input('token'); if(!$token) return response(json_encode(['error' => 'no token provided']))->header('Content-Type', 'application/json'); $db = DB::table('databases')->where('read_token','=',$token)->first(); if(!$db) return response(json_encode(['error' => 'invalid token']))->header('Content-Type', 'application/json'); $qz = new Quartz\DB(env('STORAGE_DIR').$db->name, 'r'); $timezones = [ '-23:00','-22:00','-21:00','-20:00', '-19:00','-18:00','-17:00','-16:00','-15:00','-14:00','-13:00','-12:00','-11:00','-10:00', '-09:00','-08:00','-07:00','-06:00','-05:00','-04:00','-03:00','-02:00','-01:00','+00:00', '+01:00','+02:00','+03:00','+04:00','+05:00','+06:00','+07:00','+08:00','+09:00','+10:00', '+11:00','+12:00','+13:00','+14:00','+15:00','+16:00','+17:00','+18:00','+19:00','+20:00', '+21:00','+22:00','+23:00', ]; $date = false; if($input=$request->input('input')) { // Strict input format if(preg_match('/^[0-9]{4}-[0-9]{2}-[0-9]{2} [0-9]{2}:[0-9]{2}:[0-9]{2}$/', $input)) { $date = $input; } else { // Invalid format } } if(!$date) { return response(json_encode(['error' => 'invalid date provided']))->header('Content-Type', 'application/json'); } $candidates = []; foreach($timezones as $tz) { // Interpret the input date in each timezone $date = DateTime::createFromFormat('Y-m-d H:i:s', $input, new DateTimeZone($tz)); // Find the closest record to that absolute timestamp if($record = $this->_find_closest_record($qz, $date)) { if($record->data) { $local = $this->_timezone_for_location($record->data->geometry->coordinates[1], $record->data->geometry->coordinates[0], $record->date->format('c')); $diff = strtotime($local->localtime) - strtotime($date->format('c')); // Find the record where the localized timezone offset matches the candidate offset if($tz == $local->date->format('P')) { $candidates[] = [ 'record' => $record->data, 'local' => $local, 'tz' => $tz, 'diff' => $diff ]; } } } } // Choose the candidate with the smallest absolute time difference usort($candidates, function($a, $b){ return abs($a['diff']) < abs($b['diff']) ? -1 : 1; }); if(count($candidates)) { $record = $candidates[0]; $response = [ 'data' => $record['record'], 'timezone' => [ 'offset' => $record['local']->offset, 'seconds' => $record['local']->seconds, 'localtime' => $record['local']->localtime, 'name' => $record['local']->name, ] ]; } else { $response = ['data'=>null]; } return response(json_encode($response))->header('Content-Type', 'application/json'); } private function _timezone_for_location($lat, $lng, $date) { $tz = \p3k\Timezone::timezone_for_location($lat, $lng, $date); return new TimezoneResult($tz, $date); } private function _find_closest_record($qz, $date) { // TODO: move this logic into QuartzDB // Load the shard for the given date $shard = $qz->shardForDate($date); // If the shard doesn't exist, check one day before if(!$shard->exists()) { $date = $date->sub(new DateInterval('PT86400S')); $shard = $qz->shardForDate($date); } // Now if the shard doesn't exist, return an empty result if(!$shard->exists()) { return false; } // Start iterating through the shard and look for the last line that is before the given date $shard->init(); $record = false; foreach($shard as $r) { if($r && $r->date > $date) break; $record = $r; } return $record; } } class TimezoneResult { public $timezone = null; private $_now; private $_name; public function __construct($timezone, $date=false) { if($date) $this->_now = new DateTime($date); else $this->_now = new DateTime(); $this->_now->setTimeZone(new DateTimeZone($timezone)); $this->_name = $timezone; } public function __get($key) { switch($key) { case 'date': return $this->_now; case 'offset': return $this->_now->format('P'); case 'seconds': return (int)$this->_now->format('Z'); case 'localtime': return $this->_now->format('c'); case 'name': return $this->_name; } } public function __toString() { return $this->_name; } }