Файл: concrete5.7.5.6/concrete/vendor/zendframework/zend-serializer/src/Adapter/PythonPickle.php
Строк: 1059
<?php
/**
* Zend Framework (http://framework.zend.com/)
*
* @link http://github.com/zendframework/zf2 for the canonical source repository
* @copyright Copyright (c) 2005-2014 Zend Technologies USA Inc. (http://www.zend.com)
* @license http://framework.zend.com/license/new-bsd New BSD License
*/
namespace ZendSerializerAdapter;
use stdClass;
use Traversable;
use ZendMathBigInteger;
use ZendSerializerException;
use ZendStdlibArrayUtils;
/**
* @link http://www.python.org
* @see Phython3.1/Lib/pickle.py
* @see Phython3.1/Modules/_pickle.c
* @link http://pickle-js.googlecode.com
*/
class PythonPickle extends AbstractAdapter
{
/**
* Pickle opcodes. See pickletools.py for extensive docs.
* @link http://hg.python.org/cpython/file/2.7/Lib/pickletools.py
* The listing here is in kind-of alphabetical order of 1-character pickle code.
* pickletools groups them by purpose.
*/
const OP_MARK = '('; // push special markobject on stack
const OP_STOP = '.'; // every pickle ends with STOP
const OP_POP = '0'; // discard topmost stack item
const OP_POP_MARK = '1'; // discard stack top through topmost markobject
const OP_DUP = '2'; // duplicate top stack item
const OP_FLOAT = 'F'; // push float object; decimal string argument
const OP_INT = 'I'; // push integer or bool; decimal string argument
const OP_BININT = 'J'; // push four-byte signed int
const OP_BININT1 = 'K'; // push 1-byte unsigned int
const OP_LONG = 'L'; // push long; decimal string argument
const OP_BININT2 = 'M'; // push 2-byte unsigned int
const OP_NONE = 'N'; // push None
const OP_PERSID = 'P'; // push persistent object; id is taken from string arg
const OP_BINPERSID = 'Q'; // " " " ; " " " " stack
const OP_REDUCE = 'R'; // apply callable to argtuple, both on stack
const OP_STRING = 'S'; // push string; NL-terminated string argument
const OP_BINSTRING = 'T'; // push string; counted binary string argument
const OP_SHORT_BINSTRING = 'U'; // " " ; " " " " < 256 bytes
const OP_UNICODE = 'V'; // push Unicode string; raw-unicode-escaped'd argument
const OP_BINUNICODE = 'X'; // " " " ; counted UTF-8 string argument
const OP_APPEND = 'a'; // append stack top to list below it
const OP_BUILD = 'b'; // call __setstate__ or __dict__.update()
const OP_GLOBAL = 'c'; // push self.find_class(modname, name); 2 string args
const OP_DICT = 'd'; // build a dict from stack items
const OP_EMPTY_DICT = '}'; // push empty dict
const OP_APPENDS = 'e'; // extend list on stack by topmost stack slice
const OP_GET = 'g'; // push item from memo on stack; index is string arg
const OP_BINGET = 'h'; // " " " " " " ; " " 1-byte arg
const OP_INST = 'i'; // build & push class instance
const OP_LONG_BINGET = 'j'; // push item from memo on stack; index is 4-byte arg
const OP_LIST = 'l'; // build list from topmost stack items
const OP_EMPTY_LIST = ']'; // push empty list
const OP_OBJ = 'o'; // build & push class instance
const OP_PUT = 'p'; // store stack top in memo; index is string arg
const OP_BINPUT = 'q'; // " " " " " ; " " 1-byte arg
const OP_LONG_BINPUT = 'r'; // " " " " " ; " " 4-byte arg
const OP_SETITEM = 's'; // add key+value pair to dict
const OP_TUPLE = 't'; // build tuple from topmost stack items
const OP_EMPTY_TUPLE = ')'; // push empty tuple
const OP_SETITEMS = 'u'; // modify dict by adding topmost key+value pairs
const OP_BINFLOAT = 'G'; // push float; arg is 8-byte float encoding
/* Protocol 2 */
const OP_PROTO = "x80"; // identify pickle protocol
const OP_NEWOBJ = "x81"; // build object by applying cls.__new__ to argtuple
const OP_EXT1 = "x82"; // push object from extension registry; 1-byte index
const OP_EXT2 = "x83"; // ditto, but 2-byte index
const OP_EXT4 = "x84"; // ditto, but 4-byte index
const OP_TUPLE1 = "x85"; // build 1-tuple from stack top
const OP_TUPLE2 = "x86"; // build 2-tuple from two topmost stack items
const OP_TUPLE3 = "x87"; // build 3-tuple from three topmost stack items
const OP_NEWTRUE = "x88"; // push True
const OP_NEWFALSE = "x89"; // push False
const OP_LONG1 = "x8a"; // push long from < 256 bytes
const OP_LONG4 = "x8b"; // push really big long
/* Protocol 3 (Python 3.x) */
const OP_BINBYTES = 'B'; // push bytes; counted binary string argument
const OP_SHORT_BINBYTES = 'C'; // " " ; " " " " < 256 bytes
/**
* Whether or not the system is little-endian
*
* @var bool
*/
protected static $isLittleEndian = null;
/**
* @var array Strings representing quotes
*/
protected static $quoteString = array(
'\' => '\\',
"x00" => '\x00', "x01" => '\x01', "x02" => '\x02', "x03" => '\x03',
"x04" => '\x04', "x05" => '\x05', "x06" => '\x06', "x07" => '\x07',
"x08" => '\x08', "x09" => '\t', "x0a" => '\n', "x0b" => '\x0b',
"x0c" => '\x0c', "x0d" => '\r', "x0e" => '\x0e', "x0f" => '\x0f',
"x10" => '\x10', "x11" => '\x11', "x12" => '\x12', "x13" => '\x13',
"x14" => '\x14', "x15" => '\x15', "x16" => '\x16', "x17" => '\x17',
"x18" => '\x18', "x19" => '\x19', "x1a" => '\x1a', "x1b" => '\x1b',
"x1c" => '\x1c', "x1d" => '\x1d', "x1e" => '\x1e', "x1f" => '\x1f',
"xff" => '\xff'
);
// process vars
protected $protocol = null;
protected $memo = array();
protected $pickle = '';
protected $pickleLen = 0;
protected $pos = 0;
protected $stack = array();
protected $marker = null;
/**
* @var BigIntegerAdapterAdapterInterface
*/
protected $bigIntegerAdapter = null;
/**
* @var PythonPickleOptions
*/
protected $options = null;
/**
* Constructor.
*
* @param array|Traversable|PythonPickleOptions $options Optional
*/
public function __construct($options = null)
{
// init
if (static::$isLittleEndian === null) {
static::$isLittleEndian = (pack('l', 1) === "x01x00x00x00");
}
$this->marker = new stdClass();
parent::__construct($options);
}
/**
* Set options
*
* @param array|Traversable|PythonPickleOptions $options
* @return PythonPickle
*/
public function setOptions($options)
{
if (!$options instanceof PythonPickleOptions) {
$options = new PythonPickleOptions($options);
}
$this->options = $options;
return $this;
}
/**
* Get options
*
* @return PythonPickleOptions
*/
public function getOptions()
{
if ($this->options === null) {
$this->options = new PythonPickleOptions();
}
return $this->options;
}
/* serialize */
/**
* Serialize PHP to PythonPickle format
*
* @param mixed $value
* @return string
*/
public function serialize($value)
{
$this->clearProcessVars();
$this->protocol = $this->getOptions()->getProtocol();
// write
if ($this->protocol >= 2) {
$this->writeProto($this->protocol);
}
$this->write($value);
$this->writeStop();
$pickle = $this->pickle;
$this->clearProcessVars();
return $pickle;
}
/**
* Write a value
*
* @param mixed $value
* @throws ExceptionRuntimeException on invalid or unrecognized value type
*/
protected function write($value)
{
if ($value === null) {
$this->writeNull();
} elseif (is_bool($value)) {
$this->writeBool($value);
} elseif (is_int($value)) {
$this->writeInt($value);
} elseif (is_float($value)) {
$this->writeFloat($value);
} elseif (is_string($value)) {
// TODO: write unicode / binary
$this->writeString($value);
} elseif (is_array($value)) {
if (ArrayUtils::isList($value)) {
$this->writeArrayList($value);
} else {
$this->writeArrayDict($value);
}
} elseif (is_object($value)) {
$this->writeObject($value);
} else {
throw new ExceptionRuntimeException(sprintf(
'PHP-Type "%s" can not be serialized by %s',
gettype($value),
get_class($this)
));
}
}
/**
* Write pickle protocol
*
* @param int $protocol
*/
protected function writeProto($protocol)
{
$this->pickle .= self::OP_PROTO . $protocol;
}
/**
* Write a get
*
* @param int $id Id of memo
*/
protected function writeGet($id)
{
if ($this->protocol == 0) {
$this->pickle .= self::OP_GET . $id . "rn";
} elseif ($id <= 0xFF) {
// BINGET + chr(i)
$this->pickle .= self::OP_BINGET . chr($id);
} else {
// LONG_BINGET + pack("<i", i)
$bin = pack('l', $id);
if (static::$isLittleEndian === false) {
$bin = strrev($bin);
}
$this->pickle .= self::OP_LONG_BINGET . $bin;
}
}
/**
* Write a put
*
* @param int $id Id of memo
*/
protected function writePut($id)
{
if ($this->protocol == 0) {
$this->pickle .= self::OP_PUT . $id . "rn";
} elseif ($id <= 0xff) {
// BINPUT + chr(i)
$this->pickle .= self::OP_BINPUT . chr($id);
} else {
// LONG_BINPUT + pack("<i", i)
$bin = pack('l', $id);
if (static::$isLittleEndian === false) {
$bin = strrev($bin);
}
$this->pickle .= self::OP_LONG_BINPUT . $bin;
}
}
/**
* Write a null as None
*
*/
protected function writeNull()
{
$this->pickle .= self::OP_NONE;
}
/**
* Write boolean value
*
* @param bool $value
*/
protected function writeBool($value)
{
if ($this->protocol >= 2) {
$this->pickle .= ($value === true) ? self::OP_NEWTRUE : self::OP_NEWFALSE;
} else {
$this->pickle .= self::OP_INT . (($value === true) ? '01' : '00') . "rn";
}
}
/**
* Write an integer value
*
* @param int $value
*/
protected function writeInt($value)
{
if ($this->protocol == 0) {
$this->pickle .= self::OP_INT . $value . "rn";
return;
}
if ($value >= 0) {
if ($value <= 0xFF) {
// self.write(BININT1 + chr(obj))
$this->pickle .= self::OP_BININT1 . chr($value);
} elseif ($value <= 0xFFFF) {
// self.write("%c%c%c" % (BININT2, obj&0xff, obj>>8))
$this->pickle .= self::OP_BININT2 . pack('v', $value);
}
return;
}
// Next check for 4-byte signed ints:
$highBits = $value >> 31; // note that Python shift sign-extends
if ($highBits == 0 || $highBits == -1) {
// All high bits are copies of bit 2**31, so the value
// fits in a 4-byte signed int.
// self.write(BININT + pack("<i", obj))
$bin = pack('l', $value);
if (static::$isLittleEndian === false) {
$bin = strrev($bin);
}
$this->pickle .= self::OP_BININT . $bin;
return;
}
}
/**
* Write a float value
*
* @param float $value
*/
protected function writeFloat($value)
{
if ($this->protocol == 0) {
$this->pickle .= self::OP_FLOAT . $value . "rn";
} else {
// self.write(BINFLOAT + pack('>d', obj))
$bin = pack('d', $value);
if (static::$isLittleEndian === true) {
$bin = strrev($bin);
}
$this->pickle .= self::OP_BINFLOAT . $bin;
}
}
/**
* Write a string value
*
* @param string $value
*/
protected function writeString($value)
{
if (($id = $this->searchMemo($value)) !== false) {
$this->writeGet($id);
return;
}
if ($this->protocol == 0) {
$this->pickle .= self::OP_STRING . $this->quoteString($value) . "rn";
} else {
$n = strlen($value);
if ($n <= 0xFF) {
// self.write(SHORT_BINSTRING + chr(n) + obj)
$this->pickle .= self::OP_SHORT_BINSTRING . chr($n) . $value;
} else {
// self.write(BINSTRING + pack("<i", n) + obj)
$binLen = pack('l', $n);
if (static::$isLittleEndian === false) {
$binLen = strrev($binLen);
}
$this->pickle .= self::OP_BINSTRING . $binLen . $value;
}
}
$this->memorize($value);
}
/**
* Write an associative array value as dictionary
*
* @param array|Traversable $value
*/
protected function writeArrayDict($value)
{
if (($id = $this->searchMemo($value)) !== false) {
$this->writeGet($id);
return;
}
$this->pickle .= self::OP_MARK . self::OP_DICT;
$this->memorize($value);
foreach ($value as $k => $v) {
$this->write($k);
$this->write($v);
$this->pickle .= self::OP_SETITEM;
}
}
/**
* Write a simple array value as list
*
* @param array $value
*/
protected function writeArrayList(array $value)
{
if (($id = $this->searchMemo($value)) !== false) {
$this->writeGet($id);
return;
}
$this->pickle .= self::OP_MARK . self::OP_LIST;
$this->memorize($value);
foreach ($value as $v) {
$this->write($v);
$this->pickle .= self::OP_APPEND;
}
}
/**
* Write an object as an dictionary
*
* @param object $value
*/
protected function writeObject($value)
{
// The main differences between a SplFixedArray and a normal PHP array is
// that the SplFixedArray is of fixed length and allows only integers
// within the range as indexes.
if ($value instanceof SplFixedArray) {
$this->writeArrayList($value->toArray());
// Use the object method toArray if available
} elseif (method_exists($value, 'toArray')) {
$this->writeArrayDict($value->toArray());
// If the object is an iterator simply iterate it
// and convert it to an dictionary
} elseif ($value instanceof Traversable) {
$this->writeArrayDict($value);
// other objects are simply converted by using its properties
} else {
$this->writeArrayDict(get_object_vars($value));
}
}
/**
* Write stop
*/
protected function writeStop()
{
$this->pickle .= self::OP_STOP;
}
/* serialize helper */
/**
* Add a value to the memo and write the id
*
* @param mixed $value
*/
protected function memorize($value)
{
$id = count($this->memo);
$this->memo[$id] = $value;
$this->writePut($id);
}
/**
* Search a value in the memo and return the id
*
* @param mixed $value
* @return int|bool The id or false
*/
protected function searchMemo($value)
{
return array_search($value, $this->memo, true);
}
/**
* Quote/Escape a string
*
* @param string $str
* @return string quoted string
*/
protected function quoteString($str)
{
$quoteArr = static::$quoteString;
if (($cntSingleQuote = substr_count($str, "'"))
&& ($cntDoubleQuote = substr_count($str, '"'))
&& ($cntSingleQuote < $cntDoubleQuote)
) {
$quoteArr['"'] = '\"';
$enclosure = '"';
} else {
$quoteArr["'"] = "\'";
$enclosure = "'";
}
return $enclosure . strtr($str, $quoteArr) . $enclosure;
}
/* unserialize */
/**
* Unserialize from Python Pickle format to PHP
*
* @param string $pickle
* @return mixed
* @throws ExceptionRuntimeException on invalid Pickle string
*/
public function unserialize($pickle)
{
// init process vars
$this->clearProcessVars();
$this->pickle = $pickle;
$this->pickleLen = strlen($this->pickle);
// read pickle string
while (($op = $this->read(1)) !== self::OP_STOP) {
$this->load($op);
}
if (!count($this->stack)) {
throw new ExceptionRuntimeException('No data found');
}
$ret = array_pop($this->stack);
// clear process vars
$this->clearProcessVars();
return $ret;
}
/**
* Clear temp variables needed for processing
*/
protected function clearProcessVars()
{
$this->pos = 0;
$this->pickle = '';
$this->pickleLen = 0;
$this->memo = array();
$this->stack = array();
}
/**
* Load a pickle opcode
*
* @param string $op
* @throws ExceptionRuntimeException on invalid opcode
*/
protected function load($op)
{
switch ($op) {
case self::OP_PUT:
$this->loadPut();
break;
case self::OP_BINPUT:
$this->loadBinPut();
break;
case self::OP_LONG_BINPUT:
$this->loadLongBinPut();
break;
case self::OP_GET:
$this->loadGet();
break;
case self::OP_BINGET:
$this->loadBinGet();
break;
case self::OP_LONG_BINGET:
$this->loadLongBinGet();
break;
case self::OP_NONE:
$this->loadNone();
break;
case self::OP_NEWTRUE:
$this->loadNewTrue();
break;
case self::OP_NEWFALSE:
$this->loadNewFalse();
break;
case self::OP_INT:
$this->loadInt();
break;
case self::OP_BININT:
$this->loadBinInt();
break;
case self::OP_BININT1:
$this->loadBinInt1();
break;
case self::OP_BININT2:
$this->loadBinInt2();
break;
case self::OP_LONG:
$this->loadLong();
break;
case self::OP_LONG1:
$this->loadLong1();
break;
case self::OP_LONG4:
$this->loadLong4();
break;
case self::OP_FLOAT:
$this->loadFloat();
break;
case self::OP_BINFLOAT:
$this->loadBinFloat();
break;
case self::OP_STRING:
$this->loadString();
break;
case self::OP_BINSTRING:
$this->loadBinString();
break;
case self::OP_SHORT_BINSTRING:
$this->loadShortBinString();
break;
case self::OP_BINBYTES:
$this->loadBinBytes();
break;
case self::OP_SHORT_BINBYTES:
$this->loadShortBinBytes();
break;
case self::OP_UNICODE:
$this->loadUnicode();
break;
case self::OP_BINUNICODE:
$this->loadBinUnicode();
break;
case self::OP_MARK:
$this->loadMark();
break;
case self::OP_LIST:
$this->loadList();
break;
case self::OP_EMPTY_LIST:
$this->loadEmptyList();
break;
case self::OP_APPEND:
$this->loadAppend();
break;
case self::OP_APPENDS:
$this->loadAppends();
break;
case self::OP_DICT:
$this->loadDict();
break;
case self::OP_EMPTY_DICT:
$this->_loadEmptyDict();
break;
case self::OP_SETITEM:
$this->loadSetItem();
break;
case self::OP_SETITEMS:
$this->loadSetItems();
break;
case self::OP_TUPLE:
$this->loadTuple();
break;
case self::OP_TUPLE1:
$this->loadTuple1();
break;
case self::OP_TUPLE2:
$this->loadTuple2();
break;
case self::OP_TUPLE3:
$this->loadTuple3();
break;
case self::OP_PROTO:
$this->loadProto();
break;
default:
throw new ExceptionRuntimeException("Invalid or unknown opcode '{$op}'");
}
}
/**
* Load a PUT opcode
*
* @throws ExceptionRuntimeException on missing stack
*/
protected function loadPut()
{
$id = (int) $this->readline();
$lastStack = count($this->stack) - 1;
if (!isset($this->stack[$lastStack])) {
throw new ExceptionRuntimeException('No stack exist');
}
$this->memo[$id] =& $this->stack[$lastStack];
}
/**
* Load a binary PUT
*
* @throws ExceptionRuntimeException on missing stack
*/
protected function loadBinPut()
{
$id = ord($this->read(1));
$lastStack = count($this->stack)-1;
if (!isset($this->stack[$lastStack])) {
throw new ExceptionRuntimeException('No stack exist');
}
$this->memo[$id] =& $this->stack[$lastStack];
}
/**
* Load a long binary PUT
*
* @throws ExceptionRuntimeException on missing stack
*/
protected function loadLongBinPut()
{
$bin = $this->read(4);
if (static::$isLittleEndian === false) {
$bin = strrev($bin);
}
list(, $id) = unpack('l', $bin);
$lastStack = count($this->stack)-1;
if (!isset($this->stack[$lastStack])) {
throw new ExceptionRuntimeException('No stack exist');
}
$this->memo[$id] =& $this->stack[$lastStack];
}
/**
* Load a GET operation
*
* @throws ExceptionRuntimeException on missing GET identifier
*/
protected function loadGet()
{
$id = (int) $this->readline();
if (!array_key_exists($id, $this->memo)) {
throw new ExceptionRuntimeException('Get id "' . $id . '" not found in memo');
}
$this->stack[] =& $this->memo[$id];
}
/**
* Load a binary GET operation
*
* @throws ExceptionRuntimeException on missing GET identifier
*/
protected function loadBinGet()
{
$id = ord($this->read(1));
if (!array_key_exists($id, $this->memo)) {
throw new ExceptionRuntimeException('Get id "' . $id . '" not found in memo');
}
$this->stack[] =& $this->memo[$id];
}
/**
* Load a long binary GET operation
*
* @throws ExceptionRuntimeException on missing GET identifier
*/
protected function loadLongBinGet()
{
$bin = $this->read(4);
if (static::$isLittleEndian === false) {
$bin = strrev($bin);
}
list(, $id) = unpack('l', $bin);
if (!array_key_exists($id, $this->memo)) {
throw new ExceptionRuntimeException('Get id "' . $id . '" not found in memo');
}
$this->stack[] =& $this->memo[$id];
}
/**
* Load a NONE operator
*/
protected function loadNone()
{
$this->stack[] = null;
}
/**
* Load a boolean TRUE operator
*/
protected function loadNewTrue()
{
$this->stack[] = true;
}
/**
* Load a boolean FALSE operator
*/
protected function loadNewFalse()
{
$this->stack[] = false;
}
/**
* Load an integer operator
*/
protected function loadInt()
{
$line = $this->readline();
if ($line === '01') {
$this->stack[] = true;
} elseif ($line === '00') {
$this->stack[] = false;
} else {
$this->stack[] = (int) $line;
}
}
/**
* Load a binary integer operator
*/
protected function loadBinInt()
{
$bin = $this->read(4);
if (static::$isLittleEndian === false) {
$bin = strrev($bin);
}
list(, $int) = unpack('l', $bin);
$this->stack[] = $int;
}
/**
* Load the first byte of a binary integer
*/
protected function loadBinInt1()
{
$this->stack[] = ord($this->read(1));
}
/**
* Load the second byte of a binary integer
*/
protected function loadBinInt2()
{
$bin = $this->read(2);
list(, $int) = unpack('v', $bin);
$this->stack[] = $int;
}
/**
* Load a long (float) operator
*/
protected function loadLong()
{
$data = rtrim($this->readline(), 'L');
if ($data === '') {
$this->stack[] = 0;
} else {
$this->stack[] = $data;
}
}
/**
* Load a one byte long integer
*/
protected function loadLong1()
{
$n = ord($this->read(1));
$data = $this->read($n);
$this->stack[] = $this->decodeBinLong($data);
}
/**
* Load a 4 byte long integer
*
*/
protected function loadLong4()
{
$nBin = $this->read(4);
if (static::$isLittleEndian === false) {
$nBin = strrev($$nBin);
}
list(, $n) = unpack('l', $nBin);
$data = $this->read($n);
$this->stack[] = $this->decodeBinLong($data);
}
/**
* Load a float value
*
*/
protected function loadFloat()
{
$float = (float) $this->readline();
$this->stack[] = $float;
}
/**
* Load a binary float value
*
*/
protected function loadBinFloat()
{
$bin = $this->read(8);
if (static::$isLittleEndian === true) {
$bin = strrev($bin);
}
list(, $float) = unpack('d', $bin);
$this->stack[] = $float;
}
/**
* Load a string
*
*/
protected function loadString()
{
$this->stack[] = $this->unquoteString((string) $this->readline());
}
/**
* Load a binary string
*
*/
protected function loadBinString()
{
$bin = $this->read(4);
if (!static::$isLittleEndian) {
$bin = strrev($bin);
}
list(, $len) = unpack('l', $bin);
$this->stack[] = (string) $this->read($len);
}
/**
* Load a short binary string
*
*/
protected function loadShortBinString()
{
$len = ord($this->read(1));
$this->stack[] = (string) $this->read($len);
}
/**
* Load arbitrary binary bytes
*/
protected function loadBinBytes()
{
// read byte length
$nBin = $this->read(4);
if (static::$isLittleEndian === false) {
$nBin = strrev($$nBin);
}
list(, $n) = unpack('l', $nBin);
$this->stack[] = $this->read($n);
}
/**
* Load a single binary byte
*/
protected function loadShortBinBytes()
{
$n = ord($this->read(1));
$this->stack[] = $this->read($n);
}
/**
* Load a unicode string
*/
protected function loadUnicode()
{
$data = $this->readline();
$pattern = '/\\u([a-fA-F0-9]{4})/u'; // uXXXX
$data = preg_replace_callback($pattern, array($this, '_convertMatchingUnicodeSequence2Utf8'), $data);
$this->stack[] = $data;
}
/**
* Convert a unicode sequence to UTF-8
*
* @param array $match
* @return string
*/
protected function _convertMatchingUnicodeSequence2Utf8(array $match)
{
return $this->hex2Utf8($match[1]);
}
/**
* Convert a hex string to a UTF-8 string
*
* @param string $hex
* @return string
* @throws ExceptionRuntimeException on unmatched unicode sequence
*/
protected function hex2Utf8($hex)
{
$uniCode = hexdec($hex);
if ($uniCode < 0x80) { // 1Byte
$utf8Char = chr($uniCode);
} elseif ($uniCode < 0x800) { // 2Byte
$utf8Char = chr(0xC0 | $uniCode >> 6)
. chr(0x80 | $uniCode & 0x3F);
} elseif ($uniCode < 0x10000) { // 3Byte
$utf8Char = chr(0xE0 | $uniCode >> 12)
. chr(0x80 | $uniCode >> 6 & 0x3F)
. chr(0x80 | $uniCode & 0x3F);
} elseif ($uniCode < 0x110000) { // 4Byte
$utf8Char = chr(0xF0 | $uniCode >> 18)
. chr(0x80 | $uniCode >> 12 & 0x3F)
. chr(0x80 | $uniCode >> 6 & 0x3F)
. chr(0x80 | $uniCode & 0x3F);
} else {
throw new ExceptionRuntimeException(sprintf(
'Unsupported unicode character found "%s"', dechex($uniCode)
));
}
return $utf8Char;
}
/**
* Load binary unicode sequence
*/
protected function loadBinUnicode()
{
// read byte length
$n = $this->read(4);
if (static::$isLittleEndian === false) {
$n = strrev($n);
}
list(, $n) = unpack('l', $n);
$data = $this->read($n);
$this->stack[] = $data;
}
/**
* Load a marker sequence
*/
protected function loadMark()
{
$this->stack[] = $this->marker;
}
/**
* Load an array (list)
*/
protected function loadList()
{
$k = $this->lastMarker();
$this->stack[$k] = array();
// remove all elements after marker
for ($i = $k + 1, $max = count($this->stack); $i < $max; $i++) {
unset($this->stack[$i]);
}
}
/**
* Load an append (to list) sequence
*/
protected function loadAppend()
{
$value = array_pop($this->stack);
$list =& $this->stack[count($this->stack) - 1];
$list[] = $value;
}
/**
* Load an empty list sequence
*/
protected function loadEmptyList()
{
$this->stack[] = array();
}
/**
* Load multiple append (to list) sequences at once
*/
protected function loadAppends()
{
$k = $this->lastMarker();
$list =& $this->stack[$k - 1];
$max = count($this->stack);
for ($i = $k + 1; $i < $max; $i++) {
$list[] = $this->stack[$i];
unset($this->stack[$i]);
}
unset($this->stack[$k]);
}
/**
* Load an associative array (Python dictionary)
*/
protected function loadDict()
{
$k = $this->lastMarker();
$this->stack[$k] = array();
// remove all elements after marker
$max = count($this->stack);
for ($i = $k + 1; $i < $max; $i++) {
unset($this->stack[$i]);
}
}
/**
* Load an item from a set
*/
protected function loadSetItem()
{
$value = array_pop($this->stack);
$key = array_pop($this->stack);
$dict =& $this->stack[count($this->stack) - 1];
$dict[$key] = $value;
}
/**
* Load an empty dictionary
*/
protected function _loadEmptyDict()
{
$this->stack[] = array();
}
/**
* Load set items
*/
protected function loadSetItems()
{
$k = $this->lastMarker();
$dict =& $this->stack[$k - 1];
$max = count($this->stack);
for ($i = $k + 1; $i < $max; $i += 2) {
$key = $this->stack[$i];
$value = $this->stack[$i + 1];
$dict[$key] = $value;
unset($this->stack[$i], $this->stack[$i+1]);
}
unset($this->stack[$k]);
}
/**
* Load a tuple
*/
protected function loadTuple()
{
$k = $this->lastMarker();
$this->stack[$k] = array();
$tuple =& $this->stack[$k];
$max = count($this->stack);
for ($i = $k + 1; $i < $max; $i++) {
$tuple[] = $this->stack[$i];
unset($this->stack[$i]);
}
}
/**
* Load single item tuple
*/
protected function loadTuple1()
{
$value1 = array_pop($this->stack);
$this->stack[] = array($value1);
}
/**
* Load two item tuple
*
*/
protected function loadTuple2()
{
$value2 = array_pop($this->stack);
$value1 = array_pop($this->stack);
$this->stack[] = array($value1, $value2);
}
/**
* Load three item tuple
*
*/
protected function loadTuple3()
{
$value3 = array_pop($this->stack);
$value2 = array_pop($this->stack);
$value1 = array_pop($this->stack);
$this->stack[] = array($value1, $value2, $value3);
}
/**
* Load a proto value
*
* @throws ExceptionRuntimeException if Pickle version does not support this feature
*/
protected function loadProto()
{
$proto = ord($this->read(1));
if ($proto < 2 || $proto > 3) {
throw new ExceptionRuntimeException(
"Invalid or unknown protocol version '{$proto}' detected"
);
}
$this->protocol = $proto;
}
/* unserialize helper */
/**
* Read a segment of the pickle
*
* @param mixed $len
* @return string
* @throws ExceptionRuntimeException if position matches end of data
*/
protected function read($len)
{
if (($this->pos + $len) > $this->pickleLen) {
throw new ExceptionRuntimeException('End of data');
}
$this->pos += $len;
return substr($this->pickle, ($this->pos - $len), $len);
}
/**
* Read a line of the pickle at once
*
* @return string
* @throws ExceptionRuntimeException if no EOL character found
*/
protected function readline()
{
$eolLen = 2;
$eolPos = strpos($this->pickle, "rn", $this->pos);
if ($eolPos === false) {
$eolPos = strpos($this->pickle, "n", $this->pos);
$eolLen = 1;
}
if ($eolPos === false) {
throw new ExceptionRuntimeException('No new line found');
}
$ret = substr($this->pickle, $this->pos, $eolPos-$this->pos);
$this->pos = $eolPos + $eolLen;
return $ret;
}
/**
* Unquote/Unescape a quoted string
*
* @param string $str quoted string
* @return string unquoted string
*/
protected function unquoteString($str)
{
$quoteArr = array_flip(static::$quoteString);
if ($str[0] == '"') {
$quoteArr['\"'] = '"';
} else {
$quoteArr["\'"] = "'";
}
return strtr(substr(trim($str), 1, -1), $quoteArr);
}
/**
* Return last marker position in stack
*
* @return int
*/
protected function lastMarker()
{
for ($k = count($this->stack)-1; $k >= 0; $k -= 1) {
if ($this->stack[$k] === $this->marker) {
break;
}
}
return $k;
}
/**
* Decode a binary long sequence
*
* @param string $data
* @return int|float|string
*/
protected function decodeBinLong($data)
{
$nbytes = strlen($data);
if ($nbytes == 0) {
return 0;
}
$long = 0;
if ($nbytes > 7) {
if ($this->bigIntegerAdapter === null) {
$this->bigIntegerAdapter = BigIntegerBigInteger::getDefaultAdapter();
}
if (static::$isLittleEndian === true) {
$data = strrev($data);
}
$long = $this->bigIntegerAdapter->binToInt($data, true);
} else {
for ($i = 0; $i < $nbytes; $i++) {
$long += ord($data[$i]) * pow(256, $i);
}
if (0x80 <= ord($data[$nbytes - 1])) {
$long -= pow(2, $nbytes * 8);
// $long-= 1 << ($nbytes * 8);
}
}
return $long;
}
}