aboutsummaryrefslogtreecommitdiff
path: root/src/script/miniscript.h
diff options
context:
space:
mode:
Diffstat (limited to 'src/script/miniscript.h')
-rw-r--r--src/script/miniscript.h220
1 files changed, 133 insertions, 87 deletions
diff --git a/src/script/miniscript.h b/src/script/miniscript.h
index f783d1dafc..21e2959e94 100644
--- a/src/script/miniscript.h
+++ b/src/script/miniscript.h
@@ -276,6 +276,8 @@ struct StackSize {
StackSize(MaxInt<uint32_t> in_sat, MaxInt<uint32_t> in_dsat) : sat(in_sat), dsat(in_dsat) {};
};
+struct NoDupCheck {};
+
} // namespace internal
//! A node in a miniscript expression.
@@ -301,8 +303,13 @@ private:
const Type typ;
//! Cached script length (computed by CalcScriptLen).
const size_t scriptlen;
- //! Whether a public key appears more than once in this node.
- const bool duplicate_key;
+ //! Whether a public key appears more than once in this node. This value is initialized
+ //! by all constructors except the NoDupCheck ones. The NoDupCheck ones skip the
+ //! computation, requiring it to be done manually by invoking DuplicateKeyCheck().
+ //! DuplicateKeyCheck(), or a non-NoDupCheck constructor, will compute has_duplicate_keys
+ //! for all subnodes as well.
+ mutable std::optional<bool> has_duplicate_keys;
+
//! Compute the length of the script for this miniscript (including children).
size_t CalcScriptLen() const {
@@ -654,6 +661,7 @@ public:
return TreeEvalMaybe<std::string>(false, downfn, upfn);
}
+private:
internal::Ops CalcOps() const {
switch (fragment) {
case Fragment::JUST_1: return {0, 0, {}};
@@ -777,11 +785,14 @@ public:
assert(false);
}
- /** Check whether any key is repeated.
+public:
+ /** Update duplicate key information in this Node.
+ *
* This uses a custom key comparator provided by the context in order to still detect duplicates
* for more complicated types.
*/
- template<typename Ctx> bool ContainsDuplicateKey(const Ctx& ctx) const {
+ template<typename Ctx> void DuplicateKeyCheck(const Ctx& ctx) const
+ {
// We cannot use a lambda here, as lambdas are non assignable, and the set operations
// below require moving the comparators around.
struct Comp {
@@ -789,31 +800,55 @@ public:
Comp(const Ctx& ctx) : ctx_ptr(&ctx) {}
bool operator()(const Key& a, const Key& b) const { return ctx_ptr->KeyCompare(a, b); }
};
- using set = std::set<Key, Comp>;
- auto upfn = [this, &ctx](const Node& node, Span<set> subs) -> std::optional<set> {
- if (&node != this && node.duplicate_key) return {};
+ // state in the recursive computation:
+ // - std::nullopt means "this node has duplicates"
+ // - an std::set means "this node has no duplicate keys, and they are: ...".
+ using keyset = std::set<Key, Comp>;
+ using state = std::optional<keyset>;
+
+ auto upfn = [&ctx](const Node& node, Span<state> subs) -> state {
+ // If this node is already known to have duplicates, nothing left to do.
+ if (node.has_duplicate_keys.has_value() && *node.has_duplicate_keys) return {};
+
+ // Check if one of the children is already known to have duplicates.
+ for (auto& sub : subs) {
+ if (!sub.has_value()) {
+ node.has_duplicate_keys = true;
+ return {};
+ }
+ }
+ // Start building the set of keys involved in this node and children.
+ // Start by keys in this node directly.
size_t keys_count = node.keys.size();
- set key_set{node.keys.begin(), node.keys.end(), Comp(ctx)};
- if (key_set.size() != keys_count) return {};
+ keyset key_set{node.keys.begin(), node.keys.end(), Comp(ctx)};
+ if (key_set.size() != keys_count) {
+ // It already has duplicates; bail out.
+ node.has_duplicate_keys = true;
+ return {};
+ }
- for (auto& sub: subs) {
- keys_count += sub.size();
+ // Merge the keys from the children into this set.
+ for (auto& sub : subs) {
+ keys_count += sub->size();
// Small optimization: std::set::merge is linear in the size of the second arg but
// logarithmic in the size of the first.
- if (key_set.size() < sub.size()) std::swap(key_set, sub);
- key_set.merge(sub);
- if (key_set.size() != keys_count) return {};
+ if (key_set.size() < sub->size()) std::swap(key_set, *sub);
+ key_set.merge(*sub);
+ if (key_set.size() != keys_count) {
+ node.has_duplicate_keys = true;
+ return {};
+ }
}
+ node.has_duplicate_keys = false;
return key_set;
};
- return !TreeEvalMaybe<set>(upfn);
+ TreeEval<state>(upfn);
}
-public:
//! Return the size of the script for this expression (faster than ToScript().size()).
size_t ScriptSize() const { return scriptlen; }
@@ -858,7 +893,7 @@ public:
bool CheckTimeLocksMix() const { return GetType() << "k"_mst; }
//! Check whether there is no duplicate key across this fragment and all its sub-fragments.
- bool CheckDuplicateKey() const { return !duplicate_key; }
+ bool CheckDuplicateKey() const { return has_duplicate_keys && !*has_duplicate_keys; }
//! Whether successful non-malleable satisfactions are guaranteed to be valid.
bool ValidSatisfactions() const { return IsValid() && CheckOpsLimit() && CheckStackSize(); }
@@ -872,13 +907,21 @@ public:
//! Equality testing.
bool operator==(const Node<Key>& arg) const { return Compare(*this, arg) == 0; }
- // Constructors with various argument combinations.
- template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<NodeRef<Key>> sub, std::vector<unsigned char> arg, uint32_t val = 0) : fragment(nt), k(val), data(std::move(arg)), subs(std::move(sub)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()), duplicate_key(ContainsDuplicateKey(ctx)) {}
- template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<unsigned char> arg, uint32_t val = 0) : fragment(nt), k(val), data(std::move(arg)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()), duplicate_key(ContainsDuplicateKey(ctx)) {}
- template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<NodeRef<Key>> sub, std::vector<Key> key, uint32_t val = 0) : fragment(nt), k(val), keys(std::move(key)), subs(std::move(sub)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()), duplicate_key(ContainsDuplicateKey(ctx)) {}
- template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<Key> key, uint32_t val = 0) : fragment(nt), k(val), keys(std::move(key)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()), duplicate_key(ContainsDuplicateKey(ctx)) {}
- template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<NodeRef<Key>> sub, uint32_t val = 0) : fragment(nt), k(val), subs(std::move(sub)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()), duplicate_key(ContainsDuplicateKey(ctx)) {}
- template <typename Ctx> Node(const Ctx& ctx, Fragment nt, uint32_t val = 0) : fragment(nt), k(val), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()), duplicate_key(ContainsDuplicateKey(ctx)) {}
+ // Constructors with various argument combinations, which bypass the duplicate key check.
+ Node(internal::NoDupCheck, Fragment nt, std::vector<NodeRef<Key>> sub, std::vector<unsigned char> arg, uint32_t val = 0) : fragment(nt), k(val), data(std::move(arg)), subs(std::move(sub)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()) {}
+ Node(internal::NoDupCheck, Fragment nt, std::vector<unsigned char> arg, uint32_t val = 0) : fragment(nt), k(val), data(std::move(arg)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()) {}
+ Node(internal::NoDupCheck, Fragment nt, std::vector<NodeRef<Key>> sub, std::vector<Key> key, uint32_t val = 0) : fragment(nt), k(val), keys(std::move(key)), subs(std::move(sub)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()) {}
+ Node(internal::NoDupCheck, Fragment nt, std::vector<Key> key, uint32_t val = 0) : fragment(nt), k(val), keys(std::move(key)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()) {}
+ Node(internal::NoDupCheck, Fragment nt, std::vector<NodeRef<Key>> sub, uint32_t val = 0) : fragment(nt), k(val), subs(std::move(sub)), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()) {}
+ Node(internal::NoDupCheck, Fragment nt, uint32_t val = 0) : fragment(nt), k(val), ops(CalcOps()), ss(CalcStackSize()), typ(CalcType()), scriptlen(CalcScriptLen()) {}
+
+ // Constructors with various argument combinations, which do perform the duplicate key check.
+ template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<NodeRef<Key>> sub, std::vector<unsigned char> arg, uint32_t val = 0) : Node(internal::NoDupCheck{}, nt, std::move(sub), std::move(arg), val) { DuplicateKeyCheck(ctx); }
+ template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<unsigned char> arg, uint32_t val = 0) : Node(internal::NoDupCheck{}, nt, std::move(arg), val) { DuplicateKeyCheck(ctx);}
+ template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<NodeRef<Key>> sub, std::vector<Key> key, uint32_t val = 0) : Node(internal::NoDupCheck{}, nt, std::move(sub), std::move(key), val) { DuplicateKeyCheck(ctx); }
+ template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<Key> key, uint32_t val = 0) : Node(internal::NoDupCheck{}, nt, std::move(key), val) { DuplicateKeyCheck(ctx); }
+ template <typename Ctx> Node(const Ctx& ctx, Fragment nt, std::vector<NodeRef<Key>> sub, uint32_t val = 0) : Node(internal::NoDupCheck{}, nt, std::move(sub), val) { DuplicateKeyCheck(ctx); }
+ template <typename Ctx> Node(const Ctx& ctx, Fragment nt, uint32_t val = 0) : Node(internal::NoDupCheck{}, nt, val) { DuplicateKeyCheck(ctx); }
};
namespace internal {
@@ -965,15 +1008,15 @@ std::optional<std::pair<std::vector<unsigned char>, int>> ParseHexStrEnd(Span<co
}
/** BuildBack pops the last two elements off `constructed` and wraps them in the specified Fragment */
-template<typename Key, typename Ctx>
-void BuildBack(const Ctx& ctx, Fragment nt, std::vector<NodeRef<Key>>& constructed, const bool reverse = false)
+template<typename Key>
+void BuildBack(Fragment nt, std::vector<NodeRef<Key>>& constructed, const bool reverse = false)
{
NodeRef<Key> child = std::move(constructed.back());
constructed.pop_back();
if (reverse) {
- constructed.back() = MakeNodeRef<Key>(ctx, nt, Vector(std::move(child), std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, nt, Vector(std::move(child), std::move(constructed.back())));
} else {
- constructed.back() = MakeNodeRef<Key>(ctx, nt, Vector(std::move(constructed.back()), std::move(child)));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, nt, Vector(std::move(constructed.back()), std::move(child)));
}
}
@@ -1030,7 +1073,7 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
to_parse.emplace_back(ParseContext::WRAP_T, -1, -1);
} else if (in[j] == 'l') {
// The l: wrapper is equivalent to or_i(0,X)
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::JUST_0));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::JUST_0));
to_parse.emplace_back(ParseContext::OR_I, -1, -1);
} else {
return {};
@@ -1042,56 +1085,56 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
}
case ParseContext::EXPR: {
if (Const("0", in)) {
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::JUST_0));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::JUST_0));
} else if (Const("1", in)) {
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::JUST_1));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::JUST_1));
} else if (Const("pk(", in)) {
auto res = ParseKeyEnd<Key, Ctx>(in, ctx);
if (!res) return {};
auto& [key, key_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::WRAP_C, Vector(MakeNodeRef<Key>(ctx, Fragment::PK_K, Vector(std::move(key))))));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_C, Vector(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::PK_K, Vector(std::move(key))))));
in = in.subspan(key_size + 1);
} else if (Const("pkh(", in)) {
auto res = ParseKeyEnd<Key>(in, ctx);
if (!res) return {};
auto& [key, key_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::WRAP_C, Vector(MakeNodeRef<Key>(ctx, Fragment::PK_H, Vector(std::move(key))))));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_C, Vector(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::PK_H, Vector(std::move(key))))));
in = in.subspan(key_size + 1);
} else if (Const("pk_k(", in)) {
auto res = ParseKeyEnd<Key>(in, ctx);
if (!res) return {};
auto& [key, key_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::PK_K, Vector(std::move(key))));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::PK_K, Vector(std::move(key))));
in = in.subspan(key_size + 1);
} else if (Const("pk_h(", in)) {
auto res = ParseKeyEnd<Key>(in, ctx);
if (!res) return {};
auto& [key, key_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::PK_H, Vector(std::move(key))));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::PK_H, Vector(std::move(key))));
in = in.subspan(key_size + 1);
} else if (Const("sha256(", in)) {
auto res = ParseHexStrEnd(in, 32, ctx);
if (!res) return {};
auto& [hash, hash_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::SHA256, std::move(hash)));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::SHA256, std::move(hash)));
in = in.subspan(hash_size + 1);
} else if (Const("ripemd160(", in)) {
auto res = ParseHexStrEnd(in, 20, ctx);
if (!res) return {};
auto& [hash, hash_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::RIPEMD160, std::move(hash)));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::RIPEMD160, std::move(hash)));
in = in.subspan(hash_size + 1);
} else if (Const("hash256(", in)) {
auto res = ParseHexStrEnd(in, 32, ctx);
if (!res) return {};
auto& [hash, hash_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::HASH256, std::move(hash)));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::HASH256, std::move(hash)));
in = in.subspan(hash_size + 1);
} else if (Const("hash160(", in)) {
auto res = ParseHexStrEnd(in, 20, ctx);
if (!res) return {};
auto& [hash, hash_size] = *res;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::HASH160, std::move(hash)));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::HASH160, std::move(hash)));
in = in.subspan(hash_size + 1);
} else if (Const("after(", in)) {
int arg_size = FindNextChar(in, ')');
@@ -1099,7 +1142,7 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
int64_t num;
if (!ParseInt64(std::string(in.begin(), in.begin() + arg_size), &num)) return {};
if (num < 1 || num >= 0x80000000L) return {};
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::AFTER, num));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::AFTER, num));
in = in.subspan(arg_size + 1);
} else if (Const("older(", in)) {
int arg_size = FindNextChar(in, ')');
@@ -1107,7 +1150,7 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
int64_t num;
if (!ParseInt64(std::string(in.begin(), in.begin() + arg_size), &num)) return {};
if (num < 1 || num >= 0x80000000L) return {};
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::OLDER, num));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::OLDER, num));
in = in.subspan(arg_size + 1);
} else if (Const("multi(", in)) {
// Get threshold
@@ -1128,7 +1171,7 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
}
if (keys.size() < 1 || keys.size() > 20) return {};
if (k < 1 || k > (int64_t)keys.size()) return {};
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::MULTI, std::move(keys), k));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::MULTI, std::move(keys), k));
} else if (Const("thresh(", in)) {
int next_comma = FindNextChar(in, ',');
if (next_comma < 1) return {};
@@ -1172,69 +1215,69 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
break;
}
case ParseContext::ALT: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_A, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_A, Vector(std::move(constructed.back())));
break;
}
case ParseContext::SWAP: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_S, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_S, Vector(std::move(constructed.back())));
break;
}
case ParseContext::CHECK: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_C, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_C, Vector(std::move(constructed.back())));
break;
}
case ParseContext::DUP_IF: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_D, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_D, Vector(std::move(constructed.back())));
break;
}
case ParseContext::NON_ZERO: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_J, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_J, Vector(std::move(constructed.back())));
break;
}
case ParseContext::ZERO_NOTEQUAL: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_N, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_N, Vector(std::move(constructed.back())));
break;
}
case ParseContext::VERIFY: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_V, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_V, Vector(std::move(constructed.back())));
break;
}
case ParseContext::WRAP_U: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::OR_I, Vector(std::move(constructed.back()), MakeNodeRef<Key>(ctx, Fragment::JUST_0)));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::OR_I, Vector(std::move(constructed.back()), MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::JUST_0)));
break;
}
case ParseContext::WRAP_T: {
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::AND_V, Vector(std::move(constructed.back()), MakeNodeRef<Key>(ctx, Fragment::JUST_1)));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::AND_V, Vector(std::move(constructed.back()), MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::JUST_1)));
break;
}
case ParseContext::AND_B: {
- BuildBack(ctx, Fragment::AND_B, constructed);
+ BuildBack(Fragment::AND_B, constructed);
break;
}
case ParseContext::AND_N: {
auto mid = std::move(constructed.back());
constructed.pop_back();
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::ANDOR, Vector(std::move(constructed.back()), std::move(mid), MakeNodeRef<Key>(ctx, Fragment::JUST_0)));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::ANDOR, Vector(std::move(constructed.back()), std::move(mid), MakeNodeRef<Key>(ctx, Fragment::JUST_0)));
break;
}
case ParseContext::AND_V: {
- BuildBack(ctx, Fragment::AND_V, constructed);
+ BuildBack(Fragment::AND_V, constructed);
break;
}
case ParseContext::OR_B: {
- BuildBack(ctx, Fragment::OR_B, constructed);
+ BuildBack(Fragment::OR_B, constructed);
break;
}
case ParseContext::OR_C: {
- BuildBack(ctx, Fragment::OR_C, constructed);
+ BuildBack(Fragment::OR_C, constructed);
break;
}
case ParseContext::OR_D: {
- BuildBack(ctx, Fragment::OR_D, constructed);
+ BuildBack(Fragment::OR_D, constructed);
break;
}
case ParseContext::OR_I: {
- BuildBack(ctx, Fragment::OR_I, constructed);
+ BuildBack(Fragment::OR_I, constructed);
break;
}
case ParseContext::ANDOR: {
@@ -1242,7 +1285,7 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
constructed.pop_back();
auto mid = std::move(constructed.back());
constructed.pop_back();
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::ANDOR, Vector(std::move(constructed.back()), std::move(mid), std::move(right)));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::ANDOR, Vector(std::move(constructed.back()), std::move(mid), std::move(right)));
break;
}
case ParseContext::THRESH: {
@@ -1261,7 +1304,7 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
constructed.pop_back();
}
std::reverse(subs.begin(), subs.end());
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::THRESH, std::move(subs), k));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::THRESH, std::move(subs), k));
} else {
return {};
}
@@ -1283,7 +1326,9 @@ inline NodeRef<Key> Parse(Span<const char> in, const Ctx& ctx)
// Sanity checks on the produced miniscript
assert(constructed.size() == 1);
if (in.size() > 0) return {};
- return std::move(constructed.front());
+ const NodeRef<Key> tl_node = std::move(constructed.front());
+ tl_node->DuplicateKeyCheck(ctx);
+ return tl_node;
}
/** Decode a script into opcode/push pairs.
@@ -1394,12 +1439,12 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
// Constants
if (in[0].first == OP_1) {
++in;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::JUST_1));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::JUST_1));
break;
}
if (in[0].first == OP_0) {
++in;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::JUST_0));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::JUST_0));
break;
}
// Public keys
@@ -1407,14 +1452,14 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
auto key = ctx.FromPKBytes(in[0].second.begin(), in[0].second.end());
if (!key) return {};
++in;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::PK_K, Vector(std::move(*key))));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::PK_K, Vector(std::move(*key))));
break;
}
if (last - in >= 5 && in[0].first == OP_VERIFY && in[1].first == OP_EQUAL && in[3].first == OP_HASH160 && in[4].first == OP_DUP && in[2].second.size() == 20) {
auto key = ctx.FromPKHBytes(in[2].second.begin(), in[2].second.end());
if (!key) return {};
in += 5;
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::PK_H, Vector(std::move(*key))));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::PK_H, Vector(std::move(*key))));
break;
}
// Time locks
@@ -1422,31 +1467,31 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
if (last - in >= 2 && in[0].first == OP_CHECKSEQUENCEVERIFY && (num = ParseScriptNumber(in[1]))) {
in += 2;
if (*num < 1 || *num > 0x7FFFFFFFL) return {};
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::OLDER, *num));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::OLDER, *num));
break;
}
if (last - in >= 2 && in[0].first == OP_CHECKLOCKTIMEVERIFY && (num = ParseScriptNumber(in[1]))) {
in += 2;
if (num < 1 || num > 0x7FFFFFFFL) return {};
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::AFTER, *num));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::AFTER, *num));
break;
}
// Hashes
if (last - in >= 7 && in[0].first == OP_EQUAL && in[3].first == OP_VERIFY && in[4].first == OP_EQUAL && (num = ParseScriptNumber(in[5])) && num == 32 && in[6].first == OP_SIZE) {
if (in[2].first == OP_SHA256 && in[1].second.size() == 32) {
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::SHA256, in[1].second));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::SHA256, in[1].second));
in += 7;
break;
} else if (in[2].first == OP_RIPEMD160 && in[1].second.size() == 20) {
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::RIPEMD160, in[1].second));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::RIPEMD160, in[1].second));
in += 7;
break;
} else if (in[2].first == OP_HASH256 && in[1].second.size() == 32) {
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::HASH256, in[1].second));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::HASH256, in[1].second));
in += 7;
break;
} else if (in[2].first == OP_HASH160 && in[1].second.size() == 20) {
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::HASH160, in[1].second));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::HASH160, in[1].second));
in += 7;
break;
}
@@ -1467,7 +1512,7 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
if (!k || *k < 1 || *k > *n) return {};
in += 3 + *n;
std::reverse(keys.begin(), keys.end());
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::MULTI, std::move(keys), *k));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::MULTI, std::move(keys), *k));
break;
}
/** In the following wrappers, we only need to push SINGLE_BKV_EXPR rather
@@ -1562,63 +1607,63 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
case DecodeContext::SWAP: {
if (in >= last || in[0].first != OP_SWAP || constructed.empty()) return {};
++in;
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_S, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_S, Vector(std::move(constructed.back())));
break;
}
case DecodeContext::ALT: {
if (in >= last || in[0].first != OP_TOALTSTACK || constructed.empty()) return {};
++in;
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_A, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_A, Vector(std::move(constructed.back())));
break;
}
case DecodeContext::CHECK: {
if (constructed.empty()) return {};
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_C, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_C, Vector(std::move(constructed.back())));
break;
}
case DecodeContext::DUP_IF: {
if (constructed.empty()) return {};
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_D, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_D, Vector(std::move(constructed.back())));
break;
}
case DecodeContext::VERIFY: {
if (constructed.empty()) return {};
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_V, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_V, Vector(std::move(constructed.back())));
break;
}
case DecodeContext::NON_ZERO: {
if (constructed.empty()) return {};
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_J, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_J, Vector(std::move(constructed.back())));
break;
}
case DecodeContext::ZERO_NOTEQUAL: {
if (constructed.empty()) return {};
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::WRAP_N, Vector(std::move(constructed.back())));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::WRAP_N, Vector(std::move(constructed.back())));
break;
}
case DecodeContext::AND_V: {
if (constructed.size() < 2) return {};
- BuildBack(ctx, Fragment::AND_V, constructed, /*reverse=*/true);
+ BuildBack(Fragment::AND_V, constructed, /*reverse=*/true);
break;
}
case DecodeContext::AND_B: {
if (constructed.size() < 2) return {};
- BuildBack(ctx, Fragment::AND_B, constructed, /*reverse=*/true);
+ BuildBack(Fragment::AND_B, constructed, /*reverse=*/true);
break;
}
case DecodeContext::OR_B: {
if (constructed.size() < 2) return {};
- BuildBack(ctx, Fragment::OR_B, constructed, /*reverse=*/true);
+ BuildBack(Fragment::OR_B, constructed, /*reverse=*/true);
break;
}
case DecodeContext::OR_C: {
if (constructed.size() < 2) return {};
- BuildBack(ctx, Fragment::OR_C, constructed, /*reverse=*/true);
+ BuildBack(Fragment::OR_C, constructed, /*reverse=*/true);
break;
}
case DecodeContext::OR_D: {
if (constructed.size() < 2) return {};
- BuildBack(ctx, Fragment::OR_D, constructed, /*reverse=*/true);
+ BuildBack(Fragment::OR_D, constructed, /*reverse=*/true);
break;
}
case DecodeContext::ANDOR: {
@@ -1628,7 +1673,7 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
NodeRef<Key> right = std::move(constructed.back());
constructed.pop_back();
NodeRef<Key> mid = std::move(constructed.back());
- constructed.back() = MakeNodeRef<Key>(ctx, Fragment::ANDOR, Vector(std::move(left), std::move(mid), std::move(right)));
+ constructed.back() = MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::ANDOR, Vector(std::move(left), std::move(mid), std::move(right)));
break;
}
case DecodeContext::THRESH_W: {
@@ -1652,7 +1697,7 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
constructed.pop_back();
subs.push_back(std::move(sub));
}
- constructed.push_back(MakeNodeRef<Key>(ctx, Fragment::THRESH, std::move(subs), k));
+ constructed.push_back(MakeNodeRef<Key>(internal::NoDupCheck{}, Fragment::THRESH, std::move(subs), k));
break;
}
case DecodeContext::ENDIF: {
@@ -1702,7 +1747,7 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
if (in >= last) return {};
if (in[0].first == OP_IF) {
++in;
- BuildBack(ctx, Fragment::OR_I, constructed, /*reverse=*/true);
+ BuildBack(Fragment::OR_I, constructed, /*reverse=*/true);
} else if (in[0].first == OP_NOTIF) {
++in;
to_parse.emplace_back(DecodeContext::ANDOR, -1, -1);
@@ -1717,6 +1762,7 @@ inline NodeRef<Key> DecodeScript(I& in, I last, const Ctx& ctx)
}
if (constructed.size() != 1) return {};
const NodeRef<Key> tl_node = std::move(constructed.front());
+ tl_node->DuplicateKeyCheck(ctx);
// Note that due to how ComputeType works (only assign the type to the node if the
// subs' types are valid) this would fail if any node of tree is badly typed.
if (!tl_node->IsValidTopLevel()) return {};