Crate x402_kit 

X402 Kit

X402 Kit is a fully modular, framework-agnostic, easy-to-extend SDK for building complex X402 payment integrations.

X402-kit is not a facilitator — it’s a composable SDK for buyers (signers) and sellers (servers) to build custom business logic. Future support for modular facilitator components is planned.

Related Crates

• x402_core: Core traits, types, and transport mechanisms for the X402 protocol. This crate provides the foundational building blocks that x402-kit builds upon.
• x402_paywall: A framework-agnostic HTTP paywall middleware built on top of x402-kit. Use it to protect HTTP resources with X402 payments.

Quick Start

use alloy::primitives::address;
use axum::{
    extract::{Request, State},
    middleware::{from_fn_with_state, Next},
    response::{IntoResponse, Response},
    routing::post,
    Router,
};
use url_macro::url;
use x402_kit::{
    core::Resource,
    facilitator_client::{FacilitatorClient, StandardFacilitatorClient},
    networks::evm::assets::UsdcBaseSepolia,
    paywall::paywall::PayWall,
    schemes::exact_evm::ExactEvm,
};


#[derive(Clone)]
struct PayWallState {
    facilitator: StandardFacilitatorClient,
}

let facilitator = FacilitatorClient::from_url(url!("https://facilitator.example.com"));

async fn paywall_middleware(State(state): State<PayWallState>, req: Request, next: Next) -> Response {
    let paywall = PayWall::builder()
        .facilitator(state.facilitator)
        .accepts(
            ExactEvm::builder()
                .amount(1000)
                .asset(UsdcBaseSepolia)
                .pay_to(address!("0x3CB9B3bBfde8501f411bB69Ad3DC07908ED0dE20"))
                .build(),
        )
        .resource(
            Resource::builder()
                .url(url!("https://example.com/resource"))
                .description("Protected resource")
                .mime_type("application/json")
                .build(),
        )
        .build();

    paywall
        .handle_payment(req, |req| next.run(req))
        .await
        .unwrap_or_else(|err| err.into_response())
}

See examples/axum_seller.rs for a complete working example.

Accepting Multiple Payment Methods

You can accept payments from multiple networks (e.g., EVM and SVM) using transport::Accepts:

use alloy::primitives::address;
use solana_pubkey::pubkey;
use x402_kit::{
    networks::{evm::assets::UsdcBaseSepolia, svm::assets::UsdcSolanaDevnet},
    schemes::{exact_evm::ExactEvm, exact_svm::ExactSvm},
    transport::Accepts,
};

let accepts = Accepts::new()
    .push(
        ExactEvm::builder()
            .amount(1000)
            .asset(UsdcBaseSepolia)
            .pay_to(address!("0x3CB9B3bBfde8501f411bB69Ad3DC07908ED0dE20"))
            .build(),
    )
    .push(
        ExactSvm::builder()
            .amount(1000)
            .asset(UsdcSolanaDevnet)
            .pay_to(pubkey!("Ge3jkza5KRfXvaq3GELNLh6V1pjjdEKNpEdGXJgjjKUR"))
            .build(),
    );

Core Components Overview

For the X402 Protocol

• core: Core traits and types used across the X402 Kit, including resource configuration.
• transport: Types and traits for defining X402 transport mechanisms and facilitator interactions.
• types: Common re-usable types for defining the X402 protocol.

For Network-Specific Implementations

• networks: Network-specific implementations, e.g., EVM / SVM assets and addresses.
• schemes: Payment scheme implementations, e.g., Exact EVM / Exact SVM, and their signer logic.

Facilitator Utilities

• facilitator: Traits and types for building X402 facilitators.
• facilitator_client: Utilities for building X402 facilitator clients.

Extend X402 Kit As You Like

The main idea is you don’t need to wait for the upstream library to support the network or asset in your case. Adding a new network, asset, or scheme is as simple as implementing a few traits.

However, we still recommend contributing back any useful implementations to the main repository to help grow the ecosystem!

New Networks

If you want support for new EVM / SVM networks or assets, just “declare” them anywhere in your codebase:

Custom EVM Network

use x402_kit::networks::evm::{ExplicitEvmNetwork, EvmNetwork};

struct MyCustomEvmNetwork;

impl ExplicitEvmNetwork for MyCustomEvmNetwork {
    const NETWORK: EvmNetwork = EvmNetwork {
        name: "my-custom-evm-network",
        chain_id: 12345,
        network_id: "eip155:12345",
    };
}

// Now you can use MyCustomEvmNetwork with any scheme that supports EVM

Custom SVM Network

use x402_kit::networks::svm::{ExplicitSvmNetwork, SvmNetwork};

struct MyCustomSvmNetwork;

impl ExplicitSvmNetwork for MyCustomSvmNetwork {
    const NETWORK: SvmNetwork = SvmNetwork {
        name: "my-custom-svm-network",
        caip_2_id: "solana:BASE58_GENESIS_HASH",
    };
}

// Now you can use MyCustomSvmNetwork with any scheme that supports SVM

New Assets

Similarly, you can define custom assets for your networks:

Custom EVM Asset

use alloy_primitives::address;
use x402_kit::networks::evm::{
    ExplicitEvmAsset, ExplicitEvmNetwork, EvmNetwork, EvmAsset, EvmAddress, Eip712Domain
};

struct MyCustomNetwork;
impl ExplicitEvmNetwork for MyCustomNetwork {
    const NETWORK: EvmNetwork = EvmNetwork {
        name: "my-network",
        chain_id: 12345,
        network_id: "eip155:12345",
    };
}

struct MyCustomToken;
impl ExplicitEvmAsset for MyCustomToken {
    type Network = MyCustomNetwork;

    const ASSET: EvmAsset = EvmAsset {
        address: EvmAddress(address!("0x1234567890123456789012345678901234567890")),
        decimals: 18,
        name: "My Custom Token",
        symbol: "MCT",
    };

    const EIP712_DOMAIN: Option<Eip712Domain> = Some(Eip712Domain {
        name: "My Custom Token",
        version: "1",
    });
}

// Now you can use MyCustomToken with ExactEvm or other EVM schemes

Custom SVM Asset

use solana_pubkey::pubkey;
use x402_kit::networks::svm::{
    ExplicitSvmAsset, ExplicitSvmNetwork, SvmNetwork, SvmAsset, SvmAddress
};

struct MyCustomSvmNetwork;
impl ExplicitSvmNetwork for MyCustomSvmNetwork {
    const NETWORK: SvmNetwork = SvmNetwork {
        name: "my-svm-network",
        caip_2_id: "solana:custom",
    };
}

struct MyCustomSvmToken;
impl ExplicitSvmAsset for MyCustomSvmToken {
    type Network = MyCustomSvmNetwork;

    const ASSET: SvmAsset = SvmAsset {
        address: SvmAddress(pubkey!("TokenkegQfeZyiNwAJbNbGKPFXCWuBvf9Ss623VQ5DA")),
        decimals: 9,
        name: "My Custom SVM Token",
        symbol: "MCST",
    };
}

// Now you can use MyCustomSvmToken with ExactSvm or other SVM schemes

Using Custom Assets with Schemes

Once you’ve defined your custom asset, you can use it with payment schemes just like built-in assets:

use alloy_primitives::address;
use x402_kit::{
    networks::evm::{ExplicitEvmAsset, ExplicitEvmNetwork, EvmNetwork, EvmAsset, EvmAddress, Eip712Domain},
    schemes::exact_evm::ExactEvm,
    transport::PaymentRequirements,
};

// Define your custom network and asset
struct Polygon;
impl ExplicitEvmNetwork for Polygon {
    const NETWORK: EvmNetwork = EvmNetwork {
        name: "polygon",
        chain_id: 137,
        network_id: "eip155:137",
    };
}

struct UsdcPolygon;
impl ExplicitEvmAsset for UsdcPolygon {
    type Network = Polygon;
    const ASSET: EvmAsset = EvmAsset {
        address: EvmAddress(address!("0x2791Bca1f2de4661ED88A30C99A7a9449Aa84174")),
        decimals: 6,
        name: "USD Coin",
        symbol: "USDC",
    };
    const EIP712_DOMAIN: Option<Eip712Domain> = Some(Eip712Domain {
        name: "USD Coin",
        version: "2",
    });
}

// Use it in payment requirements
let payment = ExactEvm::builder()
    .asset(UsdcPolygon)
    .amount(1000000) // 1 USDC
    .pay_to(address!("0x3CB9B3bBfde8501f411bB69Ad3DC07908ED0dE20"))
    .build();

// Convert to PaymentRequirements for use with facilitator
let requirements: PaymentRequirements = payment.into();

Defining New Network Families

If you want to define an entirely new family of networks (beyond EVM or SVM), you need to implement the core traits under core:

• core::NetworkFamily: Represents a blockchain network family
• core::Address: Represents an address on that network

The Address type should also implement FromStr, Display, Copy, Debug, Clone, PartialEq, Eq, and Hash for proper serialization/deserialization and usage throughout the SDK.

Here’s a complete example:

use std::{fmt::Display, str::FromStr};
use x402_kit::core::{Address, Asset, NetworkFamily};

// Define your network family
struct MyNetworkFamily {
    network_name: &'static str,
    network_id: &'static str,
}

impl NetworkFamily for MyNetworkFamily {
    fn network_name(&self) -> &str {
        self.network_name
    }
    fn network_id(&self) -> &str {
        self.network_id
    }
}

// Define an address type for your network
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
struct MyAddress(u64);

impl FromStr for MyAddress {
    type Err = std::num::ParseIntError;

    fn from_str(s: &str) -> Result<Self, Self::Err> {
        s.parse::<u64>().map(MyAddress)
    }
}

impl Display for MyAddress {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "{}", self.0)
    }
}

impl Address for MyAddress {
    type Network = MyNetworkFamily;
}

// Define an asset type for your network
type MyAsset = Asset<MyAddress>;

// Now you can use your custom network family
let network = MyNetworkFamily {
    network_name: "my-custom-network",
    network_id: "mynet:42",
};

let address: MyAddress = "12345".parse().unwrap();
assert_eq!(address.to_string(), "12345");

let asset = MyAsset {
    address,
    decimals: 18,
    name: "My Token",
    symbol: "MTK",
};

Once you have these core types defined, you can build schemes and payment requirements for your custom network family by implementing the core::Scheme trait.

Defining new Schemes

To define a new payment scheme, implement the Scheme trait from the core module. This involves specifying the associated network and payload types.

Just take how ExactSvmScheme is defined for example:

use serde::{Deserialize, Serialize};
use x402_kit::core::Scheme;
use x402_kit::networks::svm::SvmNetwork;

pub struct ExactSvmScheme(pub SvmNetwork);

#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct ExplicitSvmPayload {
    pub transaction: String,
}

impl Scheme for ExactSvmScheme {
    type Network = SvmNetwork;
    type Payload = ExplicitSvmPayload;
    const SCHEME_NAME: &'static str = "exact";
    fn network(&self) -> &Self::Network {
        &self.0
    }
}

Then you should make an entrypoint to convert the scheme into PaymentRequirements.

Note that Payment is a type-safe builder for constructing payment configurations from schemes.

use bon::Builder;
use x402_kit::core::Payment;
use x402_kit::networks::svm::{ExplicitSvmAsset, ExplicitSvmNetwork, SvmAddress, SvmNetwork};
use x402_kit::schemes::exact_svm::ExactSvmScheme;
use x402_kit::transport::PaymentRequirements;

#[derive(Builder, Debug, Clone)]
pub struct ExactSvm<A: ExplicitSvmAsset> {
    pub asset: A,
    #[builder(into)]
    pub pay_to: SvmAddress,
    pub amount: u64,
    pub max_timeout_seconds_override: Option<u64>,
}

impl<A: ExplicitSvmAsset> From<ExactSvm<A>> for Payment<ExactSvmScheme, SvmAddress> {
    fn from(scheme: ExactSvm<A>) -> Self {
        Payment {
            scheme: ExactSvmScheme(A::Network::NETWORK),
            pay_to: scheme.pay_to,
            asset: A::ASSET,
            amount: scheme.amount.into(),
            max_timeout_seconds: scheme.max_timeout_seconds_override.unwrap_or(300),
            extra: None,
        }
    }
}

// Then implement From for PaymentRequirements
impl<A: ExplicitSvmAsset> From<ExactSvm<A>> for PaymentRequirements {
    fn from(scheme: ExactSvm<A>) -> Self {
        PaymentRequirements::from(Payment::from(scheme))
    }
}

Modules

core

Core components for the X402 protocol.

errors

Errors used across X402 Kit.

facilitator

Facilitator traits and types.

facilitator_client

Facilitator client utilities.

networks

Network-specific implementations.

paywall

X402 Paywall middleware for protecting HTTP resources.

schemes

Payment scheme implementations. Schemes are defined here, for example, exact_evm, exact_svm, etc.

transport

Transport mechanisms and facilitator interactions.

types

Common types used across the X402 protocol.