// This file is part of Substrate.

// Copyright (C) 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 <https://www.gnu.org/licenses/>.

//! Defines data and logic needed for interaction with an WebAssembly instance of a substrate
//! runtime module.

use crate::runtime::{Store, StoreData};
use sc_executor_common::{
	error::{Backtrace, Error, MessageWithBacktrace, Result, WasmError},
	wasm_runtime::InvokeMethod,
};
use sp_wasm_interface::{Pointer, Value, WordSize};
use wasmtime::{
	AsContext, AsContextMut, Engine, Extern, Instance, InstancePre, Memory, Table, Val,
};

/// Invoked entrypoint format.
pub enum EntryPointType {
	/// Direct call.
	///
	/// Call is made by providing only payload reference and length.
	Direct { entrypoint: wasmtime::TypedFunc<(u32, u32), u64> },
	/// Indirect call.
	///
	/// Call is made by providing payload reference and length, and extra argument
	/// for advanced routing.
	Wrapped {
		/// The extra argument passed to the runtime. It is typically a wasm function pointer.
		func: u32,
		dispatcher: wasmtime::TypedFunc<(u32, u32, u32), u64>,
	},
}

/// Wasm blob entry point.
pub struct EntryPoint {
	call_type: EntryPointType,
}

impl EntryPoint {
	/// Call this entry point.
	pub(crate) fn call(
		&self,
		store: &mut Store,
		data_ptr: Pointer<u8>,
		data_len: WordSize,
	) -> Result<u64> {
		let data_ptr = u32::from(data_ptr);
		let data_len = u32::from(data_len);

		match self.call_type {
			EntryPointType::Direct { ref entrypoint } =>
				entrypoint.call(&mut *store, (data_ptr, data_len)),
			EntryPointType::Wrapped { func, ref dispatcher } =>
				dispatcher.call(&mut *store, (func, data_ptr, data_len)),
		}
		.map_err(|trap| {
			let host_state = store
				.data_mut()
				.host_state
				.as_mut()
				.expect("host state cannot be empty while a function is being called; qed");

			let backtrace = trap.downcast_ref::<wasmtime::WasmBacktrace>().map(|backtrace| {
				// The logic to print out a backtrace is somewhat complicated,
				// so let's get wasmtime to print it out for us.
				Backtrace { backtrace_string: backtrace.to_string() }
			});

			if let Some(message) = host_state.take_panic_message() {
				Error::AbortedDueToPanic(MessageWithBacktrace { message, backtrace })
			} else {
				let message = trap.root_cause().to_string();
				Error::AbortedDueToTrap(MessageWithBacktrace { message, backtrace })
			}
		})
	}

	pub fn direct(
		func: wasmtime::Func,
		ctx: impl AsContext,
	) -> std::result::Result<Self, &'static str> {
		let entrypoint = func
			.typed::<(u32, u32), u64>(ctx)
			.map_err(|_| "Invalid signature for direct entry point")?;
		Ok(Self { call_type: EntryPointType::Direct { entrypoint } })
	}

	pub fn wrapped(
		dispatcher: wasmtime::Func,
		func: u32,
		ctx: impl AsContext,
	) -> std::result::Result<Self, &'static str> {
		let dispatcher = dispatcher
			.typed::<(u32, u32, u32), u64>(ctx)
			.map_err(|_| "Invalid signature for wrapped entry point")?;
		Ok(Self { call_type: EntryPointType::Wrapped { func, dispatcher } })
	}
}

/// Wrapper around [`Memory`] that implements [`sc_allocator::Memory`].
pub(crate) struct MemoryWrapper<'a, C>(pub &'a wasmtime::Memory, pub &'a mut C);

impl<C: AsContextMut> sc_allocator::Memory for MemoryWrapper<'_, C> {
	fn with_access_mut<R>(&mut self, run: impl FnOnce(&mut [u8]) -> R) -> R {
		run(self.0.data_mut(&mut self.1))
	}

	fn with_access<R>(&self, run: impl FnOnce(&[u8]) -> R) -> R {
		run(self.0.data(&self.1))
	}

	fn grow(&mut self, additional: u32) -> std::result::Result<(), ()> {
		self.0
			.grow(&mut self.1, additional as u64)
			.map_err(|e| {
				log::error!(
					target: "wasm-executor",
					"Failed to grow memory by {} pages: {}",
					additional,
					e,
				)
			})
			.map(drop)
	}

	fn pages(&self) -> u32 {
		self.0.size(&self.1) as u32
	}

	fn max_pages(&self) -> Option<u32> {
		self.0.ty(&self.1).maximum().map(|p| p as _)
	}
}

/// Wrap the given WebAssembly Instance of a wasm module with Substrate-runtime.
///
/// This struct is a handy wrapper around a wasmtime `Instance` that provides substrate specific
/// routines.
pub struct InstanceWrapper {
	instance: Instance,
	store: Store,
}

impl InstanceWrapper {
	pub(crate) fn new(engine: &Engine, instance_pre: &InstancePre<StoreData>) -> Result<Self> {
		let mut store = Store::new(engine, Default::default());
		let instance = instance_pre.instantiate(&mut store).map_err(|error| {
			WasmError::Other(format!(
				"failed to instantiate a new WASM module instance: {:#}",
				error,
			))
		})?;

		let memory = get_linear_memory(&instance, &mut store)?;
		let table = get_table(&instance, &mut store);

		store.data_mut().memory = Some(memory);
		store.data_mut().table = table;

		Ok(InstanceWrapper { instance, store })
	}

	/// Resolves a substrate entrypoint by the given name.
	///
	/// An entrypoint must have a signature `(i32, i32) -> i64`, otherwise this function will return
	/// an error.
	pub fn resolve_entrypoint(&mut self, method: InvokeMethod) -> Result<EntryPoint> {
		Ok(match method {
			InvokeMethod::Export(method) => {
				// Resolve the requested method and verify that it has a proper signature.
				let export =
					self.instance.get_export(&mut self.store, method).ok_or_else(|| {
						Error::from(format!("Exported method {} is not found", method))
					})?;
				let func = export
					.into_func()
					.ok_or_else(|| Error::from(format!("Export {} is not a function", method)))?;
				EntryPoint::direct(func, &self.store).map_err(|_| {
					Error::from(format!("Exported function '{}' has invalid signature.", method))
				})?
			},
			InvokeMethod::Table(func_ref) => {
				let table = self
					.instance
					.get_table(&mut self.store, "__indirect_function_table")
					.ok_or(Error::NoTable)?;
				let val = table
					.get(&mut self.store, func_ref)
					.ok_or(Error::NoTableEntryWithIndex(func_ref))?;
				let func = val
					.funcref()
					.ok_or(Error::TableElementIsNotAFunction(func_ref))?
					.ok_or(Error::FunctionRefIsNull(func_ref))?;

				EntryPoint::direct(*func, &self.store).map_err(|_| {
					Error::from(format!(
						"Function @{} in exported table has invalid signature for direct call.",
						func_ref,
					))
				})?
			},
			InvokeMethod::TableWithWrapper { dispatcher_ref, func } => {
				let table = self
					.instance
					.get_table(&mut self.store, "__indirect_function_table")
					.ok_or(Error::NoTable)?;
				let val = table
					.get(&mut self.store, dispatcher_ref)
					.ok_or(Error::NoTableEntryWithIndex(dispatcher_ref))?;
				let dispatcher = val
					.funcref()
					.ok_or(Error::TableElementIsNotAFunction(dispatcher_ref))?
					.ok_or(Error::FunctionRefIsNull(dispatcher_ref))?;

				EntryPoint::wrapped(*dispatcher, func, &self.store).map_err(|_| {
					Error::from(format!(
						"Function @{} in exported table has invalid signature for wrapped call.",
						dispatcher_ref,
					))
				})?
			},
		})
	}

	/// Reads `__heap_base: i32` global variable and returns it.
	///
	/// If it doesn't exist, not a global or of not i32 type returns an error.
	pub fn extract_heap_base(&mut self) -> Result<u32> {
		let heap_base_export = self
			.instance
			.get_export(&mut self.store, "__heap_base")
			.ok_or_else(|| Error::from("__heap_base is not found"))?;

		let heap_base_global = heap_base_export
			.into_global()
			.ok_or_else(|| Error::from("__heap_base is not a global"))?;

		let heap_base = heap_base_global
			.get(&mut self.store)
			.i32()
			.ok_or_else(|| Error::from("__heap_base is not a i32"))?;

		Ok(heap_base as u32)
	}

	/// Get the value from a global with the given `name`.
	pub fn get_global_val(&mut self, name: &str) -> Result<Option<Value>> {
		let global = match self.instance.get_export(&mut self.store, name) {
			Some(global) => global,
			None => return Ok(None),
		};

		let global = global.into_global().ok_or_else(|| format!("`{}` is not a global", name))?;

		match global.get(&mut self.store) {
			Val::I32(val) => Ok(Some(Value::I32(val))),
			Val::I64(val) => Ok(Some(Value::I64(val))),
			Val::F32(val) => Ok(Some(Value::F32(val))),
			Val::F64(val) => Ok(Some(Value::F64(val))),
			_ => Err("Unknown value type".into()),
		}
	}
}

/// Extract linear memory instance from the given instance.
fn get_linear_memory(instance: &Instance, ctx: impl AsContextMut) -> Result<Memory> {
	let memory_export = instance
		.get_export(ctx, "memory")
		.ok_or_else(|| Error::from("memory is not exported under `memory` name"))?;

	let memory = memory_export
		.into_memory()
		.ok_or_else(|| Error::from("the `memory` export should have memory type"))?;

	Ok(memory)
}

/// Extract the table from the given instance if any.
fn get_table(instance: &Instance, ctx: &mut Store) -> Option<Table> {
	instance
		.get_export(ctx, "__indirect_function_table")
		.as_ref()
		.cloned()
		.and_then(Extern::into_table)
}

/// Functions related to memory.
impl InstanceWrapper {
	pub(crate) fn store(&self) -> &Store {
		&self.store
	}

	pub(crate) fn store_mut(&mut self) -> &mut Store {
		&mut self.store
	}
}