/* * Copyright (c) 2017 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #ifndef ZEPHYR_INCLUDE_DATA_JSON_H_ #define ZEPHYR_INCLUDE_DATA_JSON_H_ #include #include #include #include #ifdef __cplusplus extern "C" { #endif /** * @brief Structured Data * @defgroup structured_data Structured Data */ /** * @defgroup json JSON * @ingroup structured_data * @{ */ enum json_tokens { /* Before changing this enum, ensure that its maximum * value is still within 7 bits. See comment next to the * declaration of `type` in struct json_obj_descr. */ JSON_TOK_NONE = '_', JSON_TOK_OBJECT_START = '{', JSON_TOK_OBJECT_END = '}', JSON_TOK_LIST_START = '[', JSON_TOK_LIST_END = ']', JSON_TOK_STRING = '"', JSON_TOK_COLON = ':', JSON_TOK_COMMA = ',', JSON_TOK_NUMBER = '0', JSON_TOK_TRUE = 't', JSON_TOK_FALSE = 'f', JSON_TOK_NULL = 'n', JSON_TOK_ERROR = '!', JSON_TOK_EOF = '\0', }; struct json_obj_descr { const char *field_name; /* Alignment can be 1, 2, 4, or 8. The macros to create * a struct json_obj_descr will store the alignment's * power of 2 in order to keep this value in the 0-3 range * and thus use only 2 bits. */ uint32_t align_shift : 2; /* 127 characters is more than enough for a field name. */ uint32_t field_name_len : 7; /* Valid values here (enum json_tokens): JSON_TOK_STRING, * JSON_TOK_NUMBER, JSON_TOK_TRUE, JSON_TOK_FALSE, * JSON_TOK_OBJECT_START, JSON_TOK_LIST_START. (All others * ignored.) Maximum value is '}' (125), so this has to be 7 bits * long. */ uint32_t type : 7; /* 65535 bytes is more than enough for many JSON payloads. */ uint32_t offset : 16; union { struct { const struct json_obj_descr *sub_descr; size_t sub_descr_len; } object; struct { const struct json_obj_descr *element_descr; size_t n_elements; } array; }; }; /** * @brief Function pointer type to append bytes to a buffer while * encoding JSON data. * * @param bytes Contents to write to the output * @param len Number of bytes to append to output * @param data User-provided pointer * * @return This callback function should return a negative number on * error (which will be propagated to the return value of * json_obj_encode()), or 0 on success. */ typedef int (*json_append_bytes_t)(const char *bytes, size_t len, void *data); #define Z_ALIGN_SHIFT(type) (__alignof__(type) == 1 ? 0 : \ __alignof__(type) == 2 ? 1 : \ __alignof__(type) == 4 ? 2 : 3) /** * @brief Helper macro to declare a descriptor for supported primitive * values. * * @param struct_ Struct packing the values * * @param field_name_ Field name in the struct * * @param type_ Token type for JSON value corresponding to a primitive * type. Must be one of: JSON_TOK_STRING for strings, JSON_TOK_NUMBER * for numbers, JSON_TOK_TRUE (or JSON_TOK_FALSE) for booleans. * * Here's an example of use: * * struct foo { * int some_int; * }; * * struct json_obj_descr foo[] = { * JSON_OBJ_DESCR_PRIM(struct foo, some_int, JSON_TOK_NUMBER), * }; */ #define JSON_OBJ_DESCR_PRIM(struct_, field_name_, type_) \ { \ .field_name = (#field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = sizeof(#field_name_) - 1, \ .type = type_, \ .offset = offsetof(struct_, field_name_), \ } /** * @brief Helper macro to declare a descriptor for an object value * * @param struct_ Struct packing the values * * @param field_name_ Field name in the struct * * @param sub_descr_ Array of json_obj_descr describing the subobject * * Here's an example of use: * * struct nested { * int foo; * struct { * int baz; * } bar; * }; * * struct json_obj_descr nested_bar[] = { * { ... declare bar.baz descriptor ... }, * }; * struct json_obj_descr nested[] = { * { ... declare foo descriptor ... }, * JSON_OBJ_DESCR_OBJECT(struct nested, bar, nested_bar), * }; */ #define JSON_OBJ_DESCR_OBJECT(struct_, field_name_, sub_descr_) \ { \ .field_name = (#field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = (sizeof(#field_name_) - 1), \ .type = JSON_TOK_OBJECT_START, \ .offset = offsetof(struct_, field_name_), \ { \ .object = { \ .sub_descr = sub_descr_, \ .sub_descr_len = ARRAY_SIZE(sub_descr_), \ }, \ }, \ } /** * @brief Helper macro to declare a descriptor for an array of primitives * * @param struct_ Struct packing the values * * @param field_name_ Field name in the struct * * @param max_len_ Maximum number of elements in array * * @param len_field_ Field name in the struct for the number of elements * in the array * * @param elem_type_ Element type, must be a primitive type * * Here's an example of use: * * struct example { * int foo[10]; * size_t foo_len; * }; * * struct json_obj_descr array[] = { * JSON_OBJ_DESCR_ARRAY(struct example, foo, 10, foo_len, * JSON_TOK_NUMBER) * }; */ #define JSON_OBJ_DESCR_ARRAY(struct_, field_name_, max_len_, \ len_field_, elem_type_) \ { \ .field_name = (#field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = sizeof(#field_name_) - 1, \ .type = JSON_TOK_LIST_START, \ .offset = offsetof(struct_, field_name_), \ { \ .array = { \ .element_descr = (struct json_obj_descr[]) { { \ .align_shift = \ Z_ALIGN_SHIFT(struct_), \ .type = elem_type_, \ .offset = \ offsetof(struct_, \ len_field_), \ } }, \ .n_elements = (max_len_), \ }, \ }, \ } /** * @brief Helper macro to declare a descriptor for an array of objects * * @param struct_ Struct packing the values * * @param field_name_ Field name in the struct containing the array * * @param max_len_ Maximum number of elements in the array * * @param len_field_ Field name in the struct for the number of elements * in the array * * @param elem_descr_ Element descriptor, pointer to a descriptor array * * @param elem_descr_len_ Number of elements in elem_descr_ * * Here's an example of use: * * struct person_height { * const char *name; * int height; * }; * * struct people_heights { * struct person_height heights[10]; * size_t heights_len; * }; * * struct json_obj_descr person_height_descr[] = { * JSON_OBJ_DESCR_PRIM(struct person_height, name, JSON_TOK_STRING), * JSON_OBJ_DESCR_PRIM(struct person_height, height, JSON_TOK_NUMBER), * }; * * struct json_obj_descr array[] = { * JSON_OBJ_DESCR_OBJ_ARRAY(struct people_heights, heights, 10, * heights_len, person_height_descr, * ARRAY_SIZE(person_height_descr)), * }; */ #define JSON_OBJ_DESCR_OBJ_ARRAY(struct_, field_name_, max_len_, \ len_field_, elem_descr_, elem_descr_len_) \ { \ .field_name = (#field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = sizeof(#field_name_) - 1, \ .type = JSON_TOK_LIST_START, \ .offset = offsetof(struct_, field_name_), \ { \ .array = { \ .element_descr = (struct json_obj_descr[]) { { \ .align_shift = \ Z_ALIGN_SHIFT(struct_), \ .type = JSON_TOK_OBJECT_START, \ .offset = offsetof(struct_, \ len_field_), \ { \ .object = { \ .sub_descr = \ elem_descr_, \ .sub_descr_len = \ elem_descr_len_, \ }, \ }, \ } }, \ .n_elements = (max_len_), \ }, \ }, \ } /** * @brief Helper macro to declare a descriptor for an array of array * * @param struct_ Struct packing the values * * @param field_name_ Field name in the struct containing the array * * @param max_len_ Maximum number of elements in the array * * @param len_field_ Field name in the struct for the number of elements * in the array * * @param elem_descr_ Element descriptor, pointer to a descriptor array * * @param elem_descr_len_ Number of elements in elem_descr_ * * Here's an example of use: * * struct person_height { * const char *name; * int height; * }; * * struct person_heights_array { * struct person_height heights; * } * * struct people_heights { * struct person_height_array heights[10]; * size_t heights_len; * }; * * struct json_obj_descr person_height_descr[] = { * JSON_OBJ_DESCR_PRIM(struct person_height, name, JSON_TOK_STRING), * JSON_OBJ_DESCR_PRIM(struct person_height, height, JSON_TOK_NUMBER), * }; * * struct json_obj_descr person_height_array_descr[] = { * JSON_OBJ_DESCR_OBJECT(struct person_heights_array, * heights, person_heigth_descr), * }; * * struct json_obj_descr array_array[] = { * JSON_OBJ_DESCR_ARRAY_ARRAY(struct people_heights, heights, 10, * heights_len, person_height_array_descr, * ARRAY_SIZE(person_height_array_descr)), * }; */ #define JSON_OBJ_DESCR_ARRAY_ARRAY(struct_, field_name_, max_len_, len_field_, \ elem_descr_, elem_descr_len_) \ { \ .field_name = (#field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = sizeof(#field_name_) - 1, \ .type = JSON_TOK_LIST_START, \ .offset = offsetof(struct_, field_name_), \ { \ .array = { \ .element_descr = (struct json_obj_descr[]) { { \ .align_shift = \ Z_ALIGN_SHIFT(struct_), \ .type = JSON_TOK_LIST_START, \ .offset = offsetof(struct_, \ len_field_), \ { \ .object = { \ .sub_descr = \ elem_descr_, \ .sub_descr_len = \ elem_descr_len_, \ }, \ }, \ } }, \ .n_elements = (max_len_), \ }, \ }, \ } /** * @brief Variant of JSON_OBJ_DESCR_PRIM that can be used when the * structure and JSON field names differ. * * This is useful when the JSON field is not a valid C identifier. * * @param struct_ Struct packing the values. * * @param json_field_name_ String, field name in JSON strings * * @param struct_field_name_ Field name in the struct * * @param type_ Token type for JSON value corresponding to a primitive * type. * * @see JSON_OBJ_DESCR_PRIM */ #define JSON_OBJ_DESCR_PRIM_NAMED(struct_, json_field_name_, \ struct_field_name_, type_) \ { \ .field_name = (json_field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = sizeof(json_field_name_) - 1, \ .type = type_, \ .offset = offsetof(struct_, struct_field_name_), \ } /** * @brief Variant of JSON_OBJ_DESCR_OBJECT that can be used when the * structure and JSON field names differ. * * This is useful when the JSON field is not a valid C identifier. * * @param struct_ Struct packing the values * * @param json_field_name_ String, field name in JSON strings * * @param struct_field_name_ Field name in the struct * * @param sub_descr_ Array of json_obj_descr describing the subobject * * @see JSON_OBJ_DESCR_OBJECT */ #define JSON_OBJ_DESCR_OBJECT_NAMED(struct_, json_field_name_, \ struct_field_name_, sub_descr_) \ { \ .field_name = (json_field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = (sizeof(json_field_name_) - 1), \ .type = JSON_TOK_OBJECT_START, \ .offset = offsetof(struct_, struct_field_name_), \ { \ .object = { \ .sub_descr = sub_descr_, \ .sub_descr_len = ARRAY_SIZE(sub_descr_), \ }, \ }, \ } /** * @brief Variant of JSON_OBJ_DESCR_ARRAY that can be used when the * structure and JSON field names differ. * * This is useful when the JSON field is not a valid C identifier. * * @param struct_ Struct packing the values * * @param json_field_name_ String, field name in JSON strings * * @param struct_field_name_ Field name in the struct * * @param max_len_ Maximum number of elements in array * * @param len_field_ Field name in the struct for the number of elements * in the array * * @param elem_type_ Element type, must be a primitive type * * @see JSON_OBJ_DESCR_ARRAY */ #define JSON_OBJ_DESCR_ARRAY_NAMED(struct_, json_field_name_,\ struct_field_name_, max_len_, len_field_, \ elem_type_) \ { \ .field_name = (json_field_name_), \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = sizeof(json_field_name_) - 1, \ .type = JSON_TOK_LIST_START, \ .offset = offsetof(struct_, struct_field_name_), \ { \ .array = { \ .element_descr = (struct json_obj_descr[]) { { \ .align_shift = \ Z_ALIGN_SHIFT(struct_), \ .type = elem_type_, \ .offset = offsetof(struct_, \ len_field_), \ } }, \ .n_elements = (max_len_), \ }, \ }, \ } /** * @brief Variant of JSON_OBJ_DESCR_OBJ_ARRAY that can be used when * the structure and JSON field names differ. * * This is useful when the JSON field is not a valid C identifier. * * @param struct_ Struct packing the values * * @param json_field_name_ String, field name of the array in JSON strings * * @param struct_field_name_ Field name in the struct containing the array * * @param max_len_ Maximum number of elements in the array * * @param len_field_ Field name in the struct for the number of elements * in the array * * @param elem_descr_ Element descriptor, pointer to a descriptor array * * @param elem_descr_len_ Number of elements in elem_descr_ * * Here's an example of use: * * struct person_height { * const char *name; * int height; * }; * * struct people_heights { * struct person_height heights[10]; * size_t heights_len; * }; * * struct json_obj_descr person_height_descr[] = { * JSON_OBJ_DESCR_PRIM(struct person_height, name, JSON_TOK_STRING), * JSON_OBJ_DESCR_PRIM(struct person_height, height, JSON_TOK_NUMBER), * }; * * struct json_obj_descr array[] = { * JSON_OBJ_DESCR_OBJ_ARRAY_NAMED(struct people_heights, * "people-heights", heights, * 10, heights_len, * person_height_descr, * ARRAY_SIZE(person_height_descr)), * }; */ #define JSON_OBJ_DESCR_OBJ_ARRAY_NAMED(struct_, json_field_name_, \ struct_field_name_, max_len_, \ len_field_, elem_descr_, \ elem_descr_len_) \ { \ .field_name = json_field_name_, \ .align_shift = Z_ALIGN_SHIFT(struct_), \ .field_name_len = sizeof(json_field_name_) - 1, \ .type = JSON_TOK_LIST_START, \ .offset = offsetof(struct_, struct_field_name_), \ { \ .array = { \ .element_descr = (struct json_obj_descr[]) { { \ .align_shift = \ Z_ALIGN_SHIFT(struct_), \ .type = JSON_TOK_OBJECT_START, \ .offset = offsetof(struct_, \ len_field_), \ { \ .object = { \ .sub_descr = \ elem_descr_, \ .sub_descr_len = \ elem_descr_len_, \ }, \ }, \ } }, \ .n_elements = (max_len_), \ }, \ }, \ } /** * @brief Parses the JSON-encoded object pointer to by @a json, with * size @a len, according to the descriptor pointed to by @a descr. * Values are stored in a struct pointed to by @a val. Set up the * descriptor like this: * * struct s { int foo; char *bar; } * struct json_obj_descr descr[] = { * JSON_OBJ_DESCR_PRIM(struct s, foo, JSON_TOK_NUMBER), * JSON_OBJ_DESCR_PRIM(struct s, bar, JSON_TOK_STRING), * }; * * Since this parser is designed for machine-to-machine communications, some * liberties were taken to simplify the design: * (1) strings are not unescaped (but only valid escape sequences are * accepted); * (2) no UTF-8 validation is performed; and * (3) only integer numbers are supported (no strtod() in the minimal libc). * * @param json Pointer to JSON-encoded value to be parsed * * @param len Length of JSON-encoded value * * @param descr Pointer to the descriptor array * * @param descr_len Number of elements in the descriptor array. Must be less * than 31 due to implementation detail reasons (if more fields are * necessary, use two descriptors) * * @param val Pointer to the struct to hold the decoded values * * @return < 0 if error, bitmap of decoded fields on success (bit 0 * is set if first field in the descriptor has been properly decoded, etc). */ int json_obj_parse(char *json, size_t len, const struct json_obj_descr *descr, size_t descr_len, void *val); /** * @brief Escapes the string so it can be used to encode JSON objects * * @param str The string to escape; the escape string is stored the * buffer pointed to by this parameter * * @param len Points to a size_t containing the size before and after * the escaping process * * @param buf_size The size of buffer str points to * * @return 0 if string has been escaped properly, or -ENOMEM if there * was not enough space to escape the buffer */ ssize_t json_escape(char *str, size_t *len, size_t buf_size); /** * @brief Calculates the JSON-escaped string length * * @param str The string to analyze * * @param len String size * * @return The length str would have if it were escaped */ size_t json_calc_escaped_len(const char *str, size_t len); /** * @brief Calculates the string length to fully encode an object * * @param descr Pointer to the descriptor array * * @param descr_len Number of elements in the descriptor array * * @param val Struct holding the values * * @return Number of bytes necessary to encode the values if >0, * an error code is returned. */ ssize_t json_calc_encoded_len(const struct json_obj_descr *descr, size_t descr_len, const void *val); /** * @brief Encodes an object in a contiguous memory location * * @param descr Pointer to the descriptor array * * @param descr_len Number of elements in the descriptor array * * @param val Struct holding the values * * @param buffer Buffer to store the JSON data * * @param buf_size Size of buffer, in bytes, with space for the terminating * NUL character * * @return 0 if object has been successfully encoded. A negative value * indicates an error (as defined on errno.h). */ int json_obj_encode_buf(const struct json_obj_descr *descr, size_t descr_len, const void *val, char *buffer, size_t buf_size); /** * @brief Encodes an array in a contiguous memory location * * @param descr Pointer to the descriptor array * * @param val Struct holding the values * * @param buffer Buffer to store the JSON data * * @param buf_size Size of buffer, in bytes, with space for the terminating * NUL character * * @return 0 if object has been successfully encoded. A negative value * indicates an error (as defined on errno.h). */ int json_arr_encode_buf(const struct json_obj_descr *descr, const void *val, char *buffer, size_t buf_size); /** * @brief Encodes an object using an arbitrary writer function * * @param descr Pointer to the descriptor array * * @param descr_len Number of elements in the descriptor array * * @param val Struct holding the values * * @param append_bytes Function to append bytes to the output * * @param data Data pointer to be passed to the append_bytes callback * function. * * @return 0 if object has been successfully encoded. A negative value * indicates an error. */ int json_obj_encode(const struct json_obj_descr *descr, size_t descr_len, const void *val, json_append_bytes_t append_bytes, void *data); /** * @brief Encodes an array using an arbitrary writer function * * @param descr Pointer to the descriptor array * * @param val Struct holding the values * * @param append_bytes Function to append bytes to the output * * @param data Data pointer to be passed to the append_bytes callback * function. * * @return 0 if object has been successfully encoded. A negative value * indicates an error. */ int json_arr_encode(const struct json_obj_descr *descr, const void *val, json_append_bytes_t append_bytes, void *data); #ifdef __cplusplus } #endif /** * @} */ #endif /* ZEPHYR_INCLUDE_DATA_JSON_H_ */