Documentation
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Index ¶
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func RegisterLogHasher ¶
func RegisterLogHasher(h trillian.HashStrategy, f LogHasher)
RegisterLogHasher registers a hasher for use.
func RegisterMapHasher ¶
func RegisterMapHasher(h trillian.HashStrategy, f MapHasher)
RegisterMapHasher registers a hasher for use.
Types ¶
type LogHasher ¶
type LogHasher interface {
// EmptyRoot supports returning a special case for the root of an empty tree.
EmptyRoot() []byte
// HashLeaf computes the hash of a leaf that exists.
HashLeaf(leaf []byte) ([]byte, error)
// HashChildren computes interior nodes.
HashChildren(l, r []byte) []byte
// Size is the number of bits in the underlying hash function.
// TODO(gbelvin): Replace Size() with BitLength().
Size() int
}
LogHasher provides the hash functions needed to compute dense merkle trees.
func NewLogHasher ¶
func NewLogHasher(h trillian.HashStrategy) (LogHasher, error)
NewLogHasher returns a LogHasher.
type MapHasher ¶
type MapHasher interface {
// HashEmpty returns the hash of an empty branch at a given depth.
// A height of 0 indicates an empty leaf. The maximum height is Size*8.
// TODO(gbelvin) fully define index.
HashEmpty(treeID int64, index []byte, height int) []byte
// HashLeaf computes the hash of a leaf that exists.
HashLeaf(treeID int64, index []byte, leaf []byte) ([]byte, error)
// HashChildren computes interior nodes.
HashChildren(l, r []byte) []byte
// Size is the number of bytes in the underlying hash function.
// TODO(gbelvin): Replace Size() with BitLength().
Size() int
// BitLen returns the number of bits in the underlying hash function.
// It is also the height of the merkle tree.
BitLen() int
}
MapHasher provides the hash functions needed to compute sparse merkle trees.
func NewMapHasher ¶
func NewMapHasher(h trillian.HashStrategy) (MapHasher, error)
NewMapHasher returns a MapHasher.
Source Files
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