Spracherkennung für: .rs vermutete Sprache: Unknown {[0] [0] [0]} [Methode: Schwerpunktbildung, einfache Gewichte, sechs Dimensionen]
//! `bincode` uses a Builder-pattern to configure the Serializers and Deserializers in this
//! crate. This means that if you need to customize the behavior of `bincode`, you should create an
//! instance of the `DefaultOptions` struct:
//!
//! ```rust
//! use bincode::Options;
//! let my_options = bincode::DefaultOptions::new();
//! ```
//!
//! # Options Struct vs bincode functions
//!
//! Due to historical reasons, the default options used by the `serialize()` and `deserialize()`
//! family of functions are different than the default options created by the `DefaultOptions` struct:
//!
//! | | Byte limit | Endianness | Int Encoding | Trailing Behavior |
//! |----------|------------|------------|--------------|-------------------|
//! | struct | Unlimited | Little | Varint | Reject |
//! | function | Unlimited | Little | Fixint | Allow |
//!
//! This means that if you want to use the `Serialize` / `Deserialize` structs with the same
//! settings as the functions, you should adjust the `DefaultOptions` struct like so:
//!
//! ```rust
//! use bincode::Options;
//! let my_options = bincode::DefaultOptions::new()
//! .with_fixint_encoding()
//! .allow_trailing_bytes();
//! ```
use de::read::BincodeRead;
use error::Result;
use serde;
use std::io::{Read, Write};
use std::marker::PhantomData;
pub(crate) use self::endian::BincodeByteOrder;
pub(crate) use self::int::IntEncoding;
pub(crate) use self::internal::*;
pub(crate) use self::limit::SizeLimit;
pub(crate) use self::trailing::TrailingBytes;
pub use self::endian::{BigEndian, LittleEndian, NativeEndian};
pub use self::int::{FixintEncoding, VarintEncoding};
pub use self::legacy::*;
pub use self::limit::{Bounded, Infinite};
pub use self::trailing::{AllowTrailing, RejectTrailing};
mod endian;
mod int;
mod legacy;
mod limit;
mod trailing;
/// The default options for bincode serialization/deserialization.
///
/// ### Defaults
/// By default bincode will use little-endian encoding for multi-byte integers, and will not
/// limit the number of serialized/deserialized bytes.
///
/// ### Configuring `DefaultOptions`
///
/// `DefaultOptions` implements the [Options] trait, which means it exposes functions to change the behavior of bincode.
///
/// For example, if you wanted to limit the bincode deserializer to 1 kilobyte of user input:
///
/// ```rust
/// use bincode::Options;
/// let my_options = bincode::DefaultOptions::new().with_limit(1024);
/// ```
///
/// ### DefaultOptions struct vs. functions
///
/// The default configuration used by this struct is not the same as that used by the bincode
/// helper functions in the root of this crate. See the
/// [config](index.html#options-struct-vs-bincode-functions) module for more details
#[derive(Copy, Clone)]
pub struct DefaultOptions(Infinite);
impl DefaultOptions {
/// Get a default configuration object.
///
/// ### Default Configuration:
///
/// | Byte limit | Endianness | Int Encoding | Trailing Behavior |
/// |------------|------------|--------------|-------------------|
/// | Unlimited | Little | Varint | Reject |
pub fn new() -> DefaultOptions {
DefaultOptions(Infinite)
}
}
impl Default for DefaultOptions {
fn default() -> Self {
Self::new()
}
}
impl InternalOptions for DefaultOptions {
type Limit = Infinite;
type Endian = LittleEndian;
type IntEncoding = VarintEncoding;
type Trailing = RejectTrailing;
#[inline(always)]
fn limit(&mut self) -> &mut Infinite {
&mut self.0
}
}
/// A configuration builder trait whose options Bincode will use
/// while serializing and deserializing.
///
/// ### Options
/// Endianness: The endianness with which multi-byte integers will be read/written. *default: little endian*
///
/// Limit: The maximum number of bytes that will be read/written in a bincode serialize/deserialize. *default: unlimited*
///
/// Int Encoding: The encoding used for numbers, enum discriminants, and lengths. *default: varint*
///
/// Trailing Behavior: The behavior when there are trailing bytes left over in a slice after deserialization. *default: reject*
///
/// ### Byte Limit Details
/// The purpose of byte-limiting is to prevent Denial-Of-Service attacks whereby malicious attackers get bincode
/// deserialization to crash your process by allocating too much memory or keeping a connection open for too long.
///
/// When a byte limit is set, bincode will return `Err` on any deserialization that goes over the limit, or any
/// serialization that goes over the limit.
pub trait Options: InternalOptions + Sized {
/// Sets the byte limit to be unlimited.
/// This is the default.
fn with_no_limit(self) -> WithOtherLimit<Self, Infinite> {
WithOtherLimit::new(self, Infinite)
}
/// Sets the byte limit to `limit`.
fn with_limit(self, limit: u64) -> WithOtherLimit<Self, Bounded> {
WithOtherLimit::new(self, Bounded(limit))
}
/// Sets the endianness to little-endian
/// This is the default.
fn with_little_endian(self) -> WithOtherEndian<Self, LittleEndian> {
WithOtherEndian::new(self)
}
/// Sets the endianness to big-endian
fn with_big_endian(self) -> WithOtherEndian<Self, BigEndian> {
WithOtherEndian::new(self)
}
/// Sets the endianness to the the machine-native endianness
fn with_native_endian(self) -> WithOtherEndian<Self, NativeEndian> {
WithOtherEndian::new(self)
}
/// Sets the length encoding to varint
fn with_varint_encoding(self) -> WithOtherIntEncoding<Self, VarintEncoding> {
WithOtherIntEncoding::new(self)
}
/// Sets the length encoding to be fixed
fn with_fixint_encoding(self) -> WithOtherIntEncoding<Self, FixintEncoding> {
WithOtherIntEncoding::new(self)
}
/// Sets the deserializer to reject trailing bytes
fn reject_trailing_bytes(self) -> WithOtherTrailing<Self, RejectTrailing> {
WithOtherTrailing::new(self)
}
/// Sets the deserializer to allow trailing bytes
fn allow_trailing_bytes(self) -> WithOtherTrailing<Self, AllowTrailing> {
WithOtherTrailing::new(self)
}
/// Serializes a serializable object into a `Vec` of bytes using this configuration
#[inline(always)]
fn serialize<S: ?Sized + serde::Serialize>(self, t: &S) -> Result<Vec<u8>> {
::internal::serialize(t, self)
}
/// Returns the size that an object would be if serialized using Bincode with this configuration
#[inline(always)]
fn serialized_size<T: ?Sized + serde::Serialize>(self, t: &T) -> Result<u64> {
::internal::serialized_size(t, self)
}
/// Serializes an object directly into a `Writer` using this configuration
///
/// If the serialization would take more bytes than allowed by the size limit, an error
/// is returned and *no bytes* will be written into the `Writer`
#[inline(always)]
fn serialize_into<W: Write, T: ?Sized + serde::Serialize>(self, w: W, t: &T) -> Result<()> {
::internal::serialize_into(w, t, self)
}
/// Deserializes a slice of bytes into an instance of `T` using this configuration
#[inline(always)]
fn deserialize<'a, T: serde::Deserialize<'a>>(self, bytes: &'a [u8]) -> Result<T> {
::internal::deserialize(bytes, self)
}
/// TODO: document
#[doc(hidden)]
#[inline(always)]
fn deserialize_in_place<'a, R, T>(self, reader: R, place: &mut T) -> Result<()>
where
R: BincodeRead<'a>,
T: serde::de::Deserialize<'a>,
{
::internal::deserialize_in_place(reader, self, place)
}
/// Deserializes a slice of bytes with state `seed` using this configuration.
#[inline(always)]
fn deserialize_seed<'a, T: serde::de::DeserializeSeed<'a>>(
self,
seed: T,
bytes: &'a [u8],
) -> Result<T::Value> {
::internal::deserialize_seed(seed, bytes, self)
}
/// Deserializes an object directly from a `Read`er using this configuration
///
/// If this returns an `Error`, `reader` may be in an invalid state.
#[inline(always)]
fn deserialize_from<R: Read, T: serde::de::DeserializeOwned>(self, reader: R) -> Result<T> {
::internal::deserialize_from(reader, self)
}
/// Deserializes an object directly from a `Read`er with state `seed` using this configuration
///
/// If this returns an `Error`, `reader` may be in an invalid state.
#[inline(always)]
fn deserialize_from_seed<'a, R: Read, T: serde::de::DeserializeSeed<'a>>(
self,
seed: T,
reader: R,
) -> Result<T::Value> {
::internal::deserialize_from_seed(seed, reader, self)
}
/// Deserializes an object from a custom `BincodeRead`er using the default configuration.
/// It is highly recommended to use `deserialize_from` unless you need to implement
/// `BincodeRead` for performance reasons.
///
/// If this returns an `Error`, `reader` may be in an invalid state.
#[inline(always)]
fn deserialize_from_custom<'a, R: BincodeRead<'a>, T: serde::de::DeserializeOwned>(
self,
reader: R,
) -> Result<T> {
::internal::deserialize_from_custom(reader, self)
}
/// Deserializes an object from a custom `BincodeRead`er with state `seed` using the default
/// configuration. It is highly recommended to use `deserialize_from` unless you need to
/// implement `BincodeRead` for performance reasons.
///
/// If this returns an `Error`, `reader` may be in an invalid state.
#[inline(always)]
fn deserialize_from_custom_seed<'a, R: BincodeRead<'a>, T: serde::de::DeserializeSeed<'a>>(
self,
seed: T,
reader: R,
) -> Result<T::Value> {
::internal::deserialize_from_custom_seed(seed, reader, self)
}
}
impl<T: InternalOptions> Options for T {}
/// A configuration struct with a user-specified byte limit
#[derive(Clone, Copy)]
pub struct WithOtherLimit<O: Options, L: SizeLimit> {
_options: O,
pub(crate) new_limit: L,
}
/// A configuration struct with a user-specified endian order
#[derive(Clone, Copy)]
pub struct WithOtherEndian<O: Options, E: BincodeByteOrder> {
options: O,
_endian: PhantomData<E>,
}
/// A configuration struct with a user-specified length encoding
#[derive(Clone, Copy)]
pub struct WithOtherIntEncoding<O: Options, I: IntEncoding> {
options: O,
_length: PhantomData<I>,
}
/// A configuration struct with a user-specified trailing bytes behavior.
#[derive(Clone, Copy)]
pub struct WithOtherTrailing<O: Options, T: TrailingBytes> {
options: O,
_trailing: PhantomData<T>,
}
impl<O: Options, L: SizeLimit> WithOtherLimit<O, L> {
#[inline(always)]
pub(crate) fn new(options: O, limit: L) -> WithOtherLimit<O, L> {
WithOtherLimit {
_options: options,
new_limit: limit,
}
}
}
impl<O: Options, E: BincodeByteOrder> WithOtherEndian<O, E> {
#[inline(always)]
pub(crate) fn new(options: O) -> WithOtherEndian<O, E> {
WithOtherEndian {
options,
_endian: PhantomData,
}
}
}
impl<O: Options, I: IntEncoding> WithOtherIntEncoding<O, I> {
#[inline(always)]
pub(crate) fn new(options: O) -> WithOtherIntEncoding<O, I> {
WithOtherIntEncoding {
options,
_length: PhantomData,
}
}
}
impl<O: Options, T: TrailingBytes> WithOtherTrailing<O, T> {
#[inline(always)]
pub(crate) fn new(options: O) -> WithOtherTrailing<O, T> {
WithOtherTrailing {
options,
_trailing: PhantomData,
}
}
}
impl<O: Options, E: BincodeByteOrder + 'static> InternalOptions for WithOtherEndian<O, E> {
type Limit = O::Limit;
type Endian = E;
type IntEncoding = O::IntEncoding;
type Trailing = O::Trailing;
#[inline(always)]
fn limit(&mut self) -> &mut O::Limit {
self.options.limit()
}
}
impl<O: Options, L: SizeLimit + 'static> InternalOptions for WithOtherLimit<O, L> {
type Limit = L;
type Endian = O::Endian;
type IntEncoding = O::IntEncoding;
type Trailing = O::Trailing;
fn limit(&mut self) -> &mut L {
&mut self.new_limit
}
}
impl<O: Options, I: IntEncoding + 'static> InternalOptions for WithOtherIntEncoding<O, I> {
type Limit = O::Limit;
type Endian = O::Endian;
type IntEncoding = I;
type Trailing = O::Trailing;
fn limit(&mut self) -> &mut O::Limit {
self.options.limit()
}
}
impl<O: Options, T: TrailingBytes + 'static> InternalOptions for WithOtherTrailing<O, T> {
type Limit = O::Limit;
type Endian = O::Endian;
type IntEncoding = O::IntEncoding;
type Trailing = T;
fn limit(&mut self) -> &mut O::Limit {
self.options.limit()
}
}
mod internal {
use super::*;
pub trait InternalOptions {
type Limit: SizeLimit + 'static;
type Endian: BincodeByteOrder + 'static;
type IntEncoding: IntEncoding + 'static;
type Trailing: TrailingBytes + 'static;
fn limit(&mut self) -> &mut Self::Limit;
}
impl<'a, O: InternalOptions> InternalOptions for &'a mut O {
type Limit = O::Limit;
type Endian = O::Endian;
type IntEncoding = O::IntEncoding;
type Trailing = O::Trailing;
#[inline(always)]
fn limit(&mut self) -> &mut Self::Limit {
(*self).limit()
}
}
}
