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pallet-treasury
: Ensure we respect max_amount
for spend across ba…
…tch calls (paritytech#13468) * `pallet-treasury`: Ensure we respect `max_amount` for spend across batch calls When calling `spend` the origin defines the `max_amount` of tokens it is allowed to spend. The problem is that someone can send a `batch(spend, spend)` to circumvent this restriction as we don't check across different calls that the `max_amount` is respected. This pull request fixes this behavior by introducing a so-called dispatch context. This dispatch context is created once per outer most `dispatch` call. For more information see the docs in this pr. The treasury then uses this dispatch context to attach information about already spent funds per `max_amount` (we assume that each origin has a different `max_amount` configured). So, a `batch(spend, spend)` is now checked to stay inside the allowed spending bounds. Fixes: paritytech#13167 * Import `Box` for wasm * FMT
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// This file is part of Substrate. | ||
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// Copyright (C) Parity Technologies (UK) Ltd. | ||
// SPDX-License-Identifier: Apache-2.0 | ||
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// Licensed under the Apache License, Version 2.0 (the "License"); | ||
// you may not use this file except in compliance with the License. | ||
// You may obtain a copy of the License at | ||
// | ||
// http://www.apache.org/licenses/LICENSE-2.0 | ||
// | ||
// Unless required by applicable law or agreed to in writing, software | ||
// distributed under the License is distributed on an "AS IS" BASIS, | ||
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | ||
// See the License for the specific language governing permissions and | ||
// limitations under the License. | ||
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//! Provides functions to interact with the dispatch context. | ||
//! | ||
//! A Dispatch context is created by calling [`run_in_context`] and then the given closure will be | ||
//! executed in this dispatch context. Everyting run in this `closure` will have access to the same | ||
//! dispatch context. This also applies to nested calls of [`run_in_context`]. The dispatch context | ||
//! can be used to store and retrieve information locally in this context. The dispatch context can | ||
//! be accessed by using [`with_context`]. This function will execute the given closure and give it | ||
//! access to the value stored in the dispatch context. | ||
//! | ||
//! # FRAME integration | ||
//! | ||
//! The FRAME macros implement [`UnfilteredDispatchable`](crate::traits::UnfilteredDispatchable) for | ||
//! each pallet `Call` enum. Part of this implementation is the call to [`run_in_context`], so that | ||
//! each call to | ||
//! [`UnfilteredDispatchable::dispatch_bypass_filter`](crate::traits::UnfilteredDispatchable::dispatch_bypass_filter) | ||
//! or [`Dispatchable::dispatch`](crate::dispatch::Dispatchable::dispatch) will run in a dispatch | ||
//! context. | ||
//! | ||
//! # Example | ||
//! | ||
//! ``` | ||
//! use frame_support::dispatch_context::{with_context, run_in_context}; | ||
//! | ||
//! // Not executed in a dispatch context, so it should return `None`. | ||
//! assert!(with_context::<(), _>(|_| println!("Hello")).is_none()); | ||
//! | ||
//! // Run it in a dispatch context and `with_context` returns `Some(_)`. | ||
//! run_in_context(|| { | ||
//! assert!(with_context::<(), _>(|_| println!("Hello")).is_some()); | ||
//! }); | ||
//! | ||
//! #[derive(Default)] | ||
//! struct CustomContext(i32); | ||
//! | ||
//! run_in_context(|| { | ||
//! with_context::<CustomContext, _>(|v| { | ||
//! // Intitialize the value to the default value. | ||
//! assert_eq!(0, v.or_default().0); | ||
//! v.or_default().0 = 10; | ||
//! }); | ||
//! | ||
//! with_context::<CustomContext, _>(|v| { | ||
//! // We are still in the same context and can still access the set value. | ||
//! assert_eq!(10, v.or_default().0); | ||
//! }); | ||
//! | ||
//! run_in_context(|| { | ||
//! with_context::<CustomContext, _>(|v| { | ||
//! // A nested call of `run_in_context` stays in the same dispatch context | ||
//! assert_eq!(10, v.or_default().0); | ||
//! }) | ||
//! }) | ||
//! }); | ||
//! | ||
//! run_in_context(|| { | ||
//! with_context::<CustomContext, _>(|v| { | ||
//! // We left the other context and created a new one, so we should be back | ||
//! // to our default value. | ||
//! assert_eq!(0, v.or_default().0); | ||
//! }); | ||
//! }); | ||
//! ``` | ||
//! | ||
//! In your pallet you will only have to use [`with_context`], because as described above | ||
//! [`run_in_context`] will be handled by FRAME for you. | ||
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use sp_std::{ | ||
any::{Any, TypeId}, | ||
boxed::Box, | ||
collections::btree_map::{BTreeMap, Entry}, | ||
}; | ||
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environmental::environmental!(DISPATCH_CONTEXT: BTreeMap<TypeId, Box<dyn Any>>); | ||
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/// Abstraction over some optional value `T` that is stored in the dispatch context. | ||
pub struct Value<'a, T> { | ||
value: Option<&'a mut T>, | ||
new_value: Option<T>, | ||
} | ||
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impl<T> Value<'_, T> { | ||
/// Get the value as reference. | ||
pub fn get(&self) -> Option<&T> { | ||
self.new_value.as_ref().or_else(|| self.value.as_ref().map(|v| *v as &T)) | ||
} | ||
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/// Get the value as mutable reference. | ||
pub fn get_mut(&mut self) -> Option<&mut T> { | ||
self.new_value.as_mut().or_else(|| self.value.as_mut().map(|v| *v as &mut T)) | ||
} | ||
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/// Set to the given value. | ||
/// | ||
/// [`Self::get`] and [`Self::get_mut`] will return `new_value` afterwards. | ||
pub fn set(&mut self, new_value: T) { | ||
self.value = None; | ||
self.new_value = Some(new_value); | ||
} | ||
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/// Returns a mutable reference to the value. | ||
/// | ||
/// If the internal value isn't initialized, this will set it to [`Default::default()`] before | ||
/// returning the mutable reference. | ||
pub fn or_default(&mut self) -> &mut T | ||
where | ||
T: Default, | ||
{ | ||
if let Some(v) = &mut self.value { | ||
return v | ||
} | ||
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self.new_value.get_or_insert_with(|| Default::default()) | ||
} | ||
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/// Clear the internal value. | ||
/// | ||
/// [`Self::get`] and [`Self::get_mut`] will return `None` afterwards. | ||
pub fn clear(&mut self) { | ||
self.new_value = None; | ||
self.value = None; | ||
} | ||
} | ||
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/// Runs the given `callback` in the dispatch context and gives access to some user defined value. | ||
/// | ||
/// Passes the a mutable reference of [`Value`] to the callback. The value will be of type `T` and | ||
/// is identified using the [`TypeId`] of `T`. This means that `T` should be some unique type to | ||
/// make the value unique. If no value is set yet [`Value::get()`] and [`Value::get_mut()`] will | ||
/// return `None`. It is totally valid to have some `T` that is shared between different callers to | ||
/// have access to the same value. | ||
/// | ||
/// Returns `None` if the current context is not a dispatch context. To create a context it is | ||
/// required to call [`run_in_context`] with the closure to execute in this context. So, for example | ||
/// in tests it could be that there isn't any dispatch context or when calling a dispatchable like a | ||
/// normal Rust function from some FRAME hook. | ||
pub fn with_context<T: 'static, R>(callback: impl FnOnce(&mut Value<T>) -> R) -> Option<R> { | ||
DISPATCH_CONTEXT::with(|c| match c.entry(TypeId::of::<T>()) { | ||
Entry::Occupied(mut o) => { | ||
let value = o.get_mut().downcast_mut::<T>(); | ||
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if value.is_none() { | ||
log::error!( | ||
"Failed to downcast value for type {} in dispatch context!", | ||
sp_std::any::type_name::<T>(), | ||
); | ||
} | ||
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let mut value = Value { value, new_value: None }; | ||
let res = callback(&mut value); | ||
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if value.value.is_none() && value.new_value.is_none() { | ||
o.remove(); | ||
} else if let Some(new_value) = value.new_value { | ||
o.insert(Box::new(new_value) as Box<_>); | ||
} | ||
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res | ||
}, | ||
Entry::Vacant(v) => { | ||
let mut value = Value { value: None, new_value: None }; | ||
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let res = callback(&mut value); | ||
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if let Some(new_value) = value.new_value { | ||
v.insert(Box::new(new_value) as Box<_>); | ||
} | ||
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res | ||
}, | ||
}) | ||
} | ||
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/// Run the given closure `run` in a dispatch context. | ||
/// | ||
/// Nested calls to this function will execute `run` in the same dispatch context as the initial | ||
/// call to this function. In other words, all nested calls of this function will be done in the | ||
/// same dispatch context. | ||
pub fn run_in_context<R>(run: impl FnOnce() -> R) -> R { | ||
DISPATCH_CONTEXT::using_once(&mut Default::default(), run) | ||
} | ||
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#[cfg(test)] | ||
mod tests { | ||
use super::*; | ||
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#[test] | ||
fn dispatch_context_works() { | ||
// No context, so we don't execute | ||
assert!(with_context::<(), _>(|_| ()).is_none()); | ||
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let ret = run_in_context(|| with_context::<(), _>(|_| 1).unwrap()); | ||
assert_eq!(1, ret); | ||
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#[derive(Default)] | ||
struct Context(i32); | ||
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let res = run_in_context(|| { | ||
with_context::<Context, _>(|v| { | ||
assert_eq!(0, v.or_default().0); | ||
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v.or_default().0 = 100; | ||
}); | ||
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run_in_context(|| { | ||
run_in_context(|| { | ||
run_in_context(|| with_context::<Context, _>(|v| v.or_default().0).unwrap()) | ||
}) | ||
}) | ||
}); | ||
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// Ensure that the initial value set in the context is also accessible after nesting the | ||
// `run_in_context` calls. | ||
assert_eq!(100, res); | ||
} | ||
} |
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