Complete PumpFun Protocol guide for building token launches, bonding curves, and AMM integrations on Solana. Covers Pump Program (token creation, buy/sell on bonding curves), PumpSwap AMM (liquidity pools, swaps), fee structures, creator fees, and SDK integration.
pumpfun follows the SKILL.md standard. Use the install command to add it to your agent stack.
---
name: pumpfun
creator: raunit-dev
description: Complete PumpFun Protocol guide for building token launches, bonding curves, and AMM integrations on Solana. Covers Pump Program (token creation, buy/sell on bonding curves), PumpSwap AMM (liquidity pools, swaps), fee structures, creator fees, and SDK integration.
---
# PumpFun Protocol Integration Guide
A comprehensive guide for building applications with PumpFun - Solana's leading token launch and AMM protocol enabling instant trading without initial liquidity.
## Overview
PumpFun is a token launch and trading protocol on Solana offering:
- **Pump Program** - Create SPL tokens with instant trading on bonding curves
- **PumpSwap (AMM)** - Constant-product automated market maker for graduated tokens
- **Creator Fees** - Automatic fee distribution to token creators
- **Token2022 Support** - Modern token standard via `create_v2` instruction
- **Mayhem Mode** - Special mode for enhanced token launches
## Program IDs
| Program | Address |
|---------|---------|
| Pump Program | `6EF8rrecthR5Dkzon8Nwu78hRvfCKubJ14M5uBEwF6P` |
| PumpSwap AMM | `pAMMBay6oceH9fJKBRHGP5D4bD4sWpmSwMn52FMfXEA` |
| Pump Fees | `pfeeUxB6jkeY1Hxd7CsFCAjcbHA9rWtchMGdZ6VojVZ` |
| Mayhem Program | `MAyhSmzXzV1pTf7LsNkrNwkWKTo4ougAJ1PPg47MD4e` |
## Quick Start
### Installation
```bash
# Install PumpFun SDKs
npm install @pump-fun/pump-sdk @pump-fun/pump-swap-sdk
# Or with pnpm
pnpm add @pump-fun/pump-sdk @pump-fun/pump-swap-sdk
```
### Basic Setup
```typescript
import { Connection, Keypair, PublicKey } from '@solana/web3.js';
import bs58 from 'bs58';
// Setup connection
const connection = new Connection('https://api.mainnet-beta.solana.com');
const wallet = Keypair.fromSecretKey(bs58.decode('YOUR_SECRET_KEY'));
// Program addresses
const PUMP_PROGRAM_ID = new PublicKey('6EF8rrecthR5Dkzon8Nwu78hRvfCKubJ14M5uBEwF6P');
const PUMP_AMM_PROGRAM_ID = new PublicKey('pAMMBay6oceH9fJKBRHGP5D4bD4sWpmSwMn52FMfXEA');
const PUMP_FEES_PROGRAM_ID = new PublicKey('pfeeUxB6jkeY1Hxd7CsFCAjcbHA9rWtchMGdZ6VojVZ');
```
## Pump Program (Bonding Curves)
The Pump program enables creation of SPL tokens with instant trading on a bonding curve without requiring initial liquidity.
### How Bonding Curves Work
1. **Token Creation** - Create a token with initial virtual reserves
2. **Trading** - Users buy/sell on the bonding curve using Uniswap V2 formula
3. **Graduation** - When market cap threshold is reached, liquidity migrates to PumpSwap
4. **LP Burn** - LP tokens are burned, making liquidity permanent
### Global Configuration
```typescript
interface Global {
initialized: boolean;
authority: PublicKey;
feeRecipient: PublicKey;
initialVirtualTokenReserves: bigint; // Default: 1,073,000,000,000,000
initialVirtualSolReserves: bigint; // Default: 30,000,000,000 (30 SOL)
initialRealTokenReserves: bigint; // Default: 793,100,000,000,000
tokenTotalSupply: bigint; // Default: 1,000,000,000,000,000
feeBasisPoints: bigint; // Default: 100 (1%)
creatorFeeBasisPoints: bigint; // Creator fee percentage
}
```
### Bonding Curve Account
```typescript
interface BondingCurve {
virtualTokenReserves: bigint;
virtualSolReserves: bigint;
realTokenReserves: bigint;
realSolReserves: bigint;
tokenTotalSupply: bigint;
complete: boolean;
creator: PublicKey; // Token creator address
isMayhemMode: boolean; // Mayhem mode flag
}
```
### Deriving PDAs
```typescript
import { PublicKey } from '@solana/web3.js';
const PUMP_PROGRAM_ID = new PublicKey('6EF8rrecthR5Dkzon8Nwu78hRvfCKubJ14M5uBEwF6P');
// Derive bonding curve PDA
function getBondingCurvePDA(mint: PublicKey): [PublicKey, number] {
return PublicKey.findProgramAddressSync(
[Buffer.from('bonding-curve'), mint.toBuffer()],
PUMP_PROGRAM_ID
);
}
// Derive associated bonding curve (token account)
function getAssociatedBondingCurve(mint: PublicKey): [PublicKey, number] {
return PublicKey.findProgramAddressSync(
[
Buffer.from('associated-bonding-curve'),
mint.toBuffer()
],
PUMP_PROGRAM_ID
);
}
// Derive creator vault PDA
function getCreatorVaultPDA(creator: PublicKey): [PublicKey, number] {
return PublicKey.findProgramAddressSync(
[Buffer.from('creator-vault'), creator.toBuffer()],
PUMP_PROGRAM_ID
);
}
// Derive global account PDA
function getGlobalPDA(): [PublicKey, number] {
return PublicKey.findProgramAddressSync(
[Buffer.from('global')],
PUMP_PROGRAM_ID
);
}
```
### Create Token (Legacy SPL)
```typescript
import {
Connection,
Keypair,
PublicKey,
Transaction,
TransactionInstruction,
SystemProgram,
SYSVAR_RENT_PUBKEY,
} from '@solana/web3.js';
import {
TOKEN_PROGRAM_ID,
ASSOCIATED_TOKEN_PROGRAM_ID,
getAssociatedTokenAddressSync,
} from '@solana/spl-token';
async function createToken(
connection: Connection,
payer: Keypair,
name: string,
symbol: string,
uri: string
): Promise<string> {
const mint = Keypair.generate();
const [bondingCurve] = getBondingCurvePDA(mint.publicKey);
const [associatedBondingCurve] = getAssociatedBondingCurve(mint.publicKey);
const [global] = getGlobalPDA();
// Metaplex metadata PDA
const METADATA_PROGRAM_ID = new PublicKey('metaqbxxUerdq28cj1RbAWkYQm3ybzjb6a8bt518x1s');
const [metadata] = PublicKey.findProgramAddressSync(
[
Buffer.from('metadata'),
METADATA_PROGRAM_ID.toBuffer(),
mint.publicKey.toBuffer(),
],
METADATA_PROGRAM_ID
);
// Build create instruction data
const nameBuffer = Buffer.from(name);
const symbolBuffer = Buffer.from(symbol);
const uriBuffer = Buffer.from(uri);
const data = Buffer.alloc(
8 + 4 + nameBuffer.length + 4 + symbolBuffer.length + 4 + uriBuffer.length
);
// Write discriminator for 'create' instruction
const discriminator = Buffer.from([0x18, 0x1e, 0xc8, 0x28, 0x05, 0x1c, 0x07, 0x77]);
discriminator.copy(data, 0);
let offset = 8;
data.writeUInt32LE(nameBuffer.length, offset);
offset += 4;
nameBuffer.copy(data, offset);
offset += nameBuffer.length;
data.writeUInt32LE(symbolBuffer.length, offset);
offset += 4;
symbolBuffer.copy(data, offset);
offset += symbolBuffer.length;
data.writeUInt32LE(uriBuffer.length, offset);
offset += 4;
uriBuffer.copy(data, offset);
const instruction = new TransactionInstruction({
programId: PUMP_PROGRAM_ID,
keys: [
{ pubkey: mint.publicKey, isSigner: true, isWritable: true },
{ pubkey: payer.publicKey, isSigner: false, isWritable: true },
{ pubkey: bondingCurve, isSigner: false, isWritable: true },
{ pubkey: associatedBondingCurve, isSigner: false, isWritable: true },
{ pubkey: global, isSigner: false, isWritable: false },
{ pubkey: METADATA_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: metadata, isSigner: false, isWritable: true },
{ pubkey: payer.publicKey, isSigner: true, isWritable: true },
{ pubkey: SystemProgram.programId, isSigner: false, isWritable: false },
{ pubkey: TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: ASSOCIATED_TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: SYSVAR_RENT_PUBKEY, isSigner: false, isWritable: false },
],
data,
});
const tx = new Transaction().add(instruction);
tx.feePayer = payer.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(payer, mint);
const signature = await connection.sendRawTransaction(tx.serialize());
await connection.confirmTransaction(signature);
return mint.publicKey.toBase58();
}
```
### Create Token V2 (Token2022)
```typescript
// create_v2 uses Token2022 program instead of legacy Metaplex
// Account structure (14 accounts):
const createV2Accounts = [
'mint', // 0: New token mint (signer, writable)
'mintAuthority', // 1: Mint authority PDA
'bondingCurve', // 2: Bonding curve PDA (writable)
'associatedBondingCurve', // 3: Token account for bonding curve (writable)
'global', // 4: Global config
'user', // 5: Creator/payer (signer, writable)
'systemProgram', // 6: System program
'token2022Program', // 7: Token2022 program
'associatedTokenProgram', // 8: Associated token program
'rent', // 9: Rent sysvar
'mayhemProgram', // 10: Mayhem program ID (for mayhem mode)
'mayhemFeeRecipient', // 11: Mayhem fee recipient
'eventAuthority', // 12: Event authority
'program', // 13: Pump program
];
```
### Buy Tokens on Bonding Curve
```typescript
interface BuyArgs {
amount: bigint; // Token amount to buy
maxSolCost: bigint; // Maximum SOL to spend (slippage protection)
}
async function buyTokens(
connection: Connection,
payer: Keypair,
mint: PublicKey,
amount: bigint,
maxSolCost: bigint
): Promise<string> {
const [bondingCurve] = getBondingCurvePDA(mint);
const [associatedBondingCurve] = getAssociatedBondingCurve(mint);
const [global] = getGlobalPDA();
// Get bonding curve data to find creator
const bondingCurveData = await connection.getAccountInfo(bondingCurve);
// Parse to get creator address...
const creator = parseCreatorFromBondingCurve(bondingCurveData);
const [creatorVault] = getCreatorVaultPDA(creator);
// User's associated token account
const userAta = getAssociatedTokenAddressSync(mint, payer.publicKey);
// Fee recipient (from global config)
const feeRecipient = new PublicKey('FEE_RECIPIENT_ADDRESS');
// Build buy instruction
const data = Buffer.alloc(8 + 8 + 8);
const discriminator = Buffer.from([0x66, 0x06, 0x3d, 0x12, 0x01, 0xda, 0xeb, 0xea]);
discriminator.copy(data, 0);
data.writeBigUInt64LE(amount, 8);
data.writeBigUInt64LE(maxSolCost, 16);
const instruction = new TransactionInstruction({
programId: PUMP_PROGRAM_ID,
keys: [
{ pubkey: global, isSigner: false, isWritable: false },
{ pubkey: feeRecipient, isSigner: false, isWritable: true },
{ pubkey: mint, isSigner: false, isWritable: false },
{ pubkey: bondingCurve, isSigner: false, isWritable: true },
{ pubkey: associatedBondingCurve, isSigner: false, isWritable: true },
{ pubkey: userAta, isSigner: false, isWritable: true },
{ pubkey: payer.publicKey, isSigner: true, isWritable: true },
{ pubkey: SystemProgram.programId, isSigner: false, isWritable: false },
{ pubkey: TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: SYSVAR_RENT_PUBKEY, isSigner: false, isWritable: false },
{ pubkey: creatorVault, isSigner: false, isWritable: true },
// Fee config accounts (required since September 2025)
{ pubkey: PUMP_FEES_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: feeConfigPDA, isSigner: false, isWritable: false },
],
data,
});
// Check if account extension needed (account size < 150 bytes)
const accountInfo = await connection.getAccountInfo(bondingCurve);
if (accountInfo && accountInfo.data.length < 150) {
// Prepend extendAccount instruction
const extendIx = createExtendAccountInstruction(bondingCurve);
const tx = new Transaction().add(extendIx, instruction);
} else {
const tx = new Transaction().add(instruction);
}
tx.feePayer = payer.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(payer);
const signature = await connection.sendRawTransaction(tx.serialize());
await connection.confirmTransaction(signature);
return signature;
}
```
### Sell Tokens on Bonding Curve
```typescript
interface SellArgs {
amount: bigint; // Token amount to sell
minSolOutput: bigint; // Minimum SOL to receive (slippage protection)
}
async function sellTokens(
connection: Connection,
payer: Keypair,
mint: PublicKey,
amount: bigint,
minSolOutput: bigint
): Promise<string> {
const [bondingCurve] = getBondingCurvePDA(mint);
const [associatedBondingCurve] = getAssociatedBondingCurve(mint);
const [global] = getGlobalPDA();
const bondingCurveData = await connection.getAccountInfo(bondingCurve);
const creator = parseCreatorFromBondingCurve(bondingCurveData);
const [creatorVault] = getCreatorVaultPDA(creator);
const userAta = getAssociatedTokenAddressSync(mint, payer.publicKey);
const feeRecipient = new PublicKey('FEE_RECIPIENT_ADDRESS');
const data = Buffer.alloc(8 + 8 + 8);
const discriminator = Buffer.from([0x33, 0xe6, 0x85, 0xa4, 0x01, 0x7f, 0x83, 0xad]);
discriminator.copy(data, 0);
data.writeBigUInt64LE(amount, 8);
data.writeBigUInt64LE(minSolOutput, 16);
const instruction = new TransactionInstruction({
programId: PUMP_PROGRAM_ID,
keys: [
{ pubkey: global, isSigner: false, isWritable: false },
{ pubkey: feeRecipient, isSigner: false, isWritable: true },
{ pubkey: mint, isSigner: false, isWritable: false },
{ pubkey: bondingCurve, isSigner: false, isWritable: true },
{ pubkey: associatedBondingCurve, isSigner: false, isWritable: true },
{ pubkey: userAta, isSigner: false, isWritable: true },
{ pubkey: payer.publicKey, isSigner: true, isWritable: true },
{ pubkey: SystemProgram.programId, isSigner: false, isWritable: false },
{ pubkey: creatorVault, isSigner: false, isWritable: true },
{ pubkey: TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
// Fee config accounts
{ pubkey: PUMP_FEES_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: feeConfigPDA, isSigner: false, isWritable: false },
],
data,
});
const tx = new Transaction().add(instruction);
tx.feePayer = payer.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(payer);
const signature = await connection.sendRawTransaction(tx.serialize());
return signature;
}
```
### Calculate Price (Bonding Curve Math)
```typescript
// Uniswap V2 constant product formula: x * y = k
// Quote: SOL -> Tokens
interface BondingCurveState {
virtualTokenReserves: bigint;
virtualSolReserves: bigint;
realTokenReserves: bigint;
realSolReserves: bigint;
}
function calculateBuyQuote(
state: BondingCurveState,
solAmountIn: bigint,
feeBasisPoints: bigint = 100n
): bigint {
// Calculate net SOL after fees
const netSol = (solAmountIn * 10000n) / (10000n + feeBasisPoints);
// Calculate tokens out using constant product formula
// tokensOut = (netSol * virtualTokenReserves) / (virtualSolReserves + netSol)
const tokensOut = (netSol * state.virtualTokenReserves) /
(state.virtualSolReserves + netSol);
// Cap at real token reserves
return tokensOut > state.realTokenReserves ? state.realTokenReserves : tokensOut;
}
function calculateSellQuote(
state: BondingCurveState,
tokenAmountIn: bigint,
feeBasisPoints: bigint = 100n
): bigint {
// Calculate SOL out using constant product formula
// solOut = (tokenAmountIn * virtualSolReserves) / (virtualTokenReserves + tokenAmountIn)
const grossSol = (tokenAmountIn * state.virtualSolReserves) /
(state.virtualTokenReserves + tokenAmountIn);
// Deduct fees
const netSol = (grossSol * (10000n - feeBasisPoints)) / 10000n;
// Cap at real SOL reserves
return netSol > state.realSolReserves ? state.realSolReserves : netSol;
}
function calculateMarketCap(state: BondingCurveState, tokenSupply: bigint): bigint {
// marketCap = virtualSolReserves * mintSupply / virtualTokenReserves
return (state.virtualSolReserves * tokenSupply) / state.virtualTokenReserves;
}
```
### Migration to PumpSwap
When a bonding curve completes (real tokens exhausted), liquidity can be migrated to PumpSwap:
```typescript
async function migrateToAMM(
connection: Connection,
payer: Keypair,
mint: PublicKey
): Promise<string> {
const [bondingCurve] = getBondingCurvePDA(mint);
// Migrate instruction is permissionless - anyone can call it
// after bonding curve is complete
const discriminator = Buffer.from([0x9d, 0xaf, 0x1e, 0x65, 0xe8, 0x69, 0x9b, 0x26]);
const instruction = new TransactionInstruction({
programId: PUMP_PROGRAM_ID,
keys: [
// ... migration accounts including PumpSwap pool creation
],
data: discriminator,
});
const tx = new Transaction().add(instruction);
tx.feePayer = payer.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(payer);
return await connection.sendRawTransaction(tx.serialize());
}
```
## PumpSwap (AMM)
PumpSwap is a constant-product AMM for tokens that have graduated from the bonding curve.
### Global Config
```typescript
// GlobalConfig address
const GLOBAL_CONFIG = new PublicKey('ADyA8hdefvWN2dbGGWFotbzWxrAvLW83WG6QCVXvJKqw');
interface GlobalConfig {
admin: PublicKey;
lpFeeBasisPoints: number; // 20 bps (0.2%)
protocolFeeBasisPoints: number; // 5 bps (0.05%)
coinCreatorFeeBasisPoints: number; // Creator fee
disableFlags: number; // Operation disable flags
protocolFeeRecipients: PublicKey[]; // 8 fee recipients for load balancing
tokenIncentivesEnabled: boolean;
}
```
### Pool Account
```typescript
interface Pool {
bump: number;
poolCreator: PublicKey;
baseMint: PublicKey; // Token mint
quoteMint: PublicKey; // Usually WSOL
lpMint: PublicKey; // LP token mint
poolBaseTokenAccount: PublicKey;
poolQuoteTokenAccount: PublicKey;
lpSupply: bigint; // Tracks original LP supply (independent of burns)
coinCreator: PublicKey; // Creator for fee distribution
isMayhemMode: boolean; // Mayhem mode flag
}
```
### Deriving Pool PDAs
```typescript
const PUMP_AMM_PROGRAM_ID = new PublicKey('pAMMBay6oceH9fJKBRHGP5D4bD4sWpmSwMn52FMfXEA');
// Derive pool PDA
function getPoolPDA(
index: number,
creator: PublicKey,
baseMint: PublicKey,
quoteMint: PublicKey
): [PublicKey, number] {
const indexBuffer = Buffer.alloc(2);
indexBuffer.writeUInt16LE(index);
return PublicKey.findProgramAddressSync(
[
Buffer.from('pool'),
indexBuffer,
creator.toBuffer(),
baseMint.toBuffer(),
quoteMint.toBuffer(),
],
PUMP_AMM_PROGRAM_ID
);
}
// Derive LP mint PDA
function getLpMintPDA(pool: PublicKey): [PublicKey, number] {
return PublicKey.findProgramAddressSync(
[Buffer.from('pool_lp_mint'), pool.toBuffer()],
PUMP_AMM_PROGRAM_ID
);
}
// Derive pool token account PDA
function getPoolTokenAccountPDA(pool: PublicKey, mint: PublicKey): [PublicKey, number] {
return PublicKey.findProgramAddressSync(
[Buffer.from('pool_token_account'), pool.toBuffer(), mint.toBuffer()],
PUMP_AMM_PROGRAM_ID
);
}
// Derive creator vault authority PDA
function getCreatorVaultAuthorityPDA(coinCreator: PublicKey): [PublicKey, number] {
return PublicKey.findProgramAddressSync(
[Buffer.from('creator_vault'), coinCreator.toBuffer()],
PUMP_AMM_PROGRAM_ID
);
}
```
### Swap on PumpSwap
```typescript
interface SwapArgs {
baseAmountIn: bigint; // Amount of base token (for sell)
quoteAmountIn: bigint; // Amount of quote token (for buy)
minAmountOut: bigint; // Minimum output (slippage protection)
}
async function swapOnPumpSwap(
connection: Connection,
payer: Keypair,
pool: PublicKey,
amountIn: bigint,
minAmountOut: bigint,
isBuy: boolean
): Promise<string> {
const poolData = await fetchPoolData(connection, pool);
const userBaseAta = getAssociatedTokenAddressSync(
poolData.baseMint,
payer.publicKey
);
const userQuoteAta = getAssociatedTokenAddressSync(
poolData.quoteMint,
payer.publicKey
);
const [creatorVaultAuthority] = getCreatorVaultAuthorityPDA(poolData.coinCreator);
const creatorVaultAta = getAssociatedTokenAddressSync(
poolData.quoteMint,
creatorVaultAuthority,
true // allowOwnerOffCurve
);
// Build swap instruction
const data = Buffer.alloc(8 + 8 + 8 + 8);
const discriminator = isBuy
? Buffer.from([0x66, 0x06, 0x3d, 0x12, 0x01, 0xda, 0xeb, 0xea]) // buy
: Buffer.from([0x33, 0xe6, 0x85, 0xa4, 0x01, 0x7f, 0x83, 0xad]); // sell
discriminator.copy(data, 0);
data.writeBigUInt64LE(isBuy ? 0n : amountIn, 8); // baseAmountIn
data.writeBigUInt64LE(isBuy ? amountIn : 0n, 16); // quoteAmountIn
data.writeBigUInt64LE(minAmountOut, 24); // minAmountOut
const instruction = new TransactionInstruction({
programId: PUMP_AMM_PROGRAM_ID,
keys: [
{ pubkey: pool, isSigner: false, isWritable: true },
{ pubkey: payer.publicKey, isSigner: true, isWritable: true },
{ pubkey: GLOBAL_CONFIG, isSigner: false, isWritable: false },
{ pubkey: poolData.baseMint, isSigner: false, isWritable: false },
{ pubkey: poolData.quoteMint, isSigner: false, isWritable: false },
{ pubkey: userBaseAta, isSigner: false, isWritable: true },
{ pubkey: userQuoteAta, isSigner: false, isWritable: true },
{ pubkey: poolData.poolBaseTokenAccount, isSigner: false, isWritable: true },
{ pubkey: poolData.poolQuoteTokenAccount, isSigner: false, isWritable: true },
{ pubkey: protocolFeeRecipient, isSigner: false, isWritable: true },
{ pubkey: TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
// Creator fee accounts (indexes 17-18, required if pool.dataLen < 300)
{ pubkey: creatorVaultAta, isSigner: false, isWritable: true },
{ pubkey: creatorVaultAuthority, isSigner: false, isWritable: false },
// Fee config
{ pubkey: PUMP_FEES_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: feeConfigPDA, isSigner: false, isWritable: false },
],
data,
});
// Check if account extension needed
const poolInfo = await connection.getAccountInfo(pool);
if (poolInfo && poolInfo.data.length < 300) {
const extendIx = createExtendAccountInstruction(pool);
const tx = new Transaction().add(extendIx, instruction);
} else {
const tx = new Transaction().add(instruction);
}
tx.feePayer = payer.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(payer);
return await connection.sendRawTransaction(tx.serialize());
}
```
### Add Liquidity
```typescript
async function addLiquidity(
connection: Connection,
payer: Keypair,
pool: PublicKey,
baseAmount: bigint,
quoteAmount: bigint,
minLpTokens: bigint
): Promise<string> {
const poolData = await fetchPoolData(connection, pool);
const userBaseAta = getAssociatedTokenAddressSync(poolData.baseMint, payer.publicKey);
const userQuoteAta = getAssociatedTokenAddressSync(poolData.quoteMint, payer.publicKey);
const userLpAta = getAssociatedTokenAddressSync(poolData.lpMint, payer.publicKey);
const data = Buffer.alloc(8 + 8 + 8 + 8);
const discriminator = Buffer.from([0xf2, 0x23, 0xc6, 0x89, 0x52, 0xe1, 0xf2, 0xb6]);
discriminator.copy(data, 0);
data.writeBigUInt64LE(baseAmount, 8);
data.writeBigUInt64LE(quoteAmount, 16);
data.writeBigUInt64LE(minLpTokens, 24);
const instruction = new TransactionInstruction({
programId: PUMP_AMM_PROGRAM_ID,
keys: [
{ pubkey: pool, isSigner: false, isWritable: true },
{ pubkey: GLOBAL_CONFIG, isSigner: false, isWritable: false },
{ pubkey: payer.publicKey, isSigner: true, isWritable: true },
{ pubkey: poolData.baseMint, isSigner: false, isWritable: false },
{ pubkey: poolData.quoteMint, isSigner: false, isWritable: false },
{ pubkey: poolData.lpMint, isSigner: false, isWritable: true },
{ pubkey: userBaseAta, isSigner: false, isWritable: true },
{ pubkey: userQuoteAta, isSigner: false, isWritable: true },
{ pubkey: userLpAta, isSigner: false, isWritable: true },
{ pubkey: poolData.poolBaseTokenAccount, isSigner: false, isWritable: true },
{ pubkey: poolData.poolQuoteTokenAccount, isSigner: false, isWritable: true },
{ pubkey: TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: ASSOCIATED_TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
{ pubkey: SystemProgram.programId, isSigner: false, isWritable: false },
],
data,
});
const tx = new Transaction().add(instruction);
tx.feePayer = payer.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(payer);
return await connection.sendRawTransaction(tx.serialize());
}
```
### Remove Liquidity
```typescript
async function removeLiquidity(
connection: Connection,
payer: Keypair,
pool: PublicKey,
lpTokenAmount: bigint,
minBaseOut: bigint,
minQuoteOut: bigint
): Promise<string> {
const poolData = await fetchPoolData(connection, pool);
const userBaseAta = getAssociatedTokenAddressSync(poolData.baseMint, payer.publicKey);
const userQuoteAta = getAssociatedTokenAddressSync(poolData.quoteMint, payer.publicKey);
const userLpAta = getAssociatedTokenAddressSync(poolData.lpMint, payer.publicKey);
const data = Buffer.alloc(8 + 8 + 8 + 8);
const discriminator = Buffer.from([0xb7, 0x12, 0x46, 0x9c, 0x94, 0x6d, 0xa1, 0x22]);
discriminator.copy(data, 0);
data.writeBigUInt64LE(lpTokenAmount, 8);
data.writeBigUInt64LE(minBaseOut, 16);
data.writeBigUInt64LE(minQuoteOut, 24);
const instruction = new TransactionInstruction({
programId: PUMP_AMM_PROGRAM_ID,
keys: [
{ pubkey: pool, isSigner: false, isWritable: true },
{ pubkey: GLOBAL_CONFIG, isSigner: false, isWritable: false },
{ pubkey: payer.publicKey, isSigner: true, isWritable: true },
{ pubkey: poolData.baseMint, isSigner: false, isWritable: false },
{ pubkey: poolData.quoteMint, isSigner: false, isWritable: false },
{ pubkey: poolData.lpMint, isSigner: false, isWritable: true },
{ pubkey: userBaseAta, isSigner: false, isWritable: true },
{ pubkey: userQuoteAta, isSigner: false, isWritable: true },
{ pubkey: userLpAta, isSigner: false, isWritable: true },
{ pubkey: poolData.poolBaseTokenAccount, isSigner: false, isWritable: true },
{ pubkey: poolData.poolQuoteTokenAccount, isSigner: false, isWritable: true },
{ pubkey: TOKEN_PROGRAM_ID, isSigner: false, isWritable: false },
],
data,
});
const tx = new Transaction().add(instruction);
tx.feePayer = payer.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(payer);
return await connection.sendRawTransaction(tx.serialize());
}
```
## Fee Structure
### Dynamic Fee Tiers
Fees are calculated based on market capitalization in lamports:
```typescript
interface FeeTier {
marketCapLamportsThreshold: bigint;
fees: Fees;
}
interface Fees {
lpFeeBps: number; // LP provider fee
protocolFeeBps: number; // Protocol fee
creatorFeeBps: number; // Creator fee
}
// Fee calculation for bonding curves
function calculateBondingCurveMarketCap(
virtualSolReserves: bigint,
mintSupply: bigint,
virtualTokenReserves: bigint
): bigint {
return (virtualSolReserves * mintSupply) / virtualTokenReserves;
}
// Fee calculation for AMM pools
function calculatePoolMarketCap(
quoteReserve: bigint,
baseMintSupply: bigint,
baseReserve: bigint
): bigint {
return (quoteReserve * baseMintSupply) / baseReserve;
}
// Get applicable fee tier
function getFeeTier(marketCap: bigint, feeTiers: FeeTier[]): Fees {
// Sort tiers by threshold descending
const sortedTiers = [...feeTiers].sort(
(a, b) => Number(b.marketCapLamportsThreshold - a.marketCapLamportsThreshold)
);
for (const tier of sortedTiers) {
if (marketCap >= tier.marketCapLamportsThreshold) {
return tier.fees;
}
}
// Return default/lowest tier
return sortedTiers[sortedTiers.length - 1].fees;
}
```
### Fee Sharing Configuration
```typescript
interface SharingConfig {
status: 'Active' | 'Paused';
mint: PublicKey;
admin: PublicKey;
adminRevoked: boolean;
shareholders: Shareholder[];
}
interface Shareholder {
address: PublicKey;
shareBps: number; // Share in basis points (total must equal 10000)
}
// Create fee sharing config
async function createFeeSharingConfig(
connection: Connection,
payer: Keypair,
mint: PublicKey,
shareholders: Shareholder[]
): Promise<string> {
// Validate shares sum to 10000 bps (100%)
const totalShares = shareholders.reduce((sum, s) => sum + s.shareBps, 0);
if (totalShares !== 10000) {
throw new Error('Shareholder shares must sum to 10000 bps');
}
// Build create_fee_sharing_config instruction
// ...
}
```
### Collecting Creator Fees
```typescript
// Collect fees from bonding curve
async function collectBondingCurveCreatorFee(
connection: Connection,
creator: Keypair
): Promise<string> {
const [creatorVault] = PublicKey.findProgramAddressSync(
[Buffer.from('creator-vault'), creator.publicKey.toBuffer()],
PUMP_PROGRAM_ID
);
const discriminator = Buffer.from([0x85, 0xb1, 0x29, 0x6d, 0x3a, 0x47, 0x2c, 0x5e]);
const instruction = new TransactionInstruction({
programId: PUMP_PROGRAM_ID,
keys: [
{ pubkey: creatorVault, isSigner: false, isWritable: true },
{ pubkey: creator.publicKey, isSigner: true, isWritable: true },
{ pubkey: SystemProgram.programId, isSigner: false, isWritable: false },
],
data: discriminator,
});
const tx = new Transaction().add(instruction);
tx.feePayer = creator.publicKey;
tx.recentBlockhash = (await connection.getLatestBlockhash()).blockhash;
tx.sign(creator);
return await connection.sendRawTransaction(tx.serialize());
}
// Collect fees from PumpSwap pool
async function collectPoolCreatorFee(
connection: Connection,
coinCreator: Keypair,
pool: PublicKey
): Promise<string> {
const poolData = await fetchPoolData(connection, pool);
const [creatorVaultAuthority] = getCreatorVaultAuthorityPDA(coinCreator.publicKey);
const creatorVaultAta = getAssociatedTokenAddressSync(
poolData.quoteMint,
creatorVaultAuthority,
true
);
const creatorWalletAta = getAssociatedTokenAddressSync(
poolData.quoteMint,
coinCreator.publicKey
);
// Build collect_coin_creator_fee instruction
// ...
}
```
## SDK Usage
### Using PumpAmmSdk
```typescript
import { PumpAmmSdk } from '@pump-fun/pump-swap-sdk';
const sdk = new PumpAmmSdk(connection);
// Pool creation with autocomplete
const initialPrice = sdk.createAutocompleteInitialPoolPrice(
baseAmount,
quoteAmount
);
const createIxs = await sdk.createPoolInstructions({
index: 0,
creator: payer.publicKey,
baseMint: tokenMint,
quoteMint: WSOL_MINT,
baseAmountIn: baseAmount,
quoteAmountIn: quoteAmount,
});
// Deposit autocomplete (base input changed)
const depositCalc = sdk.depositAutocompleteBaseInput({
pool: poolAddress,
baseAmountIn: userBaseInput,
slippageBps: 50, // 0.5%
});
console.log('Quote needed:', depositCalc.quoteAmountIn);
console.log('LP tokens:', depositCalc.lpTokensOut);
// Deposit autocomplete (quote input changed)
const depositCalc2 = sdk.depositAutocompleteQuoteInput({
pool: poolAddress,
quoteAmountIn: userQuoteInput,
slippageBps: 50,
});
// Execute deposit
const depositIxs = await sdk.depositInstructions({
pool: poolAddress,
user: payer.publicKey,
lpTokenAmountOut: depositCalc.lpTokensOut,
maxBaseAmountIn: depositCalc.baseAmountIn,
maxQuoteAmountIn: depositCalc.quoteAmountIn,
});
// Swap autocomplete
const swapCalc = sdk.swapAutocompleteBaseInput({
pool: poolAddress,
baseAmountIn: sellAmount,
slippageBps: 100, // 1%
});
console.log('Quote out:', swapCalc.quoteAmountOut);
// Execute swap
const swapIxs = await sdk.swapInstructions({
pool: poolAddress,
user: payer.publicKey,
baseAmountIn: sellAmount,
quoteAmountIn: 0n,
minAmountOut: swapCalc.minQuoteAmountOut,
});
// Withdraw
const withdrawCalc = sdk.withdrawAutocomplete({
pool: poolAddress,
lpTokenAmountIn: lpTokens,
slippageBps: 50,
});
console.log('Base out:', withdrawCalc.baseAmountOut);
console.log('Quote out:', withdrawCalc.quoteAmountOut);
const withdrawIxs = await sdk.withdrawInstructions({
pool: poolAddress,
user: payer.publicKey,
lpTokenAmountIn: lpTokens,
minBaseAmountOut: withdrawCalc.minBaseAmountOut,
minQuoteAmountOut: withdrawCalc.minQuoteAmountOut,
});
```
## Account Extension
Both Pump and PumpSwap programs require account extension when account sizes have been increased:
```typescript
// Check and extend bonding curve account (size < 150 bytes)
async function ensureBondingCurveExtended(
connection: Connection,
bondingCurve: PublicKey
): Promise<TransactionInstruction | null> {
const accountInfo = await connection.getAccountInfo(bondingCurve);
if (accountInfo && accountInfo.data.length < 150) {
return createExtendAccountInstruction(PUMP_PROGRAM_ID, bondingCurve);
}
return null;
}
// Check and extend pool account (size < 300 bytes)
async function ensurePoolExtended(
connection: Connection,
pool: PublicKey
): Promise<TransactionInstruction | null> {
const accountInfo = await connection.getAccountInfo(pool);
if (accountInfo && accountInfo.data.length < 300) {
return createExtendAccountInstruction(PUMP_AMM_PROGRAM_ID, pool);
}
return null;
}
function createExtendAccountInstruction(
programId: PublicKey,
account: PublicKey
): TransactionInstruction {
const discriminator = Buffer.from([0x9a, 0x3f, 0x2c, 0x8b, 0x45, 0xe7, 0x12, 0xd6]);
return new TransactionInstruction({
programId,
keys: [
{ pubkey: account, isSigner: false, isWritable: true },
],
data: discriminator,
});
}
```
## Mayhem Mode
Mayhem mode is a special token launch mode with different fee recipients:
```typescript
const MAYHEM_PROGRAM_ID = new PublicKey('MAyhSmzXzV1pTf7LsNkrNwkWKTo4ougAJ1PPg47MD4e');
// Mayhem fee recipients (randomly rotated for load balancing)
const MAYHEM_FEE_RECIPIENTS = [
'DzPPWKfYYMuHxR98xhPkYSp7KHsLpcLZU8tHCqXjC3HG',
'5AbGBKS6NHKcTFyJaZCk3dbMRNFG3y6kkN4y7Rp3iHCk',
'DWM9EuZ3e9cRYdHYRKwsCqXFKgn4jUNkUPEAyNE2Dxnc',
'9BUPJ65gFVaGQKyXiR6xSE1DdLRqkUMv9HJvL8wGfJaL',
];
// Check if token is in mayhem mode
function isMayhemMode(bondingCurve: BondingCurve): boolean {
return bondingCurve.isMayhemMode;
}
// Get correct fee recipient based on mayhem mode
function getFeeRecipient(
bondingCurve: BondingCurve,
defaultFeeRecipient: PublicKey
): PublicKey {
if (bondingCurve.isMayhemMode) {
// Randomly select from mayhem recipients
const index = Math.floor(Math.random() * MAYHEM_FEE_RECIPIENTS.length);
return new PublicKey(MAYHEM_FEE_RECIPIENTS[index]);
}
return defaultFeeRecipient;
}
```
## Token Incentives
PumpFun offers volume-based token incentives:
```typescript
// Initialize user volume accumulator
async function initUserVolumeAccumulator(
connection: Connection,
payer: Keypair
): Promise<string> {
const [userVolumeAccumulator] = PublicKey.findProgramAddressSync(
[Buffer.from('user_volume'), payer.publicKey.toBuffer()],
PUMP_PROGRAM_ID
);
// Build init_user_volume_accumulator instruction
// ...
}
// Claim token incentives
async function claimTokenIncentives(
connection: Connection,
user: Keypair
): Promise<string> {
const [userVolumeAccumulator] = PublicKey.findProgramAddressSync(
[Buffer.from('user_volume'), user.publicKey.toBuffer()],
PUMP_PROGRAM_ID
);
// Build claim_token_incentives instruction
// ...
}
```
## Compute Units Optimization
```typescript
// Recommended static CU limit for buy/sell operations
const RECOMMENDED_CU_LIMIT = 100_000;
// Add compute budget instructions
import { ComputeBudgetProgram } from '@solana/web3.js';
function addComputeBudget(
tx: Transaction,
units: number = 100_000,
microLamports: number = 10_000
): Transaction {
tx.add(
ComputeBudgetProgram.setComputeUnitLimit({ units }),
ComputeBudgetProgram.setComputeUnitPrice({ microLamports })
);
return tx;
}
```
## Error Handling
```typescript
// Common PumpFun errors
enum PumpError {
SlippageExceeded = 6001,
InsufficientFunds = 6002,
BondingCurveComplete = 6003,
BondingCurveNotComplete = 6004,
InvalidAmount = 6005,
MathOverflow = 6006,
Unauthorized = 6007,
}
function handlePumpError(error: any): string {
const code = error?.code || error?.message?.match(/custom program error: 0x(\w+)/)?.[1];
switch (parseInt(code, 16)) {
case PumpError.SlippageExceeded:
return 'Transaction failed: Slippage tolerance exceeded. Try increasing slippage.';
case PumpError.InsufficientFunds:
return 'Insufficient funds for this transaction.';
case PumpError.BondingCurveComplete:
return 'Bonding curve is complete. Trade on PumpSwap instead.';
case PumpError.BondingCurveNotComplete:
return 'Bonding curve not yet complete. Cannot migrate.';
default:
return `Transaction failed: ${error.message}`;
}
}
```
## Best Practices
### Transaction Building
- Always check account sizes before buy/sell and prepend `extendAccount` if needed
- Use static CU limit of 100,000 for buy/sell operations
- Include proper slippage protection (1-5% recommended)
- Use appropriate fee recipients based on mayhem mode status
### Fee Handling
- Always include fee config accounts (required since September 2025)
- For mayhem mode tokens, pass mayhem fee recipient at correct account index
- Check market cap tier for accurate fee calculation
### Creator Fees
- Creator fees accumulate in creator vault PDAs
- Use `collectCreatorFee` to withdraw accumulated fees
- Fees apply to non-completed bonding curves and canonical PumpSwap pools
### Security
- Never expose private keys
- Validate all user inputs
- Use devnet for testing before mainnet
- Implement proper error handling
## Resources
- **Public Docs**: https://github.com/pump-fun/pump-public-docs
- **IDL Files**: https://github.com/pump-fun/pump-public-docs/tree/main/idl
- **Pump SDK**: `@pump-fun/pump-sdk` on npm
- **PumpSwap SDK**: `@pump-fun/pump-swap-sdk` on npm
## Skill Structure
```
pumpfun/
├── SKILL.md # This file
├── resources/
│ ├── pump-program-reference.md # Bonding curve program API
│ ├── pump-swap-reference.md # AMM program API
│ ├── fee-structure.md # Fee calculation and tiers
│ └── program-addresses.md # All program addresses
├── examples/
│ ├── bonding-curve/
│ │ ├── create-token.ts # Token creation example
│ │ └── buy-sell.ts # Buy/sell on bonding curves
│ ├── swap/
│ │ └── swap.ts # PumpSwap trading
│ ├── liquidity/
│ │ └── add-remove.ts # Add/remove liquidity
│ └── creator-fees/
│ └── collect-fees.ts # Fee collection
├── templates/
│ └── pumpfun-setup.ts # Starter template
└── docs/
└── troubleshooting.md # Common issues
```