<?php
namespace PhpZip\Model\Extra\Fields;
use PhpZip\Model\Extra\ZipExtraField;
use PhpZip\Model\ZipEntry;
/**
* Extended Timestamp Extra Field:
* ==============================.
*
* The following is the layout of the extended-timestamp extra block.
* (Last Revision 19970118)
*
* Local-header version:
*
* Value Size Description
* ----- ---- -----------
* (time) 0x5455 Short tag for this extra block type ("UT")
* TSize Short total data size for this block
* Flags Byte info bits
* (ModTime) Long time of last modification (UTC/GMT)
* (AcTime) Long time of last access (UTC/GMT)
* (CrTime) Long time of original creation (UTC/GMT)
*
* Central-header version:
*
* Value Size Description
* ----- ---- -----------
* (time) 0x5455 Short tag for this extra block type ("UT")
* TSize Short total data size for this block
* Flags Byte info bits (refers to local header!)
* (ModTime) Long time of last modification (UTC/GMT)
*
* The central-header extra field contains the modification time only,
* or no timestamp at all. TSize is used to flag its presence or
* absence. But note:
*
* If "Flags" indicates that Modtime is present in the local header
* field, it MUST be present in the central header field, too!
* This correspondence is required because the modification time
* value may be used to support trans-timezone freshening and
* updating operations with zip archives.
*
* The time values are in standard Unix signed-long format, indicating
* the number of seconds since 1 January 1970 00:00:00. The times
* are relative to Coordinated Universal Time (UTC), also sometimes
* referred to as Greenwich Mean Time (GMT). To convert to local time,
* the software must know the local timezone offset from UTC/GMT.
*
* The lower three bits of Flags in both headers indicate which time-
* stamps are present in the LOCAL extra field:
*
* bit 0 if set, modification time is present
* bit 1 if set, access time is present
* bit 2 if set, creation time is present
* bits 3-7 reserved for additional timestamps; not set
*
* Those times that are present will appear in the order indicated, but
* any combination of times may be omitted. (Creation time may be
* present without access time, for example.) TSize should equal
* (1 + 4*(number of set bits in Flags)), as the block is currently
* defined. Other timestamps may be added in the future.
*
* @see ftp://ftp.info-zip.org/pub/infozip/doc/appnote-iz-latest.zip Info-ZIP version Specification
*/
class ExtendedTimestampExtraField implements ZipExtraField
{
/** @var int Header id */
const HEADER_ID = 0x5455;
/**
* @var int the bit set inside the flags by when the last modification time
* is present in this extra field
*/
const MODIFY_TIME_BIT = 1;
/**
* @var int the bit set inside the flags by when the last access time is
* present in this extra field
*/
const ACCESS_TIME_BIT = 2;
/**
* @var int the bit set inside the flags by when the original creation time
* is present in this extra field
*/
const CREATE_TIME_BIT = 4;
/**
* @var int The 3 boolean fields (below) come from this flags byte. The remaining 5 bits
* are ignored according to the current version of the spec (December 2012).
*/
private $flags;
/** @var int|null Modify time */
private $modifyTime;
/** @var int|null Access time */
private $accessTime;
/** @var int|null Create time */
private $createTime;
/**
* @param int $flags
* @param int|null $modifyTime
* @param int|null $accessTime
* @param int|null $createTime
*/
public function __construct($flags, $modifyTime, $accessTime, $createTime)
{
$this->flags = (int) $flags;
$this->modifyTime = $modifyTime;
$this->accessTime = $accessTime;
$this->createTime = $createTime;
}
/**
* @param int|null $modifyTime
* @param int|null $accessTime
* @param int|null $createTime
*
* @return ExtendedTimestampExtraField
*/
public static function create($modifyTime, $accessTime, $createTime)
{
$flags = 0;
if ($modifyTime !== null) {
$modifyTime = (int) $modifyTime;
$flags |= self::MODIFY_TIME_BIT;
}
if ($accessTime !== null) {
$accessTime = (int) $accessTime;
$flags |= self::ACCESS_TIME_BIT;
}
if ($createTime !== null) {
$createTime = (int) $createTime;
$flags |= self::CREATE_TIME_BIT;
}
return new self($flags, $modifyTime, $accessTime, $createTime);
}
/**
* Returns the Header ID (type) of this Extra Field.
* The Header ID is an unsigned short integer (two bytes)
* which must be constant during the life cycle of this object.
*
* @return int
*/
public function getHeaderId()
{
return self::HEADER_ID;
}
/**
* Populate data from this array as if it was in local file data.
*
* @param string $buffer the buffer to read data from
* @param ZipEntry|null $entry
*
* @return ExtendedTimestampExtraField
*/
public static function unpackLocalFileData($buffer, ZipEntry $entry = null)
{
$length = \strlen($buffer);
$flags = unpack('C', $buffer)[1];
$offset = 1;
$modifyTime = null;
$accessTime = null;
$createTime = null;
if (($flags & self::MODIFY_TIME_BIT) === self::MODIFY_TIME_BIT) {
$modifyTime = unpack('V', substr($buffer, $offset, 4))[1];
$offset += 4;
}
// Notice the extra length check in case we are parsing the shorter
// central data field (for both access and create timestamps).
if ((($flags & self::ACCESS_TIME_BIT) === self::ACCESS_TIME_BIT) && $offset + 4 <= $length) {
$accessTime = unpack('V', substr($buffer, $offset, 4))[1];
$offset += 4;
}
if ((($flags & self::CREATE_TIME_BIT) === self::CREATE_TIME_BIT) && $offset + 4 <= $length) {
$createTime = unpack('V', substr($buffer, $offset, 4))[1];
}
return new self($flags, $modifyTime, $accessTime, $createTime);
}
/**
* Populate data from this array as if it was in central directory data.
*
* @param string $buffer the buffer to read data from
* @param ZipEntry|null $entry
*
* @return ExtendedTimestampExtraField
*/
public static function unpackCentralDirData($buffer, ZipEntry $entry = null)
{
return self::unpackLocalFileData($buffer, $entry);
}
/**
* The actual data to put into local file data - without Header-ID
* or length specifier.
*
* @return string the data
*/
public function packLocalFileData()
{
$data = '';
if (($this->flags & self::MODIFY_TIME_BIT) === self::MODIFY_TIME_BIT && $this->modifyTime !== null) {
$data .= pack('V', $this->modifyTime);
}
if (($this->flags & self::ACCESS_TIME_BIT) === self::ACCESS_TIME_BIT && $this->accessTime !== null) {
$data .= pack('V', $this->accessTime);
}
if (($this->flags & self::CREATE_TIME_BIT) === self::CREATE_TIME_BIT && $this->createTime !== null) {
$data .= pack('V', $this->createTime);
}
return pack('C', $this->flags) . $data;
}
/**
* The actual data to put into central directory - without Header-ID or
* length specifier.
*
* Note: even if bit1 and bit2 are set, the Central data will still
* not contain access/create fields: only local data ever holds those!
*
* @return string the data
*/
public function packCentralDirData()
{
$cdLength = 1 + ($this->modifyTime !== null ? 4 : 0);
return substr($this->packLocalFileData(), 0, $cdLength);
}
/**
* Gets flags byte.
*
* The flags byte tells us which of the three datestamp fields are
* present in the data:
* bit0 - modify time
* bit1 - access time
* bit2 - create time
*
* Only first 3 bits of flags are used according to the
* latest version of the spec (December 2012).
*
* @return int flags byte indicating which of the
* three datestamp fields are present
*/
public function getFlags()
{
return $this->flags;
}
/**
* Returns the modify time (seconds since epoch) of this zip entry,
* or null if no such timestamp exists in the zip entry.
*
* @return int|null modify time (seconds since epoch) or null
*/
public function getModifyTime()
{
return $this->modifyTime;
}
/**
* Returns the access time (seconds since epoch) of this zip entry,
* or null if no such timestamp exists in the zip entry.
*
* @return int|null access time (seconds since epoch) or null
*/
public function getAccessTime()
{
return $this->accessTime;
}
/**
* Returns the create time (seconds since epoch) of this zip entry,
* or null if no such timestamp exists in the zip entry.
*
* Note: modern linux file systems (e.g., ext2)
* do not appear to store a "create time" value, and so
* it's usually omitted altogether in the zip extra
* field. Perhaps other unix systems track this.
*
* @return int|null create time (seconds since epoch) or null
*/
public function getCreateTime()
{
return $this->createTime;
}
/**
* Returns the modify time as a \DateTimeInterface
* of this zip entry, or null if no such timestamp exists in the zip entry.
* The milliseconds are always zeroed out, since the underlying data
* offers only per-second precision.
*
* @return \DateTimeInterface|null modify time as \DateTimeInterface or null
*/
public function getModifyDateTime()
{
return self::timestampToDateTime($this->modifyTime);
}
/**
* Returns the access time as a \DateTimeInterface
* of this zip entry, or null if no such timestamp exists in the zip entry.
* The milliseconds are always zeroed out, since the underlying data
* offers only per-second precision.
*
* @return \DateTimeInterface|null access time as \DateTimeInterface or null
*/
public function getAccessDateTime()
{
return self::timestampToDateTime($this->accessTime);
}
/**
* Returns the create time as a a \DateTimeInterface
* of this zip entry, or null if no such timestamp exists in the zip entry.
* The milliseconds are always zeroed out, since the underlying data
* offers only per-second precision.
*
* Note: modern linux file systems (e.g., ext2)
* do not appear to store a "create time" value, and so
* it's usually omitted altogether in the zip extra
* field. Perhaps other unix systems track $this->.
*
* @return \DateTimeInterface|null create time as \DateTimeInterface or null
*/
public function getCreateDateTime()
{
return self::timestampToDateTime($this->createTime);
}
/**
* Sets the modify time (seconds since epoch) of this zip entry
* using a integer.
*
* @param int|null $unixTime unix time of the modify time (seconds per epoch) or null
*/
public function setModifyTime($unixTime)
{
$this->modifyTime = $unixTime;
$this->updateFlags();
}
private function updateFlags()
{
$flags = 0;
if ($this->modifyTime !== null) {
$flags |= self::MODIFY_TIME_BIT;
}
if ($this->accessTime !== null) {
$flags |= self::ACCESS_TIME_BIT;
}
if ($this->createTime !== null) {
$flags |= self::CREATE_TIME_BIT;
}
$this->flags = $flags;
}
/**
* Sets the access time (seconds since epoch) of this zip entry
* using a integer.
*
* @param int|null $unixTime Unix time of the access time (seconds per epoch) or null
*/
public function setAccessTime($unixTime)
{
$this->accessTime = $unixTime;
$this->updateFlags();
}
/**
* Sets the create time (seconds since epoch) of this zip entry
* using a integer.
*
* @param int|null $unixTime Unix time of the create time (seconds per epoch) or null
*/
public function setCreateTime($unixTime)
{
$this->createTime = $unixTime;
$this->updateFlags();
}
/**
* @param int|null $timestamp
*
* @return \DateTimeInterface|null
*/
private static function timestampToDateTime($timestamp)
{
try {
return $timestamp !== null ? new \DateTimeImmutable('@' . $timestamp) : null;
} catch (\Exception $e) {
return null;
}
}
/**
* @return string
*/
public function __toString()
{
$args = [self::HEADER_ID];
$format = '0x%04x ExtendedTimestamp:';
if ($this->modifyTime !== null) {
$format .= ' Modify:[%s]';
$args[] = date(\DATE_W3C, $this->modifyTime);
}
if ($this->accessTime !== null) {
$format .= ' Access:[%s]';
$args[] = date(\DATE_W3C, $this->accessTime);
}
if ($this->createTime !== null) {
$format .= ' Create:[%s]';
$args[] = date(\DATE_W3C, $this->createTime);
}
return vsprintf($format, $args);
}
}