According to Parsing the Signed Request, there are 3 major steps, however I'll be a little more specific.
- Take the signed_request string and split it into two strings. There is a period character (full stop) which is a delimiter.
- The first part of the string (the signature) is a hash of the second part.
- The second part contains some information about the user and the request (user ID, timestamp).
- The strings are in Base64, but cannot be decoded straight away.
- They are Base64-URL-encoded which means that
/ characters have been replaced with URL-friendly
_ characters. Replace
- characters with
_ characters with
- The strings may not be fully Base64 padded. Base64 strings should be divisible by 4; pad the strings out as necessary.
- Hash the signature using HMAC (SHA256) using your app secret as the key and compare the result to the signature that was provided.
1. Split and decode
string response = ""; // the signed_request
string split = response.Split('.');
string signatureRaw = FixBase64String(split);
string dataRaw = FixBase64String(split);
// the decoded signature
byte signature = Convert.FromBase64String(signatureRaw);
byte dataBuffer = Convert.FromBase64String(dataRaw);
// JSON object
string data = Encoding.UTF8.GetString(dataBuffer);
static string FixBase64String(string str)
string result = str;
while (result.Length % 4 != 0)
result = result.PadRight(result.Length + 1, '=');
result = result.Replace("-", "+").Replace("_", "/");
2. Compare the hashes
byte appSecretBytes = Encoding.UTF8.GetBytes("my_app_secret_here");
HMAC hmac = new HMACSHA256(appSecretBytes);
byte expectedHash = hmac.ComputeHash(Encoding.UTF8.GetBytes(dataRaw));
bool areEqual = expectedHash.SequenceEqual(signature);
true then you can be sure that the signed request is valid and has not been tampered with (assuming your app secret is secure).
Remember to keep your app secret secure, otherwise malicious users can do bad things.