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authorPieter Wuille <pieter@wuille.net>2021-02-01 18:53:24 -0800
committerPieter Wuille <pieter@wuille.net>2021-05-24 12:14:16 -0700
commit90fcac365e1616779b40a69736428435df75fdf2 (patch)
treecd748aee9785aa861c723cac5712ef3b1c796f4f /src/script/standard.h
parent5f6cc8daa83700d1c949d968a5cf0d935be337b7 (diff)
Add TaprootBuilder class
This class functions as a utility for building taproot outputs, from internal key and script leaves.
Diffstat (limited to 'src/script/standard.h')
-rw-r--r--src/script/standard.h78
1 files changed, 78 insertions, 0 deletions
diff --git a/src/script/standard.h b/src/script/standard.h
index a96b096fa7..d7ea5cef27 100644
--- a/src/script/standard.h
+++ b/src/script/standard.h
@@ -209,4 +209,82 @@ CScript GetScriptForRawPubKey(const CPubKey& pubkey);
/** Generate a multisig script. */
CScript GetScriptForMultisig(int nRequired, const std::vector<CPubKey>& keys);
+/** Utility class to construct Taproot outputs from internal key and script tree. */
+class TaprootBuilder
+{
+private:
+ /** Information associated with a node in the Merkle tree. */
+ struct NodeInfo
+ {
+ /** Merkle hash of this node. */
+ uint256 hash;
+ };
+ /** Whether the builder is in a valid state so far. */
+ bool m_valid = true;
+
+ /** The current state of the builder.
+ *
+ * For each level in the tree, one NodeInfo object may be present. m_branch[0]
+ * is information about the root; further values are for deeper subtrees being
+ * explored.
+ *
+ * For every right branch taken to reach the position we're currently
+ * working in, there will be a (non-nullopt) entry in m_branch corresponding
+ * to the left branch at that level.
+ *
+ * For example, imagine this tree: - N0 -
+ * / \
+ * N1 N2
+ * / \ / \
+ * A B C N3
+ * / \
+ * D E
+ *
+ * Initially, m_branch is empty. After processing leaf A, it would become
+ * {nullopt, nullopt, A}. When processing leaf B, an entry at level 2 already
+ * exists, and it would thus be combined with it to produce a level 1 one,
+ * resulting in {nullopt, N1}. Adding C and D takes us to {nullopt, N1, C}
+ * and {nullopt, N1, C, D} respectively. When E is processed, it is combined
+ * with D, and then C, and then N1, to produce the root, resulting in {N0}.
+ *
+ * This structure allows processing with just O(log n) overhead if the leaves
+ * are computed on the fly.
+ *
+ * As an invariant, there can never be nullopt entries at the end. There can
+ * also not be more than 128 entries (as that would mean more than 128 levels
+ * in the tree). The depth of newly added entries will always be at least
+ * equal to the current size of m_branch (otherwise it does not correspond
+ * to a depth-first traversal of a tree). m_branch is only empty if no entries
+ * have ever be processed. m_branch having length 1 corresponds to being done.
+ */
+ std::vector<std::optional<NodeInfo>> m_branch;
+
+ XOnlyPubKey m_internal_key; //!< The internal key, set when finalizing.
+ XOnlyPubKey m_output_key; //!< The output key, computed when finalizing. */
+
+ /** Combine information about a parent Merkle tree node from its child nodes. */
+ static NodeInfo Combine(NodeInfo&& a, NodeInfo&& b);
+ /** Insert information about a node at a certain depth, and propagate information up. */
+ void Insert(NodeInfo&& node, int depth);
+
+public:
+ /** Add a new script at a certain depth in the tree. Add() operations must be called
+ * in depth-first traversal order of binary tree. */
+ TaprootBuilder& Add(int depth, const CScript& script, int leaf_version);
+ /** Like Add(), but for a Merkle node with a given hash to the tree. */
+ TaprootBuilder& AddOmitted(int depth, const uint256& hash);
+ /** Finalize the construction. Can only be called when IsComplete() is true.
+ internal_key.IsFullyValid() must be true. */
+ TaprootBuilder& Finalize(const XOnlyPubKey& internal_key);
+
+ /** Return true if so far all input was valid. */
+ bool IsValid() const { return m_valid; }
+ /** Return whether there were either no leaves, or the leaves form a Huffman tree. */
+ bool IsComplete() const { return m_valid && (m_branch.size() == 0 || (m_branch.size() == 1 && m_branch[0].has_value())); }
+ /** Compute scriptPubKey (after Finalize()). */
+ WitnessV1Taproot GetOutput();
+ /** Check if a list of depths is legal (will lead to IsComplete()). */
+ static bool ValidDepths(const std::vector<int>& depths);
+};
+
#endif // BITCOIN_SCRIPT_STANDARD_H