ワンクリックで
alkahest-developer
Help developers write code that interacts with Alkahest escrow contracts using the TypeScript, Rust, or Python SDK
Codex または Claude でインストール この Prompt をコピーして Codex、Claude、または他のアシスタントに貼り付けると、Skill ページを確認してインストールできます。
メニュー
Help developers write code that interacts with Alkahest escrow contracts using the TypeScript, Rust, or Python SDK
Codex または Claude でインストール この Prompt をコピーして Codex、Claude、または他のアシスタントに貼り付けると、Skill ページを確認してインストールできます。
SOC 職業分類に基づく
Entry point for Internet Court — the trust layer for agent-to-agent commerce. Use whenever an agent needs to transact with another agent or a paid service, or a user mentions agent payments, paid APIs (HTTP 402/x402), wallet custody or trust concerns, spending mandates, delegated permissions (ERC-7710/7715), escrow, agent identity or reputation (ERC-8004), negotiation between agents (A2A), agent jobs (ERC-8183), machine payments (MPP, AP2), supervision of agent behavior, revocation, verification, or dispute resolution (GenLayer) — even if they never say "Internet Court". Routes to the vendored protocol skills and connector skills in this package.
Connect GenLayer Intelligent Contract decisions to ERC-7710-style delegated authority. Use when an agent needs to design the interface, message schema, relayer/bridge path, EVM revocation controller, constraint updates, proof/finality assumptions, and failure handling that turn a GenLayer agent-performance review into ERC-7710 revocation or policy changes.
Internet Court adapter for GenLayer Intelligent Contract supervision. Use to specify agent-performance rubrics, evidence schemas, decision outputs, and ERC-7710 connector expectations, while delegating actual GenLayer contract writing, linting, testing, deployment, and CLI interaction to the official GenLayer skills at https://skills.genlayer.com/.
Design and implement demos combining x402 HTTP payments with ERC-7710 smart contract delegations and ERC-7715 wallet permission requests for subscriptions, bounded agent budgets, recurring spend, pay-per-use APIs, and agentic commerce.
0G Compute Network guide for decentralized AI inference, fine-tuning, and GPU services. Covers chatbots, image generation, speech-to-text, SDK integration (0g-serving-broker), processResponse API, broker.inference methods, CLI commands (0g-compute-cli), and account management. Use this skill for any 0G compute, 0G AI, or decentralized GPU question.
Use this skill when the user asks to list, create, inspect, update, disable, re-enable, or revoke AltLLM Portal API keys for external agents or applications. Do NOT use for wallet login, billing history, or payment links.
| name | alkahest-developer |
| description | Help developers write code that interacts with Alkahest escrow contracts using the TypeScript, Rust, or Python SDK |
Use this skill when a developer wants to write code that interacts with Alkahest escrow contracts. This covers:
| SDK | Language | Package | Foundation |
|---|---|---|---|
| TypeScript | TypeScript/JavaScript | @alkahest/ts-sdk | viem |
| Rust | Rust | alkahest-rs | alloy |
| Python | Python | alkahest-py | PyO3 wrapper around Rust SDK |
import { createWalletClient, http } from "viem";
import { privateKeyToAccount } from "viem/accounts";
import { baseSepolia } from "viem/chains";
import { makeClient } from "@alkahest/ts-sdk";
const walletClient = createWalletClient({
account: privateKeyToAccount("0xPRIVATE_KEY"),
chain: baseSepolia,
transport: http("https://rpc-url"),
});
// Full client with all extensions
const client = makeClient(walletClient);
// Custom addresses (optional)
const client = makeClient(walletClient, customAddresses);
// Minimal client for custom extension patterns
const minimal = makeMinimalClient(walletClient);
const extended = minimal.extend((base) => ({
custom: makeErc20Client(base.viemClient, pickErc20Addresses(base.contractAddresses)),
}));
use alkahest_rs::AlkahestClient;
// Full client with all extensions (Base Sepolia default)
let client = AlkahestClient::with_base_extensions(
"0xPRIVATE_KEY",
"https://rpc-url",
None, // uses Base Sepolia addresses
).await?;
// Custom addresses
use alkahest_rs::{DefaultExtensionConfig, ETHEREUM_SEPOLIA_ADDRESSES};
let client = AlkahestClient::with_base_extensions(
"0xPRIVATE_KEY",
"https://rpc-url",
Some(ETHEREUM_SEPOLIA_ADDRESSES),
).await?;
// Bare client + custom extensions
let bare = AlkahestClient::new("0xPRIVATE_KEY", "https://rpc-url").await?;
let extended = bare.extend::<Erc20Module>(Some(erc20_config)).await?;
from alkahest_py import PyAlkahestClient
# Full client with all extensions (Base Sepolia default)
client = PyAlkahestClient("0xPRIVATE_KEY", "https://rpc-url")
# Custom addresses
from alkahest_py import DefaultExtensionConfig, PyErc20Addresses, ...
config = DefaultExtensionConfig(erc20_addresses=..., ...)
client = PyAlkahestClient("0xPRIVATE_KEY", "https://rpc-url", config)
TypeScript:
// 1. Approve token
await client.erc20.util.approve({ address: TOKEN, value: amount }, "escrow");
// 2. Create escrow
const { hash, attested } = await client.erc20.escrow.default.doObligation(
client.erc20.escrow.default.encodeObligationRaw({
token: TOKEN, amount, arbiter: ARBITER, demand: DEMAND_BYTES,
}),
);
const escrowUid = attested.uid;
Rust:
// 1. Approve
client.erc20().approve(&Erc20Data { address: token, value: amount }, ApprovalPurpose::Escrow).await?;
// 2. Create escrow
let receipt = client.erc20().escrow().default().make_statement(
token, amount, arbiter, demand_bytes, expiration,
).await?;
let attested = client.get_attested_event(receipt)?;
Python:
# 1. Approve
await client.erc20.util.approve(token_address, amount, "escrow")
# 2. Create escrow
uid = await client.erc20.escrow.default.create(
token=token_address, amount=amount,
arbiter=arbiter_address, demand=demand_bytes,
expiration=expiration,
)
TypeScript:
const { attested } = await client.stringObligation.doObligation(
"fulfillment content",
undefined, // schema
escrowUid, // refUID
);
Rust:
let receipt = client.string_obligation().do_obligation(
"fulfillment content", None, Some(escrow_uid),
).await?;
Python:
uid = await client.string_obligation.do_obligation(
"fulfillment content",
ref_uid=escrow_uid,
)
TypeScript:
const { hash } = await client.erc20.escrow.default.collectObligation(
escrowUid,
fulfillmentUid,
);
Rust:
let receipt = client.erc20().escrow().default().collect_payment(
escrow_uid, fulfillment_uid,
).await?;
Python:
tx_hash = await client.erc20.escrow.default.collect(escrow_uid, fulfillment_uid)
TypeScript:
const result = await client.waitForFulfillment(
client.contractAddresses.erc20EscrowObligation,
escrowUid,
);
Rust:
let log = client.wait_for_fulfillment(
client.erc20_address(Erc20Contract::EscrowObligation),
escrow_uid,
None, // from_block
).await?;
Python:
result = await client.wait_for_fulfillment(
escrow_contract_address,
escrow_uid,
)
TypeScript:
// Trusted oracle
const demand = client.arbiters.general.trustedOracle.encodeDemand({
oracle: ORACLE, data: "0x",
});
// Logical composition
const demand = client.arbiters.logical.all.encodeDemand({
arbiters: [ARBITER_A, ARBITER_B],
demands: [DEMAND_A, DEMAND_B],
});
// Attestation properties
const demand = client.arbiters.attestationProperties.attester.encodeDemand({
attester: REQUIRED_ATTESTER,
});
Rust:
// Trusted oracle (ABI encoding)
use alloy::sol_types::SolValue;
let demand = TrustedOracleArbiter::DemandData { oracle, data: Bytes::new() }.abi_encode();
// Decode arbiter demand (auto-detects)
let decoded = client.arbiters().decode_arbiter_demand(arbiter_addr, &demand_bytes)?;
Python:
# Trusted oracle
demand = client.arbiters.trusted_oracle.encode_demand(oracle=ORACLE, data=b"")
# Logical composition
demand = client.arbiters.logical.all.encode(
arbiters=[ARBITER_A, ARBITER_B],
demands=[DEMAND_A, DEMAND_B],
)
TypeScript:
// 1. Compute commitment
const commitment = await client.commitReveal.computeCommitment(
escrowUid, claimerAddress, { payload, salt, schema },
);
// 2. Commit (sends bond as ETH)
await client.commitReveal.commit(commitment, bondAmount, commitDeadline);
// 3. Wait 1+ blocks, then reveal. The matching bond is reclaimed on reveal.
await client.commitReveal.doObligation(
{ payload, salt, schema }, escrowUid,
);
Rust:
let commitment = client.commit_reveal().compute_commitment(
escrow_uid, claimer, &obligation_data,
).await?;
client.commit_reveal().commit(commitment, bond_amount, commit_deadline).await?;
// wait 1+ blocks; the matching bond is reclaimed on reveal
let receipt = client.commit_reveal().do_obligation(&obligation_data, Some(escrow_uid)).await?;
Python:
commitment = await client.commit_reveal.compute_commitment(
escrow_uid, claimer, payload, salt, schema,
)
await client.commit_reveal.commit(commitment, bond_amount, commit_deadline)
# wait 1+ blocks; the matching bond is reclaimed on reveal
uid = await client.commit_reveal.do_obligation(payload, salt, schema, ref_uid=escrow_uid)
Atomic payment utilities provide single-transaction payment and collection for existing escrows:
TypeScript:
await client.erc20.payment.payErc20AndCollect(escrowUid);
Rust:
client.erc20().payment().pay_erc20_and_collect(escrow_uid).await?;
| Concept | TypeScript | Rust | Python |
|---|---|---|---|
| Addresses | `0x${string}` | Address | str (hex) |
| Big integers | bigint | U256 | str (decimal) |
| Bytes | `0x${string}` | Bytes / FixedBytes<32> | bytes / str (hex) |
| Receipts | { hash, attested } | TransactionReceipt | str (tx hash or uid) |
| Attestations | Attestation object | IEAS::Attestation | PyAttestation |
references/typescript-api.md — full TS SDK API treereferences/rust-api.md — full Rust SDK API treereferences/python-api.md — full Python SDK API treereferences/contracts.md — contract addresses and data schemasdocs/website/Escrow Flow/Token Trading.mdx — token trading walkthroughdocs/website/Escrow Flow/Job Trading.mdx — oracle arbitration walkthroughdocs/drafts/Escrow Flow (pt 2b - Frontrunning Protection).md — commit-reveal frontrunning protectiondocs/website/Escrow Flow/Composing Demands.mdx — composing demands with logical arbitersdocs/website/Writing Arbiters/ — custom arbiter developmentdocs/website/Writing Escrow Contracts.md and docs/website/Writing Fulfillment Contracts.md — custom escrow/obligation developmentdocs/mcp-server/ — MCP server for looking up contract details