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uuid.go
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uuid.go
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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Content before git sha 34fdeebefcbf183ed7f916f931aa0586fdaa1b40
* Copyright (c) 2012, The Gocql authors,
* provided under the BSD-3-Clause License.
* See the NOTICE file distributed with this work for additional information.
*/
package gocql
// The uuid package can be used to generate and parse universally unique
// identifiers, a standardized format in the form of a 128 bit number.
//
// http://tools.ietf.org/html/rfc4122
import (
"crypto/rand"
"errors"
"fmt"
"io"
"net"
"strings"
"sync/atomic"
"time"
)
type UUID [16]byte
var hardwareAddr []byte
var clockSeq uint32
const (
VariantNCSCompat = 0
VariantIETF = 2
VariantMicrosoft = 6
VariantFuture = 7
)
func init() {
if interfaces, err := net.Interfaces(); err == nil {
for _, i := range interfaces {
if i.Flags&net.FlagLoopback == 0 && len(i.HardwareAddr) > 0 {
hardwareAddr = i.HardwareAddr
break
}
}
}
if hardwareAddr == nil {
// If we failed to obtain the MAC address of the current computer,
// we will use a randomly generated 6 byte sequence instead and set
// the multicast bit as recommended in RFC 4122.
hardwareAddr = make([]byte, 6)
_, err := io.ReadFull(rand.Reader, hardwareAddr)
if err != nil {
panic(err)
}
hardwareAddr[0] = hardwareAddr[0] | 0x01
}
// initialize the clock sequence with a random number
var clockSeqRand [2]byte
io.ReadFull(rand.Reader, clockSeqRand[:])
clockSeq = uint32(clockSeqRand[1])<<8 | uint32(clockSeqRand[0])
}
// ParseUUID parses a 32 digit hexadecimal number (that might contain hypens)
// representing an UUID.
func ParseUUID(input string) (UUID, error) {
var u UUID
j := 0
for _, r := range input {
switch {
case r == '-' && j&1 == 0:
continue
case r >= '0' && r <= '9' && j < 32:
u[j/2] |= byte(r-'0') << uint(4-j&1*4)
case r >= 'a' && r <= 'f' && j < 32:
u[j/2] |= byte(r-'a'+10) << uint(4-j&1*4)
case r >= 'A' && r <= 'F' && j < 32:
u[j/2] |= byte(r-'A'+10) << uint(4-j&1*4)
default:
return UUID{}, fmt.Errorf("invalid UUID %q", input)
}
j += 1
}
if j != 32 {
return UUID{}, fmt.Errorf("invalid UUID %q", input)
}
return u, nil
}
// UUIDFromBytes converts a raw byte slice to an UUID.
func UUIDFromBytes(input []byte) (UUID, error) {
var u UUID
if len(input) != 16 {
return u, errors.New("UUIDs must be exactly 16 bytes long")
}
copy(u[:], input)
return u, nil
}
func MustRandomUUID() UUID {
uuid, err := RandomUUID()
if err != nil {
panic(err)
}
return uuid
}
// RandomUUID generates a totally random UUID (version 4) as described in
// RFC 4122.
func RandomUUID() (UUID, error) {
var u UUID
_, err := io.ReadFull(rand.Reader, u[:])
if err != nil {
return u, err
}
u[6] &= 0x0F // clear version
u[6] |= 0x40 // set version to 4 (random uuid)
u[8] &= 0x3F // clear variant
u[8] |= 0x80 // set to IETF variant
return u, nil
}
var timeBase = time.Date(1582, time.October, 15, 0, 0, 0, 0, time.UTC).Unix()
// getTimestamp converts time to UUID (version 1) timestamp.
// It must be an interval of 100-nanoseconds since timeBase.
func getTimestamp(t time.Time) int64 {
utcTime := t.In(time.UTC)
ts := int64(utcTime.Unix()-timeBase)*10000000 + int64(utcTime.Nanosecond()/100)
return ts
}
// TimeUUID generates a new time based UUID (version 1) using the current
// time as the timestamp.
func TimeUUID() UUID {
return UUIDFromTime(time.Now())
}
// The min and max clock values for a UUID.
//
// Cassandra's TimeUUIDType compares the lsb parts as signed byte arrays.
// Thus, the min value for each byte is -128 and the max is +127.
const (
minClock = 0x8080
maxClock = 0x7f7f
)
// The min and max node values for a UUID.
//
// See explanation about Cassandra's TimeUUIDType comparison logic above.
var (
minNode = []byte{0x80, 0x80, 0x80, 0x80, 0x80, 0x80}
maxNode = []byte{0x7f, 0x7f, 0x7f, 0x7f, 0x7f, 0x7f}
)
// MinTimeUUID generates a "fake" time based UUID (version 1) which will be
// the smallest possible UUID generated for the provided timestamp.
//
// UUIDs generated by this function are not unique and are mostly suitable only
// in queries to select a time range of a Cassandra's TimeUUID column.
func MinTimeUUID(t time.Time) UUID {
return TimeUUIDWith(getTimestamp(t), minClock, minNode)
}
// MaxTimeUUID generates a "fake" time based UUID (version 1) which will be
// the biggest possible UUID generated for the provided timestamp.
//
// UUIDs generated by this function are not unique and are mostly suitable only
// in queries to select a time range of a Cassandra's TimeUUID column.
func MaxTimeUUID(t time.Time) UUID {
return TimeUUIDWith(getTimestamp(t), maxClock, maxNode)
}
// UUIDFromTime generates a new time based UUID (version 1) as described in
// RFC 4122. This UUID contains the MAC address of the node that generated
// the UUID, the given timestamp and a sequence number.
func UUIDFromTime(t time.Time) UUID {
ts := getTimestamp(t)
clock := atomic.AddUint32(&clockSeq, 1)
return TimeUUIDWith(ts, clock, hardwareAddr)
}
// TimeUUIDWith generates a new time based UUID (version 1) as described in
// RFC4122 with given parameters. t is the number of 100's of nanoseconds
// since 15 Oct 1582 (60bits). clock is the number of clock sequence (14bits).
// node is a slice to gurarantee the uniqueness of the UUID (up to 6bytes).
// Note: calling this function does not increment the static clock sequence.
func TimeUUIDWith(t int64, clock uint32, node []byte) UUID {
var u UUID
u[0], u[1], u[2], u[3] = byte(t>>24), byte(t>>16), byte(t>>8), byte(t)
u[4], u[5] = byte(t>>40), byte(t>>32)
u[6], u[7] = byte(t>>56)&0x0F, byte(t>>48)
u[8] = byte(clock >> 8)
u[9] = byte(clock)
copy(u[10:], node)
u[6] |= 0x10 // set version to 1 (time based uuid)
u[8] &= 0x3F // clear variant
u[8] |= 0x80 // set to IETF variant
return u
}
// String returns the UUID in it's canonical form, a 32 digit hexadecimal
// number in the form of xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx.
func (u UUID) String() string {
var offsets = [...]int{0, 2, 4, 6, 9, 11, 14, 16, 19, 21, 24, 26, 28, 30, 32, 34}
const hexString = "0123456789abcdef"
r := make([]byte, 36)
for i, b := range u {
r[offsets[i]] = hexString[b>>4]
r[offsets[i]+1] = hexString[b&0xF]
}
r[8] = '-'
r[13] = '-'
r[18] = '-'
r[23] = '-'
return string(r)
}
// Bytes returns the raw byte slice for this UUID. A UUID is always 128 bits
// (16 bytes) long.
func (u UUID) Bytes() []byte {
return u[:]
}
// Variant returns the variant of this UUID. This package will only generate
// UUIDs in the IETF variant.
func (u UUID) Variant() int {
x := u[8]
if x&0x80 == 0 {
return VariantNCSCompat
}
if x&0x40 == 0 {
return VariantIETF
}
if x&0x20 == 0 {
return VariantMicrosoft
}
return VariantFuture
}
// Version extracts the version of this UUID variant. The RFC 4122 describes
// five kinds of UUIDs.
func (u UUID) Version() int {
return int(u[6] & 0xF0 >> 4)
}
// Node extracts the MAC address of the node who generated this UUID. It will
// return nil if the UUID is not a time based UUID (version 1).
func (u UUID) Node() []byte {
if u.Version() != 1 {
return nil
}
return u[10:]
}
// Clock extracts the clock sequence of this UUID. It will return zero if the
// UUID is not a time based UUID (version 1).
func (u UUID) Clock() uint32 {
if u.Version() != 1 {
return 0
}
// Clock sequence is the lower 14bits of u[8:10]
return uint32(u[8]&0x3F)<<8 | uint32(u[9])
}
// Timestamp extracts the timestamp information from a time based UUID
// (version 1).
func (u UUID) Timestamp() int64 {
if u.Version() != 1 {
return 0
}
return int64(uint64(u[0])<<24|uint64(u[1])<<16|
uint64(u[2])<<8|uint64(u[3])) +
int64(uint64(u[4])<<40|uint64(u[5])<<32) +
int64(uint64(u[6]&0x0F)<<56|uint64(u[7])<<48)
}
// Time is like Timestamp, except that it returns a time.Time.
func (u UUID) Time() time.Time {
if u.Version() != 1 {
return time.Time{}
}
t := u.Timestamp()
sec := t / 1e7
nsec := (t % 1e7) * 100
return time.Unix(sec+timeBase, nsec).UTC()
}
// Marshaling for JSON
func (u UUID) MarshalJSON() ([]byte, error) {
return []byte(`"` + u.String() + `"`), nil
}
// Unmarshaling for JSON
func (u *UUID) UnmarshalJSON(data []byte) error {
str := strings.Trim(string(data), `"`)
if len(str) > 36 {
return fmt.Errorf("invalid JSON UUID %s", str)
}
parsed, err := ParseUUID(str)
if err == nil {
copy(u[:], parsed[:])
}
return err
}
func (u UUID) MarshalText() ([]byte, error) {
return []byte(u.String()), nil
}
func (u *UUID) UnmarshalText(text []byte) (err error) {
*u, err = ParseUUID(string(text))
return
}