Awesome
JSON parser and emitter for C/C++
Features
- ISO C and ISO C++ compliant portable code
- Very small footprint
- No dependencies
json_scanf()
scans a string directly into C/C++ variablesjson_printf()
prints C/C++ variables directly into an output streamjson_setf()
modifies an existing JSON stringjson_fread()
reads JSON from a filejson_fprintf()
writes JSON to a file- Built-in base64 encoder and decoder for binary data
- Parser provides low-level callback API and high-level scanf-like API
- 100% test coverage
- Used in Mongoose OS, an operating system for connected commercial products on low-power microcontrollers
API reference
json_scanf()
, json_vscanf
int json_scanf(const char *str, int str_len, const char *fmt, ...);
int json_vscanf(const char *str, int str_len, const char *fmt, va_list ap);
/* json_scanf's %M handler */
typedef void (*json_scanner_t)(const char *str, int len, void *user_data);
Scans the JSON string str
, performing scanf-like conversions according to fmt
.
fmt
uses scanf()
-like format, with the following differences:
- Object keys in the format string don't have to be quoted, e.g. "{key: %d}"
- Order of keys in the format string does not matter, and the format string may
omit keys to fetch only those that are of interest, for example,
assume
str
is a JSON string{ "a": 123, "b": "hi", c: true }
. We can fetch only the value of thec
key:int value = 0; json_scanf(str, strlen(str), "{c: %B}", &value);
- Several extra format specifiers are supported:
- %B: consumes
int *
(orchar *
, ifsizeof(bool) == sizeof(char)
), expects booleantrue
orfalse
. - %Q: consumes
char **
, expects quoted, JSON-encoded string. Scanned string is malloc-ed, caller must free() the string. - %V: consumes
char **
,int *
. Expects base64-encoded string. Result string is base64-decoded, malloced and NUL-terminated. The length of result string is stored inint *
placeholder. Caller must free() the result. - %H: consumes
int *
,char **
. Expects a hex-encoded string, e.g. "fa014f". Result string is hex-decoded, malloced and NUL-terminated. The length of the result string is stored inint *
placeholder. Caller must free() the result. - %M: consumes custom scanning function pointer and
void *user_data
parameter - see json_scanner_t definition. - %T: consumes
struct json_token *
, fills it out with matched token.
- %B: consumes
Returns the number of elements successfully scanned & converted. Negative number means scan error.
Example - scan arbitrary JSON string:
// str has the following JSON string (notice keys are out of order):
// { "a": 123, "d": true, "b": [1, 2], "c": "hi" }
int a = 0, d = 0;
char *c = NULL;
void *my_data = NULL;
json_scanf(str, strlen(str), "{ a:%d, b:%M, c:%Q, d:%B }",
&a, scan_array, my_data, &c, &d);
// This function is called by json_scanf() call above.
// str is "[1, 2]", user_data is my_data.
static void scan_array(const char *str, int len, void *user_data) {
struct json_token t;
int i;
printf("Parsing array: %.*s\n", len, str);
for (i = 0; json_scanf_array_elem(str, len, "", i, &t) > 0; i++) {
printf("Index %d, token [%.*s]\n", i, t.len, t.ptr);
}
}
Example - parse array of objects:
// str has the following JSON string - array of objects:
// { "a": [ {"b": 123}, {"b": 345} ] }
// This example shows how to iterate over array, and parse each object.
int i, value, len = strlen(str);
struct json_token t;
for (i = 0; json_scanf_array_elem(str, len, ".a", i, &t) > 0; i++) {
// t.type == JSON_TYPE_OBJECT
json_scanf(t.ptr, t.len, "{b: %d}", &value); // value is 123, then 345
}
json_scanf_array_elem()
int json_scanf_array_elem(const char *s, int len,
const char *path,
int index,
struct json_token *token);
A helper function to scan an array item with given path and index.
Fills token
with the matched JSON token.
Returns -1 if no array element found, otherwise non-negative token length.
json_printf()
Frozen printing API is pluggable. Out of the box, Frozen provides a way to print to a string buffer or to an opened file stream. It is easy to tell Frozen to print to another destination, for example, to a socket, etc. Frozen does this by defining an "output context" descriptor which has a pointer to a low-level printing function. If you want to print to another destination, just define your specific printing function and initialise output context with it.
This is the definition of the output context descriptor:
struct json_out {
int (*printer)(struct json_out *, const char *str, size_t len);
union {
struct {
char *buf;
size_t size;
size_t len;
} buf;
void *data;
FILE *fp;
} u;
};
Frozen provides two helper macros to initialise two built-in output descriptors:
struct json_out out1 = JSON_OUT_BUF(buf, len);
struct json_out out2 = JSON_OUT_FILE(fp);
typedef int (*json_printf_callback_t)(struct json_out *, va_list *ap);
int json_printf(struct json_out *, const char *fmt, ...);
int json_vprintf(struct json_out *, const char *fmt, va_list ap);
Generate formatted output into a given string buffer, auto-escaping keys. This is a superset of printf() function, with extra format specifiers:
%B
print json boolean,true
orfalse
. Accepts anint
.%Q
print quoted escaped string ornull
. Accepts aconst char *
.%.*Q
same as%Q
, but with length. Acceptsint
,const char *
%V
print quoted base64-encoded string. Accepts aconst char *
,int
.%H
print quoted hex-encoded string. Accepts aint
,const char *
.%M
invokes a json_printf_callback_t function. That callback function can consume more parameters.
Return number of bytes printed. If the return value is bigger than the supplied buffer, that is an indicator of overflow. In the overflow case, overflown bytes are not printed.
Example:
json_printf(&out, "{%Q: %d, x: [%B, %B], y: %Q}", "foo", 123, 0, -1, "hi");
// Result:
// {"foo": 123, "x": [false, true], "y": "hi"}
To print a complex object (for example, serialise a structure into an object),
use %M
format specifier:
struct my_struct { int a, b; } mys = {1,2};
json_printf(&out, "{foo: %M, bar: %d}", print_my_struct, &mys, 3);
// Result:
// {"foo": {"a": 1, "b": 2}, "bar": 3}
int print_my_struct(struct json_out *out, va_list *ap) {
struct my_struct *p = va_arg(*ap, struct my_struct *);
return json_printf(out, "{a: %d, b: %d}", p->a, p->b);
}
json_printf_array()
int json_printf_array(struct json_out *, va_list *ap);
A helper %M
callback that prints contiguous C arrays.
Consumes void *array_ptr, size_t array_size, size_t elem_size, char *fmt
Returns number of bytes printed.
json_walk()
- low level parsing API
/* JSON token type */
enum json_token_type {
JSON_TYPE_INVALID = 0, /* memsetting to 0 should create INVALID value */
JSON_TYPE_STRING,
JSON_TYPE_NUMBER,
JSON_TYPE_TRUE,
JSON_TYPE_FALSE,
JSON_TYPE_NULL,
JSON_TYPE_OBJECT_START,
JSON_TYPE_OBJECT_END,
JSON_TYPE_ARRAY_START,
JSON_TYPE_ARRAY_END,
JSON_TYPES_CNT,
};
/*
* Structure containing token type and value. Used in `json_walk()` and
* `json_scanf()` with the format specifier `%T`.
*/
struct json_token {
const char *ptr; /* Points to the beginning of the value */
int len; /* Value length */
enum json_token_type type; /* Type of the token, possible values are above */
};
/* Callback-based API */
typedef void (*json_walk_callback_t)(void *callback_data,
const char *name, size_t name_len,
const char *path,
const struct json_token *token);
/*
* Parse `json_string`, invoking `callback` in a way similar to SAX parsers;
* see `json_walk_callback_t`.
*/
int json_walk(const char *json_string, int json_string_length,
json_walk_callback_t callback, void *callback_data);
json_walk()
is a low-level, callback based parsing API.
json_walk()
calls a given callback function for each scanned value.
Callback receives a name, a path to the value, a JSON token that points to the value and an arbitrary user data pointer.
The path is constructed using this rule:
- Root element has "" (empty string) path
- When an object starts,
.
(dot) is appended to the path - When an object key is parsed, a key name is appended to the path
- When an array is parsed, an
[ELEMENT_INDEX]
is appended for each element
For example, consider the following json string:
{ "foo": 123, "bar": [ 1, 2, { "baz": true } ] }
.
The sequence of callback invocations will be as follows:
- type:
JSON_TYPE_OBJECT_START
, name:NULL
, path:""
, value:NULL
- type:
JSON_TYPE_NUMBER
, name:"foo"
, path:".foo"
, value:"123"
- type:
JSON_TYPE_ARRAY_START
, name:"bar"
, path:".bar"
, value:NULL
- type:
JSON_TYPE_NUMBER
, name:"0"
, path:".bar[0]"
, value:"1"
- type:
JSON_TYPE_NUMBER
, name:"1"
, path:".bar[1]"
, value:"2"
- type:
JSON_TYPE_OBJECT_START
, name:"2"
, path:".bar[2]"
, value:NULL
- type:
JSON_TYPE_TRUE
, name:"baz"
, path:".bar[2].baz"
, value:"true"
- type:
JSON_TYPE_OBJECT_END
, name:NULL
, path:".bar[2]"
, value:"{ \"baz\": true }"
- type:
JSON_TYPE_ARRAY_END
, name:NULL
, path:".bar"
, value:"[ 1, 2, { \"baz\": true } ]"
- type:
JSON_TYPE_OBJECT_END,
name:NULL
, path:""
, value:"{ \"foo\": 123, \"bar\": [ 1, 2, { \"baz\": true } ] }"
If top-level element is an array: [1, {"foo": 2}]
- type:
JSON_TYPE_ARRAY_START
, name:NULL
, path:""
, value:NULL
- type:
JSON_TYPE_NUMBER
, name:"0"
, path:"[0]"
, value:"1"
- type:
JSON_TYPE_OBJECT_START
, name:"1"
, path:"[1]"
, value:NULL
- type:
JSON_TYPE_NUMBER
, name:"foo"
, path:"[1].foo"
, value:"2"
- type:
JSON_TYPE_OBJECT_END
, name:NULL
, path:"[1]"
, value:"{\"foo\": 2}"
- type:
JSON_TYPE_ARRAY_END
, name:NULL
, path:""
, value:"[1, {"foo": 2}]"
If top-level element is a scalar: true
- type:
JSON_TYPE_TRUE
, name:NULL
, path:""
, value:"true"
json_walk_args()
- low level parsing API extensible interface
This function is identical to json_walk() except that it takes a
struct pointer argument for the callback
and callback_data
arguments and additional configuration elements:
struct frozen_args {
json_walk_callback_t callback;
void *callback_data;
int limit;
};
This struct must be initialized using INIT_FROZEN_ARGS()
to retain
forward compatibility before any members are set as illustrated here:
struct frozen_args args[1];
INIT_FROZEN_ARGS(args);
args->callback = mycb;
args->callback_data = data;
args->limit = 20;
ret = json_walk_args(string, len, args);
the limit
member of struct frozen_args
can be set to limit the
maximum recursion depth to prevent possible stack overflows and limit
parsing complexity.
json_fprintf()
, json_vfprintf()
/*
* Same as json_printf, but prints to a file.
* File is created if does not exist. File is truncated if already exists.
*/
int json_fprintf(const char *file_name, const char *fmt, ...);
int json_vfprintf(const char *file_name, const char *fmt, va_list ap);
json_asprintf()
, json_vasprintf()
/*
* Print JSON into an allocated 0-terminated string.
* Return allocated string, or NULL on error.
* Example:
*
* ```c
* char *str = json_asprintf("{a:%H}", 3, "abc");
* printf("%s\n", str); // Prints "616263"
* free(str);
* ```
*/
char *json_asprintf(const char *fmt, ...);
char *json_vasprintf(const char *fmt, va_list ap);
json_fread()
/*
* Read the whole file in memory.
* Return malloc-ed file content, or NULL on error. The caller must free().
*/
char *json_fread(const char *file_name);
json_setf()
, json_vsetf()
/*
* Update given JSON string `s,len` by changing the value at given `json_path`.
* The result is saved to `out`. If `json_fmt` == NULL, that deletes the key.
* If path is not present, missing keys are added. Array path without an
* index pushes a value to the end of an array.
* Return 1 if the string was changed, 0 otherwise.
*
* Example: s is a JSON string { "a": 1, "b": [ 2 ] }
* json_setf(s, len, out, ".a", "7"); // { "a": 7, "b": [ 2 ] }
* json_setf(s, len, out, ".b", "7"); // { "a": 1, "b": 7 }
* json_setf(s, len, out, ".b[]", "7"); // { "a": 1, "b": [ 2,7 ] }
* json_setf(s, len, out, ".b", NULL); // { "a": 1 }
*/
int json_setf(const char *s, int len, struct json_out *out,
const char *json_path, const char *json_fmt, ...);
int json_vsetf(const char *s, int len, struct json_out *out,
const char *json_path, const char *json_fmt, va_list ap);
json_prettify()
/*
* Pretty-print JSON string `s,len` into `out`.
* Return number of processed bytes in `s`.
*/
int json_prettify(const char *s, int len, struct json_out *out);
json_prettify_file()
/*
* Prettify JSON file `file_name`.
* Return number of processed bytes, or negative number of error.
* On error, file content is not modified.
*/
int json_prettify_file(const char *file_name);
json_next_key()
, json_next_elem()
/*
* Iterate over an object at given JSON `path`.
* On each iteration, fill the `key` and `val` tokens. It is OK to pass NULL
* for `key`, or `val`, in which case they won't be populated.
* Return an opaque value suitable for the next iteration, or NULL when done.
*
* Example:
*
* ```c
* void *h = NULL;
* struct json_token key, val;
* while ((h = json_next_key(s, len, h, ".foo", &key, &val)) != NULL) {
* printf("[%.*s] -> [%.*s]\n", key.len, key.ptr, val.len, val.ptr);
* }
* ```
*/
void *json_next_key(const char *s, int len, void *handle, const char *path,
struct json_token *key, struct json_token *val);
/*
* Iterate over an array at given JSON `path`.
* Similar to `json_next_key`, but fills array index `idx` instead of `key`.
*/
void *json_next_elem(const char *s, int len, void *handle, const char *path,
int *idx, struct json_token *val);
Minimal mode
By building with -DJSON_MINIMAL=1
footprint can be significantly reduced.
The following limitations apply in this configuration:
- Only integer numbers are supported. This affects parsing and
%f/%lf
conversions in printf and scanf. - Hex ('%H') and base64 (
%V
) conversions are disabled.
Examples
Print JSON configuration to a file
json_fprintf("settings.json", "{ a: %d, b: %Q }", 123, "string_value");
json_prettify_file("settings.json"); // Optional
Read JSON configuration from a file
struct my_config { int a; char *b; } c = { .a = 0, .b = NULL };
char *content = json_fread("settings.json");
json_scanf(content, strlen(content), "{a: %d, b: %Q}", &c.a, &c.b);
Modify configuration setting in a JSON file
const char *settings_file_name = "settings.json", *tmp_file_name = "tmp.json";
char *content = json_fread(settings_file_name);
FILE *fp = fopen(tmp_file_name, "w");
struct json_out out = JSON_OUT_FILE(fp);
json_setf(content, strlen(content), &out, ".b", "%Q", "new_string_value");
fclose(fp);
json_prettify_file(tmp_file_name); // Optional
rename(tmp_file_name, settings_file_name);
Contributions
To submit contributions, sign Cesanta CLA and send GitHub pull request.
Licensing
Frozen is released under the Apache 2.0 license.
For commercial support and professional services, contact us.