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704 lines
27 KiB
704 lines
27 KiB
<?php |
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/** |
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* @file |
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* Classes and functions for datastream validation. |
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*/ |
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|
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/** |
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* Converts a hexidecimal string to an integer. |
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* |
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* This is useful for running checks on values that appear in the binary |
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* of a datastream. Returns FALSE if the hex value contains non-hex characters |
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* or if the string would not return a 16- or 32-bit formatted big-endian |
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* signed integer. |
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* |
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* @param string $hex |
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* The hexidecimal string. |
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* |
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* @throws Exception |
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* if something horrible happens during the actual conversion. |
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* |
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* @return bool|int |
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* FALSE on failure, or the integer on success. |
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*/ |
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function islandora_hex2int($hex) { |
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|
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// A couple of quick string checks. |
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if (!ctype_xdigit($hex)) { |
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drupal_set_message(t('String passed to islandora_hex2int() contains non-hexidecimal characters.'), 'error'); |
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return FALSE; |
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} |
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if (!strlen($hex) === 4 || !strlen($hex) === 8) { |
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drupal_set_message(t('String passed to islandora_hex2int() cannot create a 16- or 32-bit little-endian signed integer'), 'error'); |
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return FALSE; |
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} |
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// The actual conversion. |
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try { |
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$reverse_hex = implode('', array_reverse(str_split($hex, 2))); |
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$int = hexdec($reverse_hex); |
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return $int; |
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} |
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catch (Exception $e) { |
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throw new Exception('An error occurred during the conversion of hexidecimal to integer.', 0, $e); |
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} |
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} |
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/** |
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* Abstraction for datastream validators. |
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* |
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* Classes extended from DatastreamValidator don't require much to be useful. |
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* They accept a Fedora object and a DSID to perform assertions on; |
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* all you have to do is place a series of functions inside the extended class |
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* using the naming convention assertThing(); each of these functions should |
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* ideally assert one thing and one thing only (for simplicity's sake), and |
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* should generate either a pass or a fail message by calling addPass() or |
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* addFail(). That's it, really; they don't have to return any values, as |
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* addPass() and addFail() just add messages to the overall pass/fail array. |
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* |
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* As long as you use those rules and naming conventions, all the magic is done |
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* when you instantiate the new datastream validator object. |
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* |
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* The IslandoraWebTestCase::assertDatastreams() function accepts paired DSIDs |
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* and datastream validator names in order to do the rest of the work. It grabs |
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* all the test results using getPasses() and getFails() and transforms those |
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* into something that DrupalWebTestCase can use. |
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*/ |
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abstract class DatastreamValidator extends IslandoraTestUtilityClass { |
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/** |
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* The Fedora object containing the datastream to test. |
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* |
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* @var IslandoraFedoraObject|FedoraObject |
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*/ |
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public $object; |
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/** |
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* The DSID of the string to test. |
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* |
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* @var string |
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*/ |
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public $datastream; |
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/** |
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* The content of the datastream. |
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* |
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* @var string[] |
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*/ |
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public $datastreamContent; |
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/** |
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* An array of additional required parameters. |
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* |
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* @var array |
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*/ |
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public $params = array(); |
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/** |
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* Constructs a DatastreamValidator. |
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* |
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* @param IslandoraFedoraObject|FedoraObject $object |
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* The object to grab the datastream from. |
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* @param string $datastream |
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* The DSID of the datastream itself. |
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* @param array $params |
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* An extra array of parameters the validator might need. |
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*/ |
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public function __construct($object, $datastream, array $params = array()) { |
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$this->object = $object; |
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$this->datastream = $datastream; |
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$this->params = $params; |
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if ($object[$datastream]) { |
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$this->datastreamContent = $object[$datastream]->content; |
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} |
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else { |
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drupal_set_message(t("Error grabbing content from datastream %datastream in object %id", array( |
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'%datastream' => $datastream, |
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'%id' => $object->id, |
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)), 'error'); |
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} |
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} |
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/** |
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* Helper function to run all the validators in a class. |
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* |
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* On DatastreamValidator::__construct(), this looks for any functions |
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* within the class beginning in "assert" and runs them. In all current cases |
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* (and realistically in all future cases), this adds one or more passes or |
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* fails to $this->passes and/or $this->fails. |
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*/ |
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public function runValidators() { |
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if ($this->object[$this->datastream]) { |
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$methods = get_class_methods($this); |
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foreach ($methods as $method) { |
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if (substr($method, 0, 6) === 'assert') { |
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$this->$method(); |
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} |
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} |
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} |
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else { |
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$this->addResult(FALSE, "Unable to load the requested datastream {$this->datastream} from object {$this->object->id}."); |
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} |
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} |
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/** |
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* Returns an array of IslandoraTestUtilityResults. |
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* |
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* @return IslandoraTestUtilityResult[] |
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* The results. |
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*/ |
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public function getResults() { |
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if (empty($this->results)) { |
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$this->runValidators(); |
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} |
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return $this->results; |
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} |
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/** |
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* Adds a result to $this->results. |
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* |
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* @param bool $type |
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* The type of result (TRUE for pass, FALSE for fail). |
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* @param string $message |
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* The message to put in the result. |
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*/ |
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public function addResult($type, $message) { |
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$result = new IslandoraTestUtilityResult($type, $message, $this->getAssertionCall()); |
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$this->results[] = $result; |
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} |
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/** |
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* Cycles through backtrace until the first non-assertion method is found. |
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* |
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* This is a manipulated version of DrupalWebTestCase::getAssertionCall(). |
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* We use it here so that we can pass back assertion calls from |
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* DatastreamValidator assertions instead of less useful TestCase functions. |
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* |
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* @return array |
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* Array representing the true caller. |
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*/ |
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public function getAssertionCall() { |
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$backtrace = debug_backtrace(); |
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// While the current caller's function starts with 'assert', and another one |
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// exists after this function, keep poppin' em off. |
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while (substr($backtrace[1]['function'], 0, 6) !== 'assert' && isset($backtrace[2])) { |
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array_shift($backtrace); |
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} |
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return _drupal_get_last_caller($backtrace); |
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} |
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} |
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/** |
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* Asserts that an object's given datastreams are common-type image files. |
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* |
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* Uses PHPGD to run the assertion check. This means that only certain kinds |
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* of image files can be checked. Please check the documentation for the PHPGD |
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* imagecreatefromstring() function to determine what filetypes are valid. |
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*/ |
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class ImageDatastreamValidator extends DatastreamValidator { |
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/** |
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* Asserts the validity of an image using PHPGD. |
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*/ |
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protected function assertImageGeneration() { |
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$assertion = imagecreatefromstring($this->datastreamContent) !== FALSE; |
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$pass = "Image datastream {$this->datastream} is valid."; |
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$fail = "Image datastream {$this->datastream} is either invalid or corrupt."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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} |
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/** |
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* Asserts the validity of any .tif/.tiff datastream. |
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*/ |
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class TIFFDatastreamValidator extends DatastreamValidator { |
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/** |
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* Asserts that the TIFF contains an appropriate header. |
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*/ |
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public function assertTIFFHeaderHex() { |
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$datastream_header_hex = self::getTIFFHeaderHex(); |
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if ($datastream_header_hex == "49492a00") { |
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// In this case, the ingested TIFF is designated as using the "Intel |
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// byte-order" (i.e. little-endian) by starting with the characters "II" |
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// (repeated so that byte order does not yet need to be significant). |
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// The number that follows is '42' in little-endian hex, a number of |
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// 'deep philosophical significance' to the TIFF format creators.' |
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$this->addResult(TRUE, "{$this->datastream} datastream asserts that it is a valid Intel-byte-orderded TIF/TIFF file."); |
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} |
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elseif ($datastream_header_hex == "4d4d002a") { |
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// In this case, the ingested TIFF is designated as using the "Motorola |
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// byte-order" (i.e. big-endian) by starting with the characters "MM" |
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// instead. 42 follows once again, this time in big-endian hex. |
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$this->addResult(TRUE, "{$this->datastream} datastream asserts that it is a valid Motorola-byte-ordered TIF/TIFF file."); |
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} |
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else { |
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$this->addResult(FALSE, "{$this->datastream} datastream does not assert that it is a valid TIF/TIFF file."); |
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} |
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} |
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/** |
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* Grabs the first 8 characters from the TIFF datastream's hex. |
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* |
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* @return string |
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* The ... thing I just wrote up there. |
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*/ |
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protected function getTIFFHeaderHex() { |
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return substr(bin2hex($this->datastreamContent), 0, 8); |
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} |
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} |
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/** |
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* Asserts the validity of a JP2 datastream. |
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*/ |
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class JP2DatastreamValidator extends DatastreamValidator { |
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/** |
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* Asserts the hex values at the head of the JP2 file. |
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* |
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* JP2 files begin with an offset header at the second 32-bit integer, |
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* 0x6A502020. This header is in all .jp2s, and we check for it here. |
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*/ |
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protected function assertJP2Header() { |
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$assertion = substr(bin2hex($this->datastreamContent), 8, 8) == '6a502020'; |
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$pass = "Datastream {$this->datastream} contains the appropriate JP2 header."; |
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$fail = "Datastream {$this->datastream} does not contain the appropriate JP2 header."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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/** |
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* Asserts the marker at the end of the JP2 file. |
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* |
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* JP2 files have their codestream capped with a marker, 0xFFD9. We're just |
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* checking for it here to see if the .jp2 encoder finished okay. |
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*/ |
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protected function assertJP2Marker() { |
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$assertion = substr(bin2hex($this->datastreamContent), strlen(bin2hex($this->datastreamContent)) - 4, 4) == 'ffd9'; |
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$pass = "Datastream {$this->datastream} contains the appropriate JP2 ending marker."; |
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$fail = "Datastream {$this->datastream} does not contain the appropriate JP2 ending marker. If this is the only JP2 validator that failed, it is likely that derivative generation was interrupted."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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} |
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/** |
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* Asserts the validity of a PDF datastream. |
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*/ |
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class PDFDatastreamValidator extends DatastreamValidator { |
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/** |
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* Validates the PDF signature. |
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*/ |
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protected function assertPDFSignature() { |
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$assertion = substr($this->datastreamContent, 0, 5) == '%PDF-'; |
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$pdf_version = substr($this->datastreamContent, 5, 3); |
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$pass = "{$this->datastream} datastream asserts that it is a valid PDF file using PDF version {$pdf_version}"; |
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$fail = "{$this->datastream} datastream binary header appears to be corrupt and missing a valid PDF signature."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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/** |
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* Counts the number of signatures in this PDF file and asserts there are any. |
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*/ |
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protected function assertPDFStreamCount() { |
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$pdf_stream_count = substr_count(bin2hex($this->datastreamContent), '0a73747265616d0a'); |
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$assertion = $pdf_stream_count !== 0; |
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$pass = "{$this->datastream} datastream reports the existence of {$pdf_stream_count} PDF streams. Note that an extremely low number could still indicate corruption."; |
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$fail = "{$this->datastream} datastream contains zero PDF streams, and is likely not a PDF file."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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/** |
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* Validates the PDF closing tag. |
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* |
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* @return bool |
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* TRUE if it was present; FALSE otherwise. |
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*/ |
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protected function assertPDFClosingTag() { |
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$assertion = strpos(bin2hex($this->datastreamContent), '0a2525454f460a') == TRUE; |
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$pass = "{$this->datastream} datastream reports the existence of the closing 'EOF' tag required at the end of PDFs"; |
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$fail = "{$this->datastream} datastream does not contain the closing 'EOF' tag. If this is the only PDF validation that failed, it is likely that derivative generation was interrupted."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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} |
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/** |
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* Validates the number of times a string occurs in a datastream. |
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* |
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* Requires $this->params to be set to an array containing two keys - the first |
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* is the string we're looking to find in the datastream, and the second is an |
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* integer representing the number of times it should appear in the datastream. |
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*/ |
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class TextDatastreamValidator extends DatastreamValidator { |
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/** |
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* Constructor override; blow up if we don't have our two values. |
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*/ |
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public function __construct($object, $datastream, array $params = array()) { |
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if (count($params) < 2) { |
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throw new InvalidArgumentException('$params must contain at least two values to instantiate a TextDatastreamValidator.'); |
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} |
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parent::__construct($object, $datastream, $params); |
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} |
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/** |
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* Asserts that the string given appears the correct number of times. |
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*/ |
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protected function assertTextStringCount() { |
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$string_count = self::getTextStringCount(); |
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list($string, $expected) = $this->params; |
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$assertion = $string_count === $expected; |
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$this->addResult($assertion, "{$this->datastream} datastream contains the word(s) '{$string}' repeated {$string_count} time(s) (expected: {$expected})."); |
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} |
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/** |
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* The number of times key [0] in $this->params appears in the datastream. |
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* |
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* @return int |
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* That count I just mentioned up there. |
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*/ |
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protected function getTextStringCount() { |
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return substr_count($this->datastreamContent, $this->params[0]); |
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} |
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} |
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/** |
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* Asserts the validity a WAV datastream. |
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* |
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* WAV files contain a rigidly detailed header that contains all sorts of fun |
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* information we can use to validate things against other things. So, we check |
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* rigorously that the header contains properly constructed data by looking to |
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* see if certain values are at their expected byte offset. We also compare |
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* declared chunk sizes against actual sizes. If any of these are off, WAV |
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* players will fail to function. |
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*/ |
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class WAVDatastreamValidator extends DatastreamValidator { |
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/** |
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* We need a special constructor here to get the hex datastream content. |
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* |
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* @param IslandoraFedoraObject|FedoraObject $object |
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* The object to grab the datastream from. |
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* @param string $datastream |
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* The DSID of the datastream itself. |
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* @param array $params |
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* An extra array of parameters the validator might need. |
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*/ |
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public function __construct($object, $datastream, array $params = array()) { |
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parent::__construct($object, $datastream, $params); |
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$this->datastreamContent = bin2hex($this->datastreamContent); |
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} |
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/** |
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* Asserts that the datastream contains a valid WAV signature. |
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*/ |
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protected function assertWAVSignature() { |
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$signatures = str_split(substr($this->datastreamContent, 0, 24), 8); |
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$assertion = $signatures[0] == '52494646' && $signatures[2] == '57415645'; |
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$pass = "Header of the {$this->datastream} datastream contains a valid file signature."; |
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$fail = "Header of the {$this->datastream} datastream contains corrupt file signature."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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/** |
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* Asserts that the chunksize in the header is correct. |
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*/ |
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protected function assertWAVChunkSize() { |
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$assertion = islandora_hex2int(substr($this->datastreamContent, 8, 8)) === 36 + self::getDataSubChunkSize(); |
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$pass = "{$this->datastream} datastream chunksize in WAV header is correct"; |
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$fail = "{$this->datastream} datastream chunksize in WAV header does not match actual chunksize."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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/** |
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* Asserts that the datastream contains a 'fmt' subchunk. |
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*/ |
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protected function assertWAVFmtSubChunk() { |
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$assertion = substr($this->datastreamContent, 24, 8) === '666d7420'; |
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$pass = "{$this->datastream} datastream contains a 'fmt' subchunk."; |
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$fail = "{$this->datastream} datastream is missing the required 'fmt' subchunk."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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/** |
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* Asserts that the byterate reported by the WAV header is valid. |
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*/ |
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protected function assertWAVByteRate() { |
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$wav_samplerate = islandora_hex2int(substr($this->datastreamContent, 48, 8)); |
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$assertion = islandora_hex2int(substr($this->datastreamContent, 56, 8)) === $wav_samplerate * self::getNumChannels() * self::getBytesPerSample(); |
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$pass = "{$this->datastream} datastream byterate in the WAV header is correct."; |
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$fail = "{$this->datastream} datastream byterate in the WAV header does not match actual calculated byterate."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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|
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/** |
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* Asserts that the block alignment is correct. |
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*/ |
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protected function assertWAVBlockAlignment() { |
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$assertion = islandora_hex2int(substr($this->datastreamContent, 64, 4)) === self::getNumChannels() * self::getBytesPerSample(); |
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$pass = "{$this->datastream} datastream block alignment is set correctly."; |
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$fail = "{$this->datastream} datastream block alignment is off."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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/** |
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* Asserts the existence of a 'data' subchunk. |
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* |
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* Also asserts that the subchunk size is correct. |
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*/ |
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protected function assertWAVDataSubChunk() { |
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if (substr($this->datastreamContent, 72, 8) !== '64617461') { |
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$this->addResult(FALSE, "{$this->datastream} datastream is missing the 'data' subchunk."); |
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return; |
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} |
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else { |
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$this->addResult(TRUE, "{$this->datastream} datastream contains 'data' subchunk."); |
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$wav_numsamples = strlen(substr($this->datastreamContent, 88)) / self::getNumChannels() / self::getBytesPerSample() / 2; |
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$assertion = self::getDataSubChunkSize() === $wav_numsamples * self::getNumChannels() * self::getBytesPerSample(); |
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$pass = "{$this->datastream} datastream 'data' chunk is the correct size."; |
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$fail = "{$this->datastream} datastream 'data' chunk is sized incorrectly."; |
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$message = $assertion ? $pass : $fail; |
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$this->addResult($assertion, $message); |
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} |
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} |
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|
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/** |
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* Gets the number of channels reported by the WAV header. |
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* |
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* @return int |
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* The number of channels reported by the datastream header. |
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*/ |
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protected function getNumChannels() { |
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return islandora_hex2int(substr($this->datastreamContent, 44, 4)); |
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} |
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|
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/** |
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* Gets the reported number of byte rates per sample. |
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* |
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* @return int |
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* The number of bytes per sample reported by the datastream header. |
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*/ |
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protected function getBytesPerSample() { |
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return islandora_hex2int(substr($this->datastreamContent, 68, 4)) / 8; |
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} |
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|
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/** |
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* Gets the size of the 'data' subchunk. |
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* |
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* @return int |
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* The size of the 'data' subchunk. |
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*/ |
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protected function getDataSubChunkSize() { |
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return islandora_hex2int(substr($this->datastreamContent, 80, 8)); |
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} |
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} |
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/** |
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* Asserts the validity of any .mp3 datastream. |
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* |
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* Our default setup tries to create an MP3 using VBR, but we do some extra |
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* checks in case someone turns that off. If the header contains the characters |
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* 'Xing', it is flagged as VBR, and we can do an in-depth check on each of the |
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* VBR settings. Otherwise, we look for the basic MP3 signature 'fffa' or 'fffb' |
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* at the start of the binary. |
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*/ |
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class MP3DatastreamValidator extends DatastreamValidator { |
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|
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/** |
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* Asserts the validity of the MP3. |
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* |
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* The MP3 file format is a bit of a mess; the entire makeup of the file |
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* depends on whether it uses variable bit rate or static bit rate. So, I'm |
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* breaking my own rules here and using a single assert function so that I |
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* can handle the weird logic. |
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*/ |
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protected function assertValidMP3() { |
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$this->datastreamContent = bin2hex($this->datastreamContent); |
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|
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// If it's not a VBR MP3, we don't have to check much, so let's get that |
|
// out of the way first before we go doing a bunch of potentially pointless |
|
// math. Check to see if the VBR flag (58696e67) isn't there. |
|
if (strpos($this->datastreamContent, '58696e67') == FALSE && substr($this->datastreamContent, 0, 4) == 'fffa') { |
|
$this->addResult(TRUE, "{$this->datastream} datastream is encoded as a valid MPEG-1 Layer 3 file with CRC protection"); |
|
return; |
|
} |
|
if (strpos($this->datastreamContent, '58696e67') == FALSE && substr($this->datastreamContent, 0, 4) == 'fffb') { |
|
$this->addResult(TRUE, "{$this->datastream} datastream is encoded as a valid unprotected MPEG-1 Layer 3 file"); |
|
return; |
|
} |
|
|
|
// And what if the flag IS set? |
|
if (strpos($this->datastreamContent, '58696e67')) { |
|
// Check the field flags. VBR-formatted MP3 files contain a 32-bit |
|
// integer (stored as $mp3_flag_value) that is a combination of four |
|
// bits, each one indicating the on-off status of a VBR setting, via |
|
// logical OR. Rather than disassembling this value into individual |
|
// bits, we use the algorithm "if (binary_total+bit_value*2)/bit_value*2 |
|
// is greater than or equal to bit_value, that bit is turned on" to find |
|
// the status of each bit, so we know whether to offset the rest. |
|
$mp3_field_offset = array(0, 0, 0); |
|
$mp3_vbrheader = substr($this->datastreamContent, strpos($this->datastreamContent, '58696e67'), 240); |
|
$mp3_flag_value = hexdec(substr($mp3_vbrheader, 8, 8)); |
|
|
|
// We can't use the first flag, but we still need to offset the rest. |
|
if (($mp3_flag_value + 1) % 2 == 0) { |
|
$mp3_field_offset[0] += 8; |
|
$mp3_field_offset[1] += 8; |
|
$mp3_field_offset[2] += 8; |
|
} |
|
|
|
// The second flag leads us to filesize data, which we can verify. |
|
if (($mp3_flag_value + 4) % 4 > 1) { |
|
$mp3_field_bytes = hexdec(substr($mp3_vbrheader, $mp3_field_offset[0] + 16, 8)); |
|
$mp3_size = strlen($this->datastreamContent) / 2; |
|
$assertion = $mp3_size == $mp3_field_bytes; |
|
$pass = "{$this->datastream} datastream reported filesize of {$mp3_size} bytes matches size field value of {$mp3_field_bytes}"; |
|
$fail = "{$this->datastream} datastream reported filesize of {$mp3_size} bytes does not match size field value of {$mp3_field_bytes}"; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
$mp3_field_offset[1] += 8; |
|
$mp3_field_offset[2] += 8; |
|
} |
|
|
|
// We can't use the third flag for anything, but we still have to offset. |
|
if (($mp3_flag_value + 8) % 8 > 3) { |
|
$mp3_field_offset[2] += 200; |
|
} |
|
|
|
// The fourth flag leads us to VBR quality data, which we can validate. |
|
if ($mp3_flag_value > 7) { |
|
$mp3_field_quality = hexdec(substr($mp3_vbrheader, $mp3_field_offset[2] + 16, 8)); |
|
$assertion = $mp3_field_quality <= 100 && $mp3_field_quality >= 0; |
|
$pass = "{$this->datastream} datastream reports valid VBR quality of {$mp3_field_quality} (expected: between 0-100)"; |
|
$fail = "{$this->datastream} datastream reports invalid VBR quality of {$mp3_field_quality} (expected: between 0-100)"; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
} |
|
} |
|
|
|
// If none of that works out, fail. |
|
else { |
|
$this->addResult(FALSE, "{$this->datastream} datastream is corrupt and does not identify as a valid MP3."); |
|
} |
|
} |
|
|
|
} |
|
|
|
/** |
|
* Attempts to validate an .mp4 datastream. |
|
* |
|
* MP4 files are a subset of the ISO file format specification, and as such need |
|
* to contain a 64-bit declaration of type within the first eight eight bytes of |
|
* the file. This declaration is comprised of the characters 'ftyp', followed by |
|
* a four-character filetype code. Here, we look for 'ftyp', and then pass the |
|
* filetype code to the test message. |
|
*/ |
|
class MP4DatastreamValidator extends DatastreamValidator { |
|
|
|
/** |
|
* Asserts that the datastream is ISO-formatted video. |
|
*/ |
|
protected function assertISOVideo() { |
|
$mp4_ftyp = substr(strpos($this->datastreamContent, 'ftyp'), 4, 4); |
|
$assertion = strpos($this->datastreamContent, 'ftyp') !== 0; |
|
$pass = "{$this->datastream} datastream asserts that it is a valid ISO-formatted video file using ftyp {$mp4_ftyp}"; |
|
$fail = "{$this->datastream} datastream is not a valid ISO-formatted video"; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
} |
|
} |
|
|
|
/** |
|
* Attempts to validate an .ogg/ogv datastream using Vorbis and Theora encoding. |
|
* |
|
* OGG files are made up of several 'pages' of OGG data, each prefaced with an |
|
* OGG marker - the letters 'OggS'. The file header also contains information on |
|
* what encoders were used to create the file. Here, we're looking for at least |
|
* one OGG page, and confirming that the file asserts the Theora and Vorbis |
|
* codecs were used to create the file. |
|
*/ |
|
class OGGDatastreamValidator extends DatastreamValidator { |
|
|
|
/** |
|
* Asserts that the datastream contains ogg pages. |
|
*/ |
|
protected function assertOGGPages() { |
|
$ogg_pages = substr_count($this->datastreamContent, 'OggS'); |
|
$assertion = $ogg_pages !== 0; |
|
$pass = "{$this->datastream} datastream asserts that it contains {$ogg_pages} Ogg pages (even a very small file should contain several)."; |
|
$fail = "{$this->datastream} datastream contains no Ogg pages."; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
} |
|
|
|
/** |
|
* Asserts that the datastream contains Theora-encoded video. |
|
*/ |
|
protected function assertTheoraVideo() { |
|
$assertion = substr_count($this->datastreamContent, 'theora') !== 0; |
|
$pass = "{$this->datastream} datastream asserts that it contains Theora-encoded video data."; |
|
$fail = "{$this->datastream} datastream contains no marker indicating the presence of Theora-encoded video data."; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
} |
|
|
|
/** |
|
* Asserts that the datastream contains Vorbis-encoded audio. |
|
*/ |
|
protected function assertVorbisAudio() { |
|
$assertion = substr_count($this->datastreamContent, 'vorbis') !== 0; |
|
$pass = "{$this->datastream} datastream asserts that it contains Vorbis-encoded audio data"; |
|
$fail = "{$this->datastream} datastream contains no marker indicating the presence of Vorbis-encoded audio data."; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
} |
|
} |
|
|
|
/** |
|
* Attempts to validate an .mkv datastream. |
|
* |
|
* There's not much we can do to check an MKV file, since the format is really, |
|
* really loose. We do know a couple of things though - first, since MKV is an |
|
* EBML format, the first four characters will always be the same. Since they're |
|
* non-standard characters, we're looking at their hex values instead. And |
|
* second, we know that the file will contain the declaration 'matroska' soon |
|
* after. |
|
*/ |
|
class MKVDatastreamValidator extends DatastreamValidator { |
|
|
|
/** |
|
* Asserts that the datastream is an EBML-format file. |
|
*/ |
|
protected function assertEBMLFormat() { |
|
$assertion = substr(bin2hex($this->datastreamContent), 0, 8) == '1a45dfa3'; |
|
$pass = "{$this->datastream} datastream asserts that it is an EBML-formatted file"; |
|
$fail = "{$this->datastream} datastream is not an EBML-formatted file."; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
} |
|
|
|
/** |
|
* Asserts that the datastream contains a matroska marker. |
|
*/ |
|
protected function assertMatroskaMarker() { |
|
$assertion = substr_count($this->datastreamContent, 'matroska') == 1; |
|
$pass = "{$this->datastream} datastream asserts that its EBML DocType is Matroska"; |
|
$fail = "{$this->datastream} datastream does not contain a Matroska EBML DocType marker."; |
|
$message = $assertion ? $pass : $fail; |
|
$this->addResult($assertion, $message); |
|
} |
|
}
|
|
|