amp/sharer: add recursive sharing logic

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Conner Fromknecht 2021-01-15 14:52:00 -08:00
parent 0144bdb241
commit cb47d0c825
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2 changed files with 159 additions and 0 deletions

@ -12,6 +12,13 @@ import (
// be recovered by XORing all n shares together. // be recovered by XORing all n shares together.
type Share [32]byte type Share [32]byte
// Xor stores the byte-wise xor of shares x and y in z.
func (z *Share) Xor(x, y *Share) {
for i := range z {
z[i] = x[i] ^ y[i]
}
}
// ChildDesc contains the information necessary to derive a child hash/preimage // ChildDesc contains the information necessary to derive a child hash/preimage
// pair that is attached to a particular HTLC. This information will be known by // pair that is attached to a particular HTLC. This information will be known by
// both the sender and receiver in the process of fulfilling an AMP payment. // both the sender and receiver in the process of fulfilling an AMP payment.

152
amp/sharer.go Normal file

@ -0,0 +1,152 @@
package amp
import (
"crypto/rand"
)
// Sharer facilitates dynamic splitting of a root share value and derivation of
// child preimage and hashes for individual HTLCs in an AMP payment. A sharer
// represents a specific node in an abstract binary tree that can generate up to
// 2^32-1 unique child preimage-hash pairs for the same share value. A node can
// also be split into it's left and right child in the tree. The Sharer
// guarantees that the share value of the left and right child XOR to the share
// value of the parent. This allows larger HTLCs to split into smaller
// subpayments, while ensuring that the reconstructed secret will exactly match
// the root seed.
type Sharer interface {
// Root returns the root share of the derivation tree. This is the value
// that will be reconstructed when combining the set of all child
// shares.
Root() Share
// Child derives a child preimage and child hash given a 32-bit index.
// Passing a different index will generate a unique preimage-hash pair
// with high probability, allowing the payment hash carried on HTLCs to
// be refreshed without needing to modify the share value. This would
// typically be used when an partial payment needs to be retried if it
// encounters routine network failures.
Child(index uint32) *Child
// Split returns a Sharer for the left and right child of the parent
// Sharer. XORing the share values of both sharers always yields the
// share value of the parent. The sender should use this to recursively
// divide payments that are too large into smaller subpayments, knowing
// that the shares of all nodes descending from the parent will XOR to
// the parent's share.
Split() (Sharer, Sharer, error)
}
// SeedSharer orchestrates the sharing of the root AMP seed along multiple
// paths. It also supports derivation of the child payment hashes that get
// attached to HTLCs, and the child preimages used by the receiver to settle
// individual HTLCs in the set.
type SeedSharer struct {
root Share
curr Share
}
// NewSeedSharer generates a new SeedSharer instance with a seed drawn at
// random.
func NewSeedSharer() (*SeedSharer, error) {
var root Share
if _, err := rand.Read(root[:]); err != nil {
return nil, err
}
return SeedSharerFromRoot(&root), nil
}
// SeedSharerFromRoot instantiates a SeedSharer with an externally provided
// seed.
func SeedSharerFromRoot(root *Share) *SeedSharer {
return initSeedSharer(root, root)
}
func initSeedSharer(root, curr *Share) *SeedSharer {
return &SeedSharer{
root: *root,
curr: *curr,
}
}
// Seed returns the sharer's seed, the primary source of entropy for deriving
// shares of the root.
func (s *SeedSharer) Root() Share {
return s.root
}
// Split constructs two child Sharers whose shares sum to the parent Sharer.
// This allows an HTLC whose payment amount could not be routed to be
// recursively split into smaller subpayments. After splitting a sharer the
// parent share should no longer be used, and the caller should use the Child
// method on each to derive preimage/hash pairs for the HTLCs.
func (s *SeedSharer) Split() (Sharer, Sharer, error) {
shareLeft, shareRight, err := split(&s.curr)
if err != nil {
return nil, nil, err
}
left := initSeedSharer(&s.root, &shareLeft)
right := initSeedSharer(&s.root, &shareRight)
return left, right, nil
}
// Child derives a preimage/hash pair to be used for an AMP HTLC.
// All children of s will use the same underlying share, but have unique
// preimage and hash. This can be used to rerandomize the preimage/hash pair for
// a given HTLC if a new route is needed.
func (s *SeedSharer) Child(index uint32) *Child {
desc := ChildDesc{
Share: s.curr,
Index: index,
}
return DeriveChild(s.root, desc)
}
// ReconstructChildren derives the set of children hashes and preimages from the
// provided descriptors. The shares from each child descriptor are first used to
// compute the root, afterwards the child hashes and preimages are
// deterministically computed. For child descriptor at index i in the input,
// it's derived child will occupy index i of the returned children.
func ReconstructChildren(descs ...ChildDesc) []*Child {
// Recompute the root by XORing the provided shares.
var root Share
for _, desc := range descs {
root.Xor(&root, &desc.Share)
}
// With the root computed, derive the child hashes and preimages from
// the child descriptors.
children := make([]*Child, len(descs))
for i, desc := range descs {
children[i] = DeriveChild(root, desc)
}
return children
}
// split splits a share into two random values, that when XOR'd reproduce the
// original share. Given a share s, the two shares are derived as:
// left <-$- random
// right = parent ^ left.
//
// When reconstructed, we have that:
// left ^ right = left ^ parent ^ left
// = parent.
func split(parent *Share) (Share, Share, error) {
// Generate a random share for the left child.
var left Share
if _, err := rand.Read(left[:]); err != nil {
return Share{}, Share{}, err
}
// Compute right = parent ^ left.
var right Share
right.Xor(parent, &left)
return left, right, nil
}
var _ Sharer = (*SeedSharer)(nil)