract.
	FileContractHistory(types.FileContractID) (fc types.FileContract, fcrs []types.FileContractRevision, fcExists bool, storageProofExists bool)

	// FileContractID returns all of the transaction ids associated with
	// the provided file contract id.
	FileContractID(types.FileContractID) []types.TransactionID

	// SiafundOutput will return the siafund output associated with the
	// input id.
	SiafundOutput(types.SiafundOutputID) (types.SiafundOutput, bool)

	// SiafundOutputID returns all of the transaction ids associated with
	// the provided siafund output id.
	SiafundOutputID(types.SiafundOutputID) []types.TransactionID

	Close() error
}

Explorer tracks the blockchain and provides tools for gathering statistics and finding objects or patterns within the blockchain.

type FileContractDiff added in v0.3.1

type FileContractDiff struct {
	Direction    DiffDirection
	ID           types.FileContractID
	FileContract types.FileContract
}

A FileContractDiff indicates the addition or removal of a FileContract in the consensus set.

type FileInfo

type FileInfo struct {
	SiaPath        string            `json:"siapath"`
	Filesize       uint64            `json:"filesize"`
	Available      bool              `json:"available"`
	Renewing       bool              `json:"renewing"`
	Redundancy     float64           `json:"redundancy"`
	UploadProgress float64           `json:"uploadprogress"`
	Expiration     types.BlockHeight `json:"expiration"`
}

FileInfo provides information about a file.

type FileUploadParams added in v0.3.1

type FileUploadParams struct {
	Source      string
	SiaPath     string
	ErasureCode ErasureCoder
}

FileUploadParams contains the information used by the Renter to upload a file.

type Gateway

type Gateway interface {
	// Connect establishes a persistent connection to a peer.
	Connect(NetAddress) error

	// Disconnect terminates a connection to a peer.
	Disconnect(NetAddress) error

	// Address returns the Gateway's address.
	Address() NetAddress

	// Peers returns the addresses that the Gateway is currently connected to.
	Peers() []Peer

	// RegisterRPC registers a function to handle incoming connections that
	// supply the given RPC ID.
	RegisterRPC(string, RPCFunc)

	// UnregisterRPC unregisters an RPC and removes all references to the RPCFunc
	// supplied in the corresponding RegisterRPC call. References to RPCFuncs
	// registered with RegisterConnectCall are not removed and should be removed
	// with UnregisterConnectCall. If the RPC does not exist no action is taken.
	UnregisterRPC(string)

	// RegisterConnectCall registers an RPC name and function to be called
	// upon connecting to a peer.
	RegisterConnectCall(string, RPCFunc)

	// UnregisterConnectCall unregisters an RPC and removes all references to the
	// RPCFunc supplied in the corresponding RegisterConnectCall call. References
	// to RPCFuncs registered with RegisterRPC are not removed and should be
	// removed with UnregisterRPC. If the RPC does not exist no action is taken.
	UnregisterConnectCall(string)

	// RPC calls an RPC on the given address. RPC cannot be called on an
	// address that the Gateway is not connected to.
	RPC(NetAddress, string, RPCFunc) error

	// Broadcast transmits obj, prefaced by the RPC name, to all of the
	// given peers in parallel.
	Broadcast(name string, obj interface{}, peers []Peer)

	// Close safely stops the Gateway's listener process.
	Close() error
}

A Gateway facilitates the interactions between the local node and remote nodes (peers). It relays incoming blocks and transactions to local modules, and broadcasts outgoing blocks and transactions to peers. In a broad sense, it is responsible for ensuring that the local consensus set is consistent with the "network" consensus set.

type Host

type Host interface {
	// Announce submits a host announcement to the blockchain.
	Announce() error

	// AnnounceAddress submits an announcement using the given address.
	AnnounceAddress(NetAddress) error

	// ExternalSettings returns the settings of the host as seen by an
	// untrusted node querying the host for settings.
	ExternalSettings() HostExternalSettings

	// FinancialMetrics returns the financial statistics of the host.
	FinancialMetrics() HostFinancialMetrics

	// InternalSettings returns the host's internal settings, including
	// potentially private or sensitive information.
	InternalSettings() HostInternalSettings

	// NetworkMetrics returns information on the types of RPC calls that
	// have been made to the host.
	NetworkMetrics() HostNetworkMetrics

	// PublicKey returns the public key of the host.
	PublicKey() types.SiaPublicKey

	// SetInternalSettings sets the hosting parameters of the host.
	SetInternalSettings(HostInternalSettings) error

	// StorageObligations returns the set of storage obligations held by
	// the host.
	StorageObligations() []StorageObligation

	// ConnectabilityStatus returns the connectability status of the host, that
	// is, if it can connect to itself on the configured NetAddress.
	ConnectabilityStatus() HostConnectabilityStatus

	// WorkingStatus returns the working state of the host, determined by if
	// settings calls are increasing.
	WorkingStatus() HostWorkingStatus

	// The storage manager provides an interface for adding and removing
	// storage folders and data sectors to the host.
	StorageManager
}

A Host can take storage from disk and offer it to the network, managing things such as announcements, settings, and implementing all of the RPCs of the host protocol.

type HostAnnouncement

type HostAnnouncement struct {
	Specifier  types.Specifier
	NetAddress NetAddress
	PublicKey  types.SiaPublicKey
}

HostAnnouncement is an announcement by the host that appears in the blockchain. 'Specifier' is always 'PrefixHostAnnouncement'. The announcement is always followed by a signature from the public key of the whole announcement.

type HostConnectabilityStatus added in v1.2.0

type HostConnectabilityStatus string

HostConnectabilityStatus reports the connectability state of a host. Can be one of "checking", "connectable", or "not connectable"

type HostDBEntry added in v1.0.0

type HostDBEntry struct {
	HostExternalSettings

	// FirstSeen is the last block height at which this host was announced.
	FirstSeen types.BlockHeight `json:"firstseen"`

	// Measurements that have been taken on the host. The most recent
	// measurements are kept in full detail, historic ones are compressed into
	// the historic values.
	HistoricDowntime time.Duration `json:"historicdowntime"`
	HistoricUptime   time.Duration `json:"historicuptime"`
	ScanHistory      HostDBScans   `json:"scanhistory"`

	// The public key of the host, stored separately to minimize risk of certain
	// MitM based vulnerabilities.
	PublicKey types.SiaPublicKey `json:"publickey"`
}

A HostDBEntry represents one host entry in the Renter's host DB. It aggregates the host's external settings and metrics with its public key.

type HostDBScan added in v1.1.0

type HostDBScan struct {
	Timestamp time.Time `json:"timestamp"`
	Success   bool      `json:"success"`
}

HostDBScan represents a single scan event.

type HostDBScans added in v1.1.0

type HostDBScans []HostDBScan

HostDBScans represents a sortable slice of scans.

func (HostDBScans) Len added in v1.1.0

func (s HostDBScans) Len() int

func (HostDBScans) Less added in v1.1.0

func (s HostDBScans) Less(i, j int) bool

func (HostDBScans) Swap added in v1.1.0

func (s HostDBScans) Swap(i, j int)

type HostExternalSettings added in v1.0.0

type HostExternalSettings struct {
	// MaxBatchSize indicates the maximum size in bytes that a batch is
	// allowed to be. A batch is an array of revision actions; each
	// revision action can have a different number of bytes, depending on
	// the action, so the number of revision actions allowed depends on the
	// sizes of each.
	AcceptingContracts   bool              `json:"acceptingcontracts"`
	MaxDownloadBatchSize uint64            `json:"maxdownloadbatchsize"`
	MaxDuration          types.BlockHeight `json:"maxduration"`
	MaxReviseBatchSize   uint64            `json:"maxrevisebatchsize"`
	NetAddress           NetAddress        `json:"netaddress"`
	RemainingStorage     uint64            `json:"remainingstorage"`
	SectorSize           uint64            `json:"sectorsize"`
	TotalStorage         uint64            `json:"totalstorage"`
	UnlockHash           types.UnlockHash  `json:"unlockhash"`
	WindowSize           types.BlockHeight `json:"windowsize"`

	// Collateral is the amount of collateral that the host will put up for
	// storage in 'bytes per block', as an assurance to the renter that the
	// host really is committed to keeping the file. But, because the file
	// contract is created with no data available, this does leave the host
	// exposed to an attack by a wealthy renter whereby the renter causes
	// the host to lockup in-advance a bunch of funds that the renter then
	// never uses, meaning the host will not have collateral for other
	// clients.
	//
	// MaxCollateral indicates the maximum number of coins that a host is
	// willing to put into a file contract.
	Collateral    types.Currency `json:"collateral"`
	MaxCollateral types.Currency `json:"maxcollateral"`

	// ContractPrice is the number of coins that the renter needs to pay to
	// the host just to open a file contract with them. Generally, the
	// price is only to cover the siacoin fees that the host will suffer
	// when submitting the file contract revision and storage proof to the
	// blockchain.
	//
	// The storage price is the cost per-byte-per-block in hastings of
	// storing data on the host.
	//
	// 'Download' bandwidth price is the cost per byte of downloading data
	// from the host.
	//
	// 'Upload' bandwidth price is the cost per byte of uploading data to
	// the host.
	ContractPrice          types.Currency `json:"contractprice"`
	DownloadBandwidthPrice types.Currency `json:"downloadbandwidthprice"`
	StoragePrice           types.Currency `json:"storageprice"`
	UploadBandwidthPrice   types.Currency `json:"uploadbandwidthprice"`

	// Because the host has a public key, and settings are signed, and
	// because settings may be MITM'd, settings need a revision number so
	// that a renter can compare multiple sets of settings and determine
	// which is the most recent.
	RevisionNumber uint64 `json:"revisionnumber"`
	Version        string `json:"version"`
}

HostExternalSettings are the parameters advertised by the host. These are the values that the renter will request from the host in order to build its database.

type HostFinancialMetrics added in v1.0.0

type HostFinancialMetrics struct {
	// Every time a renter forms a contract with a host, a contract fee is
	// paid by the renter. These stats track the total contract fees.
	ContractCount                 uint64         `json:"contractcount"`
	ContractCompensation          types.Currency `json:"contractcompensation"`
	PotentialContractCompensation types.Currency `json:"potentialcontractcompensation"`

	// Metrics related to storage proofs, collateral, and submitting
	// transactions to the blockchain.
	LockedStorageCollateral types.Currency `json:"lockedstoragecollateral"`
	LostRevenue             types.Currency `json:"lostrevenue"`
	LostStorageCollateral   types.Currency `json:"loststoragecollateral"`
	PotentialStorageRevenue types.Currency `json:"potentialstoragerevenue"`
	RiskedStorageCollateral types.Currency `json:"riskedstoragecollateral"`
	StorageRevenue          types.Currency `json:"storagerevenue"`
	TransactionFeeExpenses  types.Currency `json:"transactionfeeexpenses"`

	// Bandwidth financial metrics.
	DownloadBandwidthRevenue          types.Currency `json:"downloadbandwidthrevenue"`
	PotentialDownloadBandwidthRevenue types.Currency `json:"potentialdownloadbandwidthrevenue"`
	PotentialUploadBandwidthRevenue   types.Currency `json:"potentialuploadbandwidthrevenue"`
	UploadBandwidthRevenue            types.Currency `json:"uploadbandwidthrevenue"`
}

HostFinancialMetrics provides financial statistics for the host, including money that is locked in contracts. Though verbose, these statistics should provide a clear picture of where the host's money is currently being used. The front end can consolidate stats where desired. Potential revenue refers to revenue that is available in a file contract for which the file contract window has not yet closed.

type HostInternalSettings added in v1.0.0

type HostInternalSettings struct {
	AcceptingContracts   bool              `json:"acceptingcontracts"`
	MaxDownloadBatchSize uint64            `json:"maxdownloadbatchsize"`
	MaxDuration          types.BlockHeight `json:"maxduration"`
	MaxReviseBatchSize   uint64            `json:"maxrevisebatchsize"`
	NetAddress           NetAddress        `json:"netaddress"`
	WindowSize           types.BlockHeight `json:"windowsize"`

	Collateral       types.Currency `json:"collateral"`
	CollateralBudget types.Currency `json:"collateralbudget"`
	MaxCollateral    types.Currency `json:"maxcollateral"`

	MinContractPrice          types.Currency `json:"mincontractprice"`
	MinDownloadBandwidthPrice types.Currency `json:"mindownloadbandwidthprice"`
	MinStoragePrice           types.Currency `json:"minstorageprice"`
	MinUploadBandwidthPrice   types.Currency `json:"minuploadbandwidthprice"`
}

HostInternalSettings contains a list of settings that can be changed.

type HostNetworkMetrics added in v1.0.0

type HostNetworkMetrics struct {
	DownloadCalls     uint64 `json:"downloadcalls"`
	ErrorCalls        uint64 `json:"errorcalls"`
	FormContractCalls uint64 `json:"formcontractcalls"`
	RenewCalls        uint64 `json:"renewcalls"`
	ReviseCalls       uint64 `json:"revisecalls"`
	SettingsCalls     uint64 `json:"settingscalls"`
	UnrecognizedCalls uint64 `json:"unrecognizedcalls"`
}

HostNetworkMetrics reports the quantity of each type of RPC call that has been made to the host.

type HostScoreBreakdown added in v1.1.1

type HostScoreBreakdown struct {
	Score types.Currency `json:"score"`

	AgeAdjustment              float64 `json:"ageadjustment"`
	BurnAdjustment             float64 `json:"burnadjustment"`
	CollateralAdjustment       float64 `json:"collateraladjustment"`
	PriceAdjustment            float64 `json:"pricesmultiplier"`
	StorageRemainingAdjustment float64 `json:"storageremainingadjustment"`
	UptimeAdjustment           float64 `json:"uptimeadjustment"`
	VersionAdjustment          float64 `json:"versionadjustment"`
}

HostScoreBreakdown provides a piece-by-piece explanation of why a host has the score that they do.

NOTE: Renters are free to use whatever scoring they feel appropriate for hosts. Some renters will outright blacklist or whitelist sets of hosts. The results provided by this struct can only be used as a guide, and may vary significantly from machine to machine.

type HostWorkingStatus added in v1.2.0

type HostWorkingStatus string

HostWorkingStatus reports the working state of a host. Can be one of "checking", "working", or "not working.

type KeyManager added in v1.0.0

type KeyManager interface {
	// AllAddresses returns all addresses that the wallet is able to spend
	// from, including unseeded addresses. Addresses are returned sorted in
	// byte-order.
	AllAddresses() []types.UnlockHash

	// AllSeeds returns all of the seeds that are being tracked by the
	// wallet, including the primary seed. Only the primary seed is used to
	// generate new addresses, but the wallet can spend funds sent to
	// public keys generated by any of the seeds returned.
	AllSeeds() ([]Seed, error)

	// CreateBackup will create a backup of the wallet at the provided
	// filepath. The backup will have all seeds and keys.
	CreateBackup(string) error

	// Load033xWallet will load a version 0.3.3.x wallet from disk and add all of
	// the keys in the wallet as unseeded keys.
	Load033xWallet(crypto.TwofishKey, string) error

	// LoadSeed will recreate a wallet file using the recovery phrase.
	// LoadSeed only needs to be called if the original seed file or
	// encryption password was lost. The master key is used to encrypt the
	// recovery seed before saving it to disk.
	LoadSeed(crypto.TwofishKey, Seed) error

	// LoadSiagKeys will take a set of filepaths that point to a siag key
	// and will have the siag keys loaded into the wallet so that they will
	// become spendable.
	LoadSiagKeys(crypto.TwofishKey, []string) error

	// NextAddress returns a new coin addresses generated from the
	// primary seed.
	NextAddress() (types.UnlockConditions, error)

	// PrimarySeed returns the unencrypted primary seed of the wallet,
	// along with a uint64 indicating how many addresses may be safely
	// generated from the seed.
	PrimarySeed() (Seed, uint64, error)

	// SweepSeed scans the blockchain for outputs generated from seed and
	// creates a transaction that transfers them to the wallet. Note that
	// this incurs a transaction fee. It returns the total value of the
	// outputs, minus the fee. If only siafunds were found, the fee is
	// deducted from the wallet.
	SweepSeed(seed Seed) (coins, funds types.Currency, err error)
}

KeyManager manages wallet keys, including the use of seeds, creating and loading backups, and providing a layer of compatibility for older wallet files.

type MerkleRootSet added in v1.1.1

type MerkleRootSet []crypto.Hash

MerkleRootSet is a set of Merkle roots, and gets encoded more efficiently.

func (MerkleRootSet) MarshalJSON added in v1.1.1

func (mrs MerkleRootSet) MarshalJSON() ([]byte, error)

MarshalJSON defines a JSON encoding for a MerkleRootSet.

func (*MerkleRootSet) UnmarshalJSON added in v1.1.1

func (mrs *MerkleRootSet) UnmarshalJSON(b []byte) error

UnmarshalJSON attempts to decode a MerkleRootSet, falling back on the legacy decoding of a []crypto.Hash if that fails.

type Miner added in v0.3.1

type Miner interface {
	BlockManager
	CPUMiner
	io.Closer
}

The Miner interface provides access to mining features.

type NetAddress

type NetAddress string

A NetAddress contains the information needed to contact a peer.

func DecodeAnnouncement added in v1.0.0

func DecodeAnnouncement(fullAnnouncement []byte) (na NetAddress, spk types.SiaPublicKey, err error)

DecodeAnnouncement decodes announcement bytes into a host announcement, verifying the prefix and the signature.

func (NetAddress) Host

func (na NetAddress) Host() string

Host removes the port from a NetAddress, returning just the host. If the address is not of the form "host:port" the empty string is returned. The port will still be returned for invalid NetAddresses (e.g. "unqualified:0" will return "unqualified"), but in general you should only call Host on valid addresses.

func (NetAddress) IsLocal added in v1.0.3

func (na NetAddress) IsLocal() bool

IsLocal returns true if the input IP address belongs to a local address range such as 192.168.x.x or 127.x.x.x

func (NetAddress) IsLoopback added in v1.0.0

func (na NetAddress) IsLoopback() bool

IsLoopback returns true for IP addresses that are on the same machine.

func (NetAddress) IsStdValid added in v1.0.3

func (na NetAddress) IsStdValid() error

IsStdValid returns an error if the NetAddress is invalid. A valid NetAddress is of the form "host:port", such that "host" is either a valid IPv4/IPv6 address or a valid hostname, and "port" is an integer in the range [1,65535]. Valid IPv4 addresses, IPv6 addresses, and hostnames are detailed in RFCs 791, 2460, and 952, respectively.

func (NetAddress) IsValid added in v1.0.0

func (na NetAddress) IsValid() error

IsValid is an extension to IsStdValid that also forbids the loopback address. IsValid is being phased out in favor of allowing the loopback address but verifying through other means that the connection is not to yourself (which is the original reason that the loopback address was banned).

func (NetAddress) Port

func (na NetAddress) Port() string

Port returns the NetAddress object's port number. If the address is not of the form "host:port" the empty string is returned. The port will still be returned for invalid NetAddresses (e.g. "localhost:0" will return "0"), but in general you should only call Port on valid addresses.

type Peer added in v1.0.0

type Peer struct {
	Inbound    bool       `json:"inbound"`
	Local      bool       `json:"local"`
	NetAddress NetAddress `json:"netaddress"`
	Version    string     `json:"version"`
}

Peer contains all the info necessary to Broadcast to a peer.

type PeerConn added in v0.3.1

type PeerConn interface {
	net.Conn
	RPCAddr() NetAddress
}

A PeerConn is the connection type used when communicating with peers during an RPC. It is identical to a net.Conn with the additional RPCAddr method. This method acts as an identifier for peers and is the address that the peer can be dialed on. It is also the address that should be used when calling an RPC on the peer.

type ProcessedInput added in v1.0.0

type ProcessedInput struct {
	FundType       types.Specifier  `json:"fundtype"`
	WalletAddress  bool             `json:"walletaddress"`
	RelatedAddress types.UnlockHash `json:"relatedaddress"`
	Value          types.Currency   `json:"value"`
}

A ProcessedInput represents funding to a transaction. The input is coming from an address and going to the outputs. The fund types are 'SiacoinInput', 'SiafundInput'.

type ProcessedOutput added in v1.0.0

type ProcessedOutput struct {
	FundType       types.Specifier   `json:"fundtype"`
	MaturityHeight types.BlockHeight `json:"maturityheight"`
	WalletAddress  bool              `json:"walletaddress"`
	RelatedAddress types.UnlockHash  `json:"relatedaddress"`
	Value          types.Currency    `json:"value"`
}

A ProcessedOutput is a siacoin output that appears in a transaction. Some outputs mature immediately, some are delayed, and some may never mature at all (in the event of storage proofs).

Fund type can either be 'SiacoinOutput', 'SiafundOutput', 'ClaimOutput', 'MinerPayout', or 'MinerFee'. All outputs except the miner fee create outputs accessible to an address. Miner fees are not spendable, and instead contribute to the block subsidy.

MaturityHeight indicates at what block height the output becomes available. SiacoinInputs and SiafundInputs become available immediately. ClaimInputs and MinerPayouts become available after 144 confirmations.

type ProcessedTransaction added in v1.0.0

type ProcessedTransaction struct {
	Transaction           types.Transaction   `json:"transaction"`
	TransactionID         types.TransactionID `json:"transactionid"`
	ConfirmationHeight    types.BlockHeight   `json:"confirmationheight"`
	ConfirmationTimestamp types.Timestamp     `json:"confirmationtimestamp"`

	Inputs  []ProcessedInput  `json:"inputs"`
	Outputs []ProcessedOutput `json:"outputs"`
}

A ProcessedTransaction is a transaction that has been processed into explicit inputs and outputs and tagged with some header data such as confirmation height + timestamp.

Because of the block subsidy, a block is considered as a transaction. Since there is technically no transaction id for the block subsidy, the block id is used instead.

type RPCFunc

type RPCFunc func(PeerConn) error

RPCFunc is the type signature of functions that handle RPCs. It is used for both the caller and the callee. RPCFuncs may perform locking. RPCFuncs may close the connection early, and it is recommended that they do so to avoid keeping the connection open after all necessary I/O has been performed.

type Renter

type Renter interface {
	// ActiveHosts provides the list of hosts that the renter is selecting,
	// sorted by preference.
	ActiveHosts() []HostDBEntry

	// AllHosts returns the full list of hosts known to the renter.
	AllHosts() []HostDBEntry

	// Close closes the Renter.
	Close() error

	// Contracts returns the contracts formed by the renter.
	Contracts() []RenterContract

	// CurrentPeriod returns the height at which the current allowance period
	// began.
	CurrentPeriod() types.BlockHeight

	// DeleteFile deletes a file entry from the renter.
	DeleteFile(path string) error

	// Download downloads a file to the given destination.
	Download(path, destination string) error

	// DownloadQueue lists all the files that have been scheduled for download.
	DownloadQueue() []DownloadInfo

	// FileList returns information on all of the files stored by the renter.
	FileList() []FileInfo

	// Host provides the DB entry and score breakdown for the requested host.
	Host(pk types.SiaPublicKey) (HostDBEntry, bool)

	// LoadSharedFiles loads a '.sia' file into the renter. A .sia file may
	// contain multiple files. The paths of the added files are returned.
	LoadSharedFiles(source string) ([]string, error)

	// LoadSharedFilesAscii loads an ASCII-encoded '.sia' file into the
	// renter.
	LoadSharedFilesAscii(asciiSia string) ([]string, error)

	// PriceEstimation estimates the cost in siacoins of performing various
	// storage and data operations.
	PriceEstimation() RenterPriceEstimation

	// RenameFile changes the path of a file.
	RenameFile(path, newPath string) error

	// ScoreBreakdown will return the score for a host db entry using the
	// hostdb's weighting algorithm.
	ScoreBreakdown(entry HostDBEntry) HostScoreBreakdown

	// Settings returns the Renter's current settings.
	Settings() RenterSettings

	// SetSettings sets the Renter's settings.
	SetSettings(RenterSettings) error

	// ShareFiles creates a '.sia' file that can be shared with others.
	ShareFiles(paths []string, shareDest string) error

	// ShareFilesAscii creates an ASCII-encoded '.sia' file.
	ShareFilesAscii(paths []string) (asciiSia string, err error)

	// Upload uploads a file using the input parameters.
	Upload(FileUploadParams) error
}

A Renter uploads, tracks, repairs, and downloads a set of files for the user.

type RenterContract added in v1.0.0

type RenterContract struct {
	FileContract    types.FileContract         `json:"filecontract"`
	HostPublicKey   types.SiaPublicKey         `json:"hostpublickey"`
	ID              types.FileContractID       `json:"id"`
	LastRevision    types.FileContractRevision `json:"lastrevision"`
	LastRevisionTxn types.Transaction          `json:"lastrevisiontxn"`
	MerkleRoots     MerkleRootSet              `json:"merkleroots"`
	NetAddress      NetAddress                 `json:"netaddress"`
	SecretKey       crypto.SecretKey           `json:"secretkey"`
	StartHeight     types.BlockHeight          `json:"startheight"`

	DownloadSpending types.Currency `json:"downloadspending"`
	StorageSpending  types.Currency `json:"storagespending"`
	UploadSpending   types.Currency `json:"uploadspending"`

	TotalCost   types.Currency `json:"totalcost"`
	ContractFee types.Currency `json:"contractfee"`
	TxnFee      types.Currency `json:"txnfee"`
	SiafundFee  types.Currency `json:"siafundfee"`
}

A RenterContract contains all the metadata necessary to revise or renew a file contract. See `api.RenterContract` for field information.

func (*RenterContract) EndHeight added in v1.0.0

func (rc *RenterContract) EndHeight() types.BlockHeight

EndHeight returns the height at which the host is no longer obligated to store contract data.

func (*RenterContract) RenterFunds added in v1.0.0

func (rc *RenterContract) RenterFunds() types.Currency

RenterFunds returns the funds remaining in the contract's Renter payout as of the most recent revision.

type RenterPriceEstimation added in v1.1.1

type RenterPriceEstimation struct {
	// The cost of downloading 1 TB of data.
	DownloadTerabyte types.Currency `json:"downloadterabyte"`

	// The cost of forming a set of contracts using the defaults.
	FormContracts types.Currency `json:"formcontracts"`

	// The cost of storing 1 TB for a month, including redundancy.
	StorageTerabyteMonth types.Currency `json:"storageterabytemonth"`

	// The cost of consuming 1 TB of upload bandwidth from the host, including
	// redundancy.
	UploadTerabyte types.Currency `json:"uploadterabyte"`
}

RenterPriceEstimation contains a bunch of files estimating the costs of various operations on the network.

type RenterSettings added in v1.0.0

type RenterSettings struct {
	Allowance Allowance `json:"allowance"`
}

RenterSettings control the behavior of the Renter.

type RevisionAction added in v1.0.0

type RevisionAction struct {
	Type        types.Specifier
	SectorIndex uint64
	Offset      uint64
	Data        []byte
}

A RevisionAction is a description of an edit to be performed on a file contract. Three types are allowed, 'ActionDelete', 'ActionInsert', and 'ActionModify'. ActionDelete just takes a sector index, indicating which sector is going to be deleted. ActionInsert takes a sector index, and a full sector of data, indicating that a sector at the index should be inserted with the provided data. 'Modify' revises the sector at the given index, rewriting it with the provided data starting from the 'offset' within the sector.

Modify could be simulated with an insert and a delete, however an insert requires a full sector to be uploaded, and a modify can be just a few kb, which can be significantly faster.

type Seed added in v1.0.0

type Seed [crypto.EntropySize]byte

Seed is cryptographic entropy that is used to derive spendable wallet addresses.

func StringToSeed added in v1.0.0

func StringToSeed(str string, did mnemonics.DictionaryID) (Seed, error)

StringToSeed converts a string to a wallet seed.

type SiacoinOutputDiff added in v0.3.1

type SiacoinOutputDiff struct {
	Direction     DiffDirection
	ID            types.SiacoinOutputID
	SiacoinOutput types.SiacoinOutput
}

A SiacoinOutputDiff indicates the addition or removal of a SiacoinOutput in the consensus set.

type SiafundOutputDiff added in v0.3.1

type SiafundOutputDiff struct {
	Direction     DiffDirection
	ID            types.SiafundOutputID
	SiafundOutput types.SiafundOutput
}

A SiafundOutputDiff indicates the addition or removal of a SiafundOutput in the consensus set.

type SiafundPoolDiff added in v0.3.1

type SiafundPoolDiff struct {
	Direction DiffDirection
	Previous  types.Currency
	Adjusted  types.Currency
}

A SiafundPoolDiff contains the value of the siafundPool before the block was applied, and after the block was applied. When applying the diff, set siafundPool to 'Adjusted'. When reverting the diff, set siafundPool to 'Previous'.

type StorageFolderMetadata added in v1.0.0

type StorageFolderMetadata struct {
	Capacity          uint64 `json:"capacity"`          // bytes
	CapacityRemaining uint64 `json:"capacityremaining"` // bytes
	Index             uint16 `json:"index"`
	Path              string `json:"path"`

	// Below are statistics about the filesystem. FailedReads and
	// FailedWrites are only incremented if the filesystem is returning
	// errors when operations are being performed. A large number of
	// FailedWrites can indicate that more space has been allocated on a
	// drive than is physically available. A high number of failures can
	// also indicate disk trouble.
	FailedReads      uint64 `json:"failedreads"`
	FailedWrites     uint64 `json:"failedwrites"`
	SuccessfulReads  uint64 `json:"successfulreads"`
	SuccessfulWrites uint64 `json:"successfulwrites"`

	// Certain operations on a storage folder can take a long time (Add,
	// Remove, and Resize). The fields below indicate the progress of any
	// long running operations that might be under way in the storage
	// folder. Progress is always reported in bytes.
	ProgressNumerator   uint64
	ProgressDenominator uint64
}

StorageFolderMetadata contains metadata about a storage folder that is tracked by the storage folder manager.

type StorageManager added in v1.0.0

type StorageManager interface {
	// AddSector will add a sector to the storage manager. If the sector
	// already exists, a virtual sector will be added, meaning that the
	// 'sectorData' will be ignored and no new disk space will be consumed.
	// The expiry height is used to track what height the sector can be
	// safely deleted at, though typically the host will manually delete
	// the sector before the expiry height. The same sector can be added
	// multiple times at different expiry heights, and the storage manager
	// is expected to only store the data once.
	AddSector(sectorRoot crypto.Hash, sectorData []byte) error

	// AddSectorBatch is a performance optimization over AddSector when
	// adding a bunch of virtual sectors. It is necessary because otherwise
	// potentially thousands or even tens-of-thousands of fsync calls would
	// need to be made in serial, which would prevent renters from ever
	// successfully renewing.
	AddSectorBatch(sectorRoots []crypto.Hash) error

	// AddStorageFolder adds a storage folder to the manager. The manager
	// may not check that there is enough space available on-disk to
	// support as much storage as requested, though the manager should
	// gracefully handle running out of storage unexpectedly.
	AddStorageFolder(path string, size uint64) error

	// The storage manager needs to be able to shut down.
	Close() error

	// DeleteSector deletes a sector, meaning that the manager will be
	// unable to upload that sector and be unable to provide a storage
	// proof on that sector. DeleteSector is for removing the data
	// entirely, and will remove instances of the sector appearing at all
	// heights. The primary purpose of DeleteSector is to comply with legal
	// requests to remove data.
	DeleteSector(sectorRoot crypto.Hash) error

	// ReadSector will read a sector from the storage manager, returning the
	// bytes that match the input sector root.
	ReadSector(sectorRoot crypto.Hash) ([]byte, error)

	// RemoveSector will remove a sector from the storage manager. The
	// height at which the sector expires should be provided, so that the
	// auto-expiry information for that sector can be properly updated.
	RemoveSector(sectorRoot crypto.Hash) error

	// RemoveSectorBatch is a non-ACID performance optimization to remove a
	// ton of sectors from the storage manager all at once. This is
	// necessary when clearing out an entire contract from the host.
	RemoveSectorBatch(sectorRoots []crypto.Hash) error

	// RemoveStorageFolder will remove a storage folder from the manager.
	// All storage on the folder will be moved to other storage folders,
	// meaning that no data will be lost. If the manager is unable to save
	// data, an error will be returned and the operation will be stopped.
	RemoveStorageFolder(index uint16, force bool) error

	// ResetStorageFolderHealth will reset the health statistics on a
	// storage folder.
	ResetStorageFolderHealth(index uint16) error

	// ResizeStorageFolder will grow or shrink a storage folder in the
	// manager. The manager may not check that there is enough space
	// on-disk to support growing the storage folder, but should gracefully
	// handle running out of space unexpectedly. When shrinking a storage
	// folder, any data in the folder that needs to be moved will be placed
	// into other storage folders, meaning that no data will be lost. If
	// the manager is unable to migrate the data, an error will be returned
	// and the operation will be stopped. If the force flag is set to true,
	// errors will be ignored and the resize operation completed, meaning
	// that data will be lost.
	ResizeStorageFolder(index uint16, newSize uint64, force bool) error

	// StorageFolders will return a list of storage folders tracked by the
	// manager.
	StorageFolders() []StorageFolderMetadata
}

A StorageManager is responsible for managing storage folders and sectors. Sectors are the base unit of storage that gets moved between renters and hosts, and primarily is stored on the hosts.

type StorageObligation added in v1.1.2

type StorageObligation struct {
	NegotiationHeight types.BlockHeight `json:"negotiationheight"`

	OriginConfirmed     bool   `json:"originconfirmed"`
	RevisionConstructed bool   `json:"revisionconstructed"`
	RevisionConfirmed   bool   `json:"revisionconfirmed"`
	ProofConstructed    bool   `json:"proofconstructed"`
	ProofConfirmed      bool   `json:"proofconfirmed"`
	ObligationStatus    uint64 `json:"obligationstatus"`
}

StorageObligation contains information about a storage obligation that the host has accepted.

type TestMiner added in v1.0.0

type TestMiner interface {
	// AddBlock is an extension of FindBlock - AddBlock will submit the block
	// after finding it.
	AddBlock() (types.Block, error)

	// BlockForWork returns a block that is ready for nonce grinding. All
	// blocks returned by BlockForWork have a unique Merkle root, meaning that
	// each can safely start from nonce 0.
	BlockForWork() (types.Block, types.Target, error)

	// Close is necessary for clean shutdown during testing.
	Close() error

	// FindBlock will have the miner make 1 attempt to find a solved block that
	// builds on the current consensus set. It will give up after a few
	// seconds, returning the block and a bool indicating whether the block is
	// solved.
	FindBlock() (types.Block, error)

	// SolveBlock will have the miner make 1 attempt to solve the input block,
	// which amounts to trying a few thousand different nonces. SolveBlock is
	// primarily used for testing.
	SolveBlock(types.Block, types.Target) (types.Block, bool)
}

TestMiner provides direct access to block fetching, solving, and manipulation. The primary use of this interface is integration testing.

type TransactionBuilder added in v1.0.0

type TransactionBuilder interface {
	// FundSiacoins will add a siacoin input of exactly 'amount' to the
	// transaction. A parent transaction may be needed to achieve an input
	// with the correct value. The siacoin input will not be signed until
	// 'Sign' is called on the transaction builder. The expectation is that
	// the transaction will be completed and broadcast within a few hours.
	// Longer risks double-spends, as the wallet will assume that the
	// transaction failed.
	FundSiacoins(amount types.Currency) error

	// FundSiafunds will add a siafund input of exactly 'amount' to the
	// transaction. A parent transaction may be needed to achieve an input
	// with the correct value. The siafund input will not be signed until
	// 'Sign' is called on the transaction builder. Any siacoins that are
	// released by spending the siafund outputs will be sent to another
	// address owned by the wallet. The expectation is that the transaction
	// will be completed and broadcast within a few hours. Longer risks
	// double-spends, because the wallet will assume the transaction
	// failed.
	FundSiafunds(amount types.Currency) error

	// AddParents adds a set of parents to the transaction.
	AddParents([]types.Transaction)

	// AddMinerFee adds a miner fee to the transaction, returning the index
	// of the miner fee within the transaction.
	AddMinerFee(fee types.Currency) uint64

	// AddSiacoinInput adds a siacoin input to the transaction, returning
	// the index of the siacoin input within the transaction. When 'Sign'
	// gets called, this input will be left unsigned.
	AddSiacoinInput(types.SiacoinInput) uint64

	// AddSiacoinOutput adds a siacoin output to the transaction, returning
	// the index of the siacoin output within the transaction.
	AddSiacoinOutput(types.SiacoinOutput) uint64

	// AddFileContract adds a file contract to the transaction, returning
	// the index of the file contract within the transaction.
	AddFileContract(types.FileContract) uint64

	// AddFileContractRevision adds a file contract revision to the
	// transaction, returning the index of the file contract revision
	// within the transaction. When 'Sign' gets called, this revision will
	// be left unsigned.
	AddFileContractRevision(types.FileContractRevision) uint64

	// AddStorageProof adds a storage proof to the transaction, returning
	// the index of the storage proof within the transaction.
	AddStorageProof(types.StorageProof) uint64

	// AddSiafundInput adds a siafund input to the transaction, returning
	// the index of the siafund input within the transaction. When 'Sign'
	// is called, this input will be left unsigned.
	AddSiafundInput(types.SiafundInput) uint64

	// AddSiafundOutput adds a siafund output to the transaction, returning
	// the index of the siafund output within the transaction.
	AddSiafundOutput(types.SiafundOutput) uint64

	// AddArbitraryData adds arbitrary data to the transaction, returning
	// the index of the data within the transaction.
	AddArbitraryData(arb []byte) uint64

	// AddTransactionSignature adds a transaction signature to the
	// transaction, returning the index of the signature within the
	// transaction. The signature should already be valid, and shouldn't
	// sign any of the inputs that were added by calling 'FundSiacoins' or
	// 'FundSiafunds'.
	AddTransactionSignature(types.TransactionSignature) uint64

	// Sign will sign any inputs added by 'FundSiacoins' or 'FundSiafunds'
	// and return a transaction set that contains all parents prepended to
	// the transaction. If more fields need to be added, a new transaction
	// builder will need to be created.
	//
	// If the whole transaction flag is set to true, then the whole
	// transaction flag will be set in the covered fields object. If the
	// whole transaction flag is set to false, then the covered fields
	// object will cover all fields that have already been added to the
	// transaction, but will also leave room for more fields to be added.
	//
	// An error will be returned if there are multiple calls to 'Sign',
	// sometimes even if the first call to Sign has failed. Sign should
	// only ever be called once, and if the first signing fails, the
	// transaction should be dropped.
	Sign(wholeTransaction bool) ([]types.Transaction, error)

	// View returns the incomplete transaction along with all of its
	// parents.
	View() (txn types.Transaction, parents []types.Transaction)

	// ViewAdded returns all of the siacoin inputs, siafund inputs, and
	// parent transactions that have been automatically added by the
	// builder. Items are returned by index.
	ViewAdded() (newParents, siacoinInputs, siafundInputs, transactionSignatures []int)

	// Drop indicates that a transaction is no longer useful and will not be
	// broadcast, and that all of the outputs can be reclaimed. 'Drop'
	// should only be used before signatures are added.
	Drop()
}

TransactionBuilder is used to construct custom transactions. A transaction builder is initialized via 'RegisterTransaction' and then can be modified by adding funds or other fields. The transaction is completed by calling 'Sign', which will sign all inputs added via the 'FundSiacoins' or 'FundSiafunds' call. All modifications are additive.

Parents of the transaction are kept in the transaction builder. A parent is any unconfirmed transaction that is required for the child to be valid.

Transaction builders are not thread safe.

type TransactionPool

type TransactionPool interface {
	// AcceptTransactionSet accepts a set of potentially interdependent
	// transactions.
	AcceptTransactionSet([]types.Transaction) error

	// Close is necessary for clean shutdown (e.g. during testing).
	Close() error

	// FeeEstimation returns an estimation for how high the transaction fee
	// needs to be per byte. The minimum recommended targets getting accepted
	// in ~3 blocks, and the maximum recommended targets getting accepted
	// immediately. Taking the average has a moderate chance of being accepted
	// within one block. The minimum has a strong chance of getting accepted
	// within 10 blocks.
	FeeEstimation() (minimumRecommended, maximumRecommended types.Currency)

	// IsStandardTransaction returns `err = nil` if the transaction is
	// standard, otherwise it returns an error explaining what is not standard.
	IsStandardTransaction(types.Transaction) error

	// PurgeTransactionPool is a temporary function available to the miner. In
	// the event that a miner mines an unacceptable block, the transaction pool
	// will be purged to clear out the transaction pool and get rid of the
	// illegal transaction. This should never happen, however there are bugs
	// that make this condition necessary.
	PurgeTransactionPool()

	// TransactionList returns a list of all transactions in the transaction
	// pool. The transactions are provided in an order that can acceptably be
	// put into a block.
	TransactionList() []types.Transaction

	// TransactionPoolSubscribe adds a subscriber to the transaction pool.
	// Subscribers will receive all consensus set changes as well as
	// transaction pool changes, and should not subscribe to both.
	TransactionPoolSubscribe(TransactionPoolSubscriber)

	// Unsubscribe removes a subscriber from the transaction pool.
	// This is necessary for clean shutdown of the miner.
	Unsubscribe(TransactionPoolSubscriber)
}

A TransactionPool manages unconfirmed transactions.

type TransactionPoolSubscriber added in v0.3.1

type TransactionPoolSubscriber interface {
	// ReceiveTransactionPoolUpdate notifies subscribers of a change to the
	// consensus set and/or unconfirmed set, and includes the consensus change
	// that would result if all of the transactions made it into a block.
	ReceiveUpdatedUnconfirmedTransactions([]types.Transaction, ConsensusChange)
}

A TransactionPoolSubscriber receives updates about the confirmed and unconfirmed set from the transaction pool. Generally, there is no need to subscribe to both the consensus set and the transaction pool.

type Wallet

type Wallet interface {
	EncryptionManager
	KeyManager

	// Close permits clean shutdown during testing and serving.
	Close() error

	// ConfirmedBalance returns the confirmed balance of the wallet, minus
	// any outgoing transactions. ConfirmedBalance will include unconfirmed
	// refund transactions.
	ConfirmedBalance() (siacoinBalance types.Currency, siafundBalance types.Currency, siacoinClaimBalance types.Currency)

	// UnconfirmedBalance returns the unconfirmed balance of the wallet.
	// Outgoing funds and incoming funds are reported separately. Refund
	// outputs are included, meaning that sending a single coin to
	// someone could result in 'outgoing: 12, incoming: 11'. Siafunds are
	// not considered in the unconfirmed balance.
	UnconfirmedBalance() (outgoingSiacoins types.Currency, incomingSiacoins types.Currency)

	// AddressTransactions returns all of the transactions that are related
	// to a given address.
	AddressTransactions(types.UnlockHash) []ProcessedTransaction

	// AddressUnconfirmedHistory returns all of the unconfirmed
	// transactions related to a given address.
	AddressUnconfirmedTransactions(types.UnlockHash) []ProcessedTransaction

	// Transaction returns the transaction with the given id. The bool
	// indicates whether the transaction is in the wallet database. The
	// wallet only stores transactions that are related to the wallet.
	Transaction(types.TransactionID) (ProcessedTransaction, bool)

	// Transactions returns all of the transactions that were confirmed at
	// heights [startHeight, endHeight]. Unconfirmed transactions are not
	// included.
	Transactions(startHeight types.BlockHeight, endHeight types.BlockHeight) ([]ProcessedTransaction, error)

	// UnconfirmedTransactions returns all unconfirmed transactions
	// relative to the wallet.
	UnconfirmedTransactions() []ProcessedTransaction

	// RegisterTransaction takes a transaction and its parents and returns
	// a TransactionBuilder which can be used to expand the transaction.
	RegisterTransaction(t types.Transaction, parents []types.Transaction) TransactionBuilder

	// StartTransaction is a convenience method that calls
	// RegisterTransaction(types.Transaction{}, nil)
	StartTransaction() TransactionBuilder

	// SendSiacoins is a tool for sending siacoins from the wallet to an
	// address. Sending money usually results in multiple transactions. The
	// transactions are automatically given to the transaction pool, and
	// are also returned to the caller.
	SendSiacoins(amount types.Currency, dest types.UnlockHash) ([]types.Transaction, error)

	// SendSiafunds is a tool for sending siafunds from the wallet to an
	// address. Sending money usually results in multiple transactions. The
	// transactions are automatically given to the transaction pool, and
	// are also returned to the caller.
	SendSiafunds(amount types.Currency, dest types.UnlockHash) ([]types.Transaction, error)
}

Wallet stores and manages siacoins and siafunds. The wallet file is encrypted using a user-specified password. Common addresses are all derived from a single address seed.

type WalletTransactionID added in v1.0.0

type WalletTransactionID crypto.Hash

WalletTransactionID is a unique identifier for a wallet transaction.

func CalculateWalletTransactionID added in v1.0.0

func CalculateWalletTransactionID(tid types.TransactionID, oid types.OutputID) WalletTransactionID

CalculateWalletTransactionID is a helper function for determining the id of a wallet transaction.

Directories

Path Synopsis
The explorer module provides a glimpse into what the Sia network currently looks like.
The explorer module provides a glimpse into what the Sia network currently looks like.
Package gateway connects a Sia node to the Sia flood network.
Package gateway connects a Sia node to the Sia flood network.
Package host is an implementation of the host module, and is responsible for participating in the storage ecosystem, turning available disk space an internet bandwidth into profit for the user.
Package host is an implementation of the host module, and is responsible for participating in the storage ecosystem, turning available disk space an internet bandwidth into profit for the user.
contractor
Package contractor is responsible for forming and renewing file contracts with hosts.
Package contractor is responsible for forming and renewing file contracts with hosts.
hostdb
Package hostdb provides a HostDB object that implements the renter.hostDB interface.
Package hostdb provides a HostDB object that implements the renter.hostDB interface.

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