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How to CPI in a Solana program

This guide uses the Anchor framework to demonstrate how to transfer SOL using a Cross Program Invocation (CPI). Included below are three different, but functionally equivalent implementations that you may come across when reading or writing Solana programs. Here is a final reference program on Solana Playground.

Starter Code

Here is a starter program on Solana Playground. The lib.rs file includes the following program with a single sol_transfer instruction.

use anchor_lang::prelude::*;
use anchor_lang::system_program::{transfer, Transfer};

declare_id!("9AvUNHjxscdkiKQ8tUn12QCMXtcnbR9BVGq3ULNzFMRi");

#[program]
pub mod cpi {
use super::*;

pub fn sol_transfer(ctx: Context<SolTransfer>, amount: u64) -> Result<()> {
let from_pubkey = ctx.accounts.sender.to_account_info();
let to_pubkey = ctx.accounts.recipient.to_account_info();
let program_id = ctx.accounts.system_program.to_account_info();

let cpi_context = CpiContext::new(
program_id,
Transfer {
from: from_pubkey,
to: to_pubkey,
},
);

transfer(cpi_context, amount)?;
Ok(())
}
}

#[derive(Accounts)]
pub struct SolTransfer<'info> {
#[account(mut)]
sender: Signer<'info>,
#[account(mut)]
recipient: SystemAccount<'info>,
system_program: Program<'info, System>,
}

The cpi.test.ts file demonstrates how to invoke the custom sol_transfer instruction and logs a link to the transaction details on SolanaFM.

it("SOL Transfer Anchor", async () => {
const transactionSignature = await program.methods
.solTransfer(new BN(transferAmount))
.accounts({
sender: sender.publicKey,
recipient: recipient.publicKey,
})
.rpc();

console.log(
`\nTransaction Signature:` +
`https://solana.fm/tx/${transactionSignature}?cluster=devnet-solana`,
);
});

The transaction details will show that the custom program was first invoked (instruction 1), which then invokes the System Program (instruction 1.1), resulting in a successful SOL transfer.

You can build, deploy, and run the test of this example on Playground to view the transaction details on the SolanaFM explorer.

How to CPI with Anchor

In the starter code, the SolTransfer struct specifies the accounts required by the transfer instruction.

#[derive(Accounts)]
pub struct SolTransfer<'info> {
#[account(mut)]
sender: Signer<'info>,
#[account(mut)]
recipient: SystemAccount<'info>,
system_program: Program<'info, System>,
}

Anchor CpiContext

The sol_transfer instruction included in the starter code shows a typical approach for constructing CPIs using the Anchor framework.

This approach involves creating a CpiContext, which includes the program_id and accounts required for the instruction being called, followed by a helper function (transfer) to invoke a specific instruction.

use anchor_lang::system_program::{transfer, Transfer};
pub fn sol_transfer(ctx: Context<SolTransfer>, amount: u64) -> Result<()> {
let from_pubkey = ctx.accounts.sender.to_account_info();
let to_pubkey = ctx.accounts.recipient.to_account_info();
let program_id = ctx.accounts.system_program.to_account_info();

let cpi_context = CpiContext::new(
program_id,
Transfer {
from: from_pubkey,
to: to_pubkey,
},
);

transfer(cpi_context, amount)?;
Ok(())
}

The cpi_context variable specifies the program ID (System Program) and accounts (sender and recipient) required by the transfer instruction.

let cpi_context = CpiContext::new(
program_id,
Transfer {
from: from_pubkey,
to: to_pubkey,
},
);

The cpi_context and amount are then passed into the transfer function to execute the CPI.

transfer(cpi_context, amount)?;

Invoke with Crate Helper

Under the hood, the CpiContext example above is a wrapper around the solana_program crate's invoke function which uses system_instruction::transfer to build the instruction.

The example below demonstrates how to use the invoke() function to make a CPI to the transfer instruction of the System Program using the system_instruction::transfer method.

First, add these imports to the top of lib.rs:

use anchor_lang::solana_program::{program::invoke, system_instruction};

Next, modify the sol_transfer instruction with the following:

pub fn sol_transfer(ctx: Context<SolTransfer>, amount: u64) -> Result<()> {
let from_pubkey = ctx.accounts.sender.to_account_info();
let to_pubkey = ctx.accounts.recipient.to_account_info();
let program_id = ctx.accounts.system_program.to_account_info();

let instruction =
&system_instruction::transfer(&from_pubkey.key(), &to_pubkey.key(), amount);

invoke(instruction, &[from_pubkey, to_pubkey, program_id])?;
Ok(())
}

This implementation is functionally equivalent to the previous example.

Invoke with Instruction

You can also manually build the instruction to pass into the invoke() function. This is useful when there is not a crate available to help build the instruction you want to invoke.

This approach requires you to manually specify the AccountMetas required by the instruction and correctly create the instruction data buffer.

The sol_transfer instruction below is a fully expanded equivalent of the previous two examples.

pub fn sol_transfer(ctx: Context<SolTransfer>, amount: u64) -> Result<()> {
let from_pubkey = ctx.accounts.sender.to_account_info();
let to_pubkey = ctx.accounts.recipient.to_account_info();
let program_id = ctx.accounts.system_program.to_account_info();

// Prepare instruction AccountMetas
let account_metas = vec![
AccountMeta::new(from_pubkey.key(), true),
AccountMeta::new(to_pubkey.key(), false),
];

// SOL transfer instruction discriminator
let instruction_discriminator: u32 = 2;

// Prepare instruction data
let mut instruction_data = Vec::with_capacity(4 + 8);
instruction_data.extend_from_slice(&instruction_discriminator.to_le_bytes());
instruction_data.extend_from_slice(&amount.to_le_bytes());

// Create instruction
let instruction = Instruction {
program_id: program_id.key(),
accounts: account_metas,
data: instruction_data,
};

// Invoke instruction
invoke(&instruction, &[from_pubkey, to_pubkey, program_id])?;
Ok(())
}

The sol_transfer instruction above replicates this example of manually building a SOL transfer instruction. It follows the same pattern as building an instruction to add to a transaction.

When building an instruction in Rust, use the following syntax to specify the AccountMeta for each account:

AccountMeta::new(account1_pubkey, true),           // writable, signer
AccountMeta::new(account2_pubkey, false), // writable, not signer
AccountMeta::new_readonly(account3_pubkey, false), // not writable, not signer
AccountMeta::new_readonly(account4_pubkey, true), // writable, signer