filename = $filename; $this->_f = @fopen($this->filename, 'rb'); if (!$this->_f) { throw new InvalidArgumentException(sprintf('Cannot open %s !', $filename)); } $this->getPdfVersion(); require_once('pdf_context.php'); $this->_c = new pdf_context($this->_f); // Read xref-Data $this->_xref = array(); $this->_readXref($this->_xref, $this->_findXref()); // Check for Encryption $this->getEncryption(); // Read root $this->_readRoot(); } /** * Destructor */ public function __destruct() { $this->closeFile(); } /** * Close the opened file */ public function closeFile() { if (isset($this->_f) && is_resource($this->_f)) { fclose($this->_f); unset($this->_f); } } /** * Check Trailer for Encryption * * @throws Exception */ public function getEncryption() { if (isset($this->_xref['trailer'][1]['/Encrypt'])) { throw new Exception('File is encrypted!'); } } /** * Get PDF-Version * * @return string */ public function getPdfVersion() { if ($this->_pdfVersion === null) { fseek($this->_f, 0); preg_match('/\d\.\d/', fread($this->_f, 16), $m); if (isset($m[0])) $this->_pdfVersion = $m[0]; } return $this->_pdfVersion; } /** * Read the /Root dictionary */ protected function _readRoot() { if ($this->_xref['trailer'][1]['/Root'][0] != self::TYPE_OBJREF) { throw new Exception('Wrong Type of Root-Element! Must be an indirect reference'); } $this->_root = $this->resolveObject($this->_xref['trailer'][1]['/Root']); } /** * Find the xref table * * @return integer * @throws Exception */ protected function _findXref() { $toRead = self::$searchForStartxrefLength; $stat = fseek($this->_f, -$toRead, SEEK_END); if ($stat === -1) { fseek($this->_f, 0); } $data = fread($this->_f, $toRead); $keywordPos = strpos(strrev($data), strrev('startxref')); if (false === $keywordPos) { $keywordPos = strpos(strrev($data), strrev('startref')); } if (false === $keywordPos) { throw new Exception('Unable to find "startxref" keyword.'); } $pos = strlen($data) - $keywordPos; $data = substr($data, $pos); if (!preg_match('/\s*(\d+).*$/s', $data, $matches)) { throw new Exception('Unable to find pointer to xref table.'); } return (int) $matches[1]; } /** * Read the xref table * * @param array $result Array of xref table entries * @param integer $offset of xref table * @return boolean * @throws Exception */ protected function _readXref(&$result, $offset) { $tempPos = $offset - min(20, $offset); fseek($this->_f, $tempPos); // set some bytes backwards to fetch corrupted docs $data = fread($this->_f, 100); $xrefPos = strrpos($data, 'xref'); if ($xrefPos === false) { $this->_c->reset($offset); $xrefStreamObjDec = $this->_readValue($this->_c); if (is_array($xrefStreamObjDec) && isset($xrefStreamObjDec[0]) && $xrefStreamObjDec[0] == self::TYPE_OBJDEC) { throw new Exception( sprintf( 'This document (%s) probably uses a compression technique which is not supported by the ' . 'free parser shipped with FPDI. (See https://www.setasign.com/fpdi-pdf-parser for more details)', $this->filename ) ); } else { throw new Exception('Unable to find xref table.'); } } if (!isset($result['xrefLocation'])) { $result['xrefLocation'] = $tempPos + $xrefPos; $result['maxObject'] = 0; } $cycles = -1; $bytesPerCycle = 100; fseek($this->_f, $tempPos = $tempPos + $xrefPos + 4); // set the handle directly after the "xref"-keyword $data = fread($this->_f, $bytesPerCycle); while (($trailerPos = strpos($data, 'trailer', max($bytesPerCycle * $cycles++, 0))) === false && !feof($this->_f)) { $data .= fread($this->_f, $bytesPerCycle); } if ($trailerPos === false) { throw new Exception('Trailer keyword not found after xref table'); } $data = ltrim(substr($data, 0, $trailerPos)); // get Line-Ending preg_match_all("/(\r\n|\n|\r)/", substr($data, 0, 100), $m); // check the first 100 bytes for line breaks $differentLineEndings = count(array_unique($m[0])); if ($differentLineEndings > 1) { $lines = preg_split("/(\r\n|\n|\r)/", $data, -1, PREG_SPLIT_NO_EMPTY); } else { $lines = explode($m[0][0], $data); } $data = $differentLineEndings = $m = null; unset($data, $differentLineEndings, $m); $linesCount = count($lines); $start = 1; for ($i = 0; $i < $linesCount; $i++) { $line = trim($lines[$i]); if ($line) { $pieces = explode(' ', $line); $c = count($pieces); switch($c) { case 2: $start = (int)$pieces[0]; $end = $start + (int)$pieces[1]; if ($end > $result['maxObject']) $result['maxObject'] = $end; break; case 3: if (!isset($result['xref'][$start])) $result['xref'][$start] = array(); if (!array_key_exists($gen = (int) $pieces[1], $result['xref'][$start])) { $result['xref'][$start][$gen] = $pieces[2] == 'n' ? (int) $pieces[0] : null; } $start++; break; default: throw new Exception('Unexpected data in xref table'); } } } $lines = $pieces = $line = $start = $end = $gen = null; unset($lines, $pieces, $line, $start, $end, $gen); $this->_c->reset($tempPos + $trailerPos + 7); $trailer = $this->_readValue($this->_c); if (!isset($result['trailer'])) { $result['trailer'] = $trailer; } if (isset($trailer[1]['/Prev'])) { $this->_readXref($result, $trailer[1]['/Prev'][1]); } $trailer = null; unset($trailer); return true; } /** * Reads a PDF value * * @param pdf_context $c * @param string $token A token * @return mixed */ protected function _readValue(&$c, $token = null) { if (is_null($token)) { $token = $this->_readToken($c); } if ($token === false) { return false; } switch ($token) { case '<': // This is a hex string. // Read the value, then the terminator $pos = $c->offset; while(1) { $match = strpos ($c->buffer, '>', $pos); // If you can't find it, try // reading more data from the stream if ($match === false) { if (!$c->increaseLength()) { return false; } else { continue; } } $result = substr ($c->buffer, $c->offset, $match - $c->offset); $c->offset = $match + 1; return array (self::TYPE_HEX, $result); } break; case '<<': // This is a dictionary. $result = array(); // Recurse into this function until we reach // the end of the dictionary. while (($key = $this->_readToken($c)) !== '>>') { if ($key === false) { return false; } if (($value = $this->_readValue($c)) === false) { return false; } // Catch missing value if ($value[0] == self::TYPE_TOKEN && $value[1] == '>>') { $result[$key] = array(self::TYPE_NULL); break; } $result[$key] = $value; } return array (self::TYPE_DICTIONARY, $result); case '[': // This is an array. $result = array(); // Recurse into this function until we reach // the end of the array. while (($token = $this->_readToken($c)) !== ']') { if ($token === false) { return false; } if (($value = $this->_readValue($c, $token)) === false) { return false; } $result[] = $value; } return array (self::TYPE_ARRAY, $result); case '(': // This is a string $pos = $c->offset; $openBrackets = 1; do { for (; $openBrackets != 0 && $pos < $c->length; $pos++) { switch (ord($c->buffer[$pos])) { case 0x28: // '(' $openBrackets++; break; case 0x29: // ')' $openBrackets--; break; case 0x5C: // backslash $pos++; } } } while($openBrackets != 0 && $c->increaseLength()); $result = substr($c->buffer, $c->offset, $pos - $c->offset - 1); $c->offset = $pos; return array (self::TYPE_STRING, $result); case 'stream': $tempPos = $c->getPos() - strlen($c->buffer); $tempOffset = $c->offset; $c->reset($startPos = $tempPos + $tempOffset); $e = 0; // ensure line breaks in front of the stream if ($c->buffer[0] == chr(10) || $c->buffer[0] == chr(13)) $e++; if ($c->buffer[1] == chr(10) && $c->buffer[0] != chr(10)) $e++; if ($this->_currentObj[1][1]['/Length'][0] == self::TYPE_OBJREF) { $tmpLength = $this->resolveObject($this->_currentObj[1][1]['/Length']); $length = $tmpLength[1][1]; } else { $length = $this->_currentObj[1][1]['/Length'][1]; } if ($length > 0) { $c->reset($startPos + $e, $length); $v = $c->buffer; } else { $v = ''; } $c->reset($startPos + $e + $length); $endstream = $this->_readToken($c); if ($endstream != 'endstream') { $c->reset($startPos + $e + $length + 9); // 9 = strlen("endstream") // We don't throw an error here because the next // round trip will start at a new offset } return array(self::TYPE_STREAM, $v); default : if (is_numeric($token)) { // A numeric token. Make sure that // it is not part of something else. if (($tok2 = $this->_readToken($c)) !== false) { if (is_numeric($tok2)) { // Two numeric tokens in a row. // In this case, we're probably in // front of either an object reference // or an object specification. // Determine the case and return the data if (($tok3 = $this->_readToken($c)) !== false) { switch ($tok3) { case 'obj': return array(self::TYPE_OBJDEC, (int)$token, (int)$tok2); case 'R': return array(self::TYPE_OBJREF, (int)$token, (int)$tok2); } // If we get to this point, that numeric value up // there was just a numeric value. Push the extra // tokens back into the stack and return the value. array_push($c->stack, $tok3); } } array_push($c->stack, $tok2); } if ($token === (string)((int)$token)) return array(self::TYPE_NUMERIC, (int)$token); else return array(self::TYPE_REAL, (float)$token); } else if ($token == 'true' || $token == 'false') { return array(self::TYPE_BOOLEAN, $token == 'true'); } else if ($token == 'null') { return array(self::TYPE_NULL); } else { // Just a token. Return it. return array(self::TYPE_TOKEN, $token); } } } /** * Resolve an object * * @param array $objSpec The object-data * @return array|boolean * @throws Exception */ public function resolveObject($objSpec) { $c = $this->_c; // Exit if we get invalid data if (!is_array($objSpec)) { return false; } if ($objSpec[0] == self::TYPE_OBJREF) { // This is a reference, resolve it if (isset($this->_xref['xref'][$objSpec[1]][$objSpec[2]])) { // Save current file position // This is needed if you want to resolve // references while you're reading another object // (e.g.: if you need to determine the length // of a stream) $oldPos = $c->getPos(); // Reposition the file pointer and // load the object header. $c->reset($this->_xref['xref'][$objSpec[1]][$objSpec[2]]); $header = $this->_readValue($c); if ($header[0] != self::TYPE_OBJDEC || $header[1] != $objSpec[1] || $header[2] != $objSpec[2]) { $toSearchFor = $objSpec[1] . ' ' . $objSpec[2] . ' obj'; if (preg_match('/' . $toSearchFor . '/', $c->buffer)) { $c->offset = strpos($c->buffer, $toSearchFor) + strlen($toSearchFor); // reset stack $c->stack = array(); } else { throw new Exception( sprintf("Unable to find object (%s, %s) at expected location.", $objSpec[1], $objSpec[2]) ); } } // If we're being asked to store all the information // about the object, we add the object ID and generation // number for later use $result = array ( self::TYPE_OBJECT, 'obj' => $objSpec[1], 'gen' => $objSpec[2] ); $this->_currentObj =& $result; // Now simply read the object data until // we encounter an end-of-object marker while (true) { $value = $this->_readValue($c); if ($value === false || count($result) > 4) { // in this case the parser couldn't find an "endobj" so we break here break; } if ($value[0] == self::TYPE_TOKEN && $value[1] === 'endobj') { break; } $result[] = $value; } $c->reset($oldPos); if (isset($result[2][0]) && $result[2][0] == self::TYPE_STREAM) { $result[0] = self::TYPE_STREAM; } return $result; } } else { return $objSpec; } } /** * Reads a token from the context * * @param pdf_context $c * @return mixed */ protected function _readToken($c) { // If there is a token available // on the stack, pop it out and // return it. if (count($c->stack)) { return array_pop($c->stack); } // Strip away any whitespace do { if (!$c->ensureContent()) { return false; } $c->offset += strspn($c->buffer, "\x20\x0A\x0C\x0D\x09\x00", $c->offset); } while ($c->offset >= $c->length - 1); // Get the first character in the stream $char = $c->buffer[$c->offset++]; switch ($char) { case '[': case ']': case '(': case ')': // This is either an array or literal string // delimiter, Return it return $char; case '<': case '>': // This could either be a hex string or // dictionary delimiter. Determine the // appropriate case and return the token if ($c->buffer[$c->offset] == $char) { if (!$c->ensureContent()) { return false; } $c->offset++; return $char . $char; } else { return $char; } case '%': // This is a comment - jump over it! $pos = $c->offset; while(1) { $match = preg_match("/(\r\n|\r|\n)/", $c->buffer, $m, PREG_OFFSET_CAPTURE, $pos); if ($match === 0) { if (!$c->increaseLength()) { return false; } else { continue; } } $c->offset = $m[0][1] + strlen($m[0][0]); return $this->_readToken($c); } default: // This is "another" type of token (probably // a dictionary entry or a numeric value) // Find the end and return it. if (!$c->ensureContent()) { return false; } while(1) { // Determine the length of the token $pos = strcspn($c->buffer, "\x20%[]<>()/\x0A\x0C\x0D\x09\x00", $c->offset); if ($c->offset + $pos <= $c->length - 1) { break; } else { // If the script reaches this point, // the token may span beyond the end // of the current buffer. Therefore, // we increase the size of the buffer // and try again--just to be safe. $c->increaseLength(); } } $result = substr($c->buffer, $c->offset - 1, $pos + 1); $c->offset += $pos; return $result; } } /** * Un-filter a stream object * * @param array $obj * @return string * @throws Exception */ protected function _unFilterStream($obj) { $filters = array(); if (isset($obj[1][1]['/Filter'])) { $filter = $obj[1][1]['/Filter']; if ($filter[0] == pdf_parser::TYPE_OBJREF) { $tmpFilter = $this->resolveObject($filter); $filter = $tmpFilter[1]; } if ($filter[0] == pdf_parser::TYPE_TOKEN) { $filters[] = $filter; } else if ($filter[0] == pdf_parser::TYPE_ARRAY) { $filters = $filter[1]; } } $stream = $obj[2][1]; foreach ($filters AS $filter) { switch ($filter[1]) { case '/FlateDecode': case '/Fl': if (function_exists('gzuncompress')) { $oStream = $stream; $stream = (strlen($stream) > 0) ? @gzuncompress($stream) : ''; } else { throw new Exception( sprintf('To handle %s filter, please compile php with zlib support.', $filter[1]) ); } if ($stream === false) { $tries = 0; while ($tries < 8 && ($stream === false || strlen($stream) < strlen($oStream))) { $oStream = substr($oStream, 1); $stream = @gzinflate($oStream); $tries++; } if ($stream === false) { throw new Exception('Error while decompressing stream.'); } } break; case '/LZWDecode': require_once('filters/FilterLZW.php'); $decoder = new FilterLZW(); $stream = $decoder->decode($stream); break; case '/ASCII85Decode': require_once('filters/FilterASCII85.php'); $decoder = new FilterASCII85(); $stream = $decoder->decode($stream); break; case '/ASCIIHexDecode': require_once('filters/FilterASCIIHexDecode.php'); $decoder = new FilterASCIIHexDecode(); $stream = $decoder->decode($stream); break; case null: break; default: throw new Exception(sprintf('Unsupported Filter: %s', $filter[1])); } } return $stream; } }