// Copyright (c) 2017-2018 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include #include InitInterfaces* g_rpc_interfaces = nullptr; // Converts a hex string to a public key if possible CPubKey HexToPubKey(const std::string& hex_in) { if (!IsHex(hex_in)) { throw JSONRPCError(RPC_INVALID_ADDRESS_OR_KEY, "Invalid public key: " + hex_in); } CPubKey vchPubKey(ParseHex(hex_in)); if (!vchPubKey.IsFullyValid()) { throw JSONRPCError(RPC_INVALID_ADDRESS_OR_KEY, "Invalid public key: " + hex_in); } return vchPubKey; } // Retrieves a public key for an address from the given CKeyStore CPubKey AddrToPubKey(CKeyStore* const keystore, const std::string& addr_in) { CTxDestination dest = DecodeDestination(addr_in); if (!IsValidDestination(dest)) { throw JSONRPCError(RPC_INVALID_ADDRESS_OR_KEY, "Invalid address: " + addr_in); } CKeyID key = GetKeyForDestination(*keystore, dest); if (key.IsNull()) { throw JSONRPCError(RPC_INVALID_ADDRESS_OR_KEY, strprintf("%s does not refer to a key", addr_in)); } CPubKey vchPubKey; if (!keystore->GetPubKey(key, vchPubKey)) { throw JSONRPCError(RPC_INVALID_ADDRESS_OR_KEY, strprintf("no full public key for address %s", addr_in)); } if (!vchPubKey.IsFullyValid()) { throw JSONRPCError(RPC_INTERNAL_ERROR, "Wallet contains an invalid public key"); } return vchPubKey; } // Creates a multisig redeemscript from a given list of public keys and number required. CScript CreateMultisigRedeemscript(const int required, const std::vector& pubkeys) { // Gather public keys if (required < 1) { throw JSONRPCError(RPC_INVALID_PARAMETER, "a multisignature address must require at least one key to redeem"); } if ((int)pubkeys.size() < required) { throw JSONRPCError(RPC_INVALID_PARAMETER, strprintf("not enough keys supplied (got %u keys, but need at least %d to redeem)", pubkeys.size(), required)); } if (pubkeys.size() > 16) { throw JSONRPCError(RPC_INVALID_PARAMETER, "Number of keys involved in the multisignature address creation > 16\nReduce the number"); } CScript result = GetScriptForMultisig(required, pubkeys); if (result.size() > MAX_SCRIPT_ELEMENT_SIZE) { throw JSONRPCError(RPC_INVALID_PARAMETER, (strprintf("redeemScript exceeds size limit: %d > %d", result.size(), MAX_SCRIPT_ELEMENT_SIZE))); } return result; } class DescribeAddressVisitor : public boost::static_visitor { public: explicit DescribeAddressVisitor() {} UniValue operator()(const CNoDestination& dest) const { return UniValue(UniValue::VOBJ); } UniValue operator()(const CKeyID& keyID) const { UniValue obj(UniValue::VOBJ); obj.pushKV("isscript", false); obj.pushKV("iswitness", false); return obj; } UniValue operator()(const CScriptID& scriptID) const { UniValue obj(UniValue::VOBJ); obj.pushKV("isscript", true); obj.pushKV("iswitness", false); return obj; } UniValue operator()(const WitnessV0KeyHash& id) const { UniValue obj(UniValue::VOBJ); obj.pushKV("isscript", false); obj.pushKV("iswitness", true); obj.pushKV("witness_version", 0); obj.pushKV("witness_program", HexStr(id.begin(), id.end())); return obj; } UniValue operator()(const WitnessV0ScriptHash& id) const { UniValue obj(UniValue::VOBJ); obj.pushKV("isscript", true); obj.pushKV("iswitness", true); obj.pushKV("witness_version", 0); obj.pushKV("witness_program", HexStr(id.begin(), id.end())); return obj; } UniValue operator()(const WitnessUnknown& id) const { UniValue obj(UniValue::VOBJ); obj.pushKV("iswitness", true); obj.pushKV("witness_version", (int)id.version); obj.pushKV("witness_program", HexStr(id.program, id.program + id.length)); return obj; } }; UniValue DescribeAddress(const CTxDestination& dest) { return boost::apply_visitor(DescribeAddressVisitor(), dest); } unsigned int ParseConfirmTarget(const UniValue& value) { int target = value.get_int(); unsigned int max_target = ::feeEstimator.HighestTargetTracked(FeeEstimateHorizon::LONG_HALFLIFE); if (target < 1 || (unsigned int)target > max_target) { throw JSONRPCError(RPC_INVALID_PARAMETER, strprintf("Invalid conf_target, must be between %u - %u", 1, max_target)); } return (unsigned int)target; } RPCErrorCode RPCErrorFromTransactionError(TransactionError terr) { switch (terr) { case TransactionError::MEMPOOL_REJECTED: return RPC_TRANSACTION_REJECTED; case TransactionError::ALREADY_IN_CHAIN: return RPC_TRANSACTION_ALREADY_IN_CHAIN; case TransactionError::P2P_DISABLED: return RPC_CLIENT_P2P_DISABLED; case TransactionError::INVALID_PSBT: case TransactionError::PSBT_MISMATCH: return RPC_INVALID_PARAMETER; case TransactionError::SIGHASH_MISMATCH: return RPC_DESERIALIZATION_ERROR; default: break; } return RPC_TRANSACTION_ERROR; } UniValue JSONRPCTransactionError(TransactionError terr, const std::string& err_string) { if (err_string.length() > 0) { return JSONRPCError(RPCErrorFromTransactionError(terr), err_string); } else { return JSONRPCError(RPCErrorFromTransactionError(terr), TransactionErrorString(terr)); } } struct Section { Section(const std::string& left, const std::string& right) : m_left{left}, m_right{right} {} const std::string m_left; const std::string m_right; }; struct Sections { std::vector
m_sections; size_t m_max_pad{0}; void PushSection(const Section& s) { m_max_pad = std::max(m_max_pad, s.m_left.size()); m_sections.push_back(s); } enum class OuterType { ARR, OBJ, NAMED_ARG, // Only set on first recursion }; void Push(const RPCArg& arg, const size_t current_indent = 5, const OuterType outer_type = OuterType::NAMED_ARG) { const auto indent = std::string(current_indent, ' '); const auto indent_next = std::string(current_indent + 2, ' '); switch (arg.m_type) { case RPCArg::Type::STR_HEX: case RPCArg::Type::STR: case RPCArg::Type::NUM: case RPCArg::Type::AMOUNT: case RPCArg::Type::BOOL: { if (outer_type == OuterType::NAMED_ARG) return; // Nothing more to do for non-recursive types on first recursion auto left = indent; if (arg.m_type_str.size() != 0 && outer_type == OuterType::OBJ) { left += "\"" + arg.m_name + "\": " + arg.m_type_str.at(0); } else { left += outer_type == OuterType::OBJ ? arg.ToStringObj(/* oneline */ false) : arg.ToString(/* oneline */ false); } left += ","; PushSection({left, arg.ToDescriptionString()}); break; } case RPCArg::Type::OBJ: case RPCArg::Type::OBJ_USER_KEYS: { const auto right = outer_type == OuterType::NAMED_ARG ? "" : arg.ToDescriptionString(); PushSection({indent + "{", right}); for (const auto& arg_inner : arg.m_inner) { Push(arg_inner, current_indent + 2, OuterType::OBJ); } if (arg.m_type != RPCArg::Type::OBJ) { PushSection({indent_next + "...", ""}); } PushSection({indent + "}" + (outer_type != OuterType::NAMED_ARG ? "," : ""), ""}); break; } case RPCArg::Type::ARR: { auto left = indent; left += outer_type == OuterType::OBJ ? "\"" + arg.m_name + "\": " : ""; left += "["; const auto right = outer_type == OuterType::NAMED_ARG ? "" : arg.ToDescriptionString(); PushSection({left, right}); for (const auto& arg_inner : arg.m_inner) { Push(arg_inner, current_indent + 2, OuterType::ARR); } PushSection({indent_next + "...", ""}); PushSection({indent + "]" + (outer_type != OuterType::NAMED_ARG ? "," : ""), ""}); break; } // no default case, so the compiler can warn about missing cases } } std::string ToString() const { std::string ret; const size_t pad = m_max_pad + 4; for (const auto& s : m_sections) { if (s.m_right.empty()) { ret += s.m_left; ret += "\n"; continue; } std::string left = s.m_left; left.resize(pad, ' '); ret += left; // Properly pad after newlines std::string right; size_t begin = 0; size_t new_line_pos = s.m_right.find_first_of('\n'); while (true) { right += s.m_right.substr(begin, new_line_pos - begin); if (new_line_pos == std::string::npos) { break; //No new line } right += "\n" + std::string(pad, ' '); begin = s.m_right.find_first_not_of(' ', new_line_pos + 1); if (begin == std::string::npos) { break; // Empty line } new_line_pos = s.m_right.find_first_of('\n', begin + 1); } ret += right; ret += "\n"; } return ret; } }; RPCHelpMan::RPCHelpMan(std::string name, std::string description, std::vector args, RPCResults results, RPCExamples examples) : m_name{std::move(name)}, m_description{std::move(description)}, m_args{std::move(args)}, m_results{std::move(results)}, m_examples{std::move(examples)} { std::set named_args; for (const auto& arg : m_args) { // Should have unique named arguments assert(named_args.insert(arg.m_name).second); } } std::string RPCResults::ToDescriptionString() const { std::string result; for (const auto& r : m_results) { if (r.m_cond.empty()) { result += "\nResult:\n"; } else { result += "\nResult (" + r.m_cond + "):\n"; } result += r.m_result; } return result; } std::string RPCExamples::ToDescriptionString() const { return m_examples.empty() ? m_examples : "\nExamples:\n" + m_examples; } std::string RPCHelpMan::ToString() const { std::string ret; // Oneline summary ret += m_name; bool was_optional{false}; for (const auto& arg : m_args) { bool optional; if (arg.m_fallback.which() == 1) { optional = true; } else { optional = RPCArg::Optional::NO != boost::get(arg.m_fallback); } ret += " "; if (optional) { if (!was_optional) ret += "( "; was_optional = true; } else { if (was_optional) ret += ") "; was_optional = false; } ret += arg.ToString(/* oneline */ true); } if (was_optional) ret += " )"; ret += "\n"; // Description ret += m_description; // Arguments Sections sections; for (size_t i{0}; i < m_args.size(); ++i) { const auto& arg = m_args.at(i); if (i == 0) ret += "\nArguments:\n"; // Push named argument name and description sections.m_sections.emplace_back(std::to_string(i + 1) + ". " + arg.m_name, arg.ToDescriptionString()); sections.m_max_pad = std::max(sections.m_max_pad, sections.m_sections.back().m_left.size()); // Recursively push nested args sections.Push(arg); } ret += sections.ToString(); // Result ret += m_results.ToDescriptionString(); // Examples ret += m_examples.ToDescriptionString(); return ret; } std::string RPCArg::ToDescriptionString() const { std::string ret; ret += "("; if (m_type_str.size() != 0) { ret += m_type_str.at(1); } else { switch (m_type) { case Type::STR_HEX: case Type::STR: { ret += "string"; break; } case Type::NUM: { ret += "numeric"; break; } case Type::AMOUNT: { ret += "numeric or string"; break; } case Type::BOOL: { ret += "boolean"; break; } case Type::OBJ: case Type::OBJ_USER_KEYS: { ret += "json object"; break; } case Type::ARR: { ret += "json array"; break; } // no default case, so the compiler can warn about missing cases } } if (m_fallback.which() == 1) { ret += ", optional, default=" + boost::get(m_fallback); } else { switch (boost::get(m_fallback)) { case RPCArg::Optional::OMITTED: { // nothing to do. Element is treated as if not present and has no default value break; } case RPCArg::Optional::OMITTED_NAMED_ARG: { ret += ", optional"; // Default value is "null" break; } case RPCArg::Optional::NO: { ret += ", required"; break; } // no default case, so the compiler can warn about missing cases } } ret += ")"; ret += m_description.empty() ? "" : " " + m_description; return ret; } std::string RPCArg::ToStringObj(const bool oneline) const { std::string res; res += "\""; res += m_name; if (oneline) { res += "\":"; } else { res += "\": "; } switch (m_type) { case Type::STR: return res + "\"str\""; case Type::STR_HEX: return res + "\"hex\""; case Type::NUM: return res + "n"; case Type::AMOUNT: return res + "amount"; case Type::BOOL: return res + "bool"; case Type::ARR: res += "["; for (const auto& i : m_inner) { res += i.ToString(oneline) + ","; } return res + "...]"; case Type::OBJ: case Type::OBJ_USER_KEYS: // Currently unused, so avoid writing dead code assert(false); // no default case, so the compiler can warn about missing cases } assert(false); } std::string RPCArg::ToString(const bool oneline) const { if (oneline && !m_oneline_description.empty()) return m_oneline_description; switch (m_type) { case Type::STR_HEX: case Type::STR: { return "\"" + m_name + "\""; } case Type::NUM: case Type::AMOUNT: case Type::BOOL: { return m_name; } case Type::OBJ: case Type::OBJ_USER_KEYS: { std::string res; for (size_t i = 0; i < m_inner.size();) { res += m_inner[i].ToStringObj(oneline); if (++i < m_inner.size()) res += ","; } if (m_type == Type::OBJ) { return "{" + res + "}"; } else { return "{" + res + ",...}"; } } case Type::ARR: { std::string res; for (const auto& i : m_inner) { res += i.ToString(oneline) + ","; } return "[" + res + "...]"; } // no default case, so the compiler can warn about missing cases } assert(false); }