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Install in OpenClaw
/install gstable-ai-payment
Description
GStable AI Payment Protocol - enables AI Agents to discover, negotiate, and execute cryptocurrency payments on behalf of users
README (SKILL.md)
GStable AI Payment Skill
An OpenClaw skill that enables AI Agents to discover, negotiate, and execute cryptocurrency payments on behalf of users.
Features
- 🔗 Retrieve payment link details and supported tokens
- 📝 Create payment sessions (EIP-712 signatures)
- 🔍 Query payment session status
- 💰 Check native and ERC20 balances
- 💳 Prepare payments and generate on-chain transaction calldata
- ✅ Check and automatically approve tokens
- ⚡ Execute on-chain payment transactions
- 🚀 One-command payment (
pay) with automatic approval handling - 🔐 Secure EIP-712 signing (private key stored in environment variables)
- ⛓️ Multi-chain support (Polygon, Ethereum, Arbitrum, Base)
Installation
clawhub install gstable-ai-payment
cd ~/.openclaw/workspace/skills/gstable-ai-payment
uv sync
Configuration
Set environment variables:
# Required: wallet private key used to sign EIP-712 messages and send transactions
export WALLET_PRIVATE_KEY=0x...your_private_key_here...
# Optional: GStable API base URL (default: https://aipay.gstable.io/api/v1)
export GSTABLE_API_BASE_URL=https://aipay.gstable.io/api/v1
# Optional: default payer email
export [email protected]
⚠️ Security note: Never commit private keys to version control.
Quick Start
1. Get payment link details
# Payment link formats:
# - https://pay.gstable.io/link/\x3Clink_id>
# - https://aipay.gstable.io/api/v1/payment/link/\x3Clink_id>
# Example 1
uv run scripts/gstable-ai-payment.py get_link lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua
# Example 2
uv run scripts/gstable-ai-payment.py get_link lnk_QTAfGfyqAZHGSm9NKLhtjNYu8dNHRpGh
2. Create payment session
uv run scripts/gstable-ai-payment.py create_session lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua 137 USDC
3. One-command payment (recommended)
uv run scripts/gstable-ai-payment.py pay lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua 137 USDC [email protected]
All Commands
# Get payment link details
uv run scripts/gstable-ai-payment.py get_link \x3Clink_id>
# Create payment session
uv run scripts/gstable-ai-payment.py create_session \x3Clink_id> \x3Cchain_id> \x3Ctoken> [payer]
uv run scripts/gstable-ai-payment.py create_session lnk_xxx 137 USDC
uv run scripts/gstable-ai-payment.py create_session lnk_xxx 137 0x3c499c542cef5e3811e1192ce70d8cc03d5c3359
# Get session status
uv run scripts/gstable-ai-payment.py get_session \x3Csession_id>
# Check native/ERC20 balance
uv run scripts/gstable-ai-payment.py balance \x3Cchain_id> [token_address] [wallet]
# Prepare payment (generate calldata)
uv run scripts/gstable-ai-payment.py prepare \x3Csession_id> \x3Cchain_id> \x3Ctoken_address> [email]
# Execute on-chain transaction
uv run scripts/gstable-ai-payment.py execute \x3Cchain_id> \x3Cto_address> \x3Ccalldata>
# Check token allowance
uv run scripts/gstable-ai-payment.py allowance \x3Cchain_id> \x3Ctoken_address> \x3Cspender>
# Approve token for payment contract
uv run scripts/gstable-ai-payment.py approve \x3Cchain_id> \x3Ctoken_address> \x3Cspender> [amount]
# One-command payment (full flow, automatic approval)
uv run scripts/gstable-ai-payment.py pay \x3Clink_id> \x3Cchain_id> \x3Ctoken> [email]
# Show wallet address
uv run scripts/gstable-ai-payment.py wallet
Supported Chains
| Chain | Chain ID | Tokens |
|---|---|---|
| Polygon | 137 | USDC, USDT |
| Ethereum | 1 | USDC, USDT |
| Arbitrum | 42161 | USDC |
| Base | 8453 | USDC |
Use uv run scripts/gstable-ai-payment.py get_link \x3Clink-id> to see exactly which chains and tokens are supported for a specific payment link.
Usage Examples
Complete payment flow
# Payment link: https://pay.gstable.io/link/lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua
# Option 1: one-command payment (recommended)
uv run scripts/gstable-ai-payment.py pay lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua 137 USDC [email protected]
# Output:
# Step 1/5: Getting payment link details...
# Step 2/5: Creating payment session...
# Step 3/5: Preparing payment...
# Step 4/5: Checking token allowance...
# Step 5/5: Executing on-chain payment transaction...
# ✅ Payment completed!
# { "linkId": "lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua", "sessionId": "sess_xxx", "txHash": "0x..." }
# Option 2: run step by step
# 1) Get payment link details
uv run scripts/gstable-ai-payment.py get_link lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua
# Returns payment link details in JSON format
# 2) Create payment session
uv run scripts/gstable-ai-payment.py create_session lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua 137 USDC
# Output: { "sessionId": "sess_abc123", ... }
# 3) Prepare payment
uv run scripts/gstable-ai-payment.py prepare sess_abc123 137 0x3c499c542cef5e3811e1192ce70d8cc03d5c3359 [email protected]
# Output: { "executionChainId": "137", "executorContract": "0x...", "calldata": "0x..." }
# 4) Check and approve allowance (if needed)
uv run scripts/gstable-ai-payment.py allowance 137 0x3c499c542cef5e3811e1192ce70d8cc03d5c3359 0x...
uv run scripts/gstable-ai-payment.py approve 137 0x3c499c542cef5e3811e1192ce70d8cc03d5c3359 0x...
# 5) Execute on-chain transaction
uv run scripts/gstable-ai-payment.py execute 137 0x... 0x...
# Output: { "status": "submitted", "txHash": "0x..." }
Agent interaction example
User: "I want to pay this: https://pay.gstable.io/link/lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua"
Agent: [uv run scripts/gstable-ai-payment.py get_link lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua]
"This is a payment link. You can pay with USDC on Polygon. Which network would you like to use?"
User: "Use Polygon"
Agent: [uv run scripts/gstable-ai-payment.py pay lnk_BUDBgiGTWejFs8v0FbdpR3iJ83CG1tua 137 USDC]
"✅ Payment completed! Transaction hash: 0x..."
Payment Flow
┌─────────────────┐
│ User shares link│
└────────┬────────┘
│
▼
┌─────────────────┐
│ get_link │ ──► Get product and payment options
└────────┬────────┘
│
▼
┌─────────────────┐
│ User picks token│
└────────┬────────┘
│
▼
┌─────────────────┐
│ create_session │ ──► Create session (EIP-712 signature)
└────────┬────────┘
│
▼
┌─────────────────┐
│ prepare │ ──► Get transaction calldata (EIP-712 signature)
└────────┬────────┘
│
▼
┌─────────────────┐
│ allowance │ ──► Check token allowance
└────────┬────────┘
│
▼ (if insufficient)
┌─────────────────┐
│ approve │ ──► Approve token for payment contract
└────────┬────────┘
│
▼
┌─────────────────┐
│ execute │ ──► Send on-chain transaction
└────────┬────────┘
│
▼
┌─────────────────┐
│ ✅ Payment done │
└─────────────────┘
Or use the `pay` command to complete everything in one step.
Environment Variables
| Variable | Required | Description |
|---|---|---|
WALLET_PRIVATE_KEY |
✅ | Wallet private key used to sign EIP-712 messages and execute transactions (0x prefix) |
GSTABLE_API_BASE_URL |
❌ | GStable API base URL (default: https://aipay.gstable.io/api/v1) |
DEFAULT_PAYER_EMAIL |
❌ | Default payer email |
RPC_URL_POLYGON |
❌ | Polygon RPC URL (default: https://polygon-rpc.com) |
RPC_URL_ETHEREUM |
❌ | Ethereum RPC URL (default: https://eth.llamarpc.com) |
RPC_URL_ARBITRUM |
❌ | Arbitrum RPC URL (default: https://arb1.arbitrum.io/rpc) |
RPC_URL_BASE |
❌ | Base RPC URL (default: https://mainnet.base.org) |
Troubleshooting
"WALLET_PRIVATE_KEY not set"
export WALLET_PRIVATE_KEY=0x...
"Token not supported"
# Check supported tokens first
uv run scripts/gstable-ai-payment.py get_link \x3Clink_id>
"Session expired"
# Recreate session
uv run scripts/gstable-ai-payment.py create_session \x3Clink_id> \x3Cchain_id> \x3Ctoken>
"No RPC URL configured for chain"
# Set RPC URL for the corresponding chain
export RPC_URL_POLYGON=https://polygon-rpc.com
"Gas estimation failed" or "Transaction failed"
- Ensure the wallet has enough native token (e.g., MATIC) to pay gas fees
- Ensure the wallet has enough token balance to complete the payment
- Check whether the token has been approved for the payment contract
Resources
- GStable AI Payment Protocol: https://docs.gstable.io/zh-Hans/docs/category/ai-payment-protocol
- GStable AI Agent Integration: https://docs.gstable.io/zh-Hans/docs/category/ai-agent-integration
- GitHub: https://github.com/gstable/gstable-ai-payment-skill
License
MIT
Usage Guidance
This skill appears to do what it claims: it will sign EIP-712 messages and send blockchain transactions using whatever private key you provide. Before installing or running it: 1) Treat WALLET_PRIVATE_KEY as high-risk — prefer a dedicated hot wallet with minimal funds or a signing-only key and never expose your main custodial keys. 2) Verify the API base URL and payment link endpoints (defaults to https://aipay.gstable.io) and consider overriding RPC_URL_* to an RPC provider you trust. 3) Be aware the skill will contact external RPC endpoints and the GStable API (network activity is expected for this functionality). 4) Note metadata inconsistencies: the registry metadata omitted optional env vars that the code uses, and the registry header listed no homepage whereas SKILL.md contains a docs link — consider confirming the skill's origin and author before supplying private keys. 5) If you need lower risk, request a version that supports a signing service or hardware wallet integration instead of supplying a raw private key in environment variables.
Capability Analysis
Type: OpenClaw Skill
Name: gstable-ai-payment
Version: 1.0.0
The skill is designed to perform cryptocurrency payments, which inherently involves high-risk operations such as handling a `WALLET_PRIVATE_KEY` (required via environment variable) and executing on-chain transactions. While the code (`scripts/gstable-ai-payment.py`, `scripts/signer.py`) appears to implement its stated purpose without clear evidence of intentional malice (e.g., exfiltrating the private key to an unauthorized third party or installing backdoors), the direct exposure and use of a private key for financial transactions makes it inherently risky. The `SKILL.md` does not contain prompt injection attempts against the agent, but the agent's ability to pass arbitrary arguments to commands like `execute` or `approve` could lead to a vulnerability if the agent itself is compromised or tricked into misusing the skill's capabilities. The skill interacts with `aipay.gstable.io` and various public blockchain RPCs, which are consistent with its stated purpose.
Capability Assessment
Purpose & Capability
The code implements EIP-712 signing, API calls to GStable (aipay.gstable.io), RPC calls for multiple chains, and on-chain transaction submission—these capabilities match the stated purpose (discover, negotiate, execute crypto payments). Requiring a wallet private key is appropriate for signing and sending transactions.
Instruction Scope
SKILL.md and the scripts instruct the agent to read WALLET_PRIVATE_KEY and optional RPC/API env vars and to run the included Python scripts. All referenced actions (getting link info, creating sessions, preparing calldata, checking allowance, signing, and sending transactions) are within the payment domain. Note: the SKILL.md also documents optional env vars (GSTABLE_API_BASE_URL, DEFAULT_PAYER_EMAIL, RPC_URL_*) that are used by the code but not listed in the registry's required env list.
Install Mechanism
This is instruction-heavy with included Python code and a pyproject listing dependencies (eth-account, httpx). The registry had no formal install spec, but SKILL.md metadata shows an 'uv sync' install step. No unusual network downloads or obscure installers are present in the manifest; dependencies are standard Python packages from package indexes.
Credentials
Only one required credential is declared (WALLET_PRIVATE_KEY), which is appropriate and proportionate for a payment skill. However, the code also reads GSTABLE_API_BASE_URL, DEFAULT_PAYER_EMAIL, and RPC_URL_* environment variables (used for API and RPC endpoints) that were not declared in the registry's required env list—this is a minor inconsistency. Importantly, WALLET_PRIVATE_KEY is extremely sensitive: supplying it gives the skill the ability to sign and broadcast transactions and therefore to spend funds.
Persistence & Privilege
always is false and the skill is user-invocable; it does not request permanent or platform-wide privileges. The skill runs locally and does not modify other skills or system-wide settings.
How to Use
- Make sure OpenClaw is installed (local or Docker)
- Run the install command in chat:
/install gstable-ai-payment - After installation, invoke the skill by name or use
/gstable-ai-payment - Provide required inputs per the skill's parameter spec and get structured output
Version History
v1.0.0
Initial release of gstable-ai-payment.
- Enables AI agents to discover, negotiate, and execute cryptocurrency payments for users.
- Supports retrieving payment link details, checking balances, creating sessions (EIP-712 signatures), and executing on-chain payments.
- Includes multi-chain support (Polygon, Ethereum, Arbitrum, Base) and major stablecoins.
- Provides comprehensive CLI commands for initiating, preparing, and completing payments, with a one-command payment option.
- Requires only a wallet private key for setup; optional configuration for API URL and payer email.
Metadata
Frequently Asked Questions
What is gstable-ai-payment?
GStable AI Payment Protocol - enables AI Agents to discover, negotiate, and execute cryptocurrency payments on behalf of users. It is an AI Agent Skill for Claude Code / OpenClaw, with 355 downloads so far.
How do I install gstable-ai-payment?
Run "/install gstable-ai-payment" in the OpenClaw or Claude Code chat to install it in one step — no extra setup required.
Is gstable-ai-payment free?
Yes, gstable-ai-payment is completely free (open-source). You can download, install and use it at no cost.
Which platforms does gstable-ai-payment support?
gstable-ai-payment is cross-platform and runs anywhere OpenClaw / Claude Code is available (cross-platform).
Who created gstable-ai-payment?
It is built and maintained by d5c5ceb0 (@d5c5ceb0); the current version is v1.0.0.
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