rust-secp256k1-unsafe-fast/no_std_test/src/main.rs

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// Bitcoin secp256k1 bindings
// Written in 2019 by
// Elichai Turkel
//
// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to
// the public domain worldwide. This software is distributed without
// any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication
// along with this software.
// If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.
//
//! # secp256k1 no-std test.
//! This binary is a short smallest rust code to produce a working binary *without libstd*.
//! This gives us 2 things:
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//! 1. Test that the parts of the code that should work in a no-std enviroment actually work. Note that this is not a comprehensive list.
//! 2. Test that we don't accidentally import libstd into `secp256k1`.
//!
//! The first is tested using the following command `cargo run --release | grep -q "Verified Successfully"`.
//! (Making sure that it successfully printed that. i.e. it didn't abort before that).
//!
//! The second is tested by the fact that it compiles. if we accidentally link against libstd we should see the following error:
//! `error[E0152]: duplicate lang item found`.
//! Example:
//! ```
//! error[E0152]: duplicate lang item found: `eh_personality`.
//! --> src/main.rs:37:1
//! |
//! 37 | pub extern "C" fn rust_eh_personality() {}
//! | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
//! |
//! = note: first defined in crate `panic_unwind` (which `std` depends on).
//! ```
//!
//! Notes:
//! * Requires `panic=abort` and `--release` to not depend on libunwind(which is provided usually by libstd) https://github.com/rust-lang/rust/issues/47493
//! * Requires linking with `libc` for calling `printf`.
//!
#![feature(lang_items)]
#![feature(start)]
#![feature(core_intrinsics)]
#![feature(panic_info_message)]
#![feature(alloc_error_handler)]
#![no_std]
extern crate libc;
extern crate secp256k1;
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extern crate serde_cbor;
#[cfg(feature = "alloc")]
extern crate alloc;
use core::alloc::Layout;
#[cfg(feature = "alloc")]
extern crate wee_alloc;
#[cfg(feature = "alloc")]
#[global_allocator]
static ALLOC: wee_alloc::WeeAlloc = wee_alloc::WeeAlloc::INIT;
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use core::fmt::{self, write, Write};
use core::intrinsics;
use core::panic::PanicInfo;
use secp256k1::ecdh::{self, SharedSecret};
use secp256k1::ffi::types::AlignedType;
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use secp256k1::rand::{self, RngCore};
use secp256k1::serde::Serialize;
use secp256k1::*;
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use serde_cbor::de;
use serde_cbor::ser::SliceWrite;
use serde_cbor::Serializer;
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struct FakeRng;
impl RngCore for FakeRng {
fn next_u32(&mut self) -> u32 {
57
}
fn next_u64(&mut self) -> u64 {
57
}
fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), rand::Error> {
for i in dest {
*i = 57;
}
Ok(())
}
fn fill_bytes(&mut self, dest: &mut [u8]) {
self.try_fill_bytes(dest).unwrap();
}
}
#[start]
fn start(_argc: isize, _argv: *const *const u8) -> isize {
let mut buf = [AlignedType::zeroed(); 70_000];
let size = Secp256k1::preallocate_size();
unsafe { libc::printf("needed size: %d\n\0".as_ptr() as _, size) };
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let mut secp = Secp256k1::preallocated_new(&mut buf).unwrap();
secp.randomize(&mut FakeRng);
let secret_key = SecretKey::new(&mut FakeRng);
let public_key = PublicKey::from_secret_key(&secp, &secret_key);
let message = Message::from_slice(&[0xab; 32]).expect("32 bytes");
let sig = secp.sign_ecdsa(&message, &secret_key);
assert!(secp.verify_ecdsa(&message, &sig, &public_key).is_ok());
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let rec_sig = secp.sign_ecdsa_recoverable(&message, &secret_key);
assert!(secp.verify_ecdsa(&message, &rec_sig.to_standard(), &public_key).is_ok());
assert_eq!(public_key, secp.recover_ecdsa(&message, &rec_sig).unwrap());
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let (rec_id, data) = rec_sig.serialize_compact();
let new_rec_sig = ecdsa::RecoverableSignature::from_compact(&data, rec_id).unwrap();
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assert_eq!(rec_sig, new_rec_sig);
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let mut cbor_ser = [0u8; 100];
let writer = SliceWrite::new(&mut cbor_ser[..]);
let mut ser = Serializer::new(writer);
sig.serialize(&mut ser).unwrap();
let size = ser.into_inner().bytes_written();
let new_sig: ecdsa::Signature = de::from_mut_slice(&mut cbor_ser[..size]).unwrap();
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assert_eq!(sig, new_sig);
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let _ = SharedSecret::new(&public_key, &secret_key);
let _ = ecdh::shared_secret_point(&public_key, &secret_key);
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#[cfg(feature = "alloc")]
{
let secp_alloc = Secp256k1::new();
let public_key = PublicKey::from_secret_key(&secp_alloc, &secret_key);
let message = Message::from_slice(&[0xab; 32]).expect("32 bytes");
let sig = secp_alloc.sign(&message, &secret_key);
assert!(secp_alloc.verify(&message, &sig, &public_key).is_ok());
unsafe { libc::printf("Verified alloc Successfully!\n\0".as_ptr() as _) };
}
unsafe { libc::printf("Verified Successfully!\n\0".as_ptr() as _) };
0
}
const MAX_PRINT: usize = 511;
struct Print {
loc: usize,
buf: [u8; 512],
}
impl Print {
pub fn new() -> Self {
Self {
loc: 0,
buf: [0u8; 512],
}
}
pub fn print(&self) {
unsafe {
let newline = "\n";
libc::printf(self.buf.as_ptr() as _);
libc::printf(newline.as_ptr() as _);
}
}
}
impl Write for Print {
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fn write_str(&mut self, s: &str) -> Result<(), fmt::Error> {
let curr = self.loc;
if curr + s.len() > MAX_PRINT {
unsafe {
libc::printf("overflow\n\0".as_ptr() as _);
intrinsics::abort();
}
}
self.loc += s.len();
self.buf[curr..self.loc].copy_from_slice(s.as_bytes());
Ok(())
}
}
#[panic_handler]
fn panic(info: &PanicInfo) -> ! {
unsafe { libc::printf("shi1\n\0".as_ptr() as _) };
let msg = info.message().unwrap();
let mut buf = Print::new();
write(&mut buf, *msg).unwrap();
buf.print();
intrinsics::abort()
}
#[alloc_error_handler]
fn alloc_error(_layout: Layout) -> ! {
unsafe { libc::printf("alloc shi1\n\0".as_ptr() as _) };
intrinsics::abort()
}