lnd.xprv/uspv/mblock.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

168 lines
5.0 KiB
Go

package uspv
import (
"fmt"
"github.com/roasbeef/btcd/wire"
)
func MakeMerkleParent(left *wire.ShaHash, right *wire.ShaHash) *wire.ShaHash {
// dupes can screw things up; CVE-2012-2459. check for them
if left != nil && right != nil && left.IsEqual(right) {
fmt.Printf("DUP HASH CRASH")
return nil
}
// if left child is nil, output nil. Need this for hard mode.
if left == nil {
return nil
}
// if right is nil, hash left with itself
if right == nil {
right = left
}
// Concatenate the left and right nodes
var sha [64]byte
copy(sha[:32], left[:])
copy(sha[32:], right[:])
newSha := wire.DoubleSha256SH(sha[:])
return &newSha
}
type merkleNode struct {
p uint32 // position in the binary tree
h *wire.ShaHash // hash
}
// given n merkle leaves, how deep is the tree?
// iterate shifting left until greater than n
func treeDepth(n uint32) (e uint8) {
for ; (1 << e) < n; e++ {
}
return
}
// smallest power of 2 that can contain n
func nextPowerOfTwo(n uint32) uint32 {
return 1 << treeDepth(n) // 2^exponent
}
// check if a node is populated based on node position and size of tree
func inDeadZone(pos, size uint32) bool {
msb := nextPowerOfTwo(size)
last := size - 1 // last valid position is 1 less than size
if pos > (msb<<1)-2 { // greater than root; not even in the tree
fmt.Printf(" ?? greater than root ")
return true
}
h := msb
for pos >= h {
h = h>>1 | msb
last = last>>1 | msb
}
return pos > last
}
// take in a merkle block, parse through it, and return txids indicated
// If there's any problem return an error. Checks self-consistency only.
// doing it with a stack instead of recursion. Because...
// OK I don't know why I'm just not in to recursion OK?
func checkMBlock(m *wire.MsgMerkleBlock) ([]*wire.ShaHash, error) {
if m.Transactions == 0 {
return nil, fmt.Errorf("No transactions in merkleblock")
}
if len(m.Flags) == 0 {
return nil, fmt.Errorf("No flag bits")
}
var s []merkleNode // the stack
var r []*wire.ShaHash // slice to return; txids we care about
// set initial position to root of merkle tree
msb := nextPowerOfTwo(m.Transactions) // most significant bit possible
pos := (msb << 1) - 2 // current position in tree
var i uint8 // position in the current flag byte
var tip int
// main loop
for {
tip = len(s) - 1 // slice position of stack tip
// First check if stack operations can be performed
// is stack one filled item? that's complete.
if tip == 0 && s[0].h != nil {
if s[0].h.IsEqual(&m.Header.MerkleRoot) {
return r, nil
}
return nil, fmt.Errorf("computed root %s but expect %s\n",
s[0].h.String(), m.Header.MerkleRoot.String())
}
// is current position in the tree's dead zone? partial parent
if inDeadZone(pos, m.Transactions) {
// create merkle parent from single side (left)
s[tip-1].h = MakeMerkleParent(s[tip].h, nil)
s = s[:tip] // remove 1 from stack
pos = s[tip-1].p | 1 // move position to parent's sibling
continue
}
// does stack have 3+ items? and are last 2 items filled?
if tip > 1 && s[tip-1].h != nil && s[tip].h != nil {
//fmt.Printf("nodes %d and %d combine into %d\n",
// s[tip-1].p, s[tip].p, s[tip-2].p)
// combine two filled nodes into parent node
s[tip-2].h = MakeMerkleParent(s[tip-1].h, s[tip].h)
// remove children
s = s[:tip-1]
// move position to parent's sibling
pos = s[tip-2].p | 1
continue
}
// no stack ops to perform, so make new node from message hashes
if len(m.Hashes) == 0 {
return nil, fmt.Errorf("Ran out of hashes at position %d.", pos)
}
if len(m.Flags) == 0 {
return nil, fmt.Errorf("Ran out of flag bits.")
}
var n merkleNode // make new node
n.p = pos // set current position for new node
if pos&msb != 0 { // upper non-txid hash
if m.Flags[0]&(1<<i) == 0 { // flag bit says fill node
n.h = m.Hashes[0] // copy hash from message
m.Hashes = m.Hashes[1:] // pop off message
if pos&1 != 0 { // right side; ascend
pos = pos>>1 | msb
} else { // left side, go to sibling
pos |= 1
}
} else { // flag bit says skip; put empty on stack and descend
pos = (pos ^ msb) << 1 // descend to left
}
s = append(s, n) // push new node on stack
} else { // bottom row txid; flag bit indicates tx of interest
if pos >= m.Transactions {
// this can't happen because we check deadzone above...
return nil, fmt.Errorf("got into an invalid txid node")
}
n.h = m.Hashes[0] // copy hash from message
m.Hashes = m.Hashes[1:] // pop off message
if m.Flags[0]&(1<<i) != 0 { //txid of interest
r = append(r, n.h)
}
if pos&1 == 0 { // left side, go to sibling
pos |= 1
} // if on right side we don't move; stack ops will move next
s = append(s, n) // push new node onto the stack
}
// done with pushing onto stack; advance flag bit
i++
if i == 8 { // move to next byte
i = 0
m.Flags = m.Flags[1:]
}
}
return nil, fmt.Errorf("ran out of things to do?")
}