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//! The WebAssembly possible errors
use crate::{ExternType, Pages};
use std::io;
use thiserror::Error;
/// The Serialize error can occur when serializing a
/// compiled Module into a binary.
#[derive(Error, Debug)]
pub enum SerializeError {
/// An IO error
#[error(transparent)]
Io(#[from] io::Error),
/// A generic serialization error
#[error("{0}")]
Generic(String),
}
/// The Deserialize error can occur when loading a
/// compiled Module from a binary.
#[derive(Error, Debug)]
pub enum DeserializeError {
/// An IO error
#[error(transparent)]
Io(#[from] io::Error),
/// A generic deserialization error
#[error("{0}")]
Generic(String),
/// Incompatible serialized binary
#[error("incompatible binary: {0}")]
Incompatible(String),
/// The provided binary is corrupted
#[error("corrupted binary: {0}")]
CorruptedBinary(String),
/// The binary was valid, but we got an error when
/// trying to allocate the required resources.
#[error(transparent)]
Compiler(#[from] CompileError),
/// Input artifact bytes have an invalid length
#[error("invalid input bytes: expected {expected} bytes, got {got}")]
InvalidByteLength {
/// How many bytes were expected
expected: usize,
/// How many bytes the artifact contained
got: usize,
},
}
/// Error type describing things that can go wrong when operating on Wasm Memories.
#[derive(Error, Debug, Clone, PartialEq, Eq, Hash)]
#[non_exhaustive]
pub enum MemoryError {
/// Low level error with mmap.
#[error("Error when allocating memory: {0}")]
Region(String),
/// The operation would cause the size of the memory to exceed the maximum or would cause
/// an overflow leading to unindexable memory.
#[error("The memory could not grow: current size {} pages, requested increase: {} pages", current.0, attempted_delta.0)]
CouldNotGrow {
/// The current size in pages.
current: Pages,
/// The attempted amount to grow by in pages.
attempted_delta: Pages,
},
/// Invalid memory was provided.
#[error("The memory is invalid because {}", reason)]
InvalidMemory {
/// The reason why the provided memory is invalid.
reason: String,
},
/// Caller asked for more minimum memory than we can give them.
#[error("The minimum requested ({} pages) memory is greater than the maximum allowed memory ({} pages)", min_requested.0, max_allowed.0)]
MinimumMemoryTooLarge {
/// The number of pages requested as the minimum amount of memory.
min_requested: Pages,
/// The maximum amount of memory we can allocate.
max_allowed: Pages,
},
/// Caller asked for a maximum memory greater than we can give them.
#[error("The maximum requested memory ({} pages) is greater than the maximum allowed memory ({} pages)", max_requested.0, max_allowed.0)]
MaximumMemoryTooLarge {
/// The number of pages requested as the maximum amount of memory.
max_requested: Pages,
/// The number of pages requested as the maximum amount of memory.
max_allowed: Pages,
},
/// Returned when a shared memory is required, but the given memory is not shared.
#[error("The memory is not shared")]
MemoryNotShared,
/// A user defined error value, used for error cases not listed above.
#[error("A user-defined error occurred: {0}")]
Generic(String),
}
/// An ImportError.
///
/// Note: this error is not standard to WebAssembly, but it's
/// useful to determine the import issue on the API side.
#[derive(Error, Debug)]
pub enum ImportError {
/// Incompatible Import Type.
/// This error occurs when the import types mismatch.
#[error("incompatible import type. Expected {0:?} but received {1:?}")]
IncompatibleType(ExternType, ExternType),
/// Unknown Import.
/// This error occurs when an import was expected but not provided.
#[error("unknown import. Expected {0:?}")]
UnknownImport(ExternType),
/// Memory Error
#[error("memory error. {0}")]
MemoryError(String),
}
/// An error while preinstantiating a module.
///
#[derive(Error, Debug)]
pub enum PreInstantiationError {
/// The module was compiled with a CPU feature that is not available on
/// the current host.
#[error("module compiled with CPU feature that is missing from host")]
CpuFeature(String),
}
use crate::lib::std::string::String;
// Compilation Errors
//
// If `std` feature is enable, we can't use `thiserror` until
// https://github.com/dtolnay/thiserror/pull/64 is merged.
/// The WebAssembly.CompileError object indicates an error during
/// WebAssembly decoding or validation.
///
/// This is based on the [Wasm Compile Error][compile-error] API.
///
/// [compiler-error]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/WebAssembly/CompileError
#[derive(Debug)]
#[cfg_attr(feature = "std", derive(Error))]
pub enum CompileError {
/// A Wasm translation error occured.
#[cfg_attr(feature = "std", error("WebAssembly translation error: {0}"))]
Wasm(WasmError),
/// A compilation error occured.
#[cfg_attr(feature = "std", error("Compilation error: {0}"))]
Codegen(String),
/// The module did not pass validation.
#[cfg_attr(feature = "std", error("Validation error: {0}"))]
Validate(String),
/// The compiler doesn't support a Wasm feature
#[cfg_attr(feature = "std", error("Feature {0} is not yet supported"))]
UnsupportedFeature(String),
/// The compiler cannot compile for the given target.
/// This can refer to the OS, the chipset or any other aspect of the target system.
#[cfg_attr(
feature = "std",
error("The target {0} is not yet supported (see https://docs.wasmer.io/runtime/features)")
)]
UnsupportedTarget(String),
/// Insufficient resources available for execution.
#[cfg_attr(feature = "std", error("Insufficient resources: {0}"))]
Resource(String),
}
impl From<WasmError> for CompileError {
fn from(original: WasmError) -> Self {
Self::Wasm(original)
}
}
/// A error in the middleware.
#[derive(Debug)]
#[cfg_attr(feature = "std", derive(Error))]
#[cfg_attr(feature = "std", error("Error in middleware {name}: {message}"))]
pub struct MiddlewareError {
/// The name of the middleware where the error was created
pub name: String,
/// The error message
pub message: String,
}
impl MiddlewareError {
/// Create a new `MiddlewareError`
pub fn new<A: Into<String>, B: Into<String>>(name: A, message: B) -> Self {
Self {
name: name.into(),
message: message.into(),
}
}
}
/// A WebAssembly translation error.
///
/// When a WebAssembly function can't be translated, one of these error codes will be returned
/// to describe the failure.
#[derive(Debug)]
#[cfg_attr(feature = "std", derive(Error))]
pub enum WasmError {
/// The input WebAssembly code is invalid.
///
/// This error code is used by a WebAssembly translator when it encounters invalid WebAssembly
/// code. This should never happen for validated WebAssembly code.
#[cfg_attr(
feature = "std",
error("Invalid input WebAssembly code at offset {offset}: {message}")
)]
InvalidWebAssembly {
/// A string describing the validation error.
message: String,
/// The bytecode offset where the error occurred.
offset: usize,
},
/// A feature used by the WebAssembly code is not supported by the embedding environment.
///
/// Embedding environments may have their own limitations and feature restrictions.
#[cfg_attr(feature = "std", error("Unsupported feature: {0}"))]
Unsupported(String),
/// An implementation limit was exceeded.
#[cfg_attr(feature = "std", error("Implementation limit exceeded"))]
ImplLimitExceeded,
/// An error from the middleware error.
#[cfg_attr(feature = "std", error("{0}"))]
Middleware(MiddlewareError),
/// A generic error.
#[cfg_attr(feature = "std", error("{0}"))]
Generic(String),
}
impl From<MiddlewareError> for WasmError {
fn from(original: MiddlewareError) -> Self {
Self::Middleware(original)
}
}
/// The error that can happen while parsing a `str`
/// to retrieve a [`CpuFeature`](crate::CpuFeature).
#[derive(Debug)]
#[cfg_attr(feature = "std", derive(Error))]
pub enum ParseCpuFeatureError {
/// The provided string feature doesn't exist
#[cfg_attr(feature = "std", error("CpuFeature {0} not recognized"))]
Missing(String),
}
/// A convenient alias for a `Result` that uses `WasmError` as the error type.
pub type WasmResult<T> = Result<T, WasmError>;
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn middleware_error_can_be_created() {
let msg = String::from("Something went wrong");
let error = MiddlewareError::new("manipulator3000", msg);
assert_eq!(error.name, "manipulator3000");
assert_eq!(error.message, "Something went wrong");
}
#[test]
fn middleware_error_be_converted_to_wasm_error() {
let error = WasmError::from(MiddlewareError::new("manipulator3000", "foo"));
match error {
WasmError::Middleware(MiddlewareError { name, message }) => {
assert_eq!(name, "manipulator3000");
assert_eq!(message, "foo");
}
err => panic!("Unexpected error: {:?}", err),
}
}
}