public function oneSerialization($path) { $in = \OpenPGP\Message::parse(file_get_contents(dirname(__FILE__) . '/data/' . $path)); $mid = $in->to_bytes(); $out = \OpenPGP\Message::parse($mid); $this->assertEquals($in, $out); }
function read() { $this->algorithm = ord($this->read_byte()); $this->data = $this->read_bytes($this->length); switch ($this->algorithm) { case 0: $this->data = \OpenPGP\Message::parse($this->data); break; case 1: $this->data = \OpenPGP\Message::parse(gzinflate($this->data)); break; case 2: $this->data = \OpenPGP\Message::parse(gzuncompress($this->data)); break; case 3: $this->data = \OpenPGP\Message::parse(bzdecompress($this->data)); break; default: throw new Exception("Bad value for Compression Algorithm (decompress)"); } }
public function oneFingerprint($path, $kf) { $m = \OpenPGP\Message::parse(file_get_contents(dirname(__FILE__) . '/data/' . $path)); $this->assertEquals($m[0]->fingerprint(), $kf); }
static function convert_key($packet, $private = false) { if (!is_object($packet)) { $packet = \OpenPGP\Message::parse($packet); } if ($packet instanceof \OpenPGP\Message) { $packet = $packet[0]; } $mod = $packet->key['n']; $exp = $packet->key['e']; if ($private) { $exp = $packet->key['d']; } if (!$exp) { return NULL; } // Packet doesn't have needed data $rsa = self::crypt_rsa_key($mod, $exp); if ($private) { if ($packet->key['p'] && $packet->key['q']) { $rsa->primes = array($packet->key['p'], $packet->key['q']); } if ($packet->key['u']) { $rsa->coefficients = array($packet->key['u']); } } return $rsa; }