a59ac5b18f
This modifies the utxoset in the database and related UtxoViewpoint to
store and work with unspent transaction outputs on a per-output basis
instead of at a transaction level. This was inspired by similar recent
changes in Bitcoin Core.
The primary motivation is to simplify the code, pave the way for a
utxo cache, and generally focus on optimizing runtime performance.
The tradeoff is that this approach does somewhat increase the size of
the serialized utxoset since it means that the transaction hash is
duplicated for each output as a part of the key and some additional
details such as whether the containing transaction is a coinbase and the
block height it was a part of are duplicated in each output.
However, in practice, the size difference isn't all that large, disk
space is relatively cheap, certainly cheaper than memory, and it is much
more important to provide more efficient runtime operation since that is
the ultimate purpose of the daemon.
While performing this conversion, it also simplifies the code to remove
the transaction version information from the utxoset as well as the
spend journal. The logic for only serializing it under certain
circumstances is complicated and it isn't actually used anywhere aside
from the gettxout RPC where it also isn't used by anything important
either. Consequently, this also removes the version field of the
gettxout RPC result.
The utxos in the database are automatically migrated to the new format
with this commit and it is possible to interrupt and resume the
migration process.
Finally, it also updates the tests for the new format and adds a new
function to the tests to convert the old test data to the new format for
convenience. The data has already been converted and updated in the
commit.
An overview of the changes are as follows:
- Remove transaction version from both spent and unspent output entries
- Update utxo serialization format to exclude the version
- Modify the spend journal serialization format
- The old version field is now reserved and always stores zero and
ignores it when reading
- This allows old entries to be used by new code without having to
migrate the entire spend journal
- Remove version field from gettxout RPC result
- Convert UtxoEntry to represent a specific utxo instead of a
transaction with all remaining utxos
- Optimize for memory usage with an eye towards a utxo cache
- Combine details such as whether the txout was contained in a
coinbase, is spent, and is modified into a single packed field of
bit flags
- Align entry fields to eliminate extra padding since ultimately
there will be a lot of these in memory
- Introduce a free list for serializing an outpoint to the database
key format to significantly reduce pressure on the GC
- Update all related functions that previously dealt with transaction
hashes to accept outpoints instead
- Update all callers accordingly
- Only add individually requested outputs from the mempool when
constructing a mempool view
- Modify the spend journal to always store the block height and coinbase
information with every spent txout
- Introduce code to handle fetching the missing information from
another utxo from the same transaction in the event an old style
entry is encountered
- Make use of a database cursor with seek to do this much more
efficiently than testing every possible output
- Always decompress data loaded from the database now that a utxo entry
only consists of a specific output
- Introduce upgrade code to migrate the utxo set to the new format
- Store versions of the utxoset and spend journal buckets
- Allow migration process to be interrupted and resumed
- Update all tests to expect the correct encodings, remove tests that no
longer apply, and add new ones for the new expected behavior
- Convert old tests for the legacy utxo format deserialization code to
test the new function that is used during upgrade
- Update the utxostore test data and add function that was used to
convert it
- Introduce a few new functions on UtxoViewpoint
- AddTxOut for adding an individual txout versus all of them
- addTxOut to handle the common code between the new AddTxOut and
existing AddTxOuts
- RemoveEntry for removing an individual txout
- fetchEntryByHash for fetching any remaining utxo for a given
transaction hash
132 lines
4.8 KiB
Go
132 lines
4.8 KiB
Go
// Copyright (c) 2014-2016 The btcsuite developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package mining
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import (
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"github.com/btcsuite/btcd/blockchain"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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)
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const (
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// UnminedHeight is the height used for the "block" height field of the
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// contextual transaction information provided in a transaction store
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// when it has not yet been mined into a block.
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UnminedHeight = 0x7fffffff
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)
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// Policy houses the policy (configuration parameters) which is used to control
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// the generation of block templates. See the documentation for
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// NewBlockTemplate for more details on each of these parameters are used.
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type Policy struct {
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// BlockMinWeight is the minimum block weight to be used when
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// generating a block template.
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BlockMinWeight uint32
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// BlockMaxWeight is the maximum block weight to be used when
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// generating a block template.
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BlockMaxWeight uint32
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// BlockMinWeight is the minimum block size to be used when generating
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// a block template.
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BlockMinSize uint32
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// BlockMaxSize is the maximum block size to be used when generating a
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// block template.
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BlockMaxSize uint32
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// BlockPrioritySize is the size in bytes for high-priority / low-fee
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// transactions to be used when generating a block template.
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BlockPrioritySize uint32
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// TxMinFreeFee is the minimum fee in Satoshi/1000 bytes that is
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// required for a transaction to be treated as free for mining purposes
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// (block template generation).
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TxMinFreeFee btcutil.Amount
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}
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// minInt is a helper function to return the minimum of two ints. This avoids
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// a math import and the need to cast to floats.
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func minInt(a, b int) int {
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if a < b {
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return a
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}
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return b
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}
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// calcInputValueAge is a helper function used to calculate the input age of
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// a transaction. The input age for a txin is the number of confirmations
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// since the referenced txout multiplied by its output value. The total input
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// age is the sum of this value for each txin. Any inputs to the transaction
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// which are currently in the mempool and hence not mined into a block yet,
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// contribute no additional input age to the transaction.
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func calcInputValueAge(tx *wire.MsgTx, utxoView *blockchain.UtxoViewpoint, nextBlockHeight int32) float64 {
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var totalInputAge float64
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for _, txIn := range tx.TxIn {
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// Don't attempt to accumulate the total input age if the
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// referenced transaction output doesn't exist.
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entry := utxoView.LookupEntry(txIn.PreviousOutPoint)
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if entry != nil && !entry.IsSpent() {
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// Inputs with dependencies currently in the mempool
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// have their block height set to a special constant.
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// Their input age should computed as zero since their
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// parent hasn't made it into a block yet.
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var inputAge int32
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originHeight := entry.BlockHeight()
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if originHeight == UnminedHeight {
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inputAge = 0
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} else {
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inputAge = nextBlockHeight - originHeight
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}
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// Sum the input value times age.
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inputValue := entry.Amount()
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totalInputAge += float64(inputValue * int64(inputAge))
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}
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}
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return totalInputAge
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}
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// CalcPriority returns a transaction priority given a transaction and the sum
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// of each of its input values multiplied by their age (# of confirmations).
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// Thus, the final formula for the priority is:
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// sum(inputValue * inputAge) / adjustedTxSize
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func CalcPriority(tx *wire.MsgTx, utxoView *blockchain.UtxoViewpoint, nextBlockHeight int32) float64 {
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// In order to encourage spending multiple old unspent transaction
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// outputs thereby reducing the total set, don't count the constant
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// overhead for each input as well as enough bytes of the signature
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// script to cover a pay-to-script-hash redemption with a compressed
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// pubkey. This makes additional inputs free by boosting the priority
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// of the transaction accordingly. No more incentive is given to avoid
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// encouraging gaming future transactions through the use of junk
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// outputs. This is the same logic used in the reference
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// implementation.
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//
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// The constant overhead for a txin is 41 bytes since the previous
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// outpoint is 36 bytes + 4 bytes for the sequence + 1 byte the
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// signature script length.
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//
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// A compressed pubkey pay-to-script-hash redemption with a maximum len
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// signature is of the form:
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// [OP_DATA_73 <73-byte sig> + OP_DATA_35 + {OP_DATA_33
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// <33 byte compresed pubkey> + OP_CHECKSIG}]
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//
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// Thus 1 + 73 + 1 + 1 + 33 + 1 = 110
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overhead := 0
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for _, txIn := range tx.TxIn {
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// Max inputs + size can't possibly overflow here.
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overhead += 41 + minInt(110, len(txIn.SignatureScript))
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}
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serializedTxSize := tx.SerializeSize()
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if overhead >= serializedTxSize {
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return 0.0
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}
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inputValueAge := calcInputValueAge(tx, utxoView, nextBlockHeight)
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return inputValueAge / float64(serializedTxSize-overhead)
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}
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