blockchain

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blockchain

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Package blockchain implements MultiCash block handling and chain selection rules.

The MultiCash block handling and chain selection rules are an integral, and quite likely the most important, part of MultiCash. At its core, MultiCash is a distributed consensus of which blocks are valid and which ones will comprise the main block chain (public ledger) that ultimately determines accepted transactions, so it is extremely important that fully validating nodes agree on all rules.

At a high level, this package provides support for inserting new blocks into the block chain according to the aforementioned rules. It includes functionality such as rejecting duplicate blocks, ensuring blocks and transactions follow all rules, and best chain selection along with reorganization.

Since this package does not deal with other MultiCash specifics such as network communication or wallets, it provides a notification system which gives the caller a high level of flexibility in how they want to react to certain events such as newly connected main chain blocks which might result in wallet updates.

A comprehensive suite of tests is provided to ensure proper functionality.

MultiCash Chain Processing Overview

Before a block is allowed into the block chain, it must go through an intensive series of validation rules. The following list serves as a general outline of those rules to provide some intuition into what is going on under the hood, but is by no means exhaustive:

  • Reject duplicate blocks
  • Perform a series of sanity checks on the block and its transactions such as verifying proof of work, timestamps, number and character of transactions, transaction amounts, script complexity, and merkle root calculations
  • Compare the block against predetermined checkpoints for expected timestamps and difficulty based on elapsed time since the checkpoint
  • Perform a series of more thorough checks that depend on the block's position within the block chain such as verifying block difficulties adhere to difficulty retarget rules, timestamps are after the median of the last several blocks, all transactions are finalized, checkpoint blocks match, and block versions are in line with the previous blocks
  • Determine how the block fits into the chain and perform different actions accordingly in order to ensure any side chains which have higher difficulty than the main chain become the new main chain
  • When a block is being connected to the main chain (either through reorganization of a side chain to the main chain or just extending the main chain), perform further checks on the block's transactions such as verifying transaction duplicates, script complexity for the combination of connected scripts, coinbase maturity, double spends, and connected transaction values
  • Run the transaction scripts to verify the spender is allowed to spend the coins
  • Insert the block into the block database

Processing Order

This package supports headers-first semantics such that block data can be processed out of order so long as the associated header is already known.

The headers themselves, however, must be processed in the correct order since headers that do not properly connect are rejected. In other words, orphan headers are not allowed.

The processing code always maintains the best chain as the branch tip that has the most cumulative proof of work, so it is important to keep that in mind when considering errors returned from processing blocks.

Notably, due to the ability to process blocks out of order, and the fact blocks can only be fully validated once all of their ancestors have the block data available, it is to be expected that no error is returned immediately for blocks that are valid enough to make it to the point they require the remaining ancestor block data to be fully validated even though they might ultimately end up failing validation. Similarly, because the data for a block becoming available makes any of its direct descendants that already have their data available eligible for validation, an error being returned does not necessarily mean the block being processed is the one that failed validation.

Installation and Updating

This package is part of the github.com/multicash/mcxd/blockchain/v3 module. Use the standard go tooling for working with modules to incorporate it.

Examples

  • ProcessBlock Example Demonstrates how to create a new chain instance and use ProcessBlock to attempt to add a block to the chain. This example intentionally attempts to insert a duplicate genesis block to illustrate how an invalid block is handled.

License

Package blockchain is licensed under the copyfree ISC License.

Documentation

Overview

Package blockchain implements MultiCash block handling and chain selection rules.

The MultiCash block handling and chain selection rules are an integral, and quite likely the most important, part of MultiCash. At its core, MultiCash is a distributed consensus of which blocks are valid and which ones will comprise the main block chain (public ledger) that ultimately determines accepted transactions, so it is extremely important that fully validating nodes agree on all rules.

At a high level, this package provides support for inserting new blocks into the block chain according to the aforementioned rules. It includes functionality such as rejecting duplicate blocks, ensuring blocks and transactions follow all rules, and best chain selection along with reorganization.

Since this package does not deal with other MultiCash specifics such as network communication or wallets, it provides a notification system which gives the caller a high level of flexibility in how they want to react to certain events such as newly connected main chain blocks which might result in wallet updates.

MultiCash Chain Processing Overview

Before a block is allowed into the block chain, it must go through an intensive series of validation rules. The following list serves as a general outline of those rules to provide some intuition into what is going on under the hood, but is by no means exhaustive:

  • Reject duplicate blocks
  • Perform a series of sanity checks on the block and its transactions such as verifying proof of work, timestamps, number and character of transactions, transaction amounts, script complexity, and merkle root calculations
  • Compare the block against predetermined checkpoints for expected timestamps and difficulty based on elapsed time since the checkpoint
  • Perform a series of more thorough checks that depend on the block's position within the block chain such as verifying block difficulties adhere to difficulty retarget rules, timestamps are after the median of the last several blocks, all transactions are finalized, checkpoint blocks match, and block versions are in line with the previous blocks
  • Determine how the block fits into the chain and perform different actions accordingly in order to ensure any side chains which have higher difficulty than the main chain become the new main chain
  • When a block is being connected to the main chain (either through reorganization of a side chain to the main chain or just extending the main chain), perform further checks on the block's transactions such as verifying transaction duplicates, script complexity for the combination of connected scripts, coinbase maturity, double spends, and connected transaction values
  • Run the transaction scripts to verify the spender is allowed to spend the coins
  • Insert the block into the block database

Processing Order

This package supports headers-first semantics such that block data can be processed out of order so long as the associated header is already known.

The headers themselves, however, must be processed in the correct order since headers that do not properly connect are rejected. In other words, orphan headers are not allowed.

The processing code always maintains the best chain as the branch tip that has the most cumulative proof of work, so it is important to keep that in mind when considering errors returned from processing blocks.

Notably, due to the ability to process blocks out of order, and the fact blocks can only be fully validated once all of their ancestors have the block data available, it is to be expected that no error is returned immediately for blocks that are valid enough to make it to the point they require the remaining ancestor block data to be fully validated even though they might ultimately end up failing validation. Similarly, because the data for a block becoming available makes any of its direct descendants that already have their data available eligible for validation, an error being returned does not necessarily mean the block being processed is the one that failed validation.

Errors

Errors returned by this package have full support for the standard library errors.Is and errors.As methods and are either the raw errors provided by underlying calls or of type blockchain.RuleError, possibly wrapped in a blockchain.MultiError. This allows the caller to differentiate between unexpected errors, such as database errors, versus errors due to rule violations through errors.As. In addition, callers can programmatically determine the specific rule violation by making use of errors.Is with any of the wrapped error kinds.

Index

Examples

Constants

View Source 
const (
	// ErrDuplicateBlock indicates a block with the same hash already
	// exists.
	ErrDuplicateBlock = ErrorKind("ErrDuplicateBlock")

	// ErrMissingParent indicates that the block was an orphan.
	ErrMissingParent = ErrorKind("ErrMissingParent")

	// ErrNoBlockData indicates an attempt to perform an operation on a block
	// that requires all data to be available does not have the data.  This is
	// typically because the header is known, but the full data has not been
	// received yet.
	ErrNoBlockData = ErrorKind("ErrNoBlockData")

	// ErrBlockTooBig indicates the serialized block size exceeds the
	// maximum allowed size.
	ErrBlockTooBig = ErrorKind("ErrBlockTooBig")

	// ErrWrongBlockSize indicates that the block size in the header is not
	// the actual serialized size of the block.
	ErrWrongBlockSize = ErrorKind("ErrWrongBlockSize")

	// ErrBlockVersionTooOld indicates the block version is too old and is
	// no longer accepted since the majority of the network has upgraded
	// to a newer version.
	ErrBlockVersionTooOld = ErrorKind("ErrBlockVersionTooOld")

	// ErrBadStakeVersionindicates the block version is too old and is no
	// longer accepted since the majority of the network has upgraded to a
	// newer version.
	ErrBadStakeVersion = ErrorKind("ErrBadStakeVersion")

	// ErrInvalidTime indicates the time in the passed block has a precision
	// that is more than one second.  The chain consensus rules require
	// timestamps to have a maximum precision of one second.
	ErrInvalidTime = ErrorKind("ErrInvalidTime")

	// ErrTimeTooOld indicates the time is either before the median time of
	// the last several blocks per the chain consensus rules or prior to the
	// most recent checkpoint.
	ErrTimeTooOld = ErrorKind("ErrTimeTooOld")

	// ErrTimeTooNew indicates the time is too far in the future as compared
	// the current time.
	ErrTimeTooNew = ErrorKind("ErrTimeTooNew")

	// ErrDifficultyTooLow indicates the difficulty for the block is lower
	// than the difficulty required by the most recent checkpoint.
	ErrDifficultyTooLow = ErrorKind("ErrDifficultyTooLow")

	// ErrUnexpectedDifficulty indicates specified bits do not align with
	// the expected value either because it doesn't match the calculated
	// value based on difficulty regarding the rules or it is out of the
	// valid range.
	ErrUnexpectedDifficulty = ErrorKind("ErrUnexpectedDifficulty")

	// ErrHighHash indicates the block does not hash to a value which is
	// lower than the required target difficultly.
	ErrHighHash = ErrorKind("ErrHighHash")

	// ErrBadMerkleRoot indicates the calculated merkle root does not match
	// the expected value.
	ErrBadMerkleRoot = ErrorKind("ErrBadMerkleRoot")

	// ErrBadCommitmentRoot indicates the calculated commitment root does
	// not match the expected value.
	ErrBadCommitmentRoot = ErrorKind("ErrBadCommitmentRoot")

	// ErrBadCheckpoint indicates a block that is expected to be at a
	// checkpoint height does not match the expected one.
	ErrBadCheckpoint = ErrorKind("ErrBadCheckpoint")

	// ErrForkTooOld indicates a block is attempting to fork the block chain
	// before the most recent checkpoint.
	ErrForkTooOld = ErrorKind("ErrForkTooOld")

	// ErrCheckpointTimeTooOld indicates a block has a timestamp before the
	// most recent checkpoint.
	ErrCheckpointTimeTooOld = ErrorKind("ErrCheckpointTimeTooOld")

	// ErrNoTransactions indicates the block does not have a least one
	// transaction.  A valid block must have at least the coinbase
	// transaction.
	ErrNoTransactions = ErrorKind("ErrNoTransactions")

	// ErrTooManyTransactions indicates the block has more transactions than
	// are allowed.
	ErrTooManyTransactions = ErrorKind("ErrTooManyTransactions")

	// ErrNoTxInputs indicates a transaction does not have any inputs.  A
	// valid transaction must have at least one input.
	ErrNoTxInputs = ErrorKind("ErrNoTxInputs")

	// ErrNoTxOutputs indicates a transaction does not have any outputs.  A
	// valid transaction must have at least one output.
	ErrNoTxOutputs = ErrorKind("ErrNoTxOutputs")

	// ErrInvalidTxOutputs indicates a transaction does not have the exact
	// number of outputs.
	ErrInvalidTxOutputs = ErrorKind("ErrInvalidTxOutputs")

	// ErrTxTooBig indicates a transaction exceeds the maximum allowed size
	// when serialized.
	ErrTxTooBig = ErrorKind("ErrTxTooBig")

	// ErrBadTxOutValue indicates an output value for a transaction is
	// invalid in some way such as being out of range.
	ErrBadTxOutValue = ErrorKind("ErrBadTxOutValue")

	// ErrDuplicateTxInputs indicates a transaction references the same
	// input more than once.
	ErrDuplicateTxInputs = ErrorKind("ErrDuplicateTxInputs")

	// ErrBadTxInput indicates a transaction input is invalid in some way
	// such as referencing a previous transaction outpoint which is out of
	// range or not referencing one at all.
	ErrBadTxInput = ErrorKind("ErrBadTxInput")

	// ErrMissingTxOut indicates a transaction output referenced by an input
	// either does not exist or has already been spent.
	ErrMissingTxOut = ErrorKind("ErrMissingTxOut")

	// ErrUnfinalizedTx indicates a transaction has not been finalized.
	// A valid block may only contain finalized transactions.
	ErrUnfinalizedTx = ErrorKind("ErrUnfinalizedTx")

	// ErrDuplicateTx indicates a block contains an identical transaction
	// (or at least two transactions which hash to the same value).  A
	// valid block may only contain unique transactions.
	ErrDuplicateTx = ErrorKind("ErrDuplicateTx")

	// ErrOverwriteTx indicates a block contains a transaction that has
	// the same hash as a previous transaction which has not been fully
	// spent.
	ErrOverwriteTx = ErrorKind("ErrOverwriteTx")

	// ErrImmatureSpend indicates a transaction is attempting to spend a
	// coinbase that has not yet reached the required maturity.
	ErrImmatureSpend = ErrorKind("ErrImmatureSpend")

	// ErrSpendTooHigh indicates a transaction is attempting to spend more
	// value than the sum of all of its inputs.
	ErrSpendTooHigh = ErrorKind("ErrSpendTooHigh")

	// ErrBadFees indicates the total fees for a block are invalid due to
	// exceeding the maximum possible value.
	ErrBadFees = ErrorKind("ErrBadFees")

	// ErrTooManySigOps indicates the total number of signature operations
	// for a transaction or block exceed the maximum allowed limits.
	ErrTooManySigOps = ErrorKind("ErrTooManySigOps")

	// ErrFirstTxNotCoinbase indicates the first transaction in a block
	// is not a coinbase transaction.
	ErrFirstTxNotCoinbase = ErrorKind("ErrFirstTxNotCoinbase")

	// ErrCoinbaseHeight indicates that the encoded height in the coinbase
	// is incorrect.
	ErrCoinbaseHeight = ErrorKind("ErrCoinbaseHeight")

	// ErrMultipleCoinbases indicates a block contains more than one
	// coinbase transaction.
	ErrMultipleCoinbases = ErrorKind("ErrMultipleCoinbases")

	// ErrStakeTxInRegularTree indicates a stake transaction was found in
	// the regular transaction tree.
	ErrStakeTxInRegularTree = ErrorKind("ErrStakeTxInRegularTree")

	// ErrRegTxInStakeTree indicates that a regular transaction was found in
	// the stake transaction tree.
	ErrRegTxInStakeTree = ErrorKind("ErrRegTxInStakeTree")

	// ErrBadCoinbaseScriptLen indicates the length of the signature script
	// for a coinbase transaction is not within the valid range.
	ErrBadCoinbaseScriptLen = ErrorKind("ErrBadCoinbaseScriptLen")

	// ErrBadCoinbaseValue indicates the amount of a coinbase value does
	// not match the expected value of the subsidy plus the sum of all fees.
	ErrBadCoinbaseValue = ErrorKind("ErrBadCoinbaseValue")

	// ErrBadCoinbaseOutpoint indicates that the outpoint used by a coinbase
	// as input was non-null.
	ErrBadCoinbaseOutpoint = ErrorKind("ErrBadCoinbaseOutpoint")

	// ErrBadCoinbaseFraudProof indicates that the fraud proof for a coinbase
	// input was non-null.
	ErrBadCoinbaseFraudProof = ErrorKind("ErrBadCoinbaseFraudProof")

	// ErrBadCoinbaseAmountIn indicates that the AmountIn (=subsidy) for a
	// coinbase input was incorrect.
	ErrBadCoinbaseAmountIn = ErrorKind("ErrBadCoinbaseAmountIn")

	// ErrBadStakebaseAmountIn indicates that the AmountIn (=subsidy) for a
	// stakebase input was incorrect.
	ErrBadStakebaseAmountIn = ErrorKind("ErrBadStakebaseAmountIn")

	// ErrBadStakebaseScriptLen indicates the length of the signature script
	// for a stakebase transaction is not within the valid range.
	ErrBadStakebaseScriptLen = ErrorKind("ErrBadStakebaseScriptLen")

	// ErrBadStakebaseScrVal indicates the signature script for a stakebase
	// transaction was not set to the network consensus value.
	ErrBadStakebaseScrVal = ErrorKind("ErrBadStakebaseScrVal")

	// ErrScriptMalformed indicates a transaction script is malformed in
	// some way.  For example, it might be longer than the maximum allowed
	// length or fail to parse.
	ErrScriptMalformed = ErrorKind("ErrScriptMalformed")

	// ErrScriptValidation indicates the result of executing transaction
	// script failed.  The error covers any failure when executing scripts
	// such signature verification failures and execution past the end of
	// the stack.
	ErrScriptValidation = ErrorKind("ErrScriptValidation")

	// ErrNotEnoughStake indicates that there was for some SStx in a given block,
	// the given SStx did not have enough stake to meet the network target.
	ErrNotEnoughStake = ErrorKind("ErrNotEnoughStake")

	// ErrStakeBelowMinimum indicates that for some SStx in a given block,
	// the given SStx had an amount of stake below the minimum network target.
	ErrStakeBelowMinimum = ErrorKind("ErrStakeBelowMinimum")

	// ErrNonstandardStakeTx indicates that a block contained a stake tx that
	// was not one of the allowed types of a stake transactions.
	ErrNonstandardStakeTx = ErrorKind("ErrNonstandardStakeTx")

	// ErrNotEnoughVotes indicates that a block contained less than a majority
	// of voters.
	ErrNotEnoughVotes = ErrorKind("ErrNotEnoughVotes")

	// ErrTooManyVotes indicates that a block contained more than the maximum
	// allowable number of votes.
	ErrTooManyVotes = ErrorKind("ErrTooManyVotes")

	// ErrFreshStakeMismatch indicates that a block's header contained a different
	// number of SStx as compared to what was found in the block.
	ErrFreshStakeMismatch = ErrorKind("ErrFreshStakeMismatch")

	// ErrTooManySStxs indicates that more than the allowed number of SStx was
	// found in a block.
	ErrTooManySStxs = ErrorKind("ErrTooManySStxs")

	// ErrInvalidEarlyStakeTx indicates that a tx type other than SStx was found
	// in the stake tx tree before the period when stake validation begins, or
	// before the stake tx type could possibly be included in the block.
	ErrInvalidEarlyStakeTx = ErrorKind("ErrInvalidEarlyStakeTx")

	// ErrTicketUnavailable indicates that a vote in the block spent a ticket
	// that could not be found.
	ErrTicketUnavailable = ErrorKind("ErrTicketUnavailable")

	// ErrVotesOnWrongBlock indicates that an SSGen voted on a block not the
	// block's parent, and so was ineligible for inclusion into that block.
	ErrVotesOnWrongBlock = ErrorKind("ErrVotesOnWrongBlock")

	// ErrVotesMismatch indicates that the number of SSGen in the block was not
	// equivalent to the number of votes provided in the block header.
	ErrVotesMismatch = ErrorKind("ErrVotesMismatch")

	// ErrIncongruentVotebit indicates that the first votebit in votebits was not
	// the same as that determined by the majority of voters in the SSGen tx
	// included in the block.
	ErrIncongruentVotebit = ErrorKind("ErrIncongruentVotebit")

	// ErrInvalidSSRtx indicates than an SSRtx in a block could not be found to
	// have a valid missed sstx input as per the stake ticket database.
	ErrInvalidSSRtx = ErrorKind("ErrInvalidSSRtx")

	// ErrInvalidRevNum indicates that the number of revocations from the
	// header was not the same as the number of SSRtx included in the block.
	ErrRevocationsMismatch = ErrorKind("ErrRevocationsMismatch")

	// ErrTooManyRevocations indicates more revocations were found in a block
	// than were allowed.
	ErrTooManyRevocations = ErrorKind("ErrTooManyRevocations")

	// ErrTicketCommitment indicates that a ticket commitment contains an amount
	// that does not coincide with the associated ticket input amount.
	ErrTicketCommitment = ErrorKind("ErrTicketCommitment")

	// ErrInvalidVoteInput indicates that an input to a vote transaction is
	// either not a stake ticket submission or is not a supported version.
	ErrInvalidVoteInput = ErrorKind("ErrInvalidVoteInput")

	// ErrBadNumPayees indicates that either a vote or revocation transaction
	// does not make the correct number of payments per the associated ticket
	// commitments.
	ErrBadNumPayees = ErrorKind("ErrBadNumPayees")

	// ErrBadPayeeScriptVersion indicates that either a vote or revocation
	// transaction output that corresponds to a ticket commitment does not use
	// a supported script version.
	ErrBadPayeeScriptVersion = ErrorKind("ErrBadPayeeScriptVersion")

	// ErrBadPayeeScriptType indicates that either a vote or revocation
	// transaction output that corresponds to a ticket commitment does not pay
	// to the same script type required by the commitment.
	ErrBadPayeeScriptType = ErrorKind("ErrBadPayeeScriptType")

	// ErrBadPayeeScriptType indicates that either a vote or revocation
	// transaction output that corresponds to a ticket commitment does not pay
	// to the hash required by the commitment.
	ErrMismatchedPayeeHash = ErrorKind("ErrMismatchedPayeeHash")

	// ErrBadPayeeValue indicates that either a vote or revocation transaction
	// output that corresponds to a ticket commitment does not pay the expected
	// amount required by the commitment.
	ErrBadPayeeValue = ErrorKind("ErrBadPayeeValue")

	// ErrSSGenSubsidy indicates that there was an error in the amount of subsidy
	// generated in the vote.
	ErrSSGenSubsidy = ErrorKind("ErrSSGenSubsidy")

	// ErrImmatureTicketSpend indicates that a vote or revocation is attempting
	// to spend a ticket submission output that has not yet reached the required
	// maturity.
	ErrImmatureTicketSpend = ErrorKind("ErrImmatureTicketSpend")

	// ErrTicketInputScript indicates that a ticket input is not one of the
	// supported script forms or versions.
	ErrTicketInputScript = ErrorKind("ErrTicketInputScript")

	// ErrInvalidRevokeInput indicates that an input to a revocation transaction
	// is either not a stake ticket submission or is not a supported version.
	ErrInvalidRevokeInput = ErrorKind("ErrInvalidRevokeInput")

	// ErrSSRtxPayees indicates that the SSRtx failed to pay out to the committed
	// addresses or amounts from the originating SStx.
	ErrSSRtxPayees = ErrorKind("ErrSSRtxPayees")

	// ErrTxSStxOutSpend indicates that a non SSGen or SSRtx tx attempted to spend
	// an OP_SSTX tagged output from an SStx.
	ErrTxSStxOutSpend = ErrorKind("ErrTxSStxOutSpend")

	// ErrRegTxCreateStakeOut indicates that a regular tx attempted to create
	// a stake tagged output.
	ErrRegTxCreateStakeOut = ErrorKind("ErrRegTxCreateStakeOut")

	// ErrInvalidFinalState indicates that the final state of the PRNG included
	// in the block differed from the calculated final state.
	ErrInvalidFinalState = ErrorKind("ErrInvalidFinalState")

	// ErrPoolSize indicates an error in the ticket pool size for this block.
	ErrPoolSize = ErrorKind("ErrPoolSize")

	// ErrForceReorgSameBlock indicates that a reorganization  was attempted to
	// be forced to the same block.
	ErrForceReorgSameBlock = ErrorKind("ErrForceReorgSameBlock")

	// ErrForceReorgWrongChain indicates that a reorganization  was attempted
	// to be forced, but the chain indicated was not mirrored by b.bestChain.
	ErrForceReorgWrongChain = ErrorKind("ErrForceReorgWrongChain")

	// ErrForceReorgMissingChild indicates that a reorganization  was attempted
	// to be forced, but the child node to reorganize to could not be found.
	ErrForceReorgMissingChild = ErrorKind("ErrForceReorgMissingChild")

	// ErrBadStakebaseValue indicates that a block's stake tx tree has spent
	// more than it is allowed.
	ErrBadStakebaseValue = ErrorKind("ErrBadStakebaseValue")

	// ErrStakeFees indicates an error with the fees found in the stake
	// transaction tree.
	ErrStakeFees = ErrorKind("ErrStakeFees")

	// ErrNoStakeTx indicates there were no stake transactions found in a
	// block after stake validation height.
	ErrNoStakeTx = ErrorKind("ErrNoStakeTx")

	// ErrBadBlockHeight indicates that a block header's embedded block height
	// was different from where it was actually embedded in the block chain.
	ErrBadBlockHeight = ErrorKind("ErrBadBlockHeight")

	// ErrBlockOneTx indicates that block height 1 failed to correct generate
	// the block one initial payout transaction.
	ErrBlockOneTx = ErrorKind("ErrBlockOneTx")

	// ErrBlockOneTx indicates that block height 1 coinbase transaction in
	// zero was incorrect in some way.
	ErrBlockOneInputs = ErrorKind("ErrBlockOneInputs")

	// ErrBlockOneOutputs indicates that block height 1 failed to incorporate
	// the ledger addresses correctly into the transaction's outputs.
	ErrBlockOneOutputs = ErrorKind("ErrBlockOneOutputs")

	// ErrNoTax indicates that there was no tax present in the coinbase of a
	// block after height 1.
	ErrNoTax = ErrorKind("ErrNoTax")

	// ErrExpiredTx indicates that the transaction is currently expired.
	ErrExpiredTx = ErrorKind("ErrExpiredTx")

	// ErrExpiryTxSpentEarly indicates that an output from a transaction
	// that included an expiry field was spent before coinbase maturity
	// many blocks had passed in the blockchain.
	ErrExpiryTxSpentEarly = ErrorKind("ErrExpiryTxSpentEarly")

	// ErrFraudAmountIn indicates the witness amount given was fraudulent.
	ErrFraudAmountIn = ErrorKind("ErrFraudAmountIn")

	// ErrFraudBlockHeight indicates the witness block height given was
	// fraudulent.
	ErrFraudBlockHeight = ErrorKind("ErrFraudBlockHeight")

	// ErrFraudBlockIndex indicates the witness block index given was
	// fraudulent.
	ErrFraudBlockIndex = ErrorKind("ErrFraudBlockIndex")

	// ErrZeroValueOutputSpend indicates that a transaction attempted to spend a
	// zero value output.
	ErrZeroValueOutputSpend = ErrorKind("ErrZeroValueOutputSpend")

	// ErrInvalidEarlyVoteBits indicates that a block before stake validation
	// height had an unallowed vote bits value.
	ErrInvalidEarlyVoteBits = ErrorKind("ErrInvalidEarlyVoteBits")

	// ErrInvalidEarlyFinalState indicates that a block before stake validation
	// height had a non-zero final state.
	ErrInvalidEarlyFinalState = ErrorKind("ErrInvalidEarlyFinalState")

	// ErrKnownInvalidBlock indicates that this block has previously failed
	// validation.
	ErrKnownInvalidBlock = ErrorKind("ErrKnownInvalidBlock")

	// ErrInvalidAncestorBlock indicates that an ancestor of this block has
	// failed validation.
	ErrInvalidAncestorBlock = ErrorKind("ErrInvalidAncestorBlock")

	// ErrInvalidTemplateParent indicates that a block template builds on a
	// block that is either not the current best chain tip or its parent.
	ErrInvalidTemplateParent = ErrorKind("ErrInvalidTemplateParent")

	// ErrUnknownPiKey indicates that the provided public Pi Key is not
	// a well known key.
	ErrUnknownPiKey = ErrorKind("ErrUnknownPiKey")

	// ErrInvalidPiSignature indicates that a treasury spend transaction
	// was not properly signed.
	ErrInvalidPiSignature = ErrorKind("ErrInvalidPiSignature")

	// ErrInvalidTVoteWindow indicates that a treasury spend transaction
	// appeared in a block that is prior to a valid treasury vote window.
	ErrInvalidTVoteWindow = ErrorKind("ErrInvalidTVoteWindow")

	// ErrNotTVI indicates that a treasury spend transaction appeared in a
	// block that is not at a TVI interval.
	ErrNotTVI = ErrorKind("ErrNotTVI")

	// ErrInvalidTSpendWindow indicates that this treasury spend
	// transaction is outside of the allowed window.
	ErrInvalidTSpendWindow = ErrorKind("ErrInvalidTSpendWindow")

	// ErrNotEnoughTSpendVotes indicates that a treasury spend transaction
	// does not have enough votes to be included in block.
	ErrNotEnoughTSpendVotes = ErrorKind("ErrNotEnoughTSpendVotes")

	// ErrInvalidTSpendValueIn indicates that a treasury spend transaction
	// ValueIn does not match the encoded copy in the first TxOut.
	ErrInvalidTSpendValueIn = ErrorKind("ErrInvalidTSpendValueIn")

	// ErrTSpendExists indicates that a duplicate treasury spend
	// transaction has been mined on a TVI in the current best chain.
	ErrTSpendExists = ErrorKind("ErrTSpendExists")

	// ErrInvalidExpenditure indicates that a treasury spend transaction
	// expenditure is out of range.
	ErrInvalidExpenditure = ErrorKind("ErrInvalidExpenditure")

	// ErrFirstTxNotTreasurybase indicates the first transaction in a block
	// is not a treasurybase transaction.
	ErrFirstTxNotTreasurybase = ErrorKind("ErrFirstTxNotTreasurybase")

	// ErrBadTreasurybaseOutpoint indicates that the outpoint used by a
	// treasurybase as input was non-null.
	ErrBadTreasurybaseOutpoint = ErrorKind("ErrBadTreasurybaseOutpoint")

	// ErrBadTreasurybaseFraudProof indicates that the fraud proof for a
	// treasurybase input was non-null.
	ErrBadTreasurybaseFraudProof = ErrorKind("ErrBadTreasurybaseFraudProof")

	// ErrBadTreasurybaseScriptLen indicates the length of the signature script
	// for a treasurybase transaction is not within the valid range.
	ErrBadTreasurybaseScriptLen = ErrorKind("ErrBadTreasurybaseScriptLen")

	// ErrTreasurybaseTxNotOpReturn indicates the second ouptut of a
	// treasury base transaction is not an OP_RETURN.
	ErrTreasurybaseTxNotOpReturn = ErrorKind("ErrTreasurybaseTxNotOpReturn")

	// ErrTreasurybaseHeight indicates that the encoded height in the
	// treasurybase is incorrect.
	ErrTreasurybaseHeight = ErrorKind("ErrTreasurybaseHeight")

	// ErrInvalidTreasurybaseTxOutputs indicates that the transaction does
	// not have the correct number of outputs.
	ErrInvalidTreasurybaseTxOutputs = ErrorKind("ErrInvalidTreasurybaseTxOutputs")

	// ErrInvalidTreasurybaseVersion indicates that the transaction output
	// has the wrong version.
	ErrInvalidTreasurybaseVersion = ErrorKind("ErrInvalidTreasurybaseVersion")

	// ErrInvalidTreasurybaseScript indicates that the transaction output
	// script is invalid.
	ErrInvalidTreasurybaseScript = ErrorKind("ErrInvalidTreasurybaseScript")

	// ErrTreasurybaseOutValue ensures that the OP_TADD value of a
	// treasurybase is not the expected amount.
	ErrTreasurybaseOutValue = ErrorKind("ErrTreasurybaseOutValue")

	// ErrMultipleTreasurybases indicates a block contains more than one
	// treasurybase transaction.
	ErrMultipleTreasurybases = ErrorKind("ErrMultipleTreasurybases")

	// ErrBadTreasurybaseAmountIn indicates that a block contains an
	// invalid treasury contribution.
	ErrBadTreasurybaseAmountIn = ErrorKind("ErrBadTreasurybaseAmountIn")

	// ErrBadTSpendOutpoint indicates that the outpoint used by a
	// treasury spend as input was non-null.
	ErrBadTSpendOutpoint = ErrorKind("ErrBadTSpendOutpoint")

	// ErrBadTSpendFraudProof indicates that the fraud proof for a treasury
	// spend transaction input was non-null.
	ErrBadTSpendFraudProof = ErrorKind("ErrBadTSpendFraudProof")

	// ErrBadTSpendScriptLen indicates the length of the signature script
	// for a treasury spend transaction is not within the valid range.
	ErrBadTSpendScriptLen = ErrorKind("ErrBadTSpendScriptLen")

	// ErrInvalidTAddChange indicates the change output of a TAdd is zero.
	ErrInvalidTAddChange = ErrorKind("ErrInvalidTAddChange")

	// ErrTooManyTAdds indicates the number of treasury adds in a given
	// block is larger than the maximum allowed.
	ErrTooManyTAdds = ErrorKind("ErrTooManyTAdds")

	// ErrTicketExhaustion indicates extending a given block with another one
	// would result in an unrecoverable chain due to ticket exhaustion.
	ErrTicketExhaustion = ErrorKind("ErrTicketExhaustion")

	// ErrDBTooOldToUpgrade indicates the database version is prior to the
	// minimum supported version for which upgrades are supported.
	ErrDBTooOldToUpgrade = ErrorKind("ErrDBTooOldToUpgrade")

	// ErrUnknownDeploymentID indicates a deployment id does not exist.
	ErrUnknownDeploymentID = ErrorKind("ErrUnknownDeploymentID")

	// ErrUnknownDeploymentVersion indicates a version for a given deployment id
	// was specified that does not exist.
	ErrUnknownDeploymentVersion = ErrorKind("ErrUnknownDeploymentVersion")

	// ErrDuplicateDeployment indicates a duplicate deployment id exists in the
	// network parameter deployment definitions.
	ErrDuplicateDeployment = ErrorKind("ErrDuplicateDeployment")

	// ErrUnknownBlock indicates a requested block does not exist.
	ErrUnknownBlock = ErrorKind("ErrUnknownBlock")

	// ErrNoFilter indicates a filter for a given block hash does not exist.
	ErrNoFilter = ErrorKind("ErrNoFilter")

	// ErrNoTreasuryBalance indicates the treasury balance for a given block
	// hash does not exist.
	ErrNoTreasuryBalance = ErrorKind("ErrNoTreasuryBalance")

	// ErrInvalidateGenesisBlock indicates an attempt to invalidate the genesis
	// block which is not allowed.
	ErrInvalidateGenesisBlock = ErrorKind("ErrInvalidateGenesisBlock")
)

These constants are used to identify a specific ErrorKind.

View Source 
const (
	// MaxSigOpsPerBlock is the maximum number of signature operations
	// allowed for a block.  This really should be based upon the max
	// allowed block size for a network and any votes that might change it,
	// however, since it was not updated to be based upon it before
	// release, it will require a hard fork and associated vote agenda to
	// change it.  The original max block size for the protocol was 1MiB,
	// so that is what this is based on.
	MaxSigOpsPerBlock = 1000000 / 200

	// MaxTimeOffsetSeconds is the maximum number of seconds a block time
	// is allowed to be ahead of the current time.  This is currently 2
	// hours.
	MaxTimeOffsetSeconds = 2 * 60 * 60

	// MinCoinbaseScriptLen is the minimum length a coinbase script can be.
	MinCoinbaseScriptLen = 2

	// MaxCoinbaseScriptLen is the maximum length a coinbase script can be.
	MaxCoinbaseScriptLen = 100

	// MaxTAddsPerBlock is the maximum number of treasury add txs that are
	// allowed per block.
	MaxTAddsPerBlock = 20
)
View Source 
const CheckpointConfirmations = 4096

CheckpointConfirmations is the number of blocks before the end of the current best block chain that a good checkpoint candidate must be.

View Source 
const (
	// HeaderCmtFilterIndex is the proof index for the filter header commitment.
	HeaderCmtFilterIndex = 0
)

Variables

This section is empty.

Functions

func CalcCommitmentRootV1 

func CalcCommitmentRootV1(filterHash chainhash.Hash) chainhash.Hash

CalcCommitmentRootV1 calculates and returns the required v1 block commitment root from the filter hash it commits to.

This function is safe for concurrent access.

func CheckBlockSanity 

func CheckBlockSanity(block *mcxutil.Block, timeSource MedianTimeSource, chainParams *chaincfg.Params) error

CheckBlockSanity performs some preliminary checks on a block to ensure it is sane before continuing with block processing. These checks are context free.

func CheckDBTooOldToUpgrade 

func CheckDBTooOldToUpgrade(db database.DB) error

CheckDBTooOldToUpgrade returns an ErrDBTooOldToUpgrade error if the provided database can no longer be upgraded due to being too old.

func CheckProofOfStake 

func CheckProofOfStake(block *mcxutil.Block, posLimit int64) error

CheckProofOfStake ensures that all ticket purchases in the block pay at least the amount required by the block header stake bits which indicate the target stake difficulty (aka ticket price) as claimed.

func CheckTransaction 

func CheckTransaction(tx *wire.MsgTx, params *chaincfg.Params, flags AgendaFlags) error

CheckTransaction performs several validation checks on a transaction that include both preliminary sanity checks that are context free as well as those which depend on whether or not an agenda is active.

The flags may be used to specify which agendas should be considered as active in order to change how the validation rules are applied accordingly.

func CheckTransactionInputs 

func CheckTransactionInputs(subsidyCache *standalone.SubsidyCache, tx *mcxutil.Tx, txHeight int64, view *UtxoViewpoint, checkFraudProof bool, chainParams *chaincfg.Params, isTreasuryEnabled bool) (int64, error)

CheckTransactionInputs performs a series of checks on the inputs to a transaction to ensure they are valid. An example of some of the checks include verifying all inputs exist, ensuring the coinbase seasoning requirements are met, detecting double spends, validating all values and fees are in the legal range and the total output amount doesn't exceed the input amount, and verifying the signatures to prove the spender was the owner of the MultiCash and therefore allowed to spend them. As it checks the inputs, it also calculates the total fees for the transaction and returns that value.

NOTE: The transaction MUST have already been sanity checked with the CheckTransactionSanity function prior to calling this function.

func CheckTransactionSanity 

func CheckTransactionSanity(tx *wire.MsgTx, params *chaincfg.Params) error

CheckTransactionSanity performs some preliminary checks on a transaction to ensure it is sane. These checks are context free.

func CountP2SHSigOps 

func CountP2SHSigOps(tx *mcxutil.Tx, isCoinBaseTx bool, isStakeBaseTx bool, view *UtxoViewpoint, isTreasuryEnabled bool) (int, error)

CountP2SHSigOps returns the number of signature operations for all input transactions which are of the pay-to-script-hash type. This uses the precise, signature operation counting mechanism from the script engine which requires access to the input transaction scripts.

func CountSigOps 

func CountSigOps(tx *mcxutil.Tx, isCoinBaseTx bool, isSSGen bool, isTreasuryEnabled bool) int

CountSigOps returns the number of signature operations for all transaction input and output scripts in the provided transaction. This uses the quicker, but imprecise, signature operation counting mechanism from txscript.

func IsExpired 

func IsExpired(tx *mcxutil.Tx, blockHeight int64) bool

IsExpired returns where or not the passed transaction is expired according to the given block height.

This function only differs from IsExpiredTx in that it works with a higher level util transaction as opposed to a raw wire transaction.

func IsExpiredTx 

func IsExpiredTx(tx *wire.MsgTx, blockHeight int64) bool

IsExpiredTx returns where or not the passed transaction is expired according to the given block height.

This function only differs from IsExpired in that it works with a raw wire transaction as opposed to a higher level util transaction.

func IsFinalizedTransaction 

func IsFinalizedTransaction(tx *mcxutil.Tx, blockHeight int64, blockTime time.Time) bool

IsFinalizedTransaction determines whether or not a transaction is finalized.

func LockTimeToSequence 

func LockTimeToSequence(isSeconds bool, lockTime uint32) (uint32, error)

LockTimeToSequence converts the passed relative lock time to a sequence number in accordance with DCP0003.

A sequence number is defined as follows:

  • bit 31 is the disable bit

  • the next 8 bits are reserved

  • bit 22 is the relative lock type (unset = block height, set = seconds)

  • the next 6 bites are reserved

  • the least significant 16 bits represent the value

  • value has a granularity of 512 when interpreted as seconds (bit 22 set)

    --------------------------------------------------- | Disable | Reserved | Type | Reserved | Value | --------------------------------------------------- | 1 bit | 8 bits | 1 bit | 6 bits | 16 bits | --------------------------------------------------- | [31] | [30-23] | [22] | [21-16] | [15-0] | ---------------------------------------------------

The above implies that the maximum relative block height that can be encoded is 65535 and the maximum relative number of seconds that can be encoded is 65535*512 = 33,553,920 seconds (~1.06 years). It also means that seconds are truncated to the nearest granularity towards 0 (e.g. 536 seconds will end up round tripping as 512 seconds and 1500 seconds will end up round tripping as 1024 seconds).

An error will be returned for values that are larger than can be represented.

func SequenceLockActive 

func SequenceLockActive(lock *SequenceLock, blockHeight int64, medianTime time.Time) bool

SequenceLockActive determines if all of the inputs to a given transaction have achieved a relative age that surpasses the requirements specified by their respective sequence locks as calculated by CalcSequenceLock. A single sequence lock is sufficient because the calculated lock selects the minimum required time and block height from all of the non-disabled inputs after which the transaction can be included.

func UseLogger 

func UseLogger(logger slog.Logger)

UseLogger uses a specified Logger to output package logging info.

func UseTreasuryLogger 

func UseTreasuryLogger(logger slog.Logger)

UseTreasuryLogger uses a specified Logger to output treasury logging info.

func ValidateTransactionScripts 

func ValidateTransactionScripts(tx *mcxutil.Tx, utxoView *UtxoViewpoint, flags txscript.ScriptFlags, sigCache *txscript.SigCache) error

ValidateTransactionScripts validates the scripts for the passed transaction using multiple goroutines.

func VerifyTSpendSignature 

func VerifyTSpendSignature(msgTx *wire.MsgTx, signature, pubKey []byte) error

VerifyTSpendSignature verifies that the provided signature and public key were the ones that signed the provided message transaction.

Note: This function should only be called with a valid TSpend.

Types

type AgendaFlags 

type AgendaFlags uint32

AgendaFlags is a bitmask defining additional agendas to consider as active when checking transactions. This can be useful for callers who are able to accurately determine what agendas are active or otherwise desire any additional validation checks associated with a given agenda being active. 

const (
	// AFTreasuryEnabled may be set to indicate that the treasury agenda should
	// be considered as active when checking a transaction so that any
	// additional checks which depend on the agenda being active are applied.
	AFTreasuryEnabled AgendaFlags = 1 << iota

	// AFNone is a convenience value to specifically indicate no flags.
	AFNone AgendaFlags = 0
)

type AssertError 

type AssertError string

AssertError identifies an error that indicates an internal code consistency issue and should be treated as a critical and unrecoverable error.

func (AssertError) Error 

func (e AssertError) Error() string

Error returns the assertion error as a huma-readable string and satisfies the error interface.

type BehaviorFlags 

type BehaviorFlags uint32

BehaviorFlags is a bitmask defining tweaks to the normal behavior when performing chain processing and consensus rules checks. 

const (
	// BFFastAdd may be set to indicate that several checks can be avoided
	// for the block since it is already known to fit into the chain due to
	// already proving it correct links into the chain up to a known
	// checkpoint.  This is primarily used for headers-first mode.
	BFFastAdd BehaviorFlags = 1 << iota

	// BFNoPoWCheck may be set to indicate the proof of work check which
	// ensures a block hashes to a value less than the required target will
	// not be performed.
	BFNoPoWCheck

	// BFNone is a convenience value to specifically indicate no flags.
	BFNone BehaviorFlags = 0
)

type BestState 

type BestState struct {
	Hash               chainhash.Hash   // The hash of the block.
	PrevHash           chainhash.Hash   // The previous block hash.
	Height             int64            // The height of the block.
	Bits               uint32           // The difficulty bits of the block.
	NextPoolSize       uint32           // The ticket pool size.
	NextStakeDiff      int64            // The next stake difficulty.
	BlockSize          uint64           // The size of the block.
	NumTxns            uint64           // The number of txns in the block.
	TotalTxns          uint64           // The total number of txns in the chain.
	MedianTime         time.Time        // Median time as per CalcPastMedianTime.
	TotalSubsidy       int64            // The total subsidy for the chain.
	NextWinningTickets []chainhash.Hash // The eligible tickets to vote on the next block.
	MissedTickets      []chainhash.Hash // The missed tickets set to be revoked.
	NextFinalState     [6]byte          // The calculated state of the lottery for the next block.
}

BestState houses information about the current best block and other info related to the state of the main chain as it exists from the point of view of the current best block.

The BestSnapshot method can be used to obtain access to this information in a concurrent safe manner and the data will not be changed out from under the caller when chain state changes occur as the function name implies. However, the returned snapshot must be treated as immutable since it is shared by all callers.

type BlockAcceptedNtfnsData 

type BlockAcceptedNtfnsData struct {
	// BestHeight is the height of the current best chain.  Since the accepted
	// block might be on a side chain, this is not necessarily the same as the
	// height of the accepted block.
	BestHeight int64

	// ForkLen is the length of the side chain the block extended or zero in the
	// case the block extended the main chain.
	//
	// This can be used in conjunction with the height of the accepted block to
	// determine the height at which the side chain the block created or
	// extended forked from the best chain.
	ForkLen int64

	// Block is the block that was accepted into the chain.
	Block *mcxutil.Block
}

BlockAcceptedNtfnsData is the structure for data indicating information about an accepted block. Note that this does not necessarily mean the block that was accepted extended the best chain as it might have created or extended a side chain.

type BlockChain 

type BlockChain struct {
	// contains filtered or unexported fields
}

BlockChain provides functions for working with the MultiCash block chain. It includes functionality such as rejecting duplicate blocks, ensuring blocks follow all rules, checkpoint handling, and best chain selection with reorganization.

func New 

func New(ctx context.Context, config *Config) (*BlockChain, error)

New returns a BlockChain instance using the provided configuration details.

func (*BlockChain) BestHeader 

func (b *BlockChain) BestHeader() (chainhash.Hash, int64)

BestHeader returns the header with the most cumulative work that is NOT known to be invalid.

func (*BlockChain) BestInvalidHeader 

func (b *BlockChain) BestInvalidHeader() chainhash.Hash

BestInvalidHeader returns the header with the most cumulative work that is known to be invalid. It will be a hash of all zeroes if there is no such header.

func (*BlockChain) BestSnapshot 

func (b *BlockChain) BestSnapshot() *BestState

BestSnapshot returns information about the current best chain block and related state as of the current point in time. The returned instance must be treated as immutable since it is shared by all callers.

This function is safe for concurrent access.

func (*BlockChain) BlockByHash 

func (b *BlockChain) BlockByHash(hash *chainhash.Hash) (*mcxutil.Block, error)

BlockByHash searches the internal chain block stores and the database in an attempt to find the requested block and returns it. This function returns blocks regardless of whether or not they are part of the main chain.

This function is safe for concurrent access.

func (*BlockChain) BlockByHeight 

func (b *BlockChain) BlockByHeight(height int64) (*mcxutil.Block, error)

BlockByHeight returns the block at the given height in the main chain.

This function is safe for concurrent access.

func (*BlockChain) BlockHashByHeight 

func (b *BlockChain) BlockHashByHeight(height int64) (*chainhash.Hash, error)

BlockHashByHeight returns the hash of the block at the given height in the main chain.

This function is safe for concurrent access.

func (*BlockChain) BlockHeightByHash 

func (b *BlockChain) BlockHeightByHash(hash *chainhash.Hash) (int64, error)

BlockHeightByHash returns the height of the block with the given hash in the main chain.

This function is safe for concurrent access.

func (*BlockChain) BlockLocatorFromHash 

func (b *BlockChain) BlockLocatorFromHash(hash *chainhash.Hash) BlockLocator

BlockLocatorFromHash returns a block locator for the passed block hash. See BlockLocator for details on the algorithm used to create a block locator.

In addition to the general algorithm referenced above, this function will return the block locator for the latest known tip of the main (best) chain if the passed hash is not currently known.

This function is safe for concurrent access.

func (*BlockChain) CalcNextRequiredDifficulty 

func (b *BlockChain) CalcNextRequiredDifficulty(hash *chainhash.Hash, timestamp time.Time) (uint32, error)

CalcNextRequiredDifficulty calculates the required difficulty for the block after the given block based on the difficulty retarget rules.

This function is safe for concurrent access.

func (*BlockChain) CalcNextRequiredStakeDifficulty 

func (b *BlockChain) CalcNextRequiredStakeDifficulty(hash *chainhash.Hash) (int64, error)

CalcNextRequiredStakeDifficulty calculates the required stake difficulty for the block after the given block based on the active stake difficulty retarget rules.

This function is safe for concurrent access.

func (*BlockChain) CalcSequenceLock 

func (b *BlockChain) CalcSequenceLock(tx *mcxutil.Tx, view *UtxoViewpoint) (*SequenceLock, error)

CalcSequenceLock computes the minimum block height and time after which the passed transaction can be included into a block while satisfying the relative lock times of all of its input sequence numbers. The passed view is used to obtain the past median time and block heights of the blocks in which the referenced outputs of the inputs to the transaction were included. The generated sequence lock can be used in conjunction with a block height and median time to determine if all inputs to the transaction have reached the required maturity allowing it to be included in a block.

NOTE: This will calculate the sequence locks regardless of the state of the agenda which conditionally activates it. This is acceptable for standard transactions, however, callers which are intending to perform any type of consensus checking must check the status of the agenda first.

This function is safe for concurrent access.

func (*BlockChain) CalcStakeVersionByHash 

func (b *BlockChain) CalcStakeVersionByHash(hash *chainhash.Hash) (uint32, error)

CalcStakeVersionByHash calculates the expected stake version for the block AFTER the provided block hash.

This function is safe for concurrent access.

func (*BlockChain) CalcWantHeight 

func (b *BlockChain) CalcWantHeight(interval, height int64) int64

CalcWantHeight calculates the height of the final block of the previous interval given a block height.

func (*BlockChain) ChainTips 

func (b *BlockChain) ChainTips() []ChainTipInfo

ChainTips returns information, in JSON-RPC format, about all of the currently known chain tips in the block index.

func (*BlockChain) ChainWork 

func (b *BlockChain) ChainWork(hash *chainhash.Hash) (*big.Int, error)

ChainWork returns the total work up to and including the block of the provided block hash.

func (*BlockChain) CheckConnectBlockTemplate 

func (b *BlockChain) CheckConnectBlockTemplate(block *mcxutil.Block) error

CheckConnectBlockTemplate fully validates that connecting the passed block to either the tip of the main chain or its parent does not violate any consensus rules, aside from the proof of work requirement. The block must connect to the current tip of the main chain or its parent.

This function is safe for concurrent access.

func (*BlockChain) CheckExpiredTicket 

func (b *BlockChain) CheckExpiredTicket(hash chainhash.Hash) bool

CheckExpiredTicket returns whether or not a ticket was ever expired.

This function is safe for concurrent access.

func (*BlockChain) CheckExpiredTickets 

func (b *BlockChain) CheckExpiredTickets(hashes []chainhash.Hash) []bool

CheckExpiredTickets returns whether or not a ticket in a slice of tickets was ever expired.

This function is safe for concurrent access.

func (*BlockChain) CheckLiveTicket 

func (b *BlockChain) CheckLiveTicket(hash chainhash.Hash) bool

CheckLiveTicket returns whether or not a ticket exists in the live ticket treap of the best node.

This function is safe for concurrent access.

func (*BlockChain) CheckLiveTickets 

func (b *BlockChain) CheckLiveTickets(hashes []chainhash.Hash) []bool

CheckLiveTickets returns a slice of bools representing whether each ticket exists in the live ticket treap of the best node.

This function is safe for concurrent access.

func (*BlockChain) CheckMissedTickets 

func (b *BlockChain) CheckMissedTickets(hashes []chainhash.Hash) []bool

CheckMissedTickets returns a slice of bools representing whether each ticket hash has been missed in the live ticket treap of the best node.

This function is safe for concurrent access.

func (*BlockChain) CheckTSpendExists 

func (b *BlockChain) CheckTSpendExists(prevHash, tspend chainhash.Hash) error

CheckTSpendExists verifies that the provided TSpend has not been mined in a block on the chain of the provided block hash.

func (*BlockChain) CheckTSpendHasVotes 

func (b *BlockChain) CheckTSpendHasVotes(prevHash chainhash.Hash, tspend *mcxutil.Tx) error

CheckTSpendHasVotes checks whether the given tspend has enough votes to be included in a block _after_ the specified prevHash block.

Such child block MUST be on a TVI, otherwise the result of this function may not correspond to the behavior of the consensus rules.

This function is safe for concurrent access.

func (*BlockChain) CheckTicketExhaustion 

func (b *BlockChain) CheckTicketExhaustion(hash *chainhash.Hash, ticketPurchases uint8) error

CheckTicketExhaustion ensures that extending the block associated with the provided hash with a block that contains the specified number of ticket purchases will not result in a chain that is unrecoverable due to inevitable ticket exhaustion. This scenario happens when the number of live tickets drops below the number of tickets that is needed to reach the next block at which any outstanding immature ticket purchases that would provide the necessary live tickets mature.

This function is safe for concurrent access.

func (*BlockChain) Checkpoints 

func (b *BlockChain) Checkpoints() []chaincfg.Checkpoint

Checkpoints returns a slice of checkpoints (regardless of whether they are already known). When checkpoints are disabled or there are no checkpoints for the active network, it will return nil.

This function is safe for concurrent access.

func (*BlockChain) CountVoteVersion 

func (b *BlockChain) CountVoteVersion(version uint32) (uint32, error)

CountVoteVersion returns the total number of version votes for the current rule change activation interval.

This function is safe for concurrent access.

func (*BlockChain) DisableVerify 

func (b *BlockChain) DisableVerify(disable bool)

DisableVerify provides a mechanism to disable transaction script validation which you DO NOT want to do in production as it could allow double spends and other undesirable things. It is provided only for debug purposes since script validation is extremely intensive and when debugging it is sometimes nice to quickly get the chain.

This function is safe for concurrent access.

func (*BlockChain) EstimateNextStakeDifficulty 

func (b *BlockChain) EstimateNextStakeDifficulty(hash *chainhash.Hash, newTickets int64, useMaxTickets bool) (int64, error)

EstimateNextStakeDifficulty estimates the next stake difficulty by pretending the provided number of tickets will be purchased in the remainder of the interval unless the flag to use max tickets is set in which case it will use the max possible number of tickets that can be purchased in the remainder of the interval.

This function is safe for concurrent access.

func (*BlockChain) FetchTSpend 

func (b *BlockChain) FetchTSpend(tspend chainhash.Hash) ([]chainhash.Hash, error)

FetchTSpend returns the blocks a treasury spend tx was included in.

func (*BlockChain) FetchUtxoEntry 

func (b *BlockChain) FetchUtxoEntry(outpoint wire.OutPoint) (*UtxoEntry, error)

FetchUtxoEntry loads and returns the requested unspent transaction output from the point of view of the the main chain tip.

NOTE: Requesting an output for which there is no data will NOT return an error. Instead both the entry and the error will be nil. This is done to allow pruning of spent transaction outputs. In practice this means the caller must check if the returned entry is nil before invoking methods on it.

This function is safe for concurrent access however the returned entry (if any) is NOT.

func (*BlockChain) FetchUtxoStats 

func (b *BlockChain) FetchUtxoStats() (*UtxoStats, error)

FetchUtxoStats returns statistics on the current utxo set.

NOTE: During initial block download the utxo stats will lag behind the best block that is currently synced since the utxo cache is only flushed to the database periodically. After initial block download the utxo stats will always be in sync with the best block.

func (*BlockChain) FetchUtxoView 

func (b *BlockChain) FetchUtxoView(tx *mcxutil.Tx, includeRegularTxns bool) (*UtxoViewpoint, error)

FetchUtxoView loads unspent transaction outputs for the inputs referenced by the passed transaction from the point of view of the main chain tip while taking into account whether or not the transactions in the regular tree of the current tip block should be included or not depending on the provided flag. It also attempts to fetch the utxos for the outputs of the transaction itself so the returned view can be examined for duplicate transactions.

This function is safe for concurrent access however the returned view is NOT.

func (*BlockChain) FetchUtxoViewParentTemplate 

func (b *BlockChain) FetchUtxoViewParentTemplate(block *wire.MsgBlock) (*UtxoViewpoint, error)

FetchUtxoViewParentTemplate loads utxo details from the point of view of just having connected the given block, which must be a block template that connects to the parent of the tip of the main chain. In other words, the given block must be a sibling of the current tip of the main chain.

This should typically only be used by mining code when it is unable to generate a template that extends the current tip due to being unable to acquire the minimum required number of votes to extend it.

This function is safe for concurrent access however the returned view is NOT.

func (*BlockChain) FilterByBlockHash 

func (b *BlockChain) FilterByBlockHash(hash *chainhash.Hash) (*gcs.FilterV2, error)

FilterByBlockHash returns the version 2 GCS filter for the given block hash when it exists. This function returns the filters regardless of whether or not their associated block is part of the main chain.

An error that wraps ErrNoFilter will be returned when the filter for the given block hash does not exist.

This function is safe for concurrent access.

func (*BlockChain) ForceHeadReorganization 

func (b *BlockChain) ForceHeadReorganization(formerBest chainhash.Hash, newBest chainhash.Hash) error

ForceHeadReorganization forces a reorganization of the block chain to the block hash requested, so long as it matches up with the current organization of the best chain.

This function is safe for concurrent access.

func (*BlockChain) GetStakeVersions 

func (b *BlockChain) GetStakeVersions(hash *chainhash.Hash, count int32) ([]StakeVersions, error)

GetStakeVersions returns a cooked array of StakeVersions. We do this in order to not bloat memory by returning raw blocks.

func (*BlockChain) GetVoteCounts 

func (b *BlockChain) GetVoteCounts(version uint32, deploymentID string) (VoteCounts, error)

GetVoteCounts returns the vote counts for the specified version and deployment identifier for the current rule change activation interval.

This function is safe for concurrent access.

func (*BlockChain) GetVoteInfo 

func (b *BlockChain) GetVoteInfo(hash *chainhash.Hash, version uint32) (*VoteInfo, error)

GetVoteInfo returns information on consensus deployment agendas and their respective states at the provided hash, for the provided deployment version.

func (*BlockChain) HaveBlock 

func (b *BlockChain) HaveBlock(hash *chainhash.Hash) bool

HaveBlock returns whether or not the chain instance has the block represented by the passed hash. This includes checking the various places a block can be like part of the main chain or on a side chain.

This function is safe for concurrent access.

func (*BlockChain) HaveHeader 

func (b *BlockChain) HaveHeader(hash *chainhash.Hash) bool

HaveHeader returns whether or not the chain instance has the block header represented by the passed hash. Note that this will return true for both the main chain and any side chains.

This function is safe for concurrent access.

func (*BlockChain) HeaderByHash 

func (b *BlockChain) HeaderByHash(hash *chainhash.Hash) (wire.BlockHeader, error)

HeaderByHash returns the block header identified by the given hash or an error if it doesn't exist. Note that this will return headers from both the main chain and any side chains.

This function is safe for concurrent access.

func (*BlockChain) HeaderByHeight 

func (b *BlockChain) HeaderByHeight(height int64) (wire.BlockHeader, error)

HeaderByHeight returns the block header at the given height in the main chain.

This function is safe for concurrent access.

func (*BlockChain) HeightRange 

func (b *BlockChain) HeightRange(startHeight, endHeight int64) ([]chainhash.Hash, error)

HeightRange returns a range of block hashes for the given start and end heights. It is inclusive of the start height and exclusive of the end height. In other words, it is the half open range [startHeight, endHeight).

The end height will be limited to the current main chain height.

This function is safe for concurrent access.

func (*BlockChain) InitUtxoCache 

func (b *BlockChain) InitUtxoCache(tip *blockNode) error

InitUtxoCache initializes the utxo cache by ensuring that the utxo set is caught up to the tip of the best chain.

Since the cache is only flushed to the database periodically, the utxo set may not be caught up to the tip of the best chain. This function catches the utxo set up by replaying all blocks from the block after the block that was last flushed to the tip block through the cache.

This function should only be called during initialization.

func (*BlockChain) InvalidateBlock 

func (b *BlockChain) InvalidateBlock(hash *chainhash.Hash) error

InvalidateBlock manually invalidates the provided block as if the block had violated a consensus rule and marks all of its descendants as having a known invalid ancestor. It then reorganizes the chain as necessary so the branch with the most cumulative proof of work that is still valid becomes the main chain.

func (*BlockChain) IsCheckpointCandidate 

func (b *BlockChain) IsCheckpointCandidate(block *mcxutil.Block) (bool, error)

IsCheckpointCandidate returns whether or not the passed block is a good checkpoint candidate.

The factors used to determine a good checkpoint are:

  • The block must be in the main chain
  • The block must be at least 'CheckpointConfirmations' blocks prior to the current end of the main chain
  • The timestamps for the blocks before and after the checkpoint must have timestamps which are also before and after the checkpoint, respectively (due to the median time allowance this is not always the case)
  • The block must not contain any strange transaction such as those with nonstandard scripts

The intent is that candidates are reviewed by a developer to make the final decision and then manually added to the list of checkpoints for a network.

This function is safe for concurrent access.

func (*BlockChain) IsCurrent 

func (b *BlockChain) IsCurrent() bool

IsCurrent returns whether or not the chain believes it is current based on the current latched state and an additional check which returns false in the case no new blocks have been seen for an extended period of time.

The initial factors that are used to latch the state to current are:

  • Total amount of cumulative work is more than the minimum known work specified by the parameters for the network
  • The best chain is synced to the header with the most cumulative work that is not known to be invalid
  • Latest block has a timestamp newer than 24 hours ago

This function is safe for concurrent access.

func (*BlockChain) IsHeaderCommitmentsAgendaActive 

func (b *BlockChain) IsHeaderCommitmentsAgendaActive(prevHash *chainhash.Hash) (bool, error)

IsHeaderCommitmentsAgendaActive returns whether or not the header commitments agenda vote, as defined in DCP0005 has passed and is now active for the block AFTER the given block.

This function is safe for concurrent access.

func (*BlockChain) IsLNFeaturesAgendaActive 

func (b *BlockChain) IsLNFeaturesAgendaActive(prevHash *chainhash.Hash) (bool, error)

IsLNFeaturesAgendaActive returns whether or not the LN features agenda vote, as defined in DCP0002 and DCP0003 has passed and is now active for the block AFTER the given block.

This function is safe for concurrent access.

func (*BlockChain) IsTreasuryAgendaActive 

func (b *BlockChain) IsTreasuryAgendaActive(prevHash *chainhash.Hash) (bool, error)

IsTreasuryAgendaActive returns whether or not the treasury agenda vote, as defined in DCP0006, has passed and is now active for the block AFTER the given block.

This function is safe for concurrent access.

func (*BlockChain) LatestBlockLocator 

func (b *BlockChain) LatestBlockLocator() BlockLocator

LatestBlockLocator returns a block locator for the latest known tip of the main (best) chain.

This function is safe for concurrent access.

func (*BlockChain) LatestCheckpoint 

func (b *BlockChain) LatestCheckpoint() *chaincfg.Checkpoint

LatestCheckpoint returns the most recent checkpoint (regardless of whether it is already known). When checkpoints are disabled or there are no checkpoints for the active network, it will return nil.

This function is safe for concurrent access.

func (*BlockChain) LiveTickets 

func (b *BlockChain) LiveTickets() ([]chainhash.Hash, error)

LiveTickets returns all currently live tickets from the stake database.

This function is safe for concurrent access.

func (*BlockChain) LocateBlocks 

func (b *BlockChain) LocateBlocks(locator BlockLocator, hashStop *chainhash.Hash, maxHashes uint32) []chainhash.Hash

LocateBlocks returns the hashes of the blocks after the first known block in the locator until the provided stop hash is reached, or up to the provided max number of block hashes.

In addition, there are two special cases:

  • When no locators are provided, the stop hash is treated as a request for that block, so it will either return the stop hash itself if it is known, or nil if it is unknown
  • When locators are provided, but none of them are known, hashes starting after the genesis block will be returned

This function is safe for concurrent access.

func (*BlockChain) LocateHeaders 

func (b *BlockChain) LocateHeaders(locator BlockLocator, hashStop *chainhash.Hash) []wire.BlockHeader

LocateHeaders returns the headers of the blocks after the first known block in the locator until the provided stop hash is reached, or up to a max of wire.MaxBlockHeadersPerMsg headers.

In addition, there are two special cases:

  • When no locators are provided, the stop hash is treated as a request for that header, so it will either return the header for the stop hash itself if it is known, or nil if it is unknown
  • When locators are provided, but none of them are known, headers starting after the genesis block will be returned

This function is safe for concurrent access.

func (*BlockChain) LotteryDataForBlock 

func (b *BlockChain) LotteryDataForBlock(hash *chainhash.Hash) ([]chainhash.Hash, int, [6]byte, error)

LotteryDataForBlock returns lottery data for a given block in the block chain, including side chain blocks.

It is safe for concurrent access.

func (*BlockChain) MainChainHasBlock 

func (b *BlockChain) MainChainHasBlock(hash *chainhash.Hash) bool

MainChainHasBlock returns whether or not the block with the given hash is in the main chain.

This function is safe for concurrent access.

func (*BlockChain) MaxBlockSize 

func (b *BlockChain) MaxBlockSize(hash *chainhash.Hash) (int64, error)

MaxBlockSize returns the maximum permitted block size for the block AFTER the provided block hash.

This function is safe for concurrent access.

func (*BlockChain) MaxTreasuryExpenditure 

func (b *BlockChain) MaxTreasuryExpenditure(preTVIBlock *chainhash.Hash) (int64, error)

MaxTreasuryExpenditure is the maximum amount of funds that can be spent from the treasury by a set of TSpends for a block that extends the given block hash. Function will return 0 if it is called on an invalid TVI.

func (*BlockChain) MaybeUpdateIsCurrent 

func (b *BlockChain) MaybeUpdateIsCurrent()

MaybeUpdateIsCurrent potentially updates whether or not the chain believes it is current.

It makes use of a latching approach such that once the chain becomes current it will only switch back to false in the case no new blocks have been seen for an extended period of time.

This function is safe for concurrent access.

func (*BlockChain) MissedTickets 

func (b *BlockChain) MissedTickets() ([]chainhash.Hash, error)

MissedTickets returns all currently missed tickets from the stake database.

This function is safe for concurrent access.

func (*BlockChain) NextLotteryData 

func (b *BlockChain) NextLotteryData() ([]chainhash.Hash, int, [6]byte, error)

NextLotteryData returns the next tickets eligible for spending as SSGen on the top block. It also returns the ticket pool size and the PRNG state checksum.

This function is safe for concurrent access.

func (*BlockChain) NextNeededBlocks 

func (b *BlockChain) NextNeededBlocks(maxResults uint8, exclude map[chainhash.Hash]struct{}) []*chainhash.Hash

NextNeededBlocks returns hashes for the next blocks after the current best chain tip that are needed to make progress towards the current best known header skipping any blocks that are already known or in the provided map of blocks to exclude. Typically the caller would want to exclude all blocks that have outstanding requests.

The maximum number of results is limited to the provided value or the maximum allowed by the internal lookahead buffer in the case the requested number of max results exceeds that value.

This function is safe for concurrent access.

func (*BlockChain) NextThresholdState 

func (b *BlockChain) NextThresholdState(hash *chainhash.Hash, version uint32, deploymentID string) (ThresholdStateTuple, error)

NextThresholdState returns the current rule change threshold state of the given deployment ID for the block AFTER the provided block hash.

This function is safe for concurrent access.

func (*BlockChain) ProcessBlock 

func (b *BlockChain) ProcessBlock(block *mcxutil.Block, flags BehaviorFlags) (int64, error)

ProcessBlock is the main workhorse for handling insertion of new blocks into the block chain. It includes functionality such as rejecting duplicate blocks, ensuring blocks follow all rules, and insertion into the block chain along with best chain selection and reorganization.

This function permits blocks to be processed out of order so long as their header has already been successfully processed via ProcessBlockHeader which itself requires the headers to properly connect. In other words, orphan blocks are rejected and thus is up to the caller to either ensure that the blocks are processed in order or that the headers for the blocks have already been successfully processed.

Upon return, the best chain tip will be whatever branch tip has the most proof of work and also passed all validation checks. Due to this, it is also worth noting that the best chain tip might be updated even in the case of processing a block that ultimately fails validation.

Additionally, due to the ability to process blocks out of order, and the fact blocks can only be fully validated once all of their ancestors have the block data available, it is to be expected that no error is returned immediately for blocks that are valid enough to make it to the point they require the remaining ancestor block data to be fully validated even though they might ultimately end up failing validation. Similarly, because the data for a block becoming available makes any of its direct descendants that already have their data available eligible for validation, an error being returned does not necessarily mean the block being processed is the one that failed validation.

When no errors occurred during processing, the first return value indicates the length of the fork the block extended. In the case it either extended the best chain or is now the tip of the best chain due to causing a reorganize, the fork length will be 0.

This function is safe for concurrent access.

Example

This example demonstrates how to create a new chain instance and use ProcessBlock to attempt to add a block to the chain. As the package overview documentation describes, this includes all of the MultiCash consensus rules. This example intentionally attempts to insert a duplicate genesis block to illustrate how an invalid block is handled. 

// Create a new database to store the accepted blocks into.  Typically
// this would be opening an existing database and would not be deleting
// and creating a new database like this, but it is done here so this is
// a complete working example and does not leave temporary files laying
// around.
mainNetParams := chaincfg.MainNetParams()
dbPath := filepath.Join(os.TempDir(), "exampleprocessblock")
_ = os.RemoveAll(dbPath)
db, err := database.Create("ffldb", dbPath, mainNetParams.Net)
if err != nil {
	fmt.Printf("Failed to create database: %v\n", err)
	return
}
defer os.RemoveAll(dbPath)
defer db.Close()

// Create a new BlockChain instance using the underlying database for
// the main bitcoin network.  This example does not demonstrate some
// of the other available configuration options such as specifying a
// notification callback and signature cache.  Also, the caller would
// ordinarily keep a reference to the median time source and add time
// values obtained from other peers on the network so the local time is
// adjusted to be in agreement with other peers.
chain, err := blockchain.New(context.Background(),
	&blockchain.Config{
		DB:          db,
		ChainParams: mainNetParams,
		TimeSource:  blockchain.NewMedianTime(),
		UtxoCache: blockchain.NewUtxoCache(&blockchain.UtxoCacheConfig{
			DB:      db,
			MaxSize: 100 * 1024 * 1024, // 100 MiB
		}),
	})
if err != nil {
	fmt.Printf("Failed to create chain instance: %v\n", err)
	return
}

// Process a block.  For this example, intentionally cause an error by
// trying to process the genesis block which already exists.
genesisBlock := mcxutil.NewBlock(mainNetParams.GenesisBlock)
forkLen, err := chain.ProcessBlock(genesisBlock,
	blockchain.BFNone)
if err != nil {
	fmt.Printf("Failed to create chain instance: %v\n", err)
	return
}
isMainChain := forkLen == 0
fmt.Printf("Block accepted. Is it on the main chain?: %v", isMainChain)

// This output is dependent on the genesis block, and needs to be
// updated if the mainnet genesis block is updated.

Output:

func (*BlockChain) ProcessBlockHeader 

func (b *BlockChain) ProcessBlockHeader(header *wire.BlockHeader, flags BehaviorFlags) error

ProcessBlockHeader is the main workhorse for handling insertion of new block headers into the block chain using headers-first semantics. It includes functionality such as rejecting headers that do not connect to an existing known header, ensuring headers follow all rules that do not depend on having all ancestor block data available, and insertion into the block index.

Block headers that have already been inserted are ignored, unless they have subsequently been marked invalid, in which case an appropriate error is returned.

It should be noted that this function intentionally does not accept block headers that do not connect to an existing known header or to headers which are already known to be a part of an invalid branch. This means headers must be processed in order.

This function is safe for concurrent access.

func (*BlockChain) ReconsiderBlock 

func (b *BlockChain) ReconsiderBlock(hash *chainhash.Hash) error

ReconsiderBlock removes the known invalid status of the provided block and all of its ancestors along with the known invalid ancestor status from all of its descendants that are neither themselves marked as having failed validation nor descendants of another such block. Therefore, it allows the affected blocks to be reconsidered under the current consensus rules. It then potentially reorganizes the chain as necessary so the block with the most cumulative proof of work that is valid becomes the tip of the main chain.

func (*BlockChain) ShutdownUtxoCache 

func (b *BlockChain) ShutdownUtxoCache()

ShutdownUtxoCache flushes the utxo cache to the database on shutdown. Since the cache is flushed periodically during initial block download and flushed after every block is connected after initial block download is complete, this flush that occurs during shutdown should finish relatively quickly.

Note that if an unclean shutdown occurs, the cache will still be initialized properly when restarted as during initialization it will replay blocks to catch up to the tip block if it was not fully flushed before shutting down. However, it is still preferred to flush when shutting down versus always recovering on startup since it is faster.

This function should only be called during shutdown.

func (*BlockChain) StateLastChangedHeight 

func (b *BlockChain) StateLastChangedHeight(hash *chainhash.Hash, version uint32, deploymentID string) (int64, error)

StateLastChangedHeight returns the height at which the provided consensus deployment agenda last changed state. Note that, unlike the NextThresholdState function, this function returns the information as of the passed block hash.

This function is safe for concurrent access.

func (*BlockChain) TSpendCountVotes 

func (b *BlockChain) TSpendCountVotes(blockHash *chainhash.Hash, tspend *mcxutil.Tx) (yesVotes, noVotes int64, err error)

TSpendCountVotes tallies the votes given for the specified tspend during its voting interval, up to the specified block. It returns the number of yes and no votes found between the passed block's height and the start of voting.

Note that this function errors if the block _after_ the specified block is outside the tpsend voting window. In particular, calling this function for the TVI block that ends the voting interval for a given tspend fails, since the next block is outside the voting interval.

This function is safe for concurrent access.

func (*BlockChain) TicketPoolValue 

func (b *BlockChain) TicketPoolValue() (mcxutil.Amount, error)

TicketPoolValue returns the current value of all the locked funds in the ticket pool.

This function is safe for concurrent access. All live tickets are at least 256 blocks deep on mainnet, so the UTXO set should generally always have the asked for transactions.

func (*BlockChain) TicketsWithAddress 

func (b *BlockChain) TicketsWithAddress(address mcxutil.Address, isTreasuryEnabled bool) ([]chainhash.Hash, error)

TicketsWithAddress returns a slice of ticket hashes that are currently live corresponding to the given address.

This function is safe for concurrent access.

func (*BlockChain) TipGeneration 

func (b *BlockChain) TipGeneration() ([]chainhash.Hash, error)

TipGeneration returns the entire generation of blocks stemming from the parent of the current tip.

The function is safe for concurrent access.

func (*BlockChain) TreasuryBalance 

func (b *BlockChain) TreasuryBalance(hash *chainhash.Hash) (*TreasuryBalanceInfo, error)

TreasuryBalance returns treasury balance information as of the given block.

func (*BlockChain) VerifyProgress 

func (b *BlockChain) VerifyProgress() float64

VerifyProgress returns a percentage that is a guess of the progress of the chain verification process.

This function is safe for concurrent access.

type BlockConnectedNtfnsData 

type BlockConnectedNtfnsData struct {
	// Block is the block that was connected to the main chain.
	Block *mcxutil.Block

	// ParentBlock is the parent block of the one that was connected to the main
	// chain.
	ParentBlock *mcxutil.Block

	// IsTreasuryActive indicates whether or not the treasury agenda is active
	// for the block that was connected.
	IsTreasuryActive bool
}

BlockConnectedNtfnsData is the structure for data indicating information about a connected block.

type BlockDisconnectedNtfnsData 

type BlockDisconnectedNtfnsData struct {
	// Block is the block that was disconnected from the main chain.
	Block *mcxutil.Block

	// ParentBlock is the parent block of the one that was disconnected from the
	// main chain meaning this block is now the tip of the main chain.
	ParentBlock *mcxutil.Block

	// IsTreasuryActive indicates whether or not the treasury agenda was active
	// for the block that was **disconnected**.
	IsTreasuryActive bool
}

BlockDisconnectedNtfnsData is the structure for data indicating information about a disconnected block.

type BlockLocator 

type BlockLocator []*chainhash.Hash

BlockLocator is used to help locate a specific block. The algorithm for building the block locator is to add the hashes in reverse order until the genesis block is reached. In order to keep the list of locator hashes to a reasonable number of entries, first the most recent previous 12 block hashes are added, then the step is doubled each loop iteration to exponentially decrease the number of hashes as a function of the distance from the block being located.

For example, assume a block chain with a side chain as depicted below: 

genesis -> 1 -> 2 -> ... -> 15 -> 16  -> 17  -> 18
                              \-> 16a -> 17a

The block locator for block 17a would be the hashes of blocks: [17a 16a 15 14 13 12 11 10 9 8 7 6 4 genesis]

type ChainTipInfo 

type ChainTipInfo struct {
	// Height specifies the block height of the chain tip.
	Height int64

	// Hash specifies the block hash of the chain tip.
	Hash chainhash.Hash

	// BranchLen specifies the length of the branch that connects the chain tip
	// to the main chain.  It will be zero for the main chain tip.
	BranchLen int64

	// Status specifies the validation status of chain formed by the chain tip.
	//
	// active:
	//   The current best chain tip.
	//
	// invalid:
	//   The block or one of its ancestors is invalid.
	//
	// headers-only:
	//   The block or one of its ancestors does not have the full block data
	//   available which also means the block can't be validated or connected.
	//
	// valid-fork:
	//   The block is fully validated which implies it was probably part of the
	//   main chain at one point and was reorganized.
	//
	// valid-headers:
	//   The full block data is available and the header is valid, but the block
	//   was never validated which implies it was probably never part of the
	//   main chain.
	Status string
}

ChainTipInfo models information about a chain tip.

type Config 

type Config struct {
	// DB defines the database which houses the blocks and will be used to
	// store all metadata created by this package such as the utxo set.
	//
	// This field is required.
	DB database.DB

	// ChainParams identifies which chain parameters the chain is associated
	// with.
	//
	// This field is required.
	ChainParams *chaincfg.Params

	// Checkpoints specifies caller-defined checkpoints that are typically the
	// default checkpoints in ChainParams or additional checkpoints added to
	// them.  Checkpoints must be sorted by height.
	//
	// This field can be nil if the caller does not wish to specify any
	// checkpoints.
	Checkpoints []chaincfg.Checkpoint

	// TimeSource defines the median time source to use for things such as
	// block processing and determining whether or not the chain is current.
	//
	// The caller is expected to keep a reference to the time source as well
	// and add time samples from other peers on the network so the local
	// time is adjusted to be in agreement with other peers.
	TimeSource MedianTimeSource

	// Notifications defines a callback to which notifications will be sent
	// when various events take place.  See the documentation for
	// Notification and NotificationType for details on the types and
	// contents of notifications.
	//
	// This field can be nil if the caller is not interested in receiving
	// notifications.
	Notifications NotificationCallback

	// SigCache defines a signature cache to use when validating signatures.
	// This is typically most useful when individual transactions are
	// already being validated prior to their inclusion in a block such as
	// what is usually done via a transaction memory pool.
	//
	// This field can be nil if the caller is not interested in using a
	// signature cache.
	SigCache *txscript.SigCache

	// SubsidyCache defines a subsidy cache to use when calculating and
	// validating block and vote subsidies.
	//
	// This field can be nil if the caller is not interested in using a
	// subsidy cache.
	SubsidyCache *standalone.SubsidyCache

	// IndexManager defines an index manager to use when initializing the
	// chain and connecting and disconnecting blocks.
	//
	// This field can be nil if the caller does not wish to make use of an
	// index manager.
	IndexManager indexers.IndexManager

	// UtxoCache defines a utxo cache that sits on top of the utxo set database.
	// All utxo reads and writes go through the cache, and never read or write to
	// the database directly.
	//
	// This field is required.
	UtxoCache *UtxoCache
}

Config is a descriptor which specifies the blockchain instance configuration.

type ContextError 

type ContextError struct {
	Err         error
	Description string
}

ContextError wraps an error with additional context. It has full support for errors.Is and errors.As, so the caller can ascertain the specific wrapped error.

func (ContextError) Error 

func (e ContextError) Error() string

Error satisfies the error interface and prints human-readable errors.

func (ContextError) Unwrap 

func (e ContextError) Unwrap() error

Unwrap returns the underlying wrapped error.

type ErrorKind 

type ErrorKind string

ErrorKind identifies a kind of error. It has full support for errors.Is and errors.As, so the caller can directly check against an error kind when determining the reason for an error.

func (ErrorKind) Error 

func (e ErrorKind) Error() string

Error satisfies the error interface and prints human-readable errors.

type MedianTimeSource 

type MedianTimeSource interface {
	// AdjustedTime returns the current time adjusted by the median time
	// offset as calculated from the time samples added by AddTimeSample.
	AdjustedTime() time.Time

	// AddTimeSample adds a time sample that is used when determining the
	// median time of the added samples.
	AddTimeSample(id string, timeVal time.Time)

	// Offset returns the number of seconds to adjust the local clock based
	// upon the median of the time samples added by AddTimeData.
	Offset() time.Duration
}

MedianTimeSource provides a mechanism to add several time samples which are used to determine a median time which is then used as an offset to the local clock.

func NewMedianTime 

func NewMedianTime() MedianTimeSource

NewMedianTime returns a new instance of concurrency-safe implementation of the MedianTimeSource interface. The returned implementation contains the rules necessary for proper time handling in the chain consensus rules and expects the time samples to be added from the timestamp field of the version message received from remote peers that successfully connect and negotiate.

type MultiError 

type MultiError []error

MultiError houses several errors as a single error that provides full support for errors.Is and errors.As so the caller can easily determine if any of the errors match any specific error or error type. Note that this differs from typical wrapped error chains which only represent a single error.

func (MultiError) As 

func (e MultiError) As(target interface{}) bool

As implements the interface to work with the standard library's errors.As.

It iterates each of the errors in the multi error and calls errors.As on it until the first one that matches target is found, in which case it returns true. Otherwise, it returns false.

This means it keeps all of the same semantics typically provided by As in terms of unwrapping error chains and setting the target to the matched error.

func (MultiError) Error 

func (e MultiError) Error() string

Error satisfies the error interface and prints human-readable errors.

func (MultiError) Is 

func (e MultiError) Is(target error) bool

Is implements the interface to work with the standard library's errors.Is.

It iterates each of the errors in the multi error and calls errors.Is on it until the first one that matches target is found, in which case it returns true. Otherwise, it returns false.

This means it keeps all of the same semantics typically provided by Is in terms of unwrapping error chains.

type Notification 

type Notification struct {
	Type NotificationType
	Data interface{}
}

Notification defines notification that is sent to the caller via the callback function provided during the call to New and consists of a notification type as well as associated data that depends on the type as follows:

  • NTNewTipBlockChecked: *mcxutil.Block
  • NTBlockAccepted: *BlockAcceptedNtfnsData
  • NTBlockConnected: *BlockConnectedNtfnsData
  • NTBlockDisconnected: *BlockDisconnectedNtfnsData
  • NTChainReorgStarted: nil
  • NTChainReorgDone: nil
  • NTReorganization: *ReorganizationNtfnsData
  • NTSpentAndMissedTickets: *TicketNotificationsData
  • NTNewTickets: *TicketNotificationsData

type NotificationCallback 

type NotificationCallback func(*Notification)

NotificationCallback is used for a caller to provide a callback for notifications about various chain events.

type NotificationType 

type NotificationType int

NotificationType represents the type of a notification message. 

const (
	// NTNewTipBlockChecked indicates the associated block intends to extend
	// the current main chain and has passed all of the sanity and
	// contextual checks such as having valid proof of work, valid merkle
	// and stake roots, and only containing allowed votes and revocations.
	//
	// It should be noted that the block might still ultimately fail to
	// become the new main chain tip if it contains invalid scripts, double
	// spends, etc.  However, this is quite rare in practice because a lot
	// of work was expended to create a block which satisfies the proof of
	// work requirement.
	//
	// Finally, this notification is only sent if the chain is believed
	// to be current and the chain lock is NOT released, so consumers must
	// take care to avoid calling blockchain functions to avoid potential
	// deadlock.
	//
	// Typically, a caller would want to use this notification to relay the
	// block to the rest of the network without needing to wait for the more
	// time consuming full connection to take place.
	NTNewTipBlockChecked NotificationType = iota

	// NTBlockAccepted indicates the associated block was accepted into
	// the block chain.  Note that this does not necessarily mean it was
	// added to the main chain.  For that, use NTBlockConnected.
	NTBlockAccepted

	// NTBlockConnected indicates the associated block was connected to the
	// main chain.
	NTBlockConnected

	// NTBlockDisconnected indicates the associated block was disconnected
	// from the main chain.
	NTBlockDisconnected

	// NTChainReorgStarted indicates that a chain reorganization has commenced.
	NTChainReorgStarted

	// NTChainReorgDone indicates that a chain reorganization has concluded.
	NTChainReorgDone

	// NTReorganization indicates that a blockchain reorganization has taken
	// place.
	NTReorganization

	// NTSpentAndMissedTickets indicates spent or missed tickets from a newly
	// accepted block.
	NTSpentAndMissedTickets

	// NTNewTickets indicates newly maturing tickets from a newly accepted
	// block.
	NTNewTickets
)

Constants for the type of a notification message.

func (NotificationType) String 

func (n NotificationType) String() string

String returns the NotificationType in human-readable form.

type ReorganizationNtfnsData 

type ReorganizationNtfnsData struct {
	OldHash   chainhash.Hash
	OldHeight int64
	NewHash   chainhash.Hash
	NewHeight int64
}

ReorganizationNtfnsData is the structure for data indicating information about a reorganization.

type RuleError 

type RuleError struct {
	Err         error
	Description string
}

RuleError identifies a rule violation. It is used to indicate that processing of a block or transaction failed due to one of the many validation rules. It has full support for errors.Is and errors.As, so the caller can ascertain the specific reason for the rule violation.

func (RuleError) Error 

func (e RuleError) Error() string

Error satisfies the error interface and prints human-readable errors.

func (RuleError) Unwrap 

func (e RuleError) Unwrap() error

Unwrap returns the underlying wrapped error.

type SequenceLock 

type SequenceLock struct {
	MinHeight int64
	MinTime   int64
}

SequenceLock represents the minimum timestamp and minimum block height after which a transaction can be included into a block while satisfying the relative lock times of all of its input sequence numbers. It is calculated via the CalcSequenceLock function. Each field may be -1 if none of the input sequence numbers require a specific relative lock time for the respective type. Since all valid heights and times are larger than -1, this implies that it will not prevent a transaction from being included due to the sequence lock, which is the desired behavior.

type StakeVersions 

type StakeVersions struct {
	Hash         chainhash.Hash
	Height       int64
	BlockVersion int32
	StakeVersion uint32
	Votes        []stake.VoteVersionTuple
}

StakeVersions is a condensed form of a mcxutil.Block that is used to prevent using gigabytes of memory.

type ThresholdState 

type ThresholdState byte

ThresholdState define the various threshold states used when voting on consensus changes. 

const (
	// ThresholdDefined is the first state for each deployment and is the
	// state for the genesis block has by definition for all deployments.
	ThresholdDefined ThresholdState = 0

	// ThresholdStarted is the state for a deployment once its start time
	// has been reached.
	ThresholdStarted ThresholdState = 1

	// ThresholdLockedIn is the state for a deployment during the retarget
	// period which is after the ThresholdStarted state period and the
	// number of blocks that have voted for the deployment equal or exceed
	// the required number of votes for the deployment.
	ThresholdLockedIn ThresholdState = 2

	// ThresholdActive is the state for a deployment for all blocks after a
	// retarget period in which the deployment was in the ThresholdLockedIn
	// state.
	ThresholdActive ThresholdState = 3

	// ThresholdFailed is the state for a deployment once its expiration
	// time has been reached and it did not reach the ThresholdLockedIn
	// state.
	ThresholdFailed ThresholdState = 4

	// ThresholdInvalid is a deployment that does not exist.
	ThresholdInvalid ThresholdState = 5
)

These constants are used to identify specific threshold states.

NOTE: This section specifically does not use iota for the individual states since these values are serialized and must be stable for long-term storage.

func (ThresholdState) String 

func (t ThresholdState) String() string

String returns the ThresholdState as a human-readable name.

type ThresholdStateTuple 

type ThresholdStateTuple struct {
	// state contains the current ThresholdState.
	State ThresholdState

	// Choice is set to invalidChoice unless state is: ThresholdLockedIn,
	// ThresholdFailed & ThresholdActive.  choice should always be
	// crosschecked with invalidChoice.
	Choice uint32
}

ThresholdStateTuple contains the current state and the activated choice, when valid.

func (ThresholdStateTuple) String 

func (t ThresholdStateTuple) String() string

String returns the ThresholdStateTuple as a human-readable tuple.

type TicketNotificationsData 

type TicketNotificationsData struct {
	Hash            chainhash.Hash
	Height          int64
	StakeDifficulty int64
	TicketsSpent    []chainhash.Hash
	TicketsMissed   []chainhash.Hash
	TicketsNew      []chainhash.Hash
}

TicketNotificationsData is the structure for new/spent/missed ticket notifications at blockchain HEAD that are outgoing from chain.

type TreasuryBalanceInfo 

type TreasuryBalanceInfo struct {
	// BlockHeight is the height of the requested block.
	BlockHeight int64

	// Balance is the balance of the treasury as of the requested block.
	Balance uint64

	// Updates specifies all additions to and spends from the treasury in
	// the requested block.
	Updates []int64
}

TreasuryBalanceInfo models information about the treasury balance as of a given block.

type UtxoCache 

type UtxoCache struct {
	// contains filtered or unexported fields
}

UtxoCache is an unspent transaction output cache that sits on top of the utxo set database and provides significant runtime performance benefits at the cost of some additional memory usage. It drastically reduces the amount of reading and writing to disk, especially during initial block download when a very large number of blocks are being processed in quick succession.

The UtxoCache is a read-through cache. All utxo reads go through the cache. When there is a cache miss, the cache loads the missing data from the database, caches it, and returns it to the caller.

The UtxoCache is a write-back cache. Writes to the cache are acknowledged by the cache immediately but are only periodically flushed to the database. This allows intermediate steps to effectively be skipped. For example, a utxo that is created and then spent in between flushes never needs to be written to the utxo set in the database.

Due to the write-back nature of the cache, at any given time the database may not be in sync with the cache, and therefore all utxo reads and writes MUST go through the cache, and never read or write to the database directly.

func NewUtxoCache 

func NewUtxoCache(config *UtxoCacheConfig) *UtxoCache

NewUtxoCache returns a UtxoCache instance using the provided configuration details.

func (*UtxoCache) AddEntry 

func (c *UtxoCache) AddEntry(outpoint wire.OutPoint, entry *UtxoEntry) error

AddEntry adds the specified output to the cache. The entry being added MUST NOT be mutated by the caller after being passed to this function.

Note that this function does not check if the entry is unspendable and therefore the caller should ensure that the entry is spendable before adding it to the cache.

This function is safe for concurrent access.

func (*UtxoCache) Commit 

func (c *UtxoCache) Commit(view *UtxoViewpoint) error

Commit updates all entries in the cache based on the state of each entry in the provided view.

All entries in the provided view that are marked as modified and spent are removed from the view. Additionally, all entries that are added to the cache are removed from the provided view.

This function is safe for concurrent access.

func (*UtxoCache) FetchEntries 

func (c *UtxoCache) FetchEntries(filteredSet viewFilteredSet, view *UtxoViewpoint) error

FetchEntries adds the requested transaction outputs to the provided view. It first checks the cache for each output, and if an output does not exist in the cache, it will fetch it from the database.

Upon completion of this function, the view will contain an entry for each requested outpoint. Spent outputs, or those which otherwise don't exist, will result in a nil entry in the view.

This function is safe for concurrent access.

func (*UtxoCache) FetchEntry 

func (c *UtxoCache) FetchEntry(dbTx database.Tx, outpoint wire.OutPoint) (*UtxoEntry, error)

FetchEntry returns the specified transaction output from the utxo set. If the output exists in the cache, it is returned immediately. Otherwise, it uses an existing database transaction to fetch the output from the database, cache it, and return it to the caller. A cloned copy of the entry is returned so it can safely be mutated by the caller without invalidating the cache.

When there is no entry for the provided output, nil will be returned for both the entry and the error.

This function is safe for concurrent access.

func (*UtxoCache) MaybeFlush 

func (c *UtxoCache) MaybeFlush(bestHash *chainhash.Hash, bestHeight uint32,
	forceFlush bool, logFlush bool) error

MaybeFlush conditionally flushes the cache to the database.

If the maximum size of the cache has been reached, or if the periodic flush interval has been reached, then a flush is required. Additionally, a flush can be forced by setting the force flush parameter.

This function is safe for concurrent access.

func (*UtxoCache) SpendEntry 

func (c *UtxoCache) SpendEntry(outpoint wire.OutPoint)

SpendEntry marks the specified output as spent.

This function is safe for concurrent access.

type UtxoCacheConfig 

type UtxoCacheConfig struct {
	// DB defines the database which houses the utxo set.
	//
	// This field is required.
	DB database.DB

	// MaxSize defines the maximum allowed size of the utxo cache, in bytes.
	//
	// This field is required.
	MaxSize uint64
}

UtxoCacheConfig is a descriptor which specifies the utxo cache instance configuration.

type UtxoEntry 

type UtxoEntry struct {
	// contains filtered or unexported fields
}

UtxoEntry houses details about an individual transaction output in a utxo view such as whether or not it was contained in a coinbase tx, the height of the block that contains the tx, whether or not it is spent, its public key script, and how much it pays.

The struct is aligned for memory efficiency.

func (*UtxoEntry) Amount 

func (entry *UtxoEntry) Amount() int64

Amount returns the amount of the output.

func (*UtxoEntry) BlockHeight 

func (entry *UtxoEntry) BlockHeight() int64

BlockHeight returns the height of the block containing the output.

func (*UtxoEntry) BlockIndex 

func (entry *UtxoEntry) BlockIndex() uint32

BlockIndex returns the index of the transaction that the output is contained in.

func (*UtxoEntry) Clone 

func (entry *UtxoEntry) Clone() *UtxoEntry

Clone returns a copy of the utxo entry. It performs a deep copy for any fields that are mutable. Specifically, the script and ticket minimal outputs are NOT deep copied since they are immutable.

func (*UtxoEntry) HasExpiry 

func (entry *UtxoEntry) HasExpiry() bool

HasExpiry returns whether or not the output was contained in a transaction that included an expiry.

func (*UtxoEntry) IsCoinBase 

func (entry *UtxoEntry) IsCoinBase() bool

IsCoinBase returns whether or not the output was contained in a coinbase transaction.

func (*UtxoEntry) IsSpent 

func (entry *UtxoEntry) IsSpent() bool

IsSpent returns whether or not the output has been spent based upon the current state of the unspent transaction output view it was obtained from.

func (*UtxoEntry) PkScript 

func (entry *UtxoEntry) PkScript() []byte

PkScript returns the public key script for the output.

func (*UtxoEntry) ScriptVersion 

func (entry *UtxoEntry) ScriptVersion() uint16

ScriptVersion returns the public key script version for the output.

func (*UtxoEntry) Spend 

func (entry *UtxoEntry) Spend()

Spend marks the output as spent. Spending an output that is already spent has no effect.

func (*UtxoEntry) TicketMinimalOutputs 

func (entry *UtxoEntry) TicketMinimalOutputs() []*stake.MinimalOutput

TicketMinimalOutputs returns the minimal outputs for the ticket transaction that the output is contained in. Note that the ticket minimal outputs are only stored in ticket submission outputs and nil will be returned for all other output types.

func (*UtxoEntry) TransactionType 

func (entry *UtxoEntry) TransactionType() stake.TxType

TransactionType returns the type of the transaction that the output is contained in.

type UtxoStats 

type UtxoStats struct {
	Utxos          int64
	Transactions   int64
	Size           int64
	Total          int64
	SerializedHash chainhash.Hash
}

UtxoStats represents unspent output statistics on the current utxo set.

type UtxoViewpoint 

type UtxoViewpoint struct {
	// contains filtered or unexported fields
}

UtxoViewpoint represents a view into the set of unspent transaction outputs from a specific point of view in the chain. For example, it could be for the end of the main chain, some point in the history of the main chain, or down a side chain.

The unspent outputs are needed by other transactions for things such as script validation and double spend prevention.

func NewUtxoViewpoint 

func NewUtxoViewpoint(cache *UtxoCache) *UtxoViewpoint

NewUtxoViewpoint returns a new empty unspent transaction output view.

func (*UtxoViewpoint) AddTxOut 

func (view *UtxoViewpoint) AddTxOut(tx *mcxutil.Tx, txOutIdx uint32,
	blockHeight int64, blockIndex uint32, isTreasuryEnabled bool)

AddTxOut adds the specified output of the passed transaction to the view if it exists and is not provably unspendable. When the view already has an entry for the output, it will be marked unspent. All fields will be updated for existing entries since it's possible it has changed during a reorg.

func (*UtxoViewpoint) AddTxOuts 

func (view *UtxoViewpoint) AddTxOuts(tx *mcxutil.Tx, blockHeight int64, blockIndex uint32, isTreasuryEnabled bool)

AddTxOuts adds all outputs in the passed transaction which are not provably unspendable to the view. When the view already has entries for any of the outputs, they are simply marked unspent. All fields will be updated for existing entries since it's possible it has changed during a reorg.

func (*UtxoViewpoint) BestHash 

func (view *UtxoViewpoint) BestHash() *chainhash.Hash

BestHash returns the hash of the best block in the chain the view currently represents.

func (*UtxoViewpoint) Entries 

func (view *UtxoViewpoint) Entries() map[wire.OutPoint]*UtxoEntry

Entries returns the underlying map that stores of all the utxo entries.

func (*UtxoViewpoint) LookupEntry 

func (view *UtxoViewpoint) LookupEntry(outpoint wire.OutPoint) *UtxoEntry

LookupEntry returns information about a given transaction output according to the current state of the view. It will return nil if the passed output does not exist in the view or is otherwise not available such as when it has been disconnected during a reorg.

func (*UtxoViewpoint) PrevScript 

func (view *UtxoViewpoint) PrevScript(prevOut *wire.OutPoint) (uint16, []byte, bool)

PrevScript returns the script and script version associated with the provided previous outpoint along with a bool that indicates whether or not the requested entry exists. This ensures the caller is able to distinguish between missing entries and empty v0 scripts.

func (*UtxoViewpoint) PriorityInput 

func (view *UtxoViewpoint) PriorityInput(prevOut *wire.OutPoint) (int64, int64, bool)

PriorityInput returns the block height and amount associated with the provided previous outpoint along with a bool that indicates whether or not the requested entry exists. This ensures the caller is able to distinguish missing entries from zero values.

func (*UtxoViewpoint) RemoveEntry 

func (view *UtxoViewpoint) RemoveEntry(outpoint wire.OutPoint)

RemoveEntry removes the given transaction output from the current state of the view. It will have no effect if the passed output does not exist in the view.

func (*UtxoViewpoint) SetBestHash 

func (view *UtxoViewpoint) SetBestHash(hash *chainhash.Hash)

SetBestHash sets the hash of the best block in the chain the view currently represents.

type VoteCounts 

type VoteCounts struct {
	Total        uint32
	TotalAbstain uint32
	VoteChoices  []uint32
}

VoteCounts is a compacted struct that is used to message vote counts.

type VoteInfo 

type VoteInfo struct {
	Agendas      []chaincfg.ConsensusDeployment
	AgendaStatus []ThresholdStateTuple
}

VoteInfo represents information on agendas and their respective states for a consensus deployment.

Source Files

View all Source files

Directories

Path Synopsis
Package chaingen provides facilities for generating a full chain of blocks.
 Package chaingen provides facilities for generating a full chain of blocks.
Package fullblocktests provides a set of block consensus validation tests.
 Package fullblocktests provides a set of block consensus validation tests.
Package indexers implements optional block chain indexes.
 Package indexers implements optional block chain indexes.
internal
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