lnd/shachain/shachain.go
Olaoluwa Osuntokun fcff17c336
multi: change all imports to roasbeef's forks
This commit will allow the general public to build lnd without jumping
through hoops setting up their local git branches nicely with all of
our forks.
2016-05-15 17:22:37 +03:00

182 lines
4.3 KiB
Go

package shachain
import (
"bytes"
"crypto/rand"
"crypto/sha256"
"fmt"
"io"
"sync"
"github.com/roasbeef/btcd/wire"
"github.com/roasbeef/btcutil"
)
const (
maxIndex = 1<<64 - 1
)
// chainFragment...
type chainBranch struct {
index uint64
hash [32]byte
}
// HyperShaChain...
// * https://github.com/rustyrussell/ccan/blob/master/ccan/crypto/shachain/design.txt
type HyperShaChain struct {
sync.RWMutex
lastChainIndex uint64
numValid uint64
chainBranches [64]chainBranch
lastHash wire.ShaHash
}
// NewHyperShaChain
// * used to track their pre-images
func New() *HyperShaChain {
return &HyperShaChain{lastChainIndex: 0, numValid: 0}
}
// NewHyperShaChainFromSeed...
// * used to derive your own pre-images
func NewFromSeed(seed *[32]byte, deriveTo uint64) (*HyperShaChain, error) {
var shaSeed [32]byte
// If no seed is specified, generate a new one.
if seed == nil {
_, err := rand.Read(shaSeed[:])
if err != nil {
return nil, err
}
} else {
shaSeed = *seed
}
// The last possible value in the chain is our starting index.
start := uint64(maxIndex)
stop := deriveTo
curHash := derive(start, stop, shaSeed)
// TODO(roasbeef): from/to or static size?
return &HyperShaChain{lastChainIndex: deriveTo, lastHash: curHash}, nil
}
// derive...
func derive(from, to uint64, startingHash [32]byte) [32]byte {
nextHash := startingHash
numBranches := from ^ to
// The number of branches we need to derive is log2(numBranches)
toDerive := 0
for ; numBranches>>uint(toDerive) > 0; toDerive++ {
}
toDerive-- // needed?
for i := int(toDerive - 1); i >= 0; i-- {
if (numBranches>>uint(i))&1 == 1 {
// Flip the ith bit, then hash the current state to
// advance down the tree.
nextHash[i/8] ^= (1 << (uint(i) % 8))
nextHash = sha256.Sum256(nextHash[:])
}
}
return nextHash
}
// canDerive...
func canDerive(from, to uint64) bool {
return ^from&to == 1
}
// getHash...
// index should be commitment #
func (h *HyperShaChain) GetHash(index uint64) (*[32]byte, error) {
for i := uint64(0); i < h.numValid; i++ {
/* If we can get from key to index only by resetting bits,
* we can derive from it => index has no bits key doesn't. */
if !canDerive(h.chainBranches[i].index, index) {
continue
}
nextHash := derive(h.chainBranches[i].index, index,
h.chainBranches[i].hash)
return &nextHash, nil
}
return nil, fmt.Errorf("unable to derive hash # %v", index)
}
// addHash
func (h *HyperShaChain) AddNextHash(hash [32]byte) error {
// Hashes for a remote chain must be added in order.
nextIdx := h.lastChainIndex + 1
if nextIdx != h.lastChainIndex+1 || nextIdx == 0 && h.numValid != 0 {
return fmt.Errorf("shachain values must be added in order, attempted"+
"to add index %v, chain is at %v", nextIdx, h.lastChainIndex)
}
i := uint64(0)
for ; i < h.numValid; i++ {
if canDerive(nextIdx, h.chainBranches[i].index) {
// Ensure we can actually derive this value.
derivation := derive(nextIdx, h.chainBranches[i].index, hash)
if !bytes.Equal(derivation[:], h.chainBranches[i].hash[:]) {
// TODO(roasbeef): better err message
return fmt.Errorf("chain corruption")
}
break
}
}
h.chainBranches[i].index = nextIdx
copy(h.chainBranches[i].hash[:], hash[:])
copy(h.lastHash[:], hash[:])
h.numValid = i + 1
h.lastChainIndex = nextIdx
return nil
}
// CurrentPreImage...
func (h *HyperShaChain) CurrentPreImage() *wire.ShaHash {
h.RLock()
defer h.RUnlock()
return &h.lastHash
}
// CurrentRevocationHash...
// TODO(roasbeef): *wire.ShaHash vs [wire.HashSize]byte ?
func (h *HyperShaChain) CurrentRevocationHash() []byte {
h.RLock()
defer h.RUnlock()
return btcutil.Hash160(h.lastHash[:])
}
// LocatePreImage...
// Alice just broadcasted an old commitment tx, we need the revocation hash to
// claim the funds so we don't get cheated. However, we aren't storing all the
// pre-images in memory. So which shachain index # did she broadcast?
func (h *HyperShaChain) LocatePreImage(outputScript []byte) (uint64, *[32]byte) {
// TODO(roasbeef): parallel goroutine divide and conquer?
// * need to know which side it is? also proper keys?
// * guess and check till script template matches the p2sh hash
return 0, nil
}
// MarshallBinary...
func (h *HyperShaChain) Encode(b io.Writer) error {
return nil
}
// UnmarshallBinary...
func (h *HyperShaChain) Decode(b io.Reader) error {
return nil
}