Files
pezkuwi-sdk/pezkuwi/xcm/xcm-pez-simulator/fuzzer/src/fuzz.rs
T
pezkuwichain b6d35f6faf chore: add Dijital Kurdistan Tech Institute to copyright headers
Updated 4763 files with dual copyright:
- Parity Technologies (UK) Ltd.
- Dijital Kurdistan Tech Institute
2025-12-27 21:28:36 +03:00

280 lines
8.3 KiB
Rust

// Copyright (C) Parity Technologies (UK) Ltd. and Dijital Kurdistan Tech Institute
// This file is part of Pezkuwi.
// Pezkuwi is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Pezkuwi is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Pezkuwi. If not, see <http://www.gnu.org/licenses/>.
// We do not declare all features used by `construct_runtime`
#[allow(unexpected_cfgs)]
mod teyrchain;
// We do not declare all features used by `construct_runtime`
#[allow(unexpected_cfgs)]
mod relay_chain;
use codec::DecodeLimit;
use pezkuwi_core_primitives::AccountId;
use pezkuwi_teyrchain_primitives::primitives::Id as ParaId;
use pezsp_runtime::{traits::AccountIdConversion, BuildStorage};
use xcm_pez_simulator::{decl_test_network, decl_test_relay_chain, decl_test_teyrchain, TestExt};
#[cfg(feature = "try-runtime")]
use pezframe_support::traits::{TryState, TryStateSelect::All};
use pezframe_support::{assert_ok, traits::IntegrityTest};
use xcm::{latest::prelude::*, MAX_XCM_DECODE_DEPTH};
use arbitrary::{Arbitrary, Error, Unstructured};
pub const INITIAL_BALANCE: u128 = 1_000_000_000;
decl_test_teyrchain! {
pub struct ParaA {
Runtime = teyrchain::Runtime,
XcmpMessageHandler = teyrchain::MsgQueue,
DmpMessageHandler = teyrchain::MsgQueue,
new_ext = para_ext(1),
}
}
decl_test_teyrchain! {
pub struct ParaB {
Runtime = teyrchain::Runtime,
XcmpMessageHandler = teyrchain::MsgQueue,
DmpMessageHandler = teyrchain::MsgQueue,
new_ext = para_ext(2),
}
}
decl_test_teyrchain! {
pub struct ParaC {
Runtime = teyrchain::Runtime,
XcmpMessageHandler = teyrchain::MsgQueue,
DmpMessageHandler = teyrchain::MsgQueue,
new_ext = para_ext(3),
}
}
decl_test_relay_chain! {
pub struct Relay {
Runtime = relay_chain::Runtime,
RuntimeCall = relay_chain::RuntimeCall,
RuntimeEvent = relay_chain::RuntimeEvent,
XcmConfig = relay_chain::XcmConfig,
MessageQueue = relay_chain::MessageQueue,
System = relay_chain::System,
new_ext = relay_ext(),
}
}
decl_test_network! {
pub struct MockNet {
relay_chain = Relay,
teyrchains = vec![
(1, ParaA),
(2, ParaB),
(3, ParaC),
],
}
}
// An XCM message that will be generated by the fuzzer through the Arbitrary trait
struct XcmMessage {
// Source chain
source: u32,
// Destination chain
destination: u32,
// XCM message
message: Xcm<()>,
}
impl<'a> Arbitrary<'a> for XcmMessage {
fn arbitrary(u: &mut Unstructured<'a>) -> Result<Self, Error> {
let source: u32 = u.arbitrary()?;
let destination: u32 = u.arbitrary()?;
let mut encoded_message: &[u8] = u.arbitrary()?;
if let Ok(message) =
DecodeLimit::decode_all_with_depth_limit(MAX_XCM_DECODE_DEPTH, &mut encoded_message)
{
return Ok(XcmMessage { source, destination, message });
}
Err(Error::IncorrectFormat)
}
}
pub fn para_account_id(id: u32) -> relay_chain::AccountId {
ParaId::from(id).into_account_truncating()
}
pub fn para_ext(para_id: u32) -> pezsp_io::TestExternalities {
use teyrchain::{MsgQueue, Runtime, System};
let mut t = pezframe_system::GenesisConfig::<Runtime>::default().build_storage().unwrap();
pezpallet_balances::GenesisConfig::<Runtime> {
balances: (0..6).map(|i| ([i; 32].into(), INITIAL_BALANCE)).collect(),
..Default::default()
}
.assimilate_storage(&mut t)
.unwrap();
let mut ext = pezsp_io::TestExternalities::new(t);
ext.execute_with(|| {
System::set_block_number(1);
MsgQueue::set_para_id(para_id.into());
});
ext
}
pub fn relay_ext() -> pezsp_io::TestExternalities {
use relay_chain::{Runtime, System};
let mut t = pezframe_system::GenesisConfig::<Runtime>::default().build_storage().unwrap();
let mut balances: Vec<(AccountId, u128)> = vec![];
balances.append(&mut (1..=3).map(|i| (para_account_id(i), INITIAL_BALANCE)).collect());
balances.append(&mut (0..6).map(|i| ([i; 32].into(), INITIAL_BALANCE)).collect());
pezpallet_balances::GenesisConfig::<Runtime> { balances, ..Default::default() }
.assimilate_storage(&mut t)
.unwrap();
let mut ext = pezsp_io::TestExternalities::new(t);
ext.execute_with(|| System::set_block_number(1));
ext
}
pub type RelayChainPalletXcm = pezpallet_xcm::Pezpallet<relay_chain::Runtime>;
pub type TeyrchainPalletXcm = pezpallet_xcm::Pezpallet<teyrchain::Runtime>;
// We check XCM messages recursively for blocklisted messages
fn recursively_matches_blocklisted_messages(message: &Instruction<()>) -> bool {
match message {
DepositReserveAsset { xcm, .. }
| ExportMessage { xcm, .. }
| InitiateReserveWithdraw { xcm, .. }
| InitiateTeleport { xcm, .. }
| TransferReserveAsset { xcm, .. }
| SetErrorHandler(xcm)
| SetAppendix(xcm) => xcm.iter().any(recursively_matches_blocklisted_messages),
// The blocklisted message is the Transact instruction.
m => matches!(m, Transact { .. }),
}
}
fn run_input(xcm_messages: [XcmMessage; 5]) {
MockNet::reset();
#[cfg(not(fuzzing))]
println!();
for xcm_message in xcm_messages {
if xcm_message.message.iter().any(recursively_matches_blocklisted_messages) {
println!(" skipping message\n");
continue;
}
if xcm_message.source % 4 == 0 {
// We get the destination for the message
let teyrchain_id = (xcm_message.destination % 3) + 1;
let destination: Location = Teyrchain(teyrchain_id).into();
#[cfg(not(fuzzing))]
{
println!(" source: Relay Chain");
println!(" destination: Teyrchain {teyrchain_id}");
println!(" message: {:?}", xcm_message.message);
}
Relay::execute_with(|| {
assert_ok!(RelayChainPalletXcm::send_xcm(Here, destination, xcm_message.message));
})
} else {
// We get the source's execution method
let execute_with = match xcm_message.source % 4 {
1 => ParaA::execute_with,
2 => ParaB::execute_with,
_ => ParaC::execute_with,
};
// We get the destination for the message
let destination: Location = match xcm_message.destination % 4 {
n @ 1..=3 => (Parent, Teyrchain(n)).into(),
_ => Parent.into(),
};
#[cfg(not(fuzzing))]
{
let destination_str = match xcm_message.destination % 4 {
n @ 1..=3 => format!("Teyrchain {n}"),
_ => "Relay Chain".to_string(),
};
println!(" source: Teyrchain {}", xcm_message.source % 4);
println!(" destination: {}", destination_str);
println!(" message: {:?}", xcm_message.message);
}
// We execute the message with the appropriate source and destination
execute_with(|| {
assert_ok!(TeyrchainPalletXcm::send_xcm(Here, destination, xcm_message.message));
});
}
#[cfg(not(fuzzing))]
println!();
// We run integrity tests and try_runtime invariants
[ParaA::execute_with, ParaB::execute_with, ParaC::execute_with].iter().for_each(
|execute_with| {
execute_with(|| {
#[cfg(feature = "try-runtime")]
teyrchain::AllPalletsWithSystem::try_state(Default::default(), All).unwrap();
teyrchain::AllPalletsWithSystem::integrity_test();
});
},
);
Relay::execute_with(|| {
#[cfg(feature = "try-runtime")]
relay_chain::AllPalletsWithSystem::try_state(Default::default(), All).unwrap();
relay_chain::AllPalletsWithSystem::integrity_test();
});
}
}
fn main() {
#[cfg(fuzzing)]
{
loop {
honggfuzz::fuzz!(|xcm_messages: [XcmMessage; 5]| {
run_input(xcm_messages);
})
}
}
#[cfg(not(fuzzing))]
{
use std::{env, fs, fs::File, io::Read};
let args: Vec<_> = env::args().collect();
let md = fs::metadata(&args[1]).unwrap();
let all_files = match md.is_dir() {
true => fs::read_dir(&args[1])
.unwrap()
.map(|x| x.unwrap().path().to_str().unwrap().to_string())
.collect::<Vec<String>>(),
false => (args[1..]).to_vec(),
};
println!("All_files {:?}", all_files);
for argument in all_files {
println!("Now doing file {:?}", argument);
let mut buffer: Vec<u8> = Vec::new();
let mut f = File::open(argument).unwrap();
f.read_to_end(&mut buffer).unwrap();
let mut unstructured = Unstructured::new(&buffer);
if let Ok(xcm_messages) = unstructured.arbitrary() {
run_input(xcm_messages);
}
}
}
}