* @license http://opensource.org/licenses/MIT MIT */ /** phpcs:disable */ namespace Raygun4php\Rhumsaa\Uuid; use InvalidArgumentException; /** * Represents a universally unique identifier (UUID), according to RFC 4122 * * This class provides immutable UUID objects (the Uuid class) and the static * methods `uuid1()`, `uuid3()`, `uuid4()`, and `uuid5()` for generating version * 1, 3, 4, and 5 UUIDs as specified in RFC 4122. * * If all you want is a unique ID, you should probably call `uuid1()` or `uuid4()`. * Note that `uuid1()` may compromise privacy since it creates a UUID containing * the computer’s network address. `uuid4()` creates a random UUID. * * @link http://tools.ietf.org/html/rfc4122 * @link http://en.wikipedia.org/wiki/Universally_unique_identifier * @link http://docs.python.org/3/library/uuid.html * @link http://docs.oracle.com/javase/6/docs/api/java/util/UUID.html */ final class Uuid { /** * When this namespace is specified, the name string is a fully-qualified domain name. * @link http://tools.ietf.org/html/rfc4122#appendix-C */ const NAMESPACE_DNS = '6ba7b810-9dad-11d1-80b4-00c04fd430c8'; /** * When this namespace is specified, the name string is a URL. * @link http://tools.ietf.org/html/rfc4122#appendix-C */ const NAMESPACE_URL = '6ba7b811-9dad-11d1-80b4-00c04fd430c8'; /** * When this namespace is specified, the name string is an ISO OID. * @link http://tools.ietf.org/html/rfc4122#appendix-C */ const NAMESPACE_OID = '6ba7b812-9dad-11d1-80b4-00c04fd430c8'; /** * When this namespace is specified, the name string is an X.500 DN in DER or a text output format. * @link http://tools.ietf.org/html/rfc4122#appendix-C */ const NAMESPACE_X500 = '6ba7b814-9dad-11d1-80b4-00c04fd430c8'; /** * The nil UUID is special form of UUID that is specified to have all 128 bits set to zero. * @link http://tools.ietf.org/html/rfc4122#section-4.1.7 */ const NIL = '00000000-0000-0000-0000-000000000000'; /** * Reserved for NCS compatibility. * @link http://tools.ietf.org/html/rfc4122#section-4.1.1 */ const RESERVED_NCS = 0; /** * Specifies the UUID layout given in RFC 4122. * @link http://tools.ietf.org/html/rfc4122#section-4.1.1 */ const RFC_4122 = 2; /** * Reserved for Microsoft compatibility. * @link http://tools.ietf.org/html/rfc4122#section-4.1.1 */ const RESERVED_MICROSOFT = 6; /** * Reserved for future definition. * @link http://tools.ietf.org/html/rfc4122#section-4.1.1 */ const RESERVED_FUTURE = 7; /** * For testing, 64-bit system override; if true, treat the system as 32-bit * * @var bool */ public static $force32Bit = false; /** * For testing, Moontoast\Math\BigNumber override; if true, treat as if * BigNumber is not available * * @var bool */ public static $forceNoBigNumber = false; /** * For testing, openssl_random_pseudo_bytes() override; if true, treat as * if openssl_random_pseudo_bytes() is not available * * @var bool */ public static $forceNoOpensslRandomPseudoBytes = false; /** * For testing, sets time of day to a static, known value * * @var array */ public static $timeOfDayTest; /** * For testing, system override to ignore generating node from hardware * * @var bool */ public static $ignoreSystemNode = false; /** * The fields that make up this UUID * * This is initialized to the nil value. * * @var array * @link Rhumsaa.Uuid.Uuid.html#method_getFields */ protected $fields = array( 'time_low' => '00000000', 'time_mid' => '0000', 'time_hi_and_version' => '0000', 'clock_seq_hi_and_reserved' => '00', 'clock_seq_low' => '00', 'node' => '000000000000', ); /** * Creates a universally unique identifier (UUID) from an array of fields. * * Protected to prevent direct instantiation. Use static methods to create * UUIDs. * * @param array $fields * @link Rhumsaa.Uuid.Uuid.html#method_getFields */ protected function __construct(array $fields) { $this->fields = $fields; } /** * Converts this UUID object to a string when the object is used in any * string context * * @return string * @link http://www.php.net/manual/en/language.oop5.magic.php#object.tostring */ public function __toString() { return $this->toString(); } /** * Compares this UUID with the specified UUID. * * The first of two UUIDs is greater than the second if the most * significant field in which the UUIDs differ is greater for the first * UUID. * * Q. What's the value of being able to sort UUIDs?
* A. Use them as keys in a B-Tree or similar mapping. * * @param Uuid $uuid UUID to which this UUID is to be compared * @return int -1, 0 or 1 as this UUID is less than, equal to, or greater than $uuid */ public function compareTo(Uuid $uuid) { $comparison = null; if ($this->getMostSignificantBitsHex() < $uuid->getMostSignificantBitsHex()) { $comparison = -1; } elseif ($this->getMostSignificantBitsHex() > $uuid->getMostSignificantBitsHex()) { $comparison = 1; } elseif ($this->getLeastSignificantBitsHex() < $uuid->getLeastSignificantBitsHex()) { $comparison = -1; } elseif ($this->getLeastSignificantBitsHex() > $uuid->getLeastSignificantBitsHex()) { $comparison = 1; } else { $comparison = 0; } return $comparison; } /** * Compares this object to the specified object. * * The result is true if and only if the argument is not null, is a UUID * object, has the same variant, and contains the same value, bit for bit, * as this UUID. * * @param object $obj * @return bool True if $obj is equal to this UUID */ public function equals($obj) { if (!($obj instanceof Uuid)) { return false; } return ($this->compareTo($obj) == 0); } /** * Returns the UUID as a 16-byte string (containing the six integer fields * in big-endian byte order) * * @return string */ public function getBytes() { $bytes = ''; $hex = $this->toString(); $hex = str_replace('-', '', $hex); foreach (range(-2, -32, 2) as $step) { $bytes = chr(hexdec(substr($hex, $step, 2))) . $bytes; } return $bytes; } /** * Returns the high field of the clock sequence multiplexed with the variant * (bits 65-72 of the UUID). * * @return int Unsigned 8-bit integer value of clock_seq_hi_and_reserved */ public function getClockSeqHiAndReserved() { return hexdec($this->getClockSeqHiAndReservedHex()); } /** * Returns the high field of the clock sequence multiplexed with the variant * (bits 65-72 of the UUID). * * @return string Hexadecimal value of clock_seq_hi_and_reserved */ public function getClockSeqHiAndReservedHex() { return $this->fields['clock_seq_hi_and_reserved']; } /** * Returns the low field of the clock sequence (bits 73-80 of the UUID). * * @return int Unsigned 8-bit integer value of clock_seq_low */ public function getClockSeqLow() { return hexdec($this->getClockSeqLowHex()); } /** * Returns the low field of the clock sequence (bits 73-80 of the UUID). * * @return string Hexadecimal value of clock_seq_low */ public function getClockSeqLowHex() { return $this->fields['clock_seq_low']; } /** * Returns the clock sequence value associated with this UUID. * * For UUID version 1, the clock sequence is used to help avoid * duplicates that could arise when the clock is set backwards in time * or if the node ID changes. * * For UUID version 3 or 5, the clock sequence is a 14-bit value * constructed from a name as described in RFC 4122, Section 4.3. * * For UUID version 4, clock sequence is a randomly or pseudo-randomly * generated 14-bit value as described in RFC 4122, Section 4.4. * * @return int Unsigned 14-bit integer value of clock sequence * @link http://tools.ietf.org/html/rfc4122#section-4.1.5 */ public function getClockSequence() { return (($this->getClockSeqHiAndReserved() & 0x3f) << 8) | $this->getClockSeqLow(); } /** * Returns the clock sequence value associated with this UUID. * * @return string Hexadecimal value of clock sequence */ public function getClockSequenceHex() { return sprintf('%04x', $this->getClockSequence()); } /** * Returns a PHP DateTime object representing the timestamp associated * with this UUID. * * The timestamp value is only meaningful in a time-based UUID, which * has version type 1. If this UUID is not a time-based UUID then * this method throws UnsupportedOperationException. * * @return \DateTime A PHP DateTime representation of the date * @throws Exception\UnsupportedOperationException If this UUID is not a version 1 UUID * @throws Exception\UnsatisfiedDependencyException if called on a 32-bit system and Moontoast\Math\BigNumber is not present */ public function getDateTime() { if ($this->getVersion() != 1) { throw new Exception\UnsupportedOperationException('Not a time-based UUID'); } if (self::is64BitSystem()) { $unixTime = ($this->getTimestamp() - 0x01b21dd213814000) / 1e7; $unixTime = number_format($unixTime, 0, '', ''); } elseif (self::hasBigNumber()) { $time = \Moontoast\Math\BigNumber::baseConvert($this->getTimestampHex(), 16, 10); $ts = new \Moontoast\Math\BigNumber($time, 20); $ts->subtract('122192928000000000'); $ts->divide('10000000.0'); $ts->round(); $unixTime = $ts->getValue(); } else { throw new Exception\UnsatisfiedDependencyException( 'When calling ' . __METHOD__ . ' on a 32-bit system, ' . 'Moontoast\Math\BigNumber must be present in order ' . 'to extract DateTime from version 1 UUIDs' ); } return new \DateTime("@{$unixTime}"); } /** * Returns an array of the fields of this UUID, with keys named according * to the RFC 4122 names for the fields. * * * **time_low**: The low field of the timestamp, an unsigned 32-bit integer * * **time_mid**: The middle field of the timestamp, an unsigned 16-bit integer * * **time_hi_and_version**: The high field of the timestamp multiplexed with * the version number, an unsigned 16-bit integer * * **clock_seq_hi_and_reserved**: The high field of the clock sequence * multiplexed with the variant, an unsigned 8-bit integer * * **clock_seq_low**: The low field of the clock sequence, an unsigned * 8-bit integer * * **node**: The spatially unique node identifier, an unsigned 48-bit * integer * * @return array The UUID fields represented as integer values * @throws Exception\UnsatisfiedDependencyException if called on a 32-bit system * @link http://tools.ietf.org/html/rfc4122#section-4.1.2 */ public function getFields() { if (!self::is64BitSystem()) { throw new Exception\UnsatisfiedDependencyException( 'Cannot call ' . __METHOD__ . ' on a 32-bit system, since some ' . 'values overflow the system max integer value' . '; consider calling getFieldsHex instead' ); } return array( 'time_low' => $this->getTimeLow(), 'time_mid' => $this->getTimeMid(), 'time_hi_and_version' => $this->getTimeHiAndVersion(), 'clock_seq_hi_and_reserved' => $this->getClockSeqHiAndReserved(), 'clock_seq_low' => $this->getClockSeqLow(), 'node' => $this->getNode(), ); } /** * Returns an array of the fields of this UUID, with keys named according * to the RFC 4122 names for the fields. * * * **time_low**: The low field of the timestamp, an unsigned 32-bit integer * * **time_mid**: The middle field of the timestamp, an unsigned 16-bit integer * * **time_hi_and_version**: The high field of the timestamp multiplexed with * the version number, an unsigned 16-bit integer * * **clock_seq_hi_and_reserved**: The high field of the clock sequence * multiplexed with the variant, an unsigned 8-bit integer * * **clock_seq_low**: The low field of the clock sequence, an unsigned * 8-bit integer * * **node**: The spatially unique node identifier, an unsigned 48-bit * integer * * @return array The UUID fields represented as hexadecimal values */ public function getFieldsHex() { return $this->fields; } /** * Returns the least significant 64 bits of this UUID's 128 bit value * * @return \Moontoast\Math\BigNumber BigNumber representation of the unsigned 64-bit integer value * @throws Exception\UnsatisfiedDependencyException if Moontoast\Math\BigNumber is not present */ public function getLeastSignificantBits() { if (!self::hasBigNumber()) { throw new Exception\UnsatisfiedDependencyException( 'Cannot call ' . __METHOD__ . ' without support for large ' . 'integers, since least significant bits is an unsigned ' . '64-bit integer; Moontoast\Math\BigNumber is required' . '; consider calling getLeastSignificantBitsHex instead' ); } $number = \Moontoast\Math\BigNumber::baseConvert( $this->getLeastSignificantBitsHex(), 16, 10 ); return new \Moontoast\Math\BigNumber($number); } /** * Returns the least significant 64 bits of this UUID's 128 bit value * * @return string Hexadecimal value of least significant bits */ public function getLeastSignificantBitsHex() { return sprintf( '%02s%02s%012s', $this->fields['clock_seq_hi_and_reserved'], $this->fields['clock_seq_low'], $this->fields['node'] ); } /** * Returns the most significant 64 bits of this UUID's 128 bit value * * @return \Moontoast\Math\BigNumber BigNumber representation of the unsigned 64-bit integer value * @throws Exception\UnsatisfiedDependencyException if Moontoast\Math\BigNumber is not present */ public function getMostSignificantBits() { if (!self::hasBigNumber()) { throw new Exception\UnsatisfiedDependencyException( 'Cannot call ' . __METHOD__ . ' without support for large ' . 'integers, since most significant bits is an unsigned ' . '64-bit integer; Moontoast\Math\BigNumber is required' . '; consider calling getMostSignificantBitsHex instead' ); } $number = \Moontoast\Math\BigNumber::baseConvert( $this->getMostSignificantBitsHex(), 16, 10 ); return new \Moontoast\Math\BigNumber($number); } /** * Returns the most significant 64 bits of this UUID's 128 bit value * * @return string Hexadecimal value of most significant bits */ public function getMostSignificantBitsHex() { return sprintf( '%08s%04s%04s', $this->fields['time_low'], $this->fields['time_mid'], $this->fields['time_hi_and_version'] ); } /** * Returns the node value associated with this UUID * * For UUID version 1, the node field consists of an IEEE 802 MAC * address, usually the host address. For systems with multiple IEEE * 802 addresses, any available one can be used. The lowest addressed * octet (octet number 10) contains the global/local bit and the * unicast/multicast bit, and is the first octet of the address * transmitted on an 802.3 LAN. * * For systems with no IEEE address, a randomly or pseudo-randomly * generated value may be used; see RFC 4122, Section 4.5. The * multicast bit must be set in such addresses, in order that they * will never conflict with addresses obtained from network cards. * * For UUID version 3 or 5, the node field is a 48-bit value constructed * from a name as described in RFC 4122, Section 4.3. * * For UUID version 4, the node field is a randomly or pseudo-randomly * generated 48-bit value as described in RFC 4122, Section 4.4. * * @return int Unsigned 48-bit integer value of node * @link http://tools.ietf.org/html/rfc4122#section-4.1.6 * @throws Exception\UnsatisfiedDependencyException if called on a 32-bit system */ public function getNode() { if (!self::is64BitSystem()) { throw new Exception\UnsatisfiedDependencyException( 'Cannot call ' . __METHOD__ . ' on a 32-bit system, since node ' . 'is an unsigned 48-bit integer and can overflow the system ' . 'max integer value' . '; consider calling getNodeHex instead' ); } return hexdec($this->getNodeHex()); } /** * Returns the node value associated with this UUID * * For UUID version 1, the node field consists of an IEEE 802 MAC * address, usually the host address. For systems with multiple IEEE * 802 addresses, any available one can be used. The lowest addressed * octet (octet number 10) contains the global/local bit and the * unicast/multicast bit, and is the first octet of the address * transmitted on an 802.3 LAN. * * For systems with no IEEE address, a randomly or pseudo-randomly * generated value may be used; see RFC 4122, Section 4.5. The * multicast bit must be set in such addresses, in order that they * will never conflict with addresses obtained from network cards. * * For UUID version 3 or 5, the node field is a 48-bit value constructed * from a name as described in RFC 4122, Section 4.3. * * For UUID version 4, the node field is a randomly or pseudo-randomly * generated 48-bit value as described in RFC 4122, Section 4.4. * * @return string Hexadecimal value of node * @link http://tools.ietf.org/html/rfc4122#section-4.1.6 */ public function getNodeHex() { return $this->fields['node']; } /** * Returns the high field of the timestamp multiplexed with the version * number (bits 49-64 of the UUID). * * @return int Unsigned 16-bit integer value of time_hi_and_version */ public function getTimeHiAndVersion() { return hexdec($this->getTimeHiAndVersionHex()); } /** * Returns the high field of the timestamp multiplexed with the version * number (bits 49-64 of the UUID). * * @return string Hexadecimal value of time_hi_and_version */ public function getTimeHiAndVersionHex() { return $this->fields['time_hi_and_version']; } /** * Returns the low field of the timestamp (the first 32 bits of the UUID). * * @return int Unsigned 32-bit integer value of time_low * @throws Exception\UnsatisfiedDependencyException if called on a 32-bit system */ public function getTimeLow() { if (!self::is64BitSystem()) { throw new Exception\UnsatisfiedDependencyException( 'Cannot call ' . __METHOD__ . ' on a 32-bit system, since time_low ' . 'is an unsigned 32-bit integer and can overflow the system ' . 'max integer value' . '; consider calling getTimeLowHex instead' ); } return hexdec($this->getTimeLowHex()); } /** * Returns the low field of the timestamp (the first 32 bits of the UUID). * * @return string Hexadecimal value of time_low */ public function getTimeLowHex() { return $this->fields['time_low']; } /** * Returns the middle field of the timestamp (bits 33-48 of the UUID). * * @return int Unsigned 16-bit integer value of time_mid */ public function getTimeMid() { return hexdec($this->getTimeMidHex()); } /** * Returns the middle field of the timestamp (bits 33-48 of the UUID). * * @return string Hexadecimal value of time_mid */ public function getTimeMidHex() { return $this->fields['time_mid']; } /** * The timestamp value associated with this UUID * * The 60 bit timestamp value is constructed from the time_low, * time_mid, and time_hi fields of this UUID. The resulting * timestamp is measured in 100-nanosecond units since midnight, * October 15, 1582 UTC. * * The timestamp value is only meaningful in a time-based UUID, which * has version type 1. If this UUID is not a time-based UUID then * this method throws UnsupportedOperationException. * * @return int Unsigned 60-bit integer value of the timestamp * @throws Exception\UnsupportedOperationException If this UUID is not a version 1 UUID * @throws Exception\UnsatisfiedDependencyException if called on a 32-bit system * @link http://tools.ietf.org/html/rfc4122#section-4.1.4 */ public function getTimestamp() { if ($this->getVersion() != 1) { throw new Exception\UnsupportedOperationException('Not a time-based UUID'); } if (!self::is64BitSystem()) { throw new Exception\UnsatisfiedDependencyException( 'Cannot call ' . __METHOD__ . ' on a 32-bit system, since timestamp ' . 'is an unsigned 60-bit integer and can overflow the system ' . 'max integer value' . '; consider calling getTimestampHex instead' ); } return hexdec($this->getTimestampHex()); } /** * The timestamp value associated with this UUID * * The 60 bit timestamp value is constructed from the time_low, * time_mid, and time_hi fields of this UUID. The resulting * timestamp is measured in 100-nanosecond units since midnight, * October 15, 1582 UTC. * * The timestamp value is only meaningful in a time-based UUID, which * has version type 1. If this UUID is not a time-based UUID then * this method throws UnsupportedOperationException. * * @return string Hexadecimal value of the timestamp * @throws Exception\UnsupportedOperationException If this UUID is not a version 1 UUID * @link http://tools.ietf.org/html/rfc4122#section-4.1.4 */ public function getTimestampHex() { if ($this->getVersion() != 1) { throw new Exception\UnsupportedOperationException('Not a time-based UUID'); } return sprintf( '%03x%04s%08s', ($this->getTimeHiAndVersion() & 0x0fff), $this->fields['time_mid'], $this->fields['time_low'] ); } /** * Returns the string representation of the UUID as a URN. * * @return string * @link http://en.wikipedia.org/wiki/Uniform_Resource_Name */ public function getUrn() { return 'urn:uuid:' . $this->toString(); } /** * Returns the variant number associated with this UUID. * * The variant number describes the layout of the UUID. The variant * number has the following meaning: * * * 0 - Reserved for NCS backward compatibility * * 2 - The RFC 4122 variant (used by this class) * * 6 - Reserved, Microsoft Corporation backward compatibility * * 7 - Reserved for future definition * * @return int * @link http://tools.ietf.org/html/rfc4122#section-4.1.1 */ public function getVariant() { $clockSeq = $this->getClockSeqHiAndReserved(); if (0 === ($clockSeq & 0x80)) { $variant = self::RESERVED_NCS; } elseif (0 === ($clockSeq & 0x40)) { $variant = self::RFC_4122; } elseif (0 === ($clockSeq & 0x20)) { $variant = self::RESERVED_MICROSOFT; } else { $variant = self::RESERVED_FUTURE; } return $variant; } /** * The version number associated with this UUID. The version * number describes how this UUID was generated. * * The version number has the following meaning: * * * 1 - Time-based UUID * * 2 - DCE security UUID * * 3 - Name-based UUID hashed with MD5 * * 4 - Randomly generated UUID * * 5 - Name-based UUID hashed with SHA-1 * * Returns null if this UUID is not an RFC 4122 variant, since version * is only meaningul for this variant. * * @return int|null * @link http://tools.ietf.org/html/rfc4122#section-4.1.3 */ public function getVersion() { if ($this->getVariant() == self::RFC_4122) { return (int) (($this->getTimeHiAndVersion() >> 12) & 0x0f); } return null; } /** * Converts this UUID into a string representation * * @return string */ public function toString() { return vsprintf( '%08s-%04s-%04s-%02s%02s-%012s', $this->fields ); } /** * Creates a UUID from a byte string. * * @param string $bytes * @return Uuid * @throws InvalidArgumentException If the $bytes string does not contain 16 characters */ public static function fromBytes($bytes) { if (strlen($bytes) !== 16) { throw new InvalidArgumentException('$bytes string should contain 16 characters.'); } $uuid = ''; foreach (range(0, 15) as $step) { $uuid .= sprintf('%02x', ord($bytes[$step])); if (in_array($step, array(3, 5, 7, 9))) { $uuid .= '-'; } } return Uuid::fromString($uuid); } /** * Creates a UUID from the string standard representation as described * in the toString() method. * * @param string $name A string that specifies a UUID * @return Uuid * @throws InvalidArgumentException If the $name isn't a valid UUID */ public static function fromString($name) { $nameParsed = str_replace(array('urn:', 'uuid:', '{', '}', '-'), '', $name); // We have stripped out the dashes and are breaking up the string using // substr(). In this way, we can accept a full hex value that doesn't // contain dashes. $components = array( substr($nameParsed, 0, 8), substr($nameParsed, 8, 4), substr($nameParsed, 12, 4), substr($nameParsed, 16, 4), substr($nameParsed, 20), ); $nameParsed = implode('-', $components); if (!self::isValid($nameParsed)) { throw new InvalidArgumentException('Invalid UUID string: ' . $name); } $fields = array( 'time_low' => sprintf('%08s', $components[0]), 'time_mid' => sprintf('%04s', $components[1]), 'time_hi_and_version' => sprintf('%04s', $components[2]), 'clock_seq_hi_and_reserved' => sprintf('%02s', substr($components[3], 0, 2)), 'clock_seq_low' => sprintf('%02s', substr($components[3], 2)), 'node' => sprintf('%012s', $components[4]), ); return new self($fields); } /** * Check if a string is a valid uuid * * @param string $uuid The uuid to test * @return boolean */ public static function isValid($uuid) { $uuid = str_replace(array('urn:', 'uuid:', '{', '}'), '', $uuid); if ($uuid == self::NIL) { return true; } if (!preg_match('/^[0-9A-Fa-f]{8}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{4}-[0-9A-Fa-f]{12}$/', $uuid)) { return false; } return true; } /** * Generate a version 1 UUID from a host ID, sequence number, and the current time. * If $node is not given, we will attempt to obtain the local hardware * address. If $clockSeq is given, it is used as the sequence number; * otherwise a random 14-bit sequence number is chosen. * * @param int|string $node A 48-bit number representing the hardware * address. This number may be represented as * an integer or a hexadecimal string. * @param int $clockSeq A 14-bit number used to help avoid duplicates that * could arise when the clock is set backwards in time * or if the node ID changes. * @return Uuid * @throws InvalidArgumentException if the $node is invalid */ public static function uuid1($node = null, $clockSeq = null) { if ($node === null && !self::$ignoreSystemNode) { $node = self::getNodeFromSystem(); } // if $node is still null (couldn't get from system), randomly generate // a node value, according to RFC 4122, Section 4.5 if ($node === null) { $node = sprintf('%06x%06x', mt_rand(0, 1 << 24), mt_rand(0, 1 << 24)); } // Convert the node to hex, if it is still an integer if (is_int($node)) { $node = sprintf('%012x', $node); } if (ctype_xdigit($node) && strlen($node) <= 12) { $node = strtolower(sprintf('%012s', $node)); } else { throw new InvalidArgumentException('Invalid node value'); } if ($clockSeq === null) { // Not using "stable storage"; see RFC 4122, Section 4.2.1.1 $clockSeq = mt_rand(0, 1 << 14); } // Create a 60-bit time value as a count of 100-nanosecond intervals // since 00:00:00.00, 15 October 1582 if (self::$timeOfDayTest === null) { $timeOfDay = gettimeofday(); } else { $timeOfDay = self::$timeOfDayTest; } $uuidTime = self::calculateUuidTime($timeOfDay['sec'], $timeOfDay['usec']); // Set the version number to 1 $timeHi = hexdec($uuidTime['hi']) & 0x0fff; $timeHi &= ~(0xf000); $timeHi |= 1 << 12; // Set the variant to RFC 4122 $clockSeqHi = ($clockSeq >> 8) & 0x3f; $clockSeqHi &= ~(0xc0); $clockSeqHi |= 0x80; $fields = array( 'time_low' => $uuidTime['low'], 'time_mid' => $uuidTime['mid'], 'time_hi_and_version' => sprintf('%04x', $timeHi), 'clock_seq_hi_and_reserved' => sprintf('%02x', $clockSeqHi), 'clock_seq_low' => sprintf('%02x', $clockSeq & 0xff), 'node' => $node, ); return new self($fields); } /** * Generate a version 3 UUID based on the MD5 hash of a namespace identifier (which * is a UUID) and a name (which is a string). * * @param Uuid|string $ns The UUID namespace in which to create the named UUID * @param string $name The name to create a UUID for * @return Uuid */ public static function uuid3($ns, $name) { if (!($ns instanceof Uuid)) { $ns = self::fromString($ns); } $hash = md5($ns->getBytes() . $name); return self::uuidFromHashedName($hash, 3); } /** * Generate a version 4 (random) UUID. * * @return Uuid */ public static function uuid4() { $bytes = self::generateBytes(16); // When converting the bytes to hex, it turns into a 32-character // hexadecimal string that looks a lot like an MD5 hash, so at this // point, we can just pass it to uuidFromHashedName. $hex = bin2hex($bytes); return self::uuidFromHashedName($hex, 4); } /** * Generate a version 5 UUID based on the SHA-1 hash of a namespace identifier (which * is a UUID) and a name (which is a string). * * @param Uuid|string $ns The UUID namespace in which to create the named UUID * @param string $name The name to create a UUID for * @return Uuid */ public static function uuid5($ns, $name) { if (!($ns instanceof Uuid)) { $ns = self::fromString($ns); } $hash = sha1($ns->getBytes() . $name); return self::uuidFromHashedName($hash, 5); } /** * Calculates the UUID time fields from a UNIX timestamp * * UUID time is a 60-bit time value as a count of 100-nanosecond intervals * since 00:00:00.00, 15 October 1582. * * @param int $sec Seconds since the Unix Epoch * @param int $usec Microseconds * @return array * @throws Exception\UnsatisfiedDependencyException if called on a 32-bit system and Moontoast\Math\BigNumber is not present */ protected static function calculateUuidTime($sec, $usec) { if (self::is64BitSystem()) { // 0x01b21dd213814000 is the number of 100-ns intervals between the // UUID epoch 1582-10-15 00:00:00 and the Unix epoch 1970-01-01 00:00:00. $uuidTime = ($sec * 10000000) + ($usec * 10) + 0x01b21dd213814000; return array( 'low' => sprintf('%08x', $uuidTime & 0xffffffff), 'mid' => sprintf('%04x', ($uuidTime >> 32) & 0xffff), 'hi' => sprintf('%04x', ($uuidTime >> 48) & 0x0fff), ); } if (self::hasBigNumber()) { $uuidTime = new \Moontoast\Math\BigNumber('0'); $sec = new \Moontoast\Math\BigNumber($sec); $sec->multiply('10000000'); $usec = new \Moontoast\Math\BigNumber($usec); $usec->multiply('10'); $uuidTime->add($sec) ->add($usec) ->add('122192928000000000'); $uuidTimeHex = sprintf('%016s', $uuidTime->convertToBase(16)); return array( 'low' => substr($uuidTimeHex, 8), 'mid' => substr($uuidTimeHex, 4, 4), 'hi' => substr($uuidTimeHex, 0, 4), ); } throw new Exception\UnsatisfiedDependencyException( 'When calling ' . __METHOD__ . ' on a 32-bit system, ' . 'Moontoast\Math\BigNumber must be present in order ' . 'to generate version 1 UUIDs' ); } /** * Get the hardware address as a 48-bit positive integer. If all attempts to * obtain the hardware address fail, we choose a random 48-bit number with * its eighth bit set to 1 as recommended in RFC 4122. "Hardware address" * means the MAC address of a network interface, and on a machine with * multiple network interfaces the MAC address of any one of them may be * returned. * * @return string * @todo Needs evaluation and possibly modification to ensure this works * well across multiple platforms. */ protected static function getNodeFromSystem() { // If we're on Windows, use ipconfig; otherwise use ifconfig if (strtoupper(substr(php_uname('a'), 0, 3)) == 'WIN') { $ifconfig = `ipconfig /all 2>&1`; } else { $ifconfig = `ifconfig 2>&1`; } $node = null; $pattern = '/[^:]([0-9A-Fa-f]{2}([:-])[0-9A-Fa-f]{2}(\2[0-9A-Fa-f]{2}){4})[^:]/'; $matches = array(); // Search the ifconfig output for all MAC addresses and return // the first one found if (preg_match_all($pattern, $ifconfig, $matches, PREG_PATTERN_ORDER)) { $node = $matches[1][0]; $node = str_replace(':', '', $node); $node = str_replace('-', '', $node); } return $node; } /** * Returns true if the system has Moontoast\Math\BigNumber * * @return bool */ protected static function hasBigNumber() { return (class_exists('Moontoast\Math\BigNumber') && !self::$forceNoBigNumber); } /** * Returns true if the system has openssl_random_pseudo_bytes() * * @return bool */ protected static function hasOpensslRandomPseudoBytes() { return (function_exists('openssl_random_pseudo_bytes') && !self::$forceNoOpensslRandomPseudoBytes); } /** * Returns true if the system is 64-bit, false otherwise * * @return bool */ protected static function is64BitSystem() { return (PHP_INT_SIZE == 8 && !self::$force32Bit); } /** * Returns a version 3 or 5 UUID based on the hash (md5 or sha1) of a * namespace identifier (which is a UUID) and a name (which is a string) * * @param string $hash The hash to use when creating the UUID * @param int $version The UUID version to be generated * @return Uuid */ protected static function uuidFromHashedName($hash, $version) { // Set the version number $timeHi = hexdec(substr($hash, 12, 4)) & 0x0fff; $timeHi &= ~(0xf000); $timeHi |= $version << 12; // Set the variant to RFC 4122 $clockSeqHi = hexdec(substr($hash, 16, 2)) & 0x3f; $clockSeqHi &= ~(0xc0); $clockSeqHi |= 0x80; $fields = array( 'time_low' => substr($hash, 0, 8), 'time_mid' => substr($hash, 8, 4), 'time_hi_and_version' => sprintf('%04x', $timeHi), 'clock_seq_hi_and_reserved' => sprintf('%02x', $clockSeqHi), 'clock_seq_low' => substr($hash, 18, 2), 'node' => substr($hash, 20, 12), ); return new self($fields); } /** * @param int $length * @return string */ private static function generateBytes($length) { if (self::hasOpensslRandomPseudoBytes()) { return openssl_random_pseudo_bytes($length); } $bytes = ''; foreach (range(1, $length) as $i) { $bytes = chr(mt_rand(0, 256)) . $bytes; } return $bytes; } }