Object: https://developer.amazon.com/public/solutions/alexa/alexa-skills-kit/docs/developing-an-alexa-skill-as-a-web-service?ref_=pe_679090_102923190#checking-the-signature-of-the-request

  • Use the public key extracted from the signing certificate to decrypt the encrypted signature to produce the asserted hash value.
  • Generate a SHA-1 hash value from the full HTTPS request body to produce the derived hash value (not sure if this means the entire POST or just the "request" JSON)

Sample SIGNATURE:

FosqGd+Djx2PAXuER7msZwOsGok+BWZUXMj6LjEIDkhGp0yvmB/oB76C9Mu5fhL6ZH0AgZ862sZYArp2VZnANGy2fAzTyUa1dWL+uZuO4l9jAxq/7Y30W9+V1rStWF8LcYK48iaHdfsqPFm9otOWSLoIYhg9bo62rrCDBo9TeQOt8S63lrBTWc6csEQ0PRVsplkfnAb3edv46g0c7Mg4B3h+uQfq3+RveoKVrUDAEfg1SN7HLWtjxPcLJ1pxOYa29zu56aqiF/96G79gNyQMrUZ7wdnElWWA+lYgHNWAxCibKdzs7QiU1hgbLR+g45+33nHn+M2qgKjjGFcDtaMmPA==

Signature cert chain URL: https://s3.amazonaws.com/echo.api/echo-api-cert-4.pem

Sample Post JSON:

{"session":{"sessionId":"SessionId.d6d80552-79bf-445a-9e88-5f845a368718","application":{"applicationId":"amzn1.ask.skill.29dff22d-929c-4c74-bbe2-e2a9c83316c5"},"attributes":{},"user":{"userId":"amzn1.ask.account."},"new":true},"request":{"type":"IntentRequest","requestId":"EdwRequestId.c4a78877-5328-4009-9c1c-f6b8783186a2","locale":"en-US","timestamp":"2017-01-29T03:35:40Z","intent":{"name":"GetMovie","slots":{"Keyword":{"name":"Keyword"},"Genre":{"name":"Genre"}}}},"version":"1.0"}

I'm at a complete loss how to use the public key extracted from the signing certificate to decrypt the encrypted signature to produce the asserted hash value. .GetPublicKey() returns fairly long System.Byte, but now what?

Current code:

$cert = Get-PfxCertificate -FilePath $dlPath
# 5.- Base64-decode the Signature header value on the request to obtain the encrypted signature
$encryptedSignatureBytes = [System.Convert]::FromBase64String($Json.signature)

# 6.- Use the public key extracted from the signing certificate to decrypt the encrypted signature to produce the asserted hash value       
$publicKey = $cert.GetPublicKey() #returns long System.Byte
$assertedHash = $cert.PublicKey.Key.Decrypt($encryptedSignatureBytes, $false) #Exception calling "Decrypt" with "2" argument(s): "Key does not exist.
$assertedHash = $cert.PublicKey.Key.DecryptValue($encryptedSignatureBytes) #Exception calling "DecryptValue" with "1" argument(s): "Method is not supported."

# 7.- Generate a SHA-1 hash value from the full HTTPS request body to produce the derived hash value    
$requestBodySHA1 = $(Get-StringHash $Json.requestBody)

# 8.- Compare the asserted hash value and derived hash values to ensure that they match    
if ($assertedHash -eq $requestBodySHA1)
{
    #todo
}

This ended up being easier than expected once I understood the actual requirement. In order to compare the signature and Amazon post request, all I had to do was get the request as Byte[] the Signature was already Byte[] from Base64 conversion, then feed it in to the function $cert.PublicKey.Key.VerifyData If I change any byte in either the Signature or Request it fails.

# 7.- Generate a SHA-1 hash value from the full HTTPS request body to produce the derived hash value
$requestBodyBytes = [System.IO.File]::ReadAllBytes($req)
# 8.- Compare the asserted hash value and derived hash values to ensure that they match
$sha1Oid = [System.Security.Cryptography.CryptoConfig]::MapNameToOID('SHA1')
if(!($cert.PublicKey.Key.VerifyData($requestBodyBytes, $sha1Oid, $encryptedSignatureBytes)))
{
    $validErr += "`nFailed request hash comparison to signature."
}

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