Crate gstd

Standard library for use in Gear programs.

This library should be used as a standard library when writing Gear programs. Compared to gcore crate, this library provides higher-level primitives that allow you to develop more complex dApps. Choose this library if you are ready to spend more gas but receive refined code.

gstd crate provides many advanced tools for a developer, such as asynchronous programming primitives, arbitrary types encoding/decoding, providing convenient instruments for creating programs from programs, etc.

Crate features

Default features

• panic-handler (enabled by default) — When enabled, a panic handler is provided by this crate.

Nightly features

• nightly — Enables all features below. These features depend on unstable Rust API and require nightly toolchain.

• panic-messages — When enabled, additional context information is available from panic messages in debug mode. Relies on panic_info_message.

• oom-handler — When enabled, an OOM error handler is provided. Relies on alloc_error_handler,

Additional features

• debug — Enables debug logging; this heavily impacts gas cost and is therefore disabled by default.

Examples

Decode input payload using a custom type:

#![no_std]

use gstd::{msg, prelude::*};

#[derive(Decode, Encode, TypeInfo)]
#[codec(crate = gstd::codec)]
#[scale_info(crate = gstd::scale_info)]
struct Payload {
    question: String,
    answer: u8,
}

#[no_mangle]
extern "C" fn handle() {
    let payload: Payload = msg::load().expect("Unable to decode payload");
    if payload.question == "life-universe-everything" {
        msg::reply(payload.answer, 0).expect("Unable to reply");
    }
}

Asynchronous program example.

It sends empty messages to three addresses and waits for at least two replies (“approvals”) during initialization. When invoked, it handles only PING messages and sends empty messages to the three addresses, and waits for just one approval. If approval is obtained, the program replies with PONG.

#![no_std]
use futures::future;
use gstd::{msg, prelude::*, ActorId};

static mut APPROVERS: [ActorId; 3] = [ActorId::zero(); 3];

#[derive(Debug, Decode, TypeInfo)]
#[codec(crate = gstd::codec)]
#[scale_info(crate = gstd::scale_info)]
pub struct Input {
    pub approvers: [ActorId; 3],
}

#[gstd::async_init]
async fn init() {
    let payload: Input = msg::load().expect("Failed to decode input");
    unsafe { APPROVERS = payload.approvers };

    let mut requests: Vec<_> = unsafe { APPROVERS }
        .iter()
        .map(|addr| msg::send_bytes_for_reply(*addr, b"", 0, 0))
        .collect::<Result<_, _>>()
        .unwrap();

    let mut threshold = 0;
    while !requests.is_empty() {
        let (.., remaining) = future::select_all(requests).await;
        threshold += 1;
        if threshold >= 2 {
            break;
        }
        requests = remaining;
    }
}

#[gstd::async_main]
async fn main() {
    let message = msg::load_bytes().expect("Failed to load payload bytes");
    if message != b"PING" {
        return;
    }

    let requests: Vec<_> = unsafe { APPROVERS }
        .iter()
        .map(|addr| msg::send_bytes_for_reply(*addr, b"", 0, 0))
        .collect::<Result<_, _>>()
        .unwrap();

    _ = future::select_all(requests).await;
    msg::reply(b"PONG", 0).expect("Unable to reply");
}

Re-exports

• pub use prelude::*;

Modules

• errors
  Type definitions and helpers for error handling.
• exec
  Utility functions related to the current execution context or program execution flow.
• ext
  Extensions for additional features.
• msg
  Messaging API for Gear programs.
• prelude
  The gstd default prelude. Re-imports default std modules and traits. std can be safely replaced to gstd in the Rust programs.
• prog
  Functions and helpers for creating programs from programs.
• sync
  Data access synchronization objects.
• util
  Utility functions.

Macros

• bail
  Unwrap Result<T, E> to T if it is Ok(T) or panic with the provided message if the result is Err(E).
• dbg
  Prints and returns the value of a given expression for quick and dirty debugging.
• debug
  Add a debug message to the log.

Structs

• ActorId
  Program (actor) identifier.
• CodeId
  Code identifier.
• Config
  The set of broadly used internal parameters.
• GasMultiplier
  Type representing converter between gas and value.
• MessageId
  Message identifier.
• Percent
  Basic struct for working with integer percentages allowing values greater than 100.
• Reservation
  Stores additional data along with ReservationId to track its state.
• ReservationId
  Reservation identifier.
• Reservations
  Reservation manager.

Functions

• handle_signal
  Default signal handler.
• message_loop
  The main asynchronous message handling loop.
• record_reply
  Default reply handler.

Type Aliases

• BlockCount
  Represents block count type.
• BlockNumber
  Represents block number type.
• Gas
  Represents gas type.
• Value
  Represents value type.

Attribute Macros

• async_init
  Mark async function to be the program initialization method.
• async_main
  Mark the main async function to be the program entry point.