| name | create-coin |
| description | Create coins on pump.fun — standard create with initial buy. Prefer runnable Node scripts in this skill folder; use @pump-fun/pump-sdk for custom integrations.
|
| metadata | {"author":"pump-fun","version":"1.0"} |
Before Starting Work Critical - Ask these from user
MANDATORY — Do NOT write or modify any code until every item below is answered by the user:
You MUST ask the user for ALL unchecked items in your very first response. Do not assume defaults. Do not proceed until the user has explicitly answered each one.
API (preferred) — https://fun-block.pump.fun
Use the API to build transactions instead of running scripts directly. The API handles account resolution, compute budget, and partial signing automatically.
POST /agents/create-coin
Builds a create + initial buy transaction. The server generates a mint keypair and partial-signs with it. The client wallet co-signs and submits.
Request body:
{
"user": "<PUBKEY>",
"name": "MyCoin",
"symbol": "MC",
"uri": "https://ipfs.io/ipfs/Qm...",
"solLamports": "1000000",
"mayhemMode": false,
"cashback": false,
"tokenizedAgent": false,
"buybackBps": 5000,
"frontRunningProtection": false,
"tipAmount": 0,
"encoding": "base64",
"feePayer": "<PUBKEY>",
"creator": "<PUBKEY>"
}
Only user, name, symbol, uri, and solLamports are required. All other fields are optional with sensible defaults.
tipAmount is a Jito tip in SOL (e.g. 0.0001 for 100,000 lamports). Only relevant when frontRunningProtection is true.
Encoding: The API defaults to "base58" encoding. Always pass "encoding": "base64" in the request body — scripts already output base64. When sending the signed transaction to an RPC or Jito endpoint, the encoding used to serialize the transaction must match the encoding parameter passed in the send call. Mismatched encodings will cause transaction failures. Always explicitly pass encoding: "base64" in sendTransaction / simulateTransaction RPC calls — never rely on the RPC's default.
Response:
{
"transaction": "<base64-encoded VersionedTransaction>",
"mintPublicKey": "<base58 mint address>",
"quoteTokenAmount": "123456789",
"solLamports": "1000000",
"mayhemMode": false,
"cashback": false,
"tokenizedAgent": false
}
The returned transaction is already partial-signed with the mint keypair. Deserialize it, have the user wallet sign, and submit to chain.
Runnable examples (Node scripts — only when user explicitly requests)
Use {baseDir} as the path to this skill folder (OpenClaw and Agent Skills clients often expose this placeholder).
cd {baseDir}
npm install
export SOLANA_RPC_URL=https://rpc.solanatracker.io/public
| Operation | Script | Example |
|---|
| Fetch coin state (HTTP) | scripts/fetch-coin.mjs | node scripts/fetch-coin.mjs --mint <MINT> --subset |
| Create + initial buy (partial-sign mint) | scripts/build-create-coin-tx.mjs | node scripts/build-create-coin-tx.mjs --user <PUBKEY> --name "Coin" --symbol "CN" --metadata-uri <URI> --sol-lamports 1000000 --mint-keypair-out ./mint.json [--mayhem-mode] [--cashback] [--tokenized-agent --buyback-bps 5000] [--alt-address <PUBKEY>] |
- Run any script with
--help for full flags (--mayhem-mode, --tokenized-agent, --buyback-bps, --compute-units, --priority-micro-lamports, --front-runner-protection, --tip-sol, etc.).
- Tx builders print one JSON object on stdout with
transaction (base64-encoded VersionedTransaction, partially signed when the mint keypair is used on create). Never pass end-user private keys into these scripts.
- OpenClaw: If YAML
metadata ever fails to parse, collapse metadata to a single-line JSON object per OpenClaw skills; optional metadata.openclaw.requires.env: ["SOLANA_RPC_URL"] can gate load-time eligibility.
Published copy: METADATA.md (raw)
Safety Rules
- NEVER log, print, or return private keys or secret key material.
- NEVER sign transactions on behalf of a user — scripts build txs; the user (or their wallet) co-signs and sends.
- Always validate that amounts are
> 0 before building instructions.
- Use the correct decimal precision: 9 decimals for SOL (1 SOL = 1,000,000,000 lamports), 6 decimals for pump tokens.
- NEVER trust
token_program from the HTTP API (coins-v2). Always fetch the mint account on-chain via connection.getAccountInfo(mint) and use .owner to determine the correct token program (SPL Token or Token-2022).
- Verify imports: use
@pump-fun/pump-sdk (not internal monorepo paths). In TypeScript apps, BN from bn.js matches what the SDKs expect (Anchor BN is the same type in practice).
Program IDs
| Program | ID |
|---|
| Pump | 6EF8rrecthR5Dkzon8Nwu78hRvfCKubJ14M5uBEwF6P |
Environment Variables
SOLANA_RPC_URL=https://rpc.solanatracker.io/public
NEXT_PUBLIC_SOLANA_RPC_URL=https://rpc.solanatracker.io/public
The default public mainnet RPC (https://api.mainnet-beta.solana.com) often cannot send transactions. Confirm an HTTPS RPC with the user. Examples: Solana Tracker public RPC, Ankr https://rpc.ankr.com/solana.
Install
Inside this skill folder (includes scripts):
cd {baseDir}
npm install
Inside another app (from scratch):
npm install @pump-fun/pump-sdk @pump-fun/agent-payments-sdk @solana/web3.js@^1.98.0 @solana/spl-token bn.js
Check npm info @pump-fun/pump-sdk dependencies and align @solana/web3.js / @solana/spl-token versions to avoid duplicate incompatible copies.
SDK setup (minimal)
import { PUMP_SDK, OnlinePumpSdk } from "@pump-fun/pump-sdk";
import { Connection } from "@solana/web3.js";
const connection = new Connection(process.env.SOLANA_RPC_URL!);
const onlinePump = new OnlinePumpSdk(connection);
Full transaction building (compute budget, blockhash, partial sign) is implemented in scripts/lib/tx-build.mjs and scripts/lib/compute.mjs.
Create a coin
- Default:
POST /agents/create-coin (see API section above)
- Script (only when user explicitly requests):
scripts/build-create-coin-tx.mjs
- Metadata JSON: references/METADATA.md
Parameters (createV2AndBuyInstructions)
| Parameter | Type | Description |
|---|
global | Global | From OnlinePumpSdk.fetchGlobal() |
mint | PublicKey | New mint (generated keypair) |
name | string | Coin name |
symbol | string | Ticker |
uri | string | Metadata JSON URL |
creator | PublicKey | Creator |
user | PublicKey | Payer (often same as creator) |
amount | BN | Token amount to buy (6 decimals) |
solAmount | BN | SOL for initial buy (lamports) |
mayhemMode | boolean | Configurable via --mayhem-mode flag (default: false) |
cashback | boolean | Enable cashback rewards; optional, default false |
When --tokenized-agent is enabled, an additional PumpAgentOffline.load(mint).create(...) instruction (from @pump-fun/agent-payments-sdk) is appended after the create+buy instructions. The --buyback-bps flag controls the agent buyback percentage in basis points (default: 5000 = 50%). Tokenized agent coins must have an initial buy > 0 SOL.
Token amount for the initial buy is derived with getBuyTokenAmountFromSolAmount (mintSupply: null, bondingCurve: null).
Compute units and priority fees
Defaults match the pump.fun app constants (see scripts/lib/constants.mjs in this skill):
| Operation | Default compute units |
|---|
| Create + buy | 270_000 + 120_000 = 390_000 |
| Create + buy + tokenized agent | 270_000 + 120_000 + 30_000 = 420_000 |
Scripts accept --compute-units to override. When --tokenized-agent is enabled, 30,000 extra units are added automatically.
Priority fee: If --priority-micro-lamports is omitted, scripts call Solana JSON-RPC getPriorityFeeEstimate on a draft serialized transaction (with a 100k microlamport floor and an upper cap — see scripts/lib/compute.mjs), matching the pattern in useFrontendCreateCoin. Many RPCs support this; if not, the floor is used.
Transaction assembly and send
After the user wallet signs, choose the send path based on whether frontRunnerProtection is true in the script output JSON.
Default (no front-runner protection)
const signature = await connection.sendRawTransaction(
signedTransaction.serialize(),
{ skipPreflight: false, preflightCommitment: "confirmed" },
);
const latestBlockhash = await connection.getLatestBlockhash("confirmed");
await connection.confirmTransaction(
{ signature, ...latestBlockhash },
"confirmed",
);
With front-runner protection (Jito only)
When the transaction was built with --front-runner-protection, it already contains a Jito tip instruction. Send it only to Jito block engine endpoints — do not send via connection.sendRawTransaction or any other RPC, as that would leak the transaction to the public mempool and defeat the protection.
import { sendTransactionToJito } from "./lib/jito.mjs";
const txBase64 = Buffer.from(signedTransaction.serialize()).toString("base64");
const result = await sendTransactionToJito(txBase64);
Or manually via fetch (no dependency on the lib):
const JITO_ENDPOINTS = [
"https://mainnet.block-engine.jito.wtf/api/v1/transactions",
"https://amsterdam.mainnet.block-engine.jito.wtf/api/v1/transactions",
"https://frankfurt.mainnet.block-engine.jito.wtf/api/v1/transactions",
"https://ny.mainnet.block-engine.jito.wtf/api/v1/transactions",
"https://tokyo.mainnet.block-engine.jito.wtf/api/v1/transactions",
];
const txBase64 = Buffer.from(signedTransaction.serialize()).toString("base64");
const body = JSON.stringify({
jsonrpc: "2.0",
id: 1,
method: "sendTransaction",
params: [txBase64, { encoding: "base64" }],
});
await Promise.any(
JITO_ENDPOINTS.map((url) =>
fetch(url, {
method: "POST",
headers: { "Content-Type": "application/json" },
body,
}).then((r) => r.json()),
),
);
Then confirm as usual with connection.confirmTransaction.
Get coin data (HTTP)
GET https://frontend-api-v3.pump.fun/coins-v2/{mint}
CORS-protected: frontend-api-v3.pump.fun does not allow browser-origin requests. When building a web application, always call this endpoint from your backend/server and proxy the result to the frontend. Do not call it directly from client-side JavaScript.
{
"mint": "ABcDeFgHiJkLmNoPqRsTuVwXyZ123456789abcdefg",
"name": "MyToken",
"symbol": "MTK",
"description": "A sample token on pump.fun",
"image_uri": "https://ipfs.io/ipfs/Qm...",
"metadata_uri": "https://ipfs.io/ipfs/Qm...",
"creator": "CreatorWalletAddress...",
"created_timestamp": 1700000000,
"complete": false,
"bonding_curve": "BondingCurveAddress...",
"associated_bonding_curve": "AssociatedBondingCurveAddress...",
"pump_swap_pool": null,
"token_program": "TokenzQdBNbLqP5VEhdkAS6EPFLC1PHnBqCXEpPxuEb",
"market_cap": 25000000000,
"usd_market_cap": 50000,
"virtual_sol_reserves": "30000000000",
"virtual_token_reserves": "1073000000000000",
"total_supply": "1000000000000000",
"raydium_pool": "",
"program": "pump",
"reply_count": 42,
"last_trade_timestamp": 1700086400
}
NEVER trust token_program from the HTTP API. The coins-v2 endpoint may return a stale or incorrect token_program. Always resolve it on-chain by fetching the mint account and reading its owner:
const mintAccountInfo = await connection.getAccountInfo(mintPublicKey);
const tokenProgram = mintAccountInfo.owner;
The skill scripts already do this via tokenProgramIdFromMint() in scripts/lib/coin-resolve.mjs. Any custom integration must do the same.
Error handling and troubleshooting
- Bonding curve account missing — wrong mint, wrong network, or coin not yet created on-chain.
- Insufficient SOL — user cannot pay rent, buy amount, or fees; check balance before building.
- Slippage / simulation failures — retry with fresh blockhash (re-run script).
- RPC errors — rate limits, missing
getPriorityFeeEstimate, or send blocked; try another RPC; pass --priority-micro-lamports explicitly.
End-to-end flow
- Confirm coin name, symbol, metadata URI, signer wallet, and initial buy amount; set
SOLANA_RPC_URL. Ask about mayhem mode, tokenized agent (with buyback percentage), cashback, and front-runner protection preferences.
- Use
POST /agents/create-coin to build the transaction. Only use build-create-coin-tx.mjs if the user explicitly requests scripts; capture transaction. Add --mayhem-mode, --tokenized-agent --buyback-bps <BPS>, --cashback, and/or --front-runner-protection (with optional --tip-sol) as needed.
- Deserialize with
@solana/web3.js VersionedTransaction.deserialize, have user sign (and co-sign create tx).
- Send the transaction: If
frontRunnerProtection is true in the script output JSON, send only to Jito endpoints (see "Transaction assembly and send" above). Otherwise use sendRawTransaction + confirmTransaction.
- Keep
mint-keypair-out secure; it is required for any mint-authority operations later.