Create Solana programs with no dependencies attached.
I've got no dependencies
To hold me down
To make me fret
Or make me frown
I had dependencies
But now I'm free
There are no dependencies on me
Pinocchio is a zero-dependency library to create Solana programs in Rust. It takes advantage of the way SBF loaders serialize the program input parameters into a byte array that is then passed to the program's entrypoint to define zero-copy types to read the input. Since the communication between a program and SBF loader — either at the first time the program is called or when one program invokes the instructions of another program — is done via a byte array, a program can define its own types. This completely eliminates the dependency on the solana-program
crate, which in turn mitigates dependency issues by having a crate specifically designed to create on-chain programs.
Pinocchio can be used as a replacement for solana-program
to write on-chain programs.
The library defines:
- program entrypoint
- core data types
- logging macros
syscall
functions- access to system accounts (
sysvars
) - cross-program invocation
- Zero dependencies and
no_std
crate - Efficient
entrypoint!
macro – no copies or allocations - Improved CU consumption of cross-program invocations
From your project folder:
cargo add pinocchio
Pinocchio provides two different entrypoint macros: an entrypoint
that looks similar to the "standard" one found in solana-program
and a lightweight lazy_entrypoint
. The main difference between them is how much work the entrypoint performs. While the entrypoint
parsers the whole input and provide the program_id
, accounts
and instruction_data
separately, the lazy_entrypoint
only wraps the input at first. It then provides methods to parse the input on demand. The benefit in this case is that you have more control when the parsing is happening — even whether the parsing is needed or not.
The lazy_entrypoint
is suitable for programs that have a single or very few instructions, since it requires the program to handle the parsing, which can become complex as the number of instructions increases. For "larger" programs, the entrypoint
will likely be easier and more efficient to use.
⚠️ Note: In both cases you should use the types from thepinocchio
crate instead ofsolana-program
. If you need to invoke a different program, you will need to redefine its instruction builder to create an equivalent instruction data usingpinocchio
types.
To use the entrypoint!
macro, use the following in your entrypoint definition:
use pinocchio::{
account_info::AccountInfo,
entrypoint,
msg,
ProgramResult,
pubkey::Pubkey
};
entrypoint!(process_instruction);
pub fn process_instruction(
program_id: &Pubkey,
accounts: &[AccountInfo],
instruction_data: &[u8],
) -> ProgramResult {
msg!("Hello from my program!");
Ok(())
}
The information from the input is parsed into their own entities:
program_id
: theID
of the program being calledaccounts
: the accounts receivedinstruction_data
: data for the instruction
To use the lazy_entrypoint!
macro, use the following in your entrypoint definition:
use pinocchio::{
lazy_entrypoint,
lazy_entrypoint::InstructionContext,
msg,
ProgramResult
};
lazy_entrypoint!(process_instruction);
pub fn process_instruction(
mut context: InstructionContext,
) -> ProgramResult {
msg!("Hello from my lazy program!");
Ok(())
}
The InstructionContext
provides on-demand access to the information of the input:
available()
: number of available accountsnext_account()
: parsers the next available account (can be used as many times as accounts available)instruction_data()
: parsers the intruction data and program id
The code is licensed under the Apache License Version 2.0
The library in this repository is based/includes code from: