099b5e1ea6
Add CodeQL Workflow for Code Security Analysis This pull request introduces a CodeQL workflow to enhance the security analysis of our repository. CodeQL is a powerful static analysis tool that helps identify and mitigate security vulnerabilities in our codebase. By integrating this workflow into our GitHub Actions, we can proactively identify and address potential issues before they become security threats. We added a new CodeQL workflow file (.github/workflows/codeql.yml) that - Runs on every pull request (functionality to run on every push to main branches is included as a comment for convenience). - Runs daily. - Excludes queries with a high false positive rate or low-severity findings. - Does not display results for git submodules, focusing only on our own codebase. Testing: To validate the functionality of this workflow, we have run several test scans on the codebase and reviewed the results. The workflow successfully compiles the project, identifies issues, and provides actionable insights while reducing noise by excluding certain queries and third-party code. Deployment: Once this pull request is merged, the CodeQL workflow will be active and automatically run on every push and pull request to the main branch. To view the results of these code scans, please follow these steps: 1. Under the repository name, click on the Security tab. 2. In the left sidebar, click Code scanning alerts. Additional Information: - You can further customize the workflow to adapt to your specific needs by modifying the workflow file. - For more information on CodeQL and how to interpret its results, refer to the GitHub documentation and the CodeQL documentation (https://codeql.github.com/ and https://codeql.github.com/docs/). Signed-off-by: Brian <bayuan@purdue.edu> |
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| .github | ||
| examples | ||
| test | ||
| .travis.yml | ||
| CODE_OF_CONDUCT.md | ||
| LICENSE | ||
| README.md | ||
| tiny-json.c | ||
| tiny-json.h | ||
tiny-json
tiny-json is a versatile and easy to use json parser written in C and suitable for embedded systems. It is fast, robust and portable.
It is not only a tokenizer. You can access json data in string format or get primitive values directly as C type variables without any loss of performance.
You can access the JSON fields one on one or get their values by their names. This helps you to save a lot of source code lines and development time.
- It does not use recursivity.
- It does not use dynamic memory. The memory you use can be reserved statically.
- There is no limit for nested levels in arrays or json objects.
- The JSON property number limit is determined by the size of a buffer that can be statically reserved.
If you need to create JSON strings please visit: https://github.com/rafagafe/json-maker
Philosophy
When parsing a JSON text string a tree is created by linking json_t structures. Navigating or querying this tree is very easy using the provided API.
To maintain reduced memory usage and fast processing the strings are not copied. When you request the value of a JSON element, a reference to the original JSON string is returned.
To facilitate the processing of the data the returned strings are null-terminated. This is achieved by setting the null character to JSON control characters such as commas, brackets, braces, and quotation marks.
API
The tiny-json API provides two types. jsonType_t is an enumeration for all possible JSON field types. json_t is a structure containing internal data which you don't need to know.
typedef enum {
JSON_OBJ, JSON_ARRAY, JSON_TEXT, JSON_BOOLEAN,
JSON_INTEGER, JSON_REAL, JSON_NULL
} jsonType_t;
To parse a JSON string use json_create(). We pass it an array of json_t for it to allocate JSON fields.
If the JSON string is bad formated or has more fields than the array this function returns a null pointer.
enum { MAX_FIELDS = 4 };
json_t pool[ MAX_FIELDS ];
char str[] = "{ \"name\": \"peter\", \"age\": 32 }";
json_t const* parent = json_create( str, pool, MAX_FIELDS );
if ( parent == NULL ) return EXIT_FAILURE;
To get a field by its name we use json_getProperty(). If the field does not exist the function returns a null pointer.
To get the type of a field we use json_getType().
json_t const* namefield = json_getProperty( parent, "name" );
if ( namefield == NULL ) return EXIT_FAILURE;
if ( json_getType( namefield ) != JSON_TEXT ) return EXIT_FAILURE;
To get the value of a field in string format we use json_getValue(). It always returns a valid null-teminated string.
char const* namevalue = json_getValue( namefield );
printf( "%s%s%s", "Name: '", namevalue, "'.\n" );
For primitive fields we can use a specific function to get the fields value directly as a C type, f.i. json_getInteger() or we can use json_getValue() to get its value in text format.
json_t const* agefield = json_getProperty( parent, "age" );
if ( agefield == NULL ) return EXIT_FAILURE;
if ( json_getType( agefield ) != JSON_INTEGER ) return EXIT_FAILURE;
int64_t agevalue = json_getInteger( agefield );
printf( "%s%lld%s", "Age: '", agevalue, "'.\n" );
char const* agetxt = json_getValue( agefield );
printf( "%s%s%s", "Age: '", agetxt, "'.\n" );
For an example how to use nested JSON objects and arrays please see example-01.c.