// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef EXTENSIONS_BROWSER_CONTENT_HASH_TREE_H_ #define EXTENSIONS_BROWSER_CONTENT_HASH_TREE_H_ #include <string> #include <vector> namespace extensions { // This takes a list of sha256 hashes, considers them to be leaf nodes of a // hash tree (aka Merkle tree), and computes the root node of the tree using // the given branching factor to hash lower level nodes together. Tree hash // implementations differ in how they handle the case where the number of // leaves isn't an integral power of the branch factor. This implementation // just hashes together however many are left at a given level, even if that is // less than the branching factor (instead of, for instance, directly promoting // elements). E.g., imagine we use a branch factor of 3 for a vector of 4 leaf // nodes [A,B,C,D]. This implemention will compute the root hash G as follows: // // | G | // | / \ | // | E F | // | /|\ \ | // | A B C D | // // where E = Hash(A||B||C), F = Hash(D), and G = Hash(E||F) // // The one exception to this rule is when there is only one node left. This // means that the root hash of any vector with just one leaf is the same as // that leaf. Ie RootHash([A]) == A, not Hash(A). std::string ComputeTreeHashRoot(const std::vector<std::string>& leaf_hashes, int branch_factor); } // namespace extensions #endif // EXTENSIONS_BROWSER_CONTENT_HASH_TREE_H_