Snowflakes 1.1.0

dotnet add package Snowflakes --version 1.1.0                
NuGet\Install-Package Snowflakes -Version 1.1.0                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="Snowflakes" Version="1.1.0" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add Snowflakes --version 1.1.0                
#r "nuget: Snowflakes, 1.1.0"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install Snowflakes as a Cake Addin
#addin nuget:?package=Snowflakes&version=1.1.0

// Install Snowflakes as a Cake Tool
#tool nuget:?package=Snowflakes&version=1.1.0                

CI CodeQL Advanced NuGet

Snowflake IDs are 64-bit, unique, sortable identifiers that can be generated in a distributed system without a central authority. The format was originally created by Twitter (now X) and adopted by others like Sony, Discord, Instagram, and more.

This .NET library lets you create customized snowflakes by configuring the components: timestamp, sequence, and instance ID.

Layout

Snowflakes are 64-bit IDs, but only 63 bits are used for one to fit in a signed integer.

There are three standard components that make up a snowflake:

  1. Timestamp: Time passed since a set epoch. Both the epoch and the unit (precision) are adjustable.
  2. Instance ID: Identifies the process creating the snowflake. Also known as Machine ID or Shard ID.
  3. Sequence number: Increments when multiple snowflakes are created in the same time unit.

When you define the snowflake format for a system, consider the following:

  • System lifetime: Bigger timestamp length, later epoch, and lower precision mean higher lifetime.
  • Instance count: Bigger instance ID length means there can be more instances generating snowflakes.
  • Generation rate: Bigger sequence length means an instance can generate more snowflakes per time.
  • Ordering: Components specified earlier occupy higher bits, meaning they are prioritized during sorting.

How to Use

Configuring Snowflakes

The following examples show how you can define your own snowflake format.

X's Implementation

41-bit timestamp in milliseconds elapsed since X's epoch
10-bit instance ID
12-bit sequence number

// X's epoch - 2010-11-04T01:42:54.657Z
var epoch = DateTimeOffset.FromUnixTimeMilliseconds(1288834974657);

// Set the instance ID, e.g., the ordinal index of a K8 pod.
var instanceId = 0;

// Create the generator.
var snowflakeGen = new SnowflakeGeneratorBuilder()
    .AddTimestamp(41, epoch, TimeSpan.TicksPerMillisecond)
    .AddConstant(10, instanceId)
    .AddSequenceForTimestamp(12)
    .Build();
Sony's Implementation (Sonyflake)

39-bit timestamp in units of 10 ms elapsed since a custom epoch
8-bit sequence number
16-bit instance ID

 // Choose an epoch, e.g., when your system came online. Epoch can't be in the future.
var epoch = new DateTimeOffset(2024, 8, 30, 0, 0, 0, TimeSpan.Zero);

// Set the instance ID, e.g., the ordinal index of a K8 pod.
var instanceId = 0;

// Create the generator.
var snowflakeGen = new SnowflakeGeneratorBuilder()
    .AddTimestamp(39, epoch, TimeSpan.TicksPerMillisecond * 10) // 10 ms increments
    .AddSequenceForTimestamp(8)
    .AddConstant(16, instanceId)
    .Build();
Comparison of the Implementations

From Sonyflake's README:

  • [Sonyflake's] lifetime (174 years) is longer than that of [X's] Snowflake (69 years)
  • [Sonyflake] can work in more distributed machines (2^16) than [X's] Snowflake (2^10)
  • [Sonyflake] can generate 2^8 IDs per 10 msec at most in a single machine/thread (slower than [X's] Snowflake)

Note that X Snowflake and Sonyflake components are also placed in different orders, which means:

  • X Snowflake will be sorted by timestamp → instance ID → sequence number
  • Sonyflake will be sorted by timestamp → sequence number → instance ID

If you decide to use snowflakes, make sure you configure the generator based on your system's requirements. Do not blindly copy one of the above configurations.

Generating Snowflakes

Once you have a generator, you can generate snowflakes using its NewSnowflake method.

var snowflake1 = snowflakeGen.NewSnowflake();
var snowflake2 = snowflakeGen.NewSnowflake();
// ...

Try to keep snowflakes as Int64 values and use the appropriate integer type when persisting them to a database. This will ensure they are stored efficiently and remain sortable.

Encoding Snowflakes

You can use SnowflakeEncoder to encode snowflakes to custom-base strings. This will make them shorter, which can be useful when they are used in URIs.

// There are base 36, 62, and 64 encoders, all URI-safe.
var encoder = SnowflakeEncoder.Base62;

var snowflake = snowflakeGen.NewSnowflake(); // 139611368062976
var encodedSnowflake = encoder.Encode(snowflake); // "ddw3cbIG"
var decodedSnowflake = encoder.Decode(encodedSnowflake); // 139611368062976

Make sure you decode the values back to Int64 before sorting or persisting them.

Dependency Injection

The SnowflakeGenerator instance must be shared for the generated snowflakes to be unique, so when using a DI container, a generator needs to be registered as a singleton.

services.AddSingleton(static serviceProvider =>
{
    // A fixed epoch, specific to the system that will use the generated snowflakes.
    // Do not change this value once you have snowflakes in the wild.
    // The epoch must be earlier than the current time at the time of snowflake generation.
    var epoch = new DateTimeOffset(2024, 8, 30, 0, 0, 0, TimeSpan.Zero);

    // Assuming a time provider is registered.
    // Feel free to omit it when setting up the timestamp component (Default: TimeProvider.System).
    var timeProvider = serviceProvider.GetRequiredService<TimeProvider>();

    // Assuming there is an options class that can provide information about the current instance.
    // Feel free to obtain the instance ID by different means.
    var programOpts = serviceProvider.GetRequiredService<IOptions<ProgramOptions>>().Value;
    var instanceId = programOpts.InstanceId;

    // The generator below uses the Sonyflake configuration.
    return new SnowflakeGeneratorBuilder()
        .AddTimestamp(39, epoch, TimeSpan.TicksPerMillisecond * 10, timeProvider)
        .AddSequenceForTimestamp(8)
        .AddConstant(16, instanceId)
        .Build();
});

Consider keyed registrations if your application needs to generate multiple types of snowflakes.

Once registered, you can inject and use the generator like any other dependency.

public class FooService(SnowflakeGenerator snowflakeGen)
{
    public Foo CreateFoo() => new()
    {
        Id = snowflakeGen.NewSnowflake()
        // ...
    };
}

Advanced

Blocking Timestamp Generation

Standard snowflakes use a sequence number to prevent collisions when multiple snowflakes are generated in the same time unit. This library provides an additional snowflake component, called BlockingTimestampSnowflakeComponent, that provides an alternative to using sequence numbers.

With blocking timestamps, calls to NewSnowflake will block the thread until the next timestamp unit is available, ensuring that no two snowflakes are generated with the same timestamp. This approach eliminates the need for a sequence component, simplifying the ID generation process. However, it can potentially slow down ID generation, especially under high load, as threads may frequently need to wait for the next timestamp unit to become available. On the upside, not having sequence numbers means more bits are available for the timestamp, allowing for smaller units.

var gen = new SnowflakeGeneratorBuilder()
    .AddBlockingTimestamp(44, epoch, TimeSpan.TicksPerMillisecond / 2)
    .AddConstant(19, instanceId)
    .Build();

The example above sets the timestamp to be 44 bits with half-millisecond precision, meaning it will have a 278-year lifetime and allow two snowflakes to be generated every millisecond.

String Instance IDs

There may be cases where you don't have access to an integer instance ID. Using Azure App Services, for example, we have no good way of obtaining an integer "index" of the instance, but we do have access to a string (exposed via the WEBSITE_INSTANCE_ID environment variable) that uniquely identifies it.

For scenarios like this, AddConstant has a hashing overload that can create a reasonably high-cardinality value. Below is an alternative service registration example showing the use of this overload.

services.AddSingleton(static serviceProvider =>
{
    var epoch = new DateTimeOffset(2024, 8, 30, 0, 0, 0, TimeSpan.Zero);

    // This time, we have a string instance ID, which means we need to hash it to get a value that
    // fits in the number of bits we have available.
    var programOpts = serviceProvider.GetRequiredService<IOptions<ProgramOptions>>().Value;
    var instanceId = programOpts.InstanceId;

    // Pick a good algorithm for the hash. Speed is not a concern as this will only run once on
    // application startup.
    using var instanceIdHashAlg = SHA512.Create();

    // The generator below uses the Sonyflake configuration.
    return new SnowflakeGeneratorBuilder()
        .AddTimestamp(39, epoch, TimeSpan.TicksPerMillisecond * 10, timeProvider)
        .AddSequenceForTimestamp(8)
        .AddConstant(16, instanceId, instanceIdHashAlg) // ...passing the hash algorithm.
        .Build();
});

Important: Uniqueness can't be guaranteed with this approach due to the possibility of hash collisions. The likelihood of collisions will depend on the chosen component length and hash algorithm.

If you can't supply a unique, integer instance ID that fits the component, you need to design your system to be able to tolerate the occasional duplicate snowflake.

Custom Components

The library already offers the usual timestamp, instance ID, and sequence number components, but it also allows you to create your own components by subclassing SnowflakeComponent.

Below is an example custom component that provides random bits.

public sealed class RandomSnowflakeComponent(int lengthInBits)
    : SnowflakeComponent(lengthInBits)
{
    protected override long CalculateValue(SnowflakeGenerationContext ctx)
    {
        Span<byte> buffer = stackalloc byte[sizeof(long)];
        RandomNumberGenerator.Fill(buffer);

        return BinaryPrimitives.ReadInt64LittleEndian(buffer);
    }
}

You can configure a snowflake generator to use any SnowflakeComponent implementation.

var epoch = new DateTimeOffset(2024, 10, 20, 14, 56, 0, TimeSpan.Zero);
var snowflakgeGen = new SnowflakeGeneratorBuilder()
    .AddTimestamp(30, epoch)
    .Add(new RandomSnowflakeComponent(33)) // Here we add our custom component
    .Build();

// High 30 bits have milliseconds elapsed since `epoch` while low 33 bits are random.
// Similar to a version 7 UUID, albeit smaller.
var snowflake = snowflakgeGen.NewSnowflake();

If you're feeling fancy, you can also write an extension method for SnowflakeGeneratorBuilder to allow usage like AddRandom(33).

public static class SnowflakeGeneratorBuilderExtensions
{
    public static SnowflakeGeneratorBuilder AddRandom(
        this SnowflakeGeneratorBuilder builder, int lengthInBits)
    {
        ArgumentNullException.ThrowIfNull(builder);

        return builder.Add(new RandomSnowflakeComponent(lengthInBits));
    }
}

Support

If you need any help, please feel free to create an issue with the "question" label.

Contributing

Thank you for your interest in contributing to Snowflakes!

Please see the CONTRIBUTING.md for more information.

For security bugs and vulnerabilities, please see SECURITY.md.

Product Compatible and additional computed target framework versions.
.NET net8.0 is compatible.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.
  • net8.0

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Version Downloads Last updated
1.1.0 61 10/30/2024