// This file is part of Substrate.
// Copyright (C) 2017-2021 Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: GPL-3.0-or-later WITH Classpath-exception-2.0
// This program 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.
// This program 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 this program. If not, see .
use crate::{
RuntimeInfo, error::{Error, Result},
wasm_runtime::{RuntimeCache, WasmExecutionMethod},
};
use std::{
collections::HashMap,
panic::{UnwindSafe, AssertUnwindSafe},
result,
sync::{Arc, atomic::{AtomicU64, Ordering}, mpsc},
path::PathBuf,
};
use sp_version::{NativeVersion, RuntimeVersion};
use codec::{Decode, Encode};
use sp_core::{
NativeOrEncoded,
traits::{
CodeExecutor, Externalities, RuntimeCode, MissingHostFunctions,
RuntimeSpawnExt, RuntimeSpawn,
},
};
use log::trace;
use sp_wasm_interface::{HostFunctions, Function};
use sc_executor_common::wasm_runtime::{WasmInstance, WasmModule, InvokeMethod};
use sp_externalities::ExternalitiesExt as _;
use sp_tasks::new_async_externalities;
/// Default num of pages for the heap
const DEFAULT_HEAP_PAGES: u64 = 1024;
/// Set up the externalities and safe calling environment to execute runtime calls.
///
/// If the inner closure panics, it will be caught and return an error.
pub fn with_externalities_safe(ext: &mut dyn Externalities, f: F) -> Result
where F: UnwindSafe + FnOnce() -> U
{
sp_externalities::set_and_run_with_externalities(
ext,
move || {
// Substrate uses custom panic hook that terminates process on panic. Disable
// termination for the native call.
let _guard = sp_panic_handler::AbortGuard::force_unwind();
std::panic::catch_unwind(f).map_err(|e| {
if let Some(err) = e.downcast_ref::() {
Error::RuntimePanicked(err.clone())
} else if let Some(err) = e.downcast_ref::<&'static str>() {
Error::RuntimePanicked(err.to_string())
} else {
Error::RuntimePanicked("Unknown panic".into())
}
})
},
)
}
/// Delegate for dispatching a CodeExecutor call.
///
/// By dispatching we mean that we execute a runtime function specified by it's name.
pub trait NativeExecutionDispatch: Send + Sync {
/// Host functions for custom runtime interfaces that should be callable from within the runtime
/// besides the default Substrate runtime interfaces.
type ExtendHostFunctions: HostFunctions;
/// Dispatch a method in the runtime.
///
/// If the method with the specified name doesn't exist then `Err` is returned.
fn dispatch(ext: &mut dyn Externalities, method: &str, data: &[u8]) -> Result>;
/// Provide native runtime version.
fn native_version() -> NativeVersion;
}
/// An abstraction over Wasm code executor. Supports selecting execution backend and
/// manages runtime cache.
#[derive(Clone)]
pub struct WasmExecutor {
/// Method used to execute fallback Wasm code.
method: WasmExecutionMethod,
/// The number of 64KB pages to allocate for Wasm execution.
default_heap_pages: u64,
/// The host functions registered with this instance.
host_functions: Arc>,
/// WASM runtime cache.
cache: Arc,
/// The size of the instances cache.
max_runtime_instances: usize,
/// The path to a directory which the executor can leverage for a file cache, e.g. put there
/// compiled artifacts.
cache_path: Option,
}
impl WasmExecutor {
/// Create new instance.
///
/// # Parameters
///
/// `method` - Method used to execute Wasm code.
///
/// `default_heap_pages` - Number of 64KB pages to allocate for Wasm execution.
/// Defaults to `DEFAULT_HEAP_PAGES` if `None` is provided.
///
/// `host_functions` - The set of host functions to be available for import provided by this
/// executor.
///
/// `max_runtime_instances` - The number of runtime instances to keep in memory ready for reuse.
///
/// `cache_path` - A path to a directory where the executor can place its files for purposes of
/// caching. This may be important in cases when there are many different modules with the
/// compiled execution method is used.
pub fn new(
method: WasmExecutionMethod,
default_heap_pages: Option,
host_functions: Vec<&'static dyn Function>,
max_runtime_instances: usize,
cache_path: Option,
) -> Self {
WasmExecutor {
method,
default_heap_pages: default_heap_pages.unwrap_or(DEFAULT_HEAP_PAGES),
host_functions: Arc::new(host_functions),
cache: Arc::new(RuntimeCache::new(max_runtime_instances, cache_path.clone())),
max_runtime_instances,
cache_path,
}
}
/// Execute the given closure `f` with the latest runtime (based on `runtime_code`).
///
/// The closure `f` is expected to return `Err(_)` when there happened a `panic!` in native code
/// while executing the runtime in Wasm. If a `panic!` occurred, the runtime is invalidated to
/// prevent any poisoned state. Native runtime execution does not need to report back
/// any `panic!`.
///
/// # Safety
///
/// `runtime` and `ext` are given as `AssertUnwindSafe` to the closure. As described above, the
/// runtime is invalidated on any `panic!` to prevent a poisoned state. `ext` is already
/// implicitly handled as unwind safe, as we store it in a global variable while executing the
/// native runtime.
fn with_instance(
&self,
runtime_code: &RuntimeCode,
ext: &mut dyn Externalities,
allow_missing_host_functions: bool,
f: F,
) -> Result
where F: FnOnce(
AssertUnwindSafe<&Arc>,
AssertUnwindSafe<&dyn WasmInstance>,
Option<&RuntimeVersion>,
AssertUnwindSafe<&mut dyn Externalities>,
) -> Result>,
{
match self.cache.with_instance(
runtime_code,
ext,
self.method,
self.default_heap_pages,
&*self.host_functions,
allow_missing_host_functions,
|module, instance, version, ext| {
let module = AssertUnwindSafe(module);
let instance = AssertUnwindSafe(instance);
let ext = AssertUnwindSafe(ext);
f(module, instance, version, ext)
}
)? {
Ok(r) => r,
Err(e) => Err(e),
}
}
}
impl sp_core::traits::CallInWasm for WasmExecutor {
fn call_in_wasm(
&self,
wasm_code: &[u8],
code_hash: Option>,
method: &str,
call_data: &[u8],
ext: &mut dyn Externalities,
missing_host_functions: MissingHostFunctions,
) -> std::result::Result, String> {
let allow_missing_host_functions = missing_host_functions.allowed();
if let Some(hash) = code_hash {
let code = RuntimeCode {
code_fetcher: &sp_core::traits::WrappedRuntimeCode(wasm_code.into()),
hash,
heap_pages: None,
};
self.with_instance(&code, ext, allow_missing_host_functions, |module, instance, _, mut ext| {
with_externalities_safe(
&mut **ext,
move || {
RuntimeInstanceSpawn::register_on_externalities(module.clone());
instance.call_export(method, call_data)
}
)
}).map_err(|e| e.to_string())
} else {
let module = crate::wasm_runtime::create_wasm_runtime_with_code(
self.method,
self.default_heap_pages,
&wasm_code,
self.host_functions.to_vec(),
allow_missing_host_functions,
self.cache_path.as_deref(),
)
.map_err(|e| format!("Failed to create module: {:?}", e))?;
let instance = module.new_instance()
.map_err(|e| format!("Failed to create instance: {:?}", e))?;
let instance = AssertUnwindSafe(instance);
let mut ext = AssertUnwindSafe(ext);
let module = AssertUnwindSafe(module);
with_externalities_safe(
&mut **ext,
move || {
RuntimeInstanceSpawn::register_on_externalities(module.clone());
instance.call_export(method, call_data)
}
)
.and_then(|r| r)
.map_err(|e| e.to_string())
}
}
}
/// A generic `CodeExecutor` implementation that uses a delegate to determine wasm code equivalence
/// and dispatch to native code when possible, falling back on `WasmExecutor` when not.
pub struct NativeExecutor {
/// Dummy field to avoid the compiler complaining about us not using `D`.
_dummy: std::marker::PhantomData,
/// Native runtime version info.
native_version: NativeVersion,
/// Fallback wasm executor.
wasm: WasmExecutor,
}
impl NativeExecutor {
/// Create new instance.
///
/// # Parameters
///
/// `fallback_method` - Method used to execute fallback Wasm code.
///
/// `default_heap_pages` - Number of 64KB pages to allocate for Wasm execution.
/// Defaults to `DEFAULT_HEAP_PAGES` if `None` is provided.
pub fn new(
fallback_method: WasmExecutionMethod,
default_heap_pages: Option,
max_runtime_instances: usize,
) -> Self {
let mut host_functions = D::ExtendHostFunctions::host_functions();
// Add the custom host functions provided by the user.
host_functions.extend(sp_io::SubstrateHostFunctions::host_functions());
let wasm_executor = WasmExecutor::new(
fallback_method,
default_heap_pages,
host_functions,
max_runtime_instances,
None,
);
NativeExecutor {
_dummy: Default::default(),
native_version: D::native_version(),
wasm: wasm_executor,
}
}
}
impl RuntimeInfo for NativeExecutor {
fn native_version(&self) -> &NativeVersion {
&self.native_version
}
fn runtime_version(
&self,
ext: &mut dyn Externalities,
runtime_code: &RuntimeCode,
) -> Result {
self.wasm.with_instance(
runtime_code,
ext,
false,
|_module, _instance, version, _ext|
Ok(version.cloned().ok_or_else(|| Error::ApiError("Unknown version".into()))),
)
}
}
/// Helper inner struct to implement `RuntimeSpawn` extension.
pub struct RuntimeInstanceSpawn {
module: Arc,
tasks: parking_lot::Mutex>>>,
counter: AtomicU64,
scheduler: Box,
}
impl RuntimeSpawn for RuntimeInstanceSpawn {
fn spawn_call(&self, dispatcher_ref: u32, func: u32, data: Vec) -> u64 {
let new_handle = self.counter.fetch_add(1, Ordering::Relaxed);
let (sender, receiver) = mpsc::channel();
self.tasks.lock().insert(new_handle, receiver);
let module = self.module.clone();
let scheduler = self.scheduler.clone();
self.scheduler.spawn("executor-extra-runtime-instance", Box::pin(async move {
let module = AssertUnwindSafe(module);
let async_ext = match new_async_externalities(scheduler.clone()) {
Ok(val) => val,
Err(e) => {
log::error!(
target: "executor",
"Failed to setup externalities for async context: {}",
e,
);
// This will drop sender and receiver end will panic
return;
}
};
let mut async_ext = match async_ext.with_runtime_spawn(
Box::new(RuntimeInstanceSpawn::new(module.clone(), scheduler))
) {
Ok(val) => val,
Err(e) => {
log::error!(
target: "executor",
"Failed to setup runtime extension for async externalities: {}",
e,
);
// This will drop sender and receiver end will panic
return;
}
};
let result = with_externalities_safe(
&mut async_ext,
move || {
// FIXME: Should be refactored to shared "instance factory".
// Instantiating wasm here every time is suboptimal at the moment, shared
// pool of instances should be used.
//
// https://github.com/paritytech/substrate/issues/7354
let instance = module.new_instance()
.expect("Failed to create new instance from module");
instance.call(
InvokeMethod::TableWithWrapper { dispatcher_ref, func },
&data[..],
).expect("Failed to invoke instance.")
}
);
match result {
Ok(output) => {
let _ = sender.send(output);
},
Err(error) => {
// If execution is panicked, the `join` in the original runtime code will panic as well,
// since the sender is dropped without sending anything.
log::error!("Call error in spawned task: {:?}", error);
},
}
}));
new_handle
}
fn join(&self, handle: u64) -> Vec {
let receiver = self.tasks.lock().remove(&handle).expect("No task for the handle");
let output = receiver.recv().expect("Spawned task panicked for the handle");
output
}
}
impl RuntimeInstanceSpawn {
pub fn new(
module: Arc,
scheduler: Box,
) -> Self {
Self {
module,
scheduler,
counter: 0.into(),
tasks: HashMap::new().into(),
}
}
fn with_externalities_and_module(
module: Arc,
mut ext: &mut dyn Externalities,
) -> Option {
ext.extension::()
.map(move |task_ext| Self::new(module, task_ext.clone()))
}
/// Register new `RuntimeSpawnExt` on current externalities.
///
/// This extensions will spawn instances from provided `module`.
pub fn register_on_externalities(module: Arc) {
sp_externalities::with_externalities(
move |mut ext| {
if let Some(runtime_spawn) =
Self::with_externalities_and_module(module.clone(), ext)
{
if let Err(e) = ext.register_extension(
RuntimeSpawnExt(Box::new(runtime_spawn))
) {
trace!(
target: "executor",
"Failed to register `RuntimeSpawnExt` instance on externalities: {:?}",
e,
)
}
}
}
);
}
}
impl CodeExecutor for NativeExecutor {
type Error = Error;
fn call<
R: Decode + Encode + PartialEq,
NC: FnOnce() -> result::Result + UnwindSafe,
>(
&self,
ext: &mut dyn Externalities,
runtime_code: &RuntimeCode,
method: &str,
data: &[u8],
use_native: bool,
native_call: Option,
) -> (Result>, bool) {
let mut used_native = false;
let result = self.wasm.with_instance(
runtime_code,
ext,
false,
|module, instance, onchain_version, mut ext| {
let onchain_version = onchain_version.ok_or_else(
|| Error::ApiError("Unknown version".into())
)?;
let can_call_with = onchain_version.can_call_with(&self.native_version.runtime_version);
match (
use_native,
can_call_with,
native_call,
) {
(_, false, _) | (false, _, _) => {
if !can_call_with {
trace!(
target: "executor",
"Request for native execution failed (native: {}, chain: {})",
self.native_version.runtime_version,
onchain_version,
);
}
with_externalities_safe(
&mut **ext,
move || {
RuntimeInstanceSpawn::register_on_externalities(module.clone());
instance.call_export(method, data).map(NativeOrEncoded::Encoded)
}
)
},
(true, true, Some(call)) => {
trace!(
target: "executor",
"Request for native execution with native call succeeded \
(native: {}, chain: {}).",
self.native_version.runtime_version,
onchain_version,
);
used_native = true;
let res = with_externalities_safe(&mut **ext, move || (call)())
.and_then(|r| r
.map(NativeOrEncoded::Native)
.map_err(|s| Error::ApiError(s))
);
Ok(res)
}
_ => {
trace!(
target: "executor",
"Request for native execution succeeded (native: {}, chain: {})",
self.native_version.runtime_version,
onchain_version
);
used_native = true;
Ok(D::dispatch(&mut **ext, method, data).map(NativeOrEncoded::Encoded))
}
}
}
);
(result, used_native)
}
}
impl Clone for NativeExecutor {
fn clone(&self) -> Self {
NativeExecutor {
_dummy: Default::default(),
native_version: D::native_version(),
wasm: self.wasm.clone(),
}
}
}
impl sp_core::traits::CallInWasm for NativeExecutor {
fn call_in_wasm(
&self,
wasm_blob: &[u8],
code_hash: Option>,
method: &str,
call_data: &[u8],
ext: &mut dyn Externalities,
missing_host_functions: MissingHostFunctions,
) -> std::result::Result, String> {
self.wasm.call_in_wasm(wasm_blob, code_hash, method, call_data, ext, missing_host_functions)
}
}
/// Implements a `NativeExecutionDispatch` for provided parameters.
///
/// # Example
///
/// ```
/// sc_executor::native_executor_instance!(
/// pub MyExecutor,
/// substrate_test_runtime::api::dispatch,
/// substrate_test_runtime::native_version,
/// );
/// ```
///
/// # With custom host functions
///
/// When you want to use custom runtime interfaces from within your runtime, you need to make the
/// executor aware of the host functions for these interfaces.
///
/// ```
/// # use sp_runtime_interface::runtime_interface;
///
/// #[runtime_interface]
/// trait MyInterface {
/// fn say_hello_world(data: &str) {
/// println!("Hello world from: {}", data);
/// }
/// }
///
/// sc_executor::native_executor_instance!(
/// pub MyExecutor,
/// substrate_test_runtime::api::dispatch,
/// substrate_test_runtime::native_version,
/// my_interface::HostFunctions,
/// );
/// ```
///
/// When you have multiple interfaces, you can give the host functions as a tuple e.g.:
/// `(my_interface::HostFunctions, my_interface2::HostFunctions)`
///
#[macro_export]
macro_rules! native_executor_instance {
( $pub:vis $name:ident, $dispatcher:path, $version:path $(,)?) => {
/// A unit struct which implements `NativeExecutionDispatch` feeding in the
/// hard-coded runtime.
$pub struct $name;
$crate::native_executor_instance!(IMPL $name, $dispatcher, $version, ());
};
( $pub:vis $name:ident, $dispatcher:path, $version:path, $custom_host_functions:ty $(,)?) => {
/// A unit struct which implements `NativeExecutionDispatch` feeding in the
/// hard-coded runtime.
$pub struct $name;
$crate::native_executor_instance!(
IMPL $name, $dispatcher, $version, $custom_host_functions
);
};
(IMPL $name:ident, $dispatcher:path, $version:path, $custom_host_functions:ty) => {
impl $crate::NativeExecutionDispatch for $name {
type ExtendHostFunctions = $custom_host_functions;
fn dispatch(
ext: &mut dyn $crate::Externalities,
method: &str,
data: &[u8]
) -> $crate::error::Result> {
$crate::with_externalities_safe(ext, move || $dispatcher(method, data))?
.ok_or_else(|| $crate::error::Error::MethodNotFound(method.to_owned()))
}
fn native_version() -> $crate::NativeVersion {
$version()
}
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use sp_runtime_interface::runtime_interface;
#[runtime_interface]
trait MyInterface {
fn say_hello_world(data: &str) {
println!("Hello world from: {}", data);
}
}
native_executor_instance!(
pub MyExecutor,
substrate_test_runtime::api::dispatch,
substrate_test_runtime::native_version,
(my_interface::HostFunctions, my_interface::HostFunctions),
);
#[test]
fn native_executor_registers_custom_interface() {
let executor = NativeExecutor::::new(
WasmExecutionMethod::Interpreted,
None,
8,
);
my_interface::HostFunctions::host_functions().iter().for_each(|function| {
assert_eq!(
executor.wasm.host_functions.iter().filter(|f| f == &function).count(),
2,
);
});
my_interface::say_hello_world("hey");
}
}