#![allow(clippy::wrong_self_convention)] use std::error::Error as StdError; use std::fmt; use std::io::Error as IoError; use std::net::AddrParseError; use std::result::Result as StdResult; use std::str::Utf8Error; use std::string::String as StdString; use std::sync::Arc; /// Error type returned by `mlua` methods. #[derive(Debug, Clone)] #[non_exhaustive] pub enum Error { /// Syntax error while parsing Lua source code. SyntaxError { /// The error message as returned by Lua. message: StdString, /// `true` if the error can likely be fixed by appending more input to the source code. /// /// This is useful for implementing REPLs as they can query the user for more input if this /// is set. incomplete_input: bool, }, /// Lua runtime error, aka `LUA_ERRRUN`. /// /// The Lua VM returns this error when a builtin operation is performed on incompatible types. /// Among other things, this includes invoking operators on wrong types (such as calling or /// indexing a `nil` value). RuntimeError(StdString), /// Lua memory error, aka `LUA_ERRMEM` /// /// The Lua VM returns this error when the allocator does not return the requested memory, aka /// it is an out-of-memory error. MemoryError(StdString), /// Lua garbage collector error, aka `LUA_ERRGCMM`. /// /// The Lua VM returns this error when there is an error running a `__gc` metamethod. #[cfg(any(feature = "lua53", feature = "lua52"))] GarbageCollectorError(StdString), /// Potentially unsafe action in safe mode. SafetyError(StdString), /// Setting memory limit is not available. /// /// This error can only happen when Lua state was not created by us and does not have the /// custom allocator attached. MemoryLimitNotAvailable, /// Main thread is not available. /// /// This error can only happen in Lua5.1/LuaJIT module mode, when module loaded within a coroutine. /// These Lua versions does not have `LUA_RIDX_MAINTHREAD` registry key. MainThreadNotAvailable, /// A mutable callback has triggered Lua code that has called the same mutable callback again. /// /// This is an error because a mutable callback can only be borrowed mutably once. RecursiveMutCallback, /// Either a callback or a userdata method has been called, but the callback or userdata has /// been destructed. /// /// This can happen either due to to being destructed in a previous __gc, or due to being /// destructed from exiting a `Lua::scope` call. CallbackDestructed, /// Not enough stack space to place arguments to Lua functions or return values from callbacks. /// /// Due to the way `mlua` works, it should not be directly possible to run out of stack space /// during normal use. The only way that this error can be triggered is if a `Function` is /// called with a huge number of arguments, or a rust callback returns a huge number of return /// values. StackError, /// Too many arguments to `Function::bind` BindError, /// A Rust value could not be converted to a Lua value. ToLuaConversionError { /// Name of the Rust type that could not be converted. from: &'static str, /// Name of the Lua type that could not be created. to: &'static str, /// A message indicating why the conversion failed in more detail. message: Option, }, /// A Lua value could not be converted to the expected Rust type. FromLuaConversionError { /// Name of the Lua type that could not be converted. from: &'static str, /// Name of the Rust type that could not be created. to: &'static str, /// A string containing more detailed error information. message: Option, }, /// [`Thread::resume`] was called on an inactive coroutine. /// /// A coroutine is inactive if its main function has returned or if an error has occurred inside /// the coroutine. /// /// [`Thread::status`] can be used to check if the coroutine can be resumed without causing this /// error. /// /// [`Thread::resume`]: crate::Thread::resume /// [`Thread::status`]: crate::Thread::status CoroutineInactive, /// An [`AnyUserData`] is not the expected type in a borrow. /// /// This error can only happen when manually using [`AnyUserData`], or when implementing /// metamethods for binary operators. Refer to the documentation of [`UserDataMethods`] for /// details. /// /// [`AnyUserData`]: crate::AnyUserData /// [`UserDataMethods`]: crate::UserDataMethods UserDataTypeMismatch, /// An [`AnyUserData`] borrow failed because it has been destructed. /// /// This error can happen either due to to being destructed in a previous __gc, or due to being /// destructed from exiting a `Lua::scope` call. /// /// [`AnyUserData`]: crate::AnyUserData UserDataDestructed, /// An [`AnyUserData`] immutable borrow failed because it is already borrowed mutably. /// /// This error can occur when a method on a [`UserData`] type calls back into Lua, which then /// tries to call a method on the same [`UserData`] type. Consider restructuring your API to /// prevent these errors. /// /// [`AnyUserData`]: crate::AnyUserData /// [`UserData`]: crate::UserData UserDataBorrowError, /// An [`AnyUserData`] mutable borrow failed because it is already borrowed. /// /// This error can occur when a method on a [`UserData`] type calls back into Lua, which then /// tries to call a method on the same [`UserData`] type. Consider restructuring your API to /// prevent these errors. /// /// [`AnyUserData`]: crate::AnyUserData /// [`UserData`]: crate::UserData UserDataBorrowMutError, /// A [`MetaMethod`] operation is restricted (typically for `__gc` or `__metatable`). /// /// [`MetaMethod`]: crate::MetaMethod MetaMethodRestricted(StdString), /// A [`MetaMethod`] (eg. `__index` or `__newindex`) has invalid type. /// /// [`MetaMethod`]: crate::MetaMethod MetaMethodTypeError { method: StdString, type_name: &'static str, message: Option, }, /// A [`RegistryKey`] produced from a different Lua state was used. /// /// [`RegistryKey`]: crate::RegistryKey MismatchedRegistryKey, /// A Rust callback returned `Err`, raising the contained `Error` as a Lua error. CallbackError { /// Lua call stack backtrace. traceback: StdString, /// Original error returned by the Rust code. cause: Arc, }, /// A Rust panic that was previously resumed, returned again. /// /// This error can occur only when a Rust panic resumed previously was recovered /// and returned again. PreviouslyResumedPanic, /// Serialization error. #[cfg(feature = "serialize")] #[cfg_attr(docsrs, doc(cfg(feature = "serialize")))] SerializeError(StdString), /// Deserialization error. #[cfg(feature = "serialize")] #[cfg_attr(docsrs, doc(cfg(feature = "serialize")))] DeserializeError(StdString), /// A custom error. /// /// This can be used for returning user-defined errors from callbacks. /// /// Returning `Err(ExternalError(...))` from a Rust callback will raise the error as a Lua /// error. The Rust code that originally invoked the Lua code then receives a `CallbackError`, /// from which the original error (and a stack traceback) can be recovered. ExternalError(Arc), } /// A specialized `Result` type used by `mlua`'s API. pub type Result = StdResult; #[cfg(not(tarpaulin_include))] impl fmt::Display for Error { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { match *self { Error::SyntaxError { ref message, .. } => write!(fmt, "syntax error: {}", message), Error::RuntimeError(ref msg) => write!(fmt, "runtime error: {}", msg), Error::MemoryError(ref msg) => { write!(fmt, "memory error: {}", msg) } #[cfg(any(feature = "lua53", feature = "lua52"))] Error::GarbageCollectorError(ref msg) => { write!(fmt, "garbage collector error: {}", msg) } Error::SafetyError(ref msg) => { write!(fmt, "safety error: {}", msg) }, Error::MemoryLimitNotAvailable => { write!(fmt, "setting memory limit is not available") } Error::MainThreadNotAvailable => { write!(fmt, "main thread is not available in Lua 5.1") } Error::RecursiveMutCallback => write!(fmt, "mutable callback called recursively"), Error::CallbackDestructed => write!( fmt, "a destructed callback or destructed userdata method was called" ), Error::StackError => write!( fmt, "out of Lua stack, too many arguments to a Lua function or too many return values from a callback" ), Error::BindError => write!( fmt, "too many arguments to Function::bind" ), Error::ToLuaConversionError { from, to, ref message } => { write!(fmt, "error converting {} to Lua {}", from, to)?; match *message { None => Ok(()), Some(ref message) => write!(fmt, " ({})", message), } } Error::FromLuaConversionError { from, to, ref message } => { write!(fmt, "error converting Lua {} to {}", from, to)?; match *message { None => Ok(()), Some(ref message) => write!(fmt, " ({})", message), } } Error::CoroutineInactive => write!(fmt, "cannot resume inactive coroutine"), Error::UserDataTypeMismatch => write!(fmt, "userdata is not expected type"), Error::UserDataDestructed => write!(fmt, "userdata has been destructed"), Error::UserDataBorrowError => write!(fmt, "userdata already mutably borrowed"), Error::UserDataBorrowMutError => write!(fmt, "userdata already borrowed"), Error::MetaMethodRestricted(ref method) => write!(fmt, "metamethod {} is restricted", method), Error::MetaMethodTypeError { ref method, type_name, ref message } => { write!(fmt, "metamethod {} has unsupported type {}", method, type_name)?; match *message { None => Ok(()), Some(ref message) => write!(fmt, " ({})", message), } } Error::MismatchedRegistryKey => { write!(fmt, "RegistryKey used from different Lua state") } Error::CallbackError { ref cause, ref traceback } => { writeln!(fmt, "callback error")?; // Trace errors down to the root let (mut cause, mut full_traceback) = (cause, None); while let Error::CallbackError { cause: ref cause2, traceback: ref traceback2 } = **cause { cause = cause2; full_traceback = Some(traceback2); } if let Some(full_traceback) = full_traceback { let traceback = traceback.trim_start_matches("stack traceback:"); let traceback = traceback.trim_start().trim_end(); // Try to find local traceback within the full traceback if let Some(pos) = full_traceback.find(traceback) { write!(fmt, "{}", &full_traceback[..pos])?; writeln!(fmt, ">{}", &full_traceback[pos..].trim_end())?; } else { writeln!(fmt, "{}", full_traceback.trim_end())?; } } else { writeln!(fmt, "{}", traceback.trim_end())?; } write!(fmt, "caused by: {}", cause) } Error::PreviouslyResumedPanic => { write!(fmt, "previously resumed panic returned again") } #[cfg(feature = "serialize")] Error::SerializeError(ref err) => { write!(fmt, "serialize error: {}", err) }, #[cfg(feature = "serialize")] Error::DeserializeError(ref err) => { write!(fmt, "deserialize error: {}", err) }, Error::ExternalError(ref err) => write!(fmt, "{}", err), } } } impl StdError for Error { fn source(&self) -> Option<&(dyn StdError + 'static)> { match *self { // An error type with a source error should either return that error via source or // include that source's error message in its own Display output, but never both. // https://blog.rust-lang.org/inside-rust/2021/07/01/What-the-error-handling-project-group-is-working-towards.html // Given that we include source to fmt::Display implementation for `CallbackError`, this call returns nothing. Error::CallbackError { .. } => None, Error::ExternalError(ref err) => err.source(), _ => None, } } } impl Error { pub fn external>>(err: T) -> Error { Error::ExternalError(err.into().into()) } } pub trait ExternalError { fn to_lua_err(self) -> Error; } impl>> ExternalError for E { fn to_lua_err(self) -> Error { Error::external(self) } } pub trait ExternalResult { fn to_lua_err(self) -> Result; } impl ExternalResult for StdResult where E: ExternalError, { fn to_lua_err(self) -> Result { self.map_err(|e| e.to_lua_err()) } } impl std::convert::From for Error { fn from(err: AddrParseError) -> Self { Error::external(err) } } impl std::convert::From for Error { fn from(err: IoError) -> Self { Error::external(err) } } impl std::convert::From for Error { fn from(err: Utf8Error) -> Self { Error::external(err) } } #[cfg(feature = "serialize")] impl serde::ser::Error for Error { fn custom(msg: T) -> Self { Self::SerializeError(msg.to_string()) } } #[cfg(feature = "serialize")] impl serde::de::Error for Error { fn custom(msg: T) -> Self { Self::DeserializeError(msg.to_string()) } }