/** * Copyright © 2025 IBM Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #pragma once #include #include #include #include #include /** * @namespace json_parser_utils * * Contains utility functions for parsing JSON data. */ namespace phosphor::power::json_parser_utils { /** * Returns the specified property of the specified JSON element. * * Throws an invalid_argument exception if the property does not exist. * * @param element JSON element * @param property property name */ #pragma GCC diagnostic push #if __GNUC__ >= 13 #pragma GCC diagnostic ignored "-Wdangling-reference" #endif inline const nlohmann::json& getRequiredProperty(const nlohmann::json& element, const std::string& property) { auto it = element.find(property); if (it == element.end()) { throw std::invalid_argument{"Required property missing: " + property}; } return *it; } #pragma GCC diagnostic pop /** * Parses a JSON element containing a bit position (from 0-7). * * Returns the corresponding C++ uint8_t value. * * Throws an exception if parsing fails. * * @param element JSON element * @return uint8_t value */ inline uint8_t parseBitPosition(const nlohmann::json& element) { // Verify element contains an integer if (!element.is_number_integer()) { throw std::invalid_argument{"Element is not an integer"}; } int value = element.get(); if ((value < 0) || (value > 7)) { throw std::invalid_argument{"Element is not a bit position"}; } return static_cast(value); } /** * Parses a JSON element containing a bit value (0 or 1). * * Returns the corresponding C++ uint8_t value. * * Throws an exception if parsing fails. * * @param element JSON element * @return uint8_t value */ inline uint8_t parseBitValue(const nlohmann::json& element) { // Verify element contains an integer if (!element.is_number_integer()) { throw std::invalid_argument{"Element is not an integer"}; } int value = element.get(); if ((value < 0) || (value > 1)) { throw std::invalid_argument{"Element is not a bit value"}; } return static_cast(value); } /** * Parses a JSON element containing a boolean. * * Returns the corresponding C++ boolean value. * * Throws an exception if parsing fails. * * @param element JSON element * @return boolean value */ inline bool parseBoolean(const nlohmann::json& element) { // Verify element contains a boolean if (!element.is_boolean()) { throw std::invalid_argument{"Element is not a boolean"}; } return element.get(); } /** * Parses a JSON element containing a double (floating point number). * * Returns the corresponding C++ double value. * * Throws an exception if parsing fails. * * @param element JSON element * @return double value */ inline double parseDouble(const nlohmann::json& element) { // Verify element contains a number (integer or floating point) if (!element.is_number()) { throw std::invalid_argument{"Element is not a number"}; } return element.get(); } /** * Parses a JSON element containing a byte value expressed as a hexadecimal * string. * * The JSON number data type does not support the hexadecimal format. For this * reason, hexadecimal byte values are stored as strings in the configuration * file. * * Returns the corresponding C++ uint8_t value. * * Throws an exception if parsing fails. * * @param element JSON element * @return uint8_t value */ inline uint8_t parseHexByte(const nlohmann::json& element) { if (!element.is_string()) { throw std::invalid_argument{"Element is not a string"}; } std::string value = element.get(); bool isHex = (value.compare(0, 2, "0x") == 0) && (value.size() > 2) && (value.size() < 5) && (value.find_first_not_of("0123456789abcdefABCDEF", 2) == std::string::npos); if (!isHex) { throw std::invalid_argument{"Element is not hexadecimal string"}; } return static_cast(std::stoul(value, nullptr, 0)); } /** * Parses a JSON element containing an array of byte values expressed as a * hexadecimal strings. * * Returns the corresponding C++ uint8_t values. * * Throws an exception if parsing fails. * * @param element JSON element * @return vector of uint8_t */ std::vector parseHexByteArray(const nlohmann::json& element); /** * Parses a JSON element containing an 8-bit signed integer. * * Returns the corresponding C++ int8_t value. * * Throws an exception if parsing fails. * * @param element JSON element * @return int8_t value */ inline int8_t parseInt8(const nlohmann::json& element) { // Verify element contains an integer if (!element.is_number_integer()) { throw std::invalid_argument{"Element is not an integer"}; } int value = element.get(); if ((value < INT8_MIN) || (value > INT8_MAX)) { throw std::invalid_argument{"Element is not an 8-bit signed integer"}; } return static_cast(value); } /** * Parses a JSON element containing a string. * * Returns the corresponding C++ string. * * Throws an exception if parsing fails. * * @param element JSON element * @param isEmptyValid indicates whether an empty string value is valid * @return string value */ inline std::string parseString(const nlohmann::json& element, bool isEmptyValid = false) { if (!element.is_string()) { throw std::invalid_argument{"Element is not a string"}; } std::string value = element.get(); if (value.empty() && !isEmptyValid) { throw std::invalid_argument{"Element contains an empty string"}; } return value; } /** * Parses a JSON element containing an 8-bit unsigned integer. * * Returns the corresponding C++ uint8_t value. * * Throws an exception if parsing fails. * * @param element JSON element * @return uint8_t value */ inline uint8_t parseUint8(const nlohmann::json& element) { // Verify element contains an integer if (!element.is_number_integer()) { throw std::invalid_argument{"Element is not an integer"}; } int value = element.get(); if ((value < 0) || (value > UINT8_MAX)) { throw std::invalid_argument{"Element is not an 8-bit unsigned integer"}; } return static_cast(value); } /** * Parses a JSON element containing an unsigned integer. * * Returns the corresponding C++ unsigned int value. * * Throws an exception if parsing fails. * * @param element JSON element * @return unsigned int value */ inline unsigned int parseUnsignedInteger(const nlohmann::json& element) { // Verify element contains an unsigned integer if (!element.is_number_unsigned()) { throw std::invalid_argument{"Element is not an unsigned integer"}; } return element.get(); } /** * Verifies that the specified JSON element is a JSON array. * * Throws an invalid_argument exception if the element is not an array. * * @param element JSON element */ inline void verifyIsArray(const nlohmann::json& element) { if (!element.is_array()) { throw std::invalid_argument{"Element is not an array"}; } } /** * Verifies that the specified JSON element is a JSON object. * * Throws an invalid_argument exception if the element is not an object. * * @param element JSON element */ inline void verifyIsObject(const nlohmann::json& element) { if (!element.is_object()) { throw std::invalid_argument{"Element is not an object"}; } } /** * Verifies that the specified JSON element contains the expected number of * properties. * * Throws an invalid_argument exception if the element contains a different * number of properties. This indicates the element contains an invalid * property. * * @param element JSON element * @param expectedCount expected number of properties in element */ inline void verifyPropertyCount(const nlohmann::json& element, unsigned int expectedCount) { if (element.size() != expectedCount) { throw std::invalid_argument{"Element contains an invalid property"}; } } } // namespace phosphor::power::json_parser_utils