ulid

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Published: Apr 3, 2023 License: Apache-2.0 Imports: 11 Imported by: 0

README

Universally Unique Lexicographically Sortable Identifier

Background

A GUID/UUID can be suboptimal for many use-cases because:

  • It isn't the most character efficient way of encoding 128 bits
  • UUID v1/v2 is impractical in many environments, as it requires access to a unique, stable MAC address
  • UUID v3/v5 requires a unique seed and produces randomly distributed IDs, which can cause fragmentation in many data structures
  • UUID v4 provides no other information than randomness which can cause fragmentation in many data structures

A ULID however:

  • Is compatible with UUID/GUID's
  • 1.21e+24 unique ULIDs per millisecond (1,208,925,819,614,629,174,706,176 to be exact)
  • Lexicographically sortable
  • Canonically encoded as a 26 character string, as opposed to the 36 character UUID
  • Uses Crockford's base32 for better efficiency and readability (5 bits per character)
  • Case insensitive
  • No special characters (URL safe)
  • Monotonic sort order (correctly detects and handles the same millisecond)

Install

This package requires Go modules.

go get github.com/merajsahebdar/ulid

Applied Changes to oklog/ulid Original Art

  • The implementation of sql.Scanner unmarshals from uuid representation.
  • The implementation of driver.Valuer marshals to uuid representation.
  • The ulid command is removed.
  • The benchmarks are removed.

Usage

ULIDs are constructed from two things: a timestamp with millisecond precision, and some random data.

Timestamps are modeled as uint64 values representing a Unix time in milliseconds. They can be produced by passing a time.Time to ulid.Timestamp, or by calling time.Time.UnixMilli and converting the returned value to uint64.

Random data is taken from a provided io.Reader. This design allows for greater flexibility when choosing trade-offs, but can be a bit confusing to newcomers.

If you just want to generate a ULID and don't (yet) care about details like performance, cryptographic security, etc., use the ulid.Make helper function. This function calls time.Now to get a timestamp, and uses a source of entropy which is process-global, pseudo-random, and monotonic.

println(ulid.Make())
// 01G65Z755AFWAKHE12NY0CQ9FH

More advanced use cases should utilize ulid.New.

entropy := rand.New(rand.NewSource(time.Now().UnixNano()))
ms := ulid.Timestamp(time.Now())
println(ulid.New(ms, entropy))
// 01G65Z755AFWAKHE12NY0CQ9FH

Care should be taken when providing a source of entropy.

The above example utilizes math/rand.Rand, which is not safe for concurrent use by multiple goroutines. Consider alternatives such as x/exp/rand. Security-sensitive use cases should always use cryptographically secure entropy provided by crypto/rand.

Performance-sensitive use cases should avoid synchronization when generating IDs. One option is to use a unique source of entropy for each concurrent goroutine, which results in no lock contention, but cannot provide strong guarantees about the random data, and does not provide monotonicity within a given millisecond. One common performance optimization is to pool sources of entropy using a sync.Pool.

Monotonicity is a property that says each ULID is "bigger than" the previous one. ULIDs are automatically monotonic, but only to millisecond precision. ULIDs generated within the same millisecond are ordered by their random component, which means they are by default un-ordered. You can use ulid.MonotonicEntropy or ulid.LockedMonotonicEntropy to create ULIDs that are monotonic within a given millisecond, with caveats. See the documentation for details.

If you don't care about time-based ordering of generated IDs, then there's no reason to use ULIDs! There are many other kinds of IDs that are easier, faster, smaller, etc. Consider UUIDs.

Test

go test ./...

Specification and Prior Art

Documentation

Index

Examples

Constants

View Source
const EncodedSize = 26

EncodedSize is the length of a text encoded ULID.

View Source
const Encoding = "0123456789ABCDEFGHJKMNPQRSTVWXYZ"

Encoding is the base 32 encoding alphabet used in ULID strings.

View Source
const HexEncoding = "0123456789abcdef"

HexEncoding is the hexadecimal encoding alphabet used in UUID strings.

Variables

View Source
var (
	// ErrDataSize is returned when parsing or unmarshaling ULIDs with the wrong
	// data size.
	ErrDataSize = errors.New("ulid: bad data size when unmarshaling")

	// ErrInvalidCharacters is returned when parsing or unmarshaling ULIDs with
	// invalid Base32 encodings.
	ErrInvalidCharacters = errors.New("ulid: bad data characters when unmarshaling")

	// ErrBufferSize is returned when marshalling ULIDs to a buffer of insufficient
	// size.
	ErrBufferSize = errors.New("ulid: bad buffer size when marshaling")

	// ErrBigTime is returned when constructing a ULID with a time that is larger
	// than MaxTime.
	ErrBigTime = errors.New("ulid: time too big")

	// ErrOverflow is returned when unmarshaling a ULID whose first character is
	// larger than 7, thereby exceeding the valid bit depth of 128.
	ErrOverflow = errors.New("ulid: overflow when unmarshaling")

	// ErrMonotonicOverflow is returned by a Monotonic entropy source when
	// incrementing the previous ULID's entropy bytes would result in overflow.
	ErrMonotonicOverflow = errors.New("ulid: monotonic entropy overflow")

	// ErrScanValue is returned when the value passed to scan cannot be unmarshaled
	// into the ULID.
	ErrScanValue = errors.New("ulid: source value must be a string or byte slice")
)

Functions

func DefaultEntropy

func DefaultEntropy() io.Reader

DefaultEntropy returns a thread-safe per process monotonically increasing entropy source.

func MaxTime

func MaxTime() uint64

MaxTime returns the maximum Unix time in milliseconds that can be encoded in a ULID.

func Now

func Now() uint64

Now is a convenience function that returns the current UTC time in Unix milliseconds. Equivalent to:

Timestamp(time.Now().UTC())

func Time

func Time(ms uint64) time.Time

Time converts Unix milliseconds in the format returned by the Timestamp function to a time.Time.

func Timestamp

func Timestamp(t time.Time) uint64

Timestamp converts a time.Time to Unix milliseconds.

Because of the way ULID stores time, times from the year 10889 produces undefined results.

Types

type LockedMonotonicReader

type LockedMonotonicReader struct {
	MonotonicReader
	// contains filtered or unexported fields
}

LockedMonotonicReader wraps a MonotonicReader with a sync.Mutex for safe concurrent use.

func (*LockedMonotonicReader) MonotonicRead

func (r *LockedMonotonicReader) MonotonicRead(ms uint64, p []byte) (err error)

MonotonicRead synchronizes calls to the wrapped MonotonicReader.

type MonotonicEntropy

type MonotonicEntropy struct {
	io.Reader
	// contains filtered or unexported fields
}

MonotonicEntropy is an opaque type that provides monotonic entropy.

func Monotonic

func Monotonic(entropy io.Reader, inc uint64) *MonotonicEntropy

Monotonic returns a source of entropy that yields strictly increasing entropy bytes, to a limit governeed by the `inc` parameter.

Specifically, calls to MonotonicRead within the same ULID timestamp return entropy incremented by a random number between 1 and `inc` inclusive. If an increment results in entropy that would overflow available space, MonotonicRead returns ErrMonotonicOverflow.

Passing `inc == 0` results in the reasonable default `math.MaxUint32`. Lower values of `inc` provide more monotonic entropy in a single millisecond, at the cost of easier "guessability" of generated ULIDs. If your code depends on ULIDs having secure entropy bytes, then it's recommended to use the secure default value of `inc == 0`, unless you know what you're doing.

The provided entropy source must actually yield random bytes. Otherwise, monotonic reads are not guaranteed to terminate, since there isn't enough randomness to compute an increment number.

The returned type isn't safe for concurrent use.

func (*MonotonicEntropy) MonotonicRead

func (m *MonotonicEntropy) MonotonicRead(ms uint64, entropy []byte) (err error)

MonotonicRead implements the MonotonicReader interface.

type MonotonicReader

type MonotonicReader interface {
	io.Reader
	MonotonicRead(ms uint64, p []byte) error
}

MonotonicReader is an interface that should yield monotonically increasing entropy into the provided slice for all calls with the same ms parameter. If a MonotonicReader is provided to the New constructor, its MonotonicRead method will be used instead of Read.

type ULID

type ULID [16]byte

A ULID is a 16 byte Universally Unique Lexicographically Sortable Identifier

The components are encoded as 16 octets.
Each component is encoded with the MSB first (network byte order).

0                   1                   2                   3
 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|                      32_bit_uint_time_high                    |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|     16_bit_uint_time_low      |       16_bit_uint_random      |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|                       32_bit_uint_random                      |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|                       32_bit_uint_random                      |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Example
package main

import (
	"fmt"
	"math/rand"
	"time"

	"github.com/merajsahebdar/ulid"
)

func main() {
	t := time.Unix(1000000, 0)
	entropy := ulid.Monotonic(rand.New(rand.NewSource(t.UnixNano())), 0)
	fmt.Println(ulid.MustNew(ulid.Timestamp(t), entropy))
}
Output:

0000XSNJG0MQJHBF4QX1EFD6Y3

func Make

func Make() (id ULID)

Make returns a ULID with the current time in Unix milliseconds and monotonically increasing entropy for the same millisecond. It is safe for concurrent use, leveraging a sync.Pool underneath for minimal contention.

func MustNew

func MustNew(ms uint64, entropy io.Reader) ULID

MustNew is a convenience function equivalent to New that panics on failure instead of returning an error.

func MustNewDefault

func MustNewDefault(t time.Time) ULID

MustNewDefault is a convenience function equivalent to MustNew with DefaultEntropy as the entropy. It may panic if the given time.Time is too large or too small.

func MustParse

func MustParse(ulid string) ULID

MustParse is a convenience function equivalent to Parse that panics on failure instead of returning an error.

func MustParseStrict

func MustParseStrict(ulid string) ULID

MustParseStrict is a convenience function equivalent to ParseStrict that panics on failure instead of returning an error.

func New

func New(ms uint64, entropy io.Reader) (id ULID, err error)

New returns a ULID with the given Unix milliseconds timestamp and an optional entropy source. Use the Timestamp function to convert a time.Time to Unix milliseconds.

ErrBigTime is returned when passing a timestamp bigger than MaxTime. Reading from the entropy source may also return an error.

Safety for concurrent use is only dependent on the safety of the entropy source.

func Parse

func Parse(ulid string) (id ULID, err error)

Parse parses an encoded ULID, returning an error in case of failure.

ErrDataSize is returned if the len(ulid) is different from an encoded ULID's length. Invalid encodings produce undefined ULIDs. For a version that returns an error instead, see ParseStrict.

func ParseStrict

func ParseStrict(ulid string) (id ULID, err error)

ParseStrict parses an encoded ULID, returning an error in case of failure.

It is like Parse, but additionally validates that the parsed ULID consists only of valid base32 characters. It is slightly slower than Parse.

ErrDataSize is returned if the len(ulid) is different from an encoded ULID's length. Invalid encodings return ErrInvalidCharacters.

func (ULID) Bytes

func (id ULID) Bytes() []byte

Bytes returns bytes slice representation of ULID.

func (ULID) Compare

func (id ULID) Compare(other ULID) int

Compare returns an integer comparing id and other lexicographically. The result will be 0 if id==other, -1 if id < other, and +1 if id > other.

func (ULID) Entropy

func (id ULID) Entropy() []byte

Entropy returns the entropy from the ULID.

func (ULID) MarshalBinary

func (id ULID) MarshalBinary() ([]byte, error)

MarshalBinary implements the encoding.BinaryMarshaler interface by returning the ULID as a byte slice.

func (ULID) MarshalBinaryTo

func (id ULID) MarshalBinaryTo(dst []byte) error

MarshalBinaryTo writes the binary encoding of the ULID to the given buffer. ErrBufferSize is returned when the len(dst) != 16.

func (ULID) MarshalText

func (id ULID) MarshalText() ([]byte, error)

MarshalText implements the encoding.TextMarshaler interface by returning the string encoded ULID.

func (ULID) MarshalTextTo

func (id ULID) MarshalTextTo(dst []byte) error

MarshalTextTo writes the ULID as a string to the given buffer. ErrBufferSize is returned when the len(dst) != 26.

func (*ULID) Scan

func (id *ULID) Scan(src interface{}) error

Scan implements the sql.Scanner interface. It supports scanning a string or byte slice.

func (*ULID) SetEntropy

func (id *ULID) SetEntropy(e []byte) error

SetEntropy sets the ULID entropy to the passed byte slice. ErrDataSize is returned if len(e) != 10.

func (*ULID) SetTime

func (id *ULID) SetTime(ms uint64) error

SetTime sets the time component of the ULID to the given Unix time in milliseconds.

func (ULID) String

func (id ULID) String() string

String returns a lexicographically sortable string encoded ULID (26 characters, non-standard base 32) e.g. 01AN4Z07BY79KA1307SR9X4MV3. Format: tttttttttteeeeeeeeeeeeeeee where t is time and e is entropy.

func (ULID) Time

func (id ULID) Time() uint64

Time returns the Unix time in milliseconds encoded in the ULID. Use the top level Time function to convert the returned value to a time.Time.

func (ULID) UUID

func (id ULID) UUID() string

func (*ULID) UnmarshalBinary

func (id *ULID) UnmarshalBinary(data []byte) error

UnmarshalBinary implements the encoding.BinaryUnmarshaler interface by copying the passed data and converting it to a ULID. ErrDataSize is returned if the data length is different from ULID length.

func (*ULID) UnmarshalText

func (id *ULID) UnmarshalText(v []byte) error

UnmarshalText implements the encoding.TextUnmarshaler interface by parsing the data as string encoded ULID.

ErrDataSize is returned if the len(v) is different from an encoded ULID's length. Invalid encodings produce undefined ULIDs.

func (ULID) Value

func (id ULID) Value() (driver.Value, error)

Value implements the sql/driver.Valuer interface, returning the ULID as a slice of bytes, by invoking MarshalBinary. If your use case requires a string representation instead, you can create a wrapper type that calls String() instead.

type stringValuer ulid.ULID

func (v stringValuer) Value() (driver.Value, error) {
    return ulid.ULID(v).String(), nil
}

// Example usage.
db.Exec("...", stringValuer(id))

All valid ULIDs, including zero-value ULIDs, return a valid Value with a nil error. If your use case requires zero-value ULIDs to return a non-nil error, you can create a wrapper type that special-cases this behavior.

var zeroValueULID ulid.ULID

type invalidZeroValuer ulid.ULID

func (v invalidZeroValuer) Value() (driver.Value, error) {
    if ulid.ULID(v).Compare(zeroValueULID) == 0 {
        return nil, fmt.Errorf("zero value")
    }
    return ulid.ULID(v).Value()
}

// Example usage.
db.Exec("...", invalidZeroValuer(id))

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