Works similar to TCPServer#accept.
See IO#close for details.
Sets the purpose of the context. See Store#purpose=.
Sets the time used in the verification. If not set, the current time is used.
Verifies the signature of the certificate, with the public key key. key must be an instance of OpenSSL::PKey.
Checks that cert signature is made with PRIVversion of this PUBLIC ‘key’
This adds a new ObjectId to the internal tables. Where object_id is the numerical form, short_name is the short name, and long_name is the long name.
Returns true if successful. Raises an OpenSSL::ASN1::ASN1Error if it fails.
key - the public key to be used for verifying the SPKI signature
Returns true if the signature is valid, false otherwise. To verify an SPKI, the public key contained within the SPKI should be used.
Verifies this request using the given certificates and store. certificates is an array of OpenSSL::X509::Certificate, store is an OpenSSL::X509::Store.
Note that false is returned if the request does not have a signature. Use signed? to check whether the request is signed or not.
Verifies the signature of the response using the given certificates and store. This works in the similar way as OpenSSL::OCSP::Request#verify.
To verify the String signature, digest, an instance of OpenSSL::Digest, must be provided to re-compute the message digest of the original data, also a String. The return value is true if the signature is valid, false otherwise. A PKeyError is raised should errors occur. Any previous state of the Digest instance is irrelevant to the validation outcome, the digest instance is reset to its initial state during the operation.
data = 'Sign me!' digest = OpenSSL::Digest.new('SHA256') pkey = OpenSSL::PKey::RSA.new(2048) signature = pkey.sign(digest, data) pub_key = pkey.public_key puts pub_key.verify(digest, signature, data) # => true