2017-01-18 02:20:28 +01:00
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// Copyright (c) 2017 The btcsuite developers
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// Copyright (c) 2017 The Lightning Network 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 builder
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import (
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"crypto/rand"
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"encoding/binary"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcd/txscript"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil/gcs"
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)
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2017-01-18 02:25:38 +01:00
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// DefaultP is the default collision probability (2^-20)
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const DefaultP = 20
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// GCSBuilder is a utility class that makes building GCS filters convenient.
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type GCSBuilder struct {
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p uint8
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key [gcs.KeySize]byte
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data [][]byte
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err error
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}
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// RandomKey is a utility function that returns a cryptographically random
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// [gcs.KeySize]byte usable as a key for a GCS filter.
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func RandomKey() ([gcs.KeySize]byte, error) {
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var key [gcs.KeySize]byte
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// Read a byte slice from rand.Reader.
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randKey := make([]byte, gcs.KeySize)
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_, err := rand.Read(randKey)
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// This shouldn't happen unless the user is on a system that doesn't
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// have a system CSPRNG. OK to panic in this case.
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if err != nil {
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return key, err
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}
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// Copy the byte slice to a [gcs.KeySize]byte array and return it.
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copy(key[:], randKey[:])
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return key, nil
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}
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// DeriveKey is a utility function that derives a key from a chainhash.Hash by
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// truncating the bytes of the hash to the appopriate key size.
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func DeriveKey(keyHash *chainhash.Hash) [gcs.KeySize]byte {
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var key [gcs.KeySize]byte
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copy(key[:], keyHash.CloneBytes()[:])
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return key
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}
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// OutPointToFilterEntry is a utility function that derives a filter entry from
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2017-04-28 05:34:50 +02:00
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// a wire.OutPoint in a standardized way for use with both building and
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// querying filters.
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2017-01-18 02:20:28 +01:00
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func OutPointToFilterEntry(outpoint wire.OutPoint) []byte {
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// Size of the hash plus size of int32 index
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data := make([]byte, chainhash.HashSize+4)
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copy(data[:], outpoint.Hash.CloneBytes()[:])
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2017-01-18 02:33:29 +01:00
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binary.LittleEndian.PutUint32(data[chainhash.HashSize:], outpoint.Index)
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return data
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}
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// Key retrieves the key with which the builder will build a filter. This is
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// useful if the builder is created with a random initial key.
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func (b *GCSBuilder) Key() ([gcs.KeySize]byte, error) {
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// Do nothing if the builder's errored out.
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if b.err != nil {
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return [gcs.KeySize]byte{}, b.err
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}
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return b.key, nil
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}
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// SetKey sets the key with which the builder will build a filter to the passed
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// [gcs.KeySize]byte.
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func (b *GCSBuilder) SetKey(key [gcs.KeySize]byte) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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copy(b.key[:], key[:])
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return b
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}
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// SetKeyFromHash sets the key with which the builder will build a filter to a
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// key derived from the passed chainhash.Hash using DeriveKey().
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func (b *GCSBuilder) SetKeyFromHash(keyHash *chainhash.Hash) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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return b.SetKey(DeriveKey(keyHash))
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}
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// SetP sets the filter's probability after calling Builder().
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func (b *GCSBuilder) SetP(p uint8) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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// Basic sanity check.
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if p > 32 {
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b.err = gcs.ErrPTooBig
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return b
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}
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b.p = p
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return b
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}
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// Preallocate sets the estimated filter size after calling Builder() to reduce
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// the probability of memory reallocations. If the builder has already had data
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// added to it, Preallocate has no effect.
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func (b *GCSBuilder) Preallocate(n uint32) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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if len(b.data) == 0 {
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b.data = make([][]byte, 0, n)
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}
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return b
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}
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// AddEntry adds a []byte to the list of entries to be included in the GCS
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// filter when it's built.
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func (b *GCSBuilder) AddEntry(data []byte) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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b.data = append(b.data, data)
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return b
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}
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// AddEntries adds all the []byte entries in a [][]byte to the list of entries
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// to be included in the GCS filter when it's built.
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func (b *GCSBuilder) AddEntries(data [][]byte) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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for _, entry := range data {
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b.AddEntry(entry)
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}
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return b
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}
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// AddOutPoint adds a wire.OutPoint to the list of entries to be included in
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// the GCS filter when it's built.
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func (b *GCSBuilder) AddOutPoint(outpoint wire.OutPoint) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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return b.AddEntry(OutPointToFilterEntry(outpoint))
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}
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// AddHash adds a chainhash.Hash to the list of entries to be included in the
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// GCS filter when it's built.
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func (b *GCSBuilder) AddHash(hash *chainhash.Hash) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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return b.AddEntry(hash.CloneBytes())
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}
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// AddScript adds all the data pushed in the script serialized as the passed
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// []byte to the list of entries to be included in the GCS filter when it's
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// built.
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func (b *GCSBuilder) AddScript(script []byte) *GCSBuilder {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return b
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}
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2017-02-02 20:17:25 +01:00
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// Ignore errors and add pushed data, if any
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data, _ := txscript.PushedData(script)
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return b.AddEntries(data)
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}
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// Build returns a function which builds a GCS filter with the given parameters
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// and data.
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func (b *GCSBuilder) Build() (*gcs.Filter, error) {
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// Do nothing if the builder's already errored out.
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if b.err != nil {
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return nil, b.err
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}
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return gcs.BuildGCSFilter(b.p, b.key, b.data)
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}
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// WithKeyPN creates a GCSBuilder with specified key and the passed probability
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// and estimated filter size.
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func WithKeyPN(key [gcs.KeySize]byte, p uint8, n uint32) *GCSBuilder {
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b := GCSBuilder{}
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return b.SetKey(key).SetP(p).Preallocate(n)
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}
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// WithKeyP creates a GCSBuilder with specified key and the passed probability.
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// Estimated filter size is set to zero, which means more reallocations are
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// done when building the filter.
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func WithKeyP(key [gcs.KeySize]byte, p uint8) *GCSBuilder {
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return WithKeyPN(key, p, 0)
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}
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// WithKey creates a GCSBuilder with specified key. Probability is set to
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// 20 (2^-20 collision probability). Estimated filter size is set to zero, which
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// means more reallocations are done when building the filter.
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func WithKey(key [gcs.KeySize]byte) *GCSBuilder {
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return WithKeyPN(key, DefaultP, 0)
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}
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// WithKeyHashPN creates a GCSBuilder with key derived from the specified
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// chainhash.Hash and the passed probability and estimated filter size.
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func WithKeyHashPN(keyHash *chainhash.Hash, p uint8, n uint32) *GCSBuilder {
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return WithKeyPN(DeriveKey(keyHash), p, n)
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}
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// WithKeyHashP creates a GCSBuilder with key derived from the specified
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// chainhash.Hash and the passed probability. Estimated filter size is set to
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// zero, which means more reallocations are done when building the filter.
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func WithKeyHashP(keyHash *chainhash.Hash, p uint8) *GCSBuilder {
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return WithKeyHashPN(keyHash, p, 0)
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}
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// WithKeyHash creates a GCSBuilder with key derived from the specified
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// chainhash.Hash. Probability is set to 20 (2^-20 collision probability).
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// Estimated filter size is set to zero, which means more reallocations are
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// done when building the filter.
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func WithKeyHash(keyHash *chainhash.Hash) *GCSBuilder {
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return WithKeyHashPN(keyHash, DefaultP, 0)
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}
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// WithRandomKeyPN creates a GCSBuilder with a cryptographically random key and
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// the passed probability and estimated filter size.
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func WithRandomKeyPN(p uint8, n uint32) *GCSBuilder {
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key, err := RandomKey()
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if err != nil {
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b := GCSBuilder{err: err}
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return &b
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}
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return WithKeyPN(key, p, n)
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}
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// WithRandomKeyP creates a GCSBuilder with a cryptographically random key and
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// the passed probability. Estimated filter size is set to zero, which means
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// more reallocations are done when building the filter.
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func WithRandomKeyP(p uint8) *GCSBuilder {
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return WithRandomKeyPN(p, 0)
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}
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// WithRandomKey creates a GCSBuilder with a cryptographically random key.
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// Probability is set to 20 (2^-20 collision probability). Estimated filter
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// size is set to zero, which means more reallocations are done when
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// building the filter.
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func WithRandomKey() *GCSBuilder {
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return WithRandomKeyPN(DefaultP, 0)
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}
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// BuildBasicFilter builds a basic GCS filter from a block. A basic GCS filter
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// will contain all the previous outpoints spent within a block, as well as the
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// data pushes within all the outputs created within a block.
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func BuildBasicFilter(block *wire.MsgBlock) (*gcs.Filter, error) {
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blockHash := block.BlockHash()
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b := WithKeyHash(&blockHash)
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// If the filter had an issue with the specified key, then we force it
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// to bubble up here by calling the Key() function.
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_, err := b.Key()
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if err != nil {
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return nil, err
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}
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// In order to build a basic filter, we'll range over the entire block,
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// adding the outpoint data as well as the data pushes within the
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// pkScript.
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for i, tx := range block.Transactions {
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// Skip the inputs for the coinbase transaction
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if i != 0 {
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// Each each txin, we'll add a serialized version of
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// the txid:index to the filters data slices.
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for _, txIn := range tx.TxIn {
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b.AddOutPoint(txIn.PreviousOutPoint)
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}
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}
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// For each output in a transaction, we'll add each of the
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// individual data pushes within the script.
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for _, txOut := range tx.TxOut {
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b.AddScript(txOut.PkScript)
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}
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}
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return b.Build()
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}
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// BuildExtFilter builds an extended GCS filter from a block. An extended
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// filter supplements a regular basic filter by include all the _witness_ data
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// found within a block. This includes all the data pushes within any signature
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// scripts as well as each element of an input's witness stack. Additionally,
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// the _hashes_ of each transaction are also inserted into the filter.
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func BuildExtFilter(block *wire.MsgBlock) (*gcs.Filter, error) {
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blockHash := block.BlockHash()
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b := WithKeyHash(&blockHash)
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_, err := b.Key()
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if err != nil {
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return nil, err
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}
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for i, tx := range block.Transactions {
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txHash := tx.TxHash()
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b.AddHash(&txHash)
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// Skip the inputs for the coinbase transaction
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if i != 0 {
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for _, txIn := range tx.TxIn {
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b.AddScript(txIn.SignatureScript)
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}
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}
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}
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return b.Build()
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}
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// GetFilterHash returns the double-SHA256 of the filter.
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func GetFilterHash(filter *gcs.Filter) chainhash.Hash {
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|
hash1 := chainhash.HashH(filter.NBytes())
|
|
|
|
return chainhash.HashH(hash1[:])
|
|
|
|
}
|
|
|
|
|
|
|
|
// MakeHeaderForFilter makes a filter chain header for a filter, given the
|
|
|
|
// filter and the previous filter chain header.
|
|
|
|
func MakeHeaderForFilter(filter *gcs.Filter, prevHeader chainhash.Hash) chainhash.Hash {
|
|
|
|
filterTip := make([]byte, 2*chainhash.HashSize)
|
|
|
|
filterHash := GetFilterHash(filter)
|
2017-04-28 05:34:50 +02:00
|
|
|
|
|
|
|
// In the buffer we created above we'll compute hash || prevHash as an
|
|
|
|
// intermediate value.
|
2017-04-27 02:51:45 +02:00
|
|
|
copy(filterTip, filterHash[:])
|
|
|
|
copy(filterTip[chainhash.HashSize:], prevHeader[:])
|
2017-04-28 05:34:50 +02:00
|
|
|
|
|
|
|
// The final filter hash is the double-sha256 of the hash computed
|
|
|
|
// above.
|
2017-04-27 02:51:45 +02:00
|
|
|
hash1 := chainhash.HashH(filterTip)
|
|
|
|
return chainhash.HashH(hash1[:])
|
|
|
|
}
|