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|
//! Deserialization.
use core::f32;
use core::marker::PhantomData;
use core::result;
use core::str;
use half::f16;
use serde::de;
#[cfg(feature = "std")]
use std::io;
use crate::error::{Error, ErrorCode, Result};
#[cfg(not(feature = "unsealed_read_write"))]
use crate::read::EitherLifetime;
#[cfg(feature = "unsealed_read_write")]
pub use crate::read::EitherLifetime;
#[cfg(feature = "std")]
pub use crate::read::IoRead;
use crate::read::Offset;
#[cfg(any(feature = "std", feature = "alloc"))]
pub use crate::read::SliceRead;
pub use crate::read::{MutSliceRead, Read, SliceReadFixed};
#[cfg(feature = "tags")]
use crate::tags::set_tag;
/// Decodes a value from CBOR data in a slice.
///
/// # Examples
///
/// Deserialize a `String`
///
/// ```
/// # use serde_cbor::de;
/// let v: Vec<u8> = vec![0x66, 0x66, 0x6f, 0x6f, 0x62, 0x61, 0x72];
/// let value: String = de::from_slice(&v[..]).unwrap();
/// assert_eq!(value, "foobar");
/// ```
///
/// Deserialize a borrowed string with zero copies.
///
/// ```
/// # use serde_cbor::de;
/// let v: Vec<u8> = vec![0x66, 0x66, 0x6f, 0x6f, 0x62, 0x61, 0x72];
/// let value: &str = de::from_slice(&v[..]).unwrap();
/// assert_eq!(value, "foobar");
/// ```
#[cfg(any(feature = "std", feature = "alloc"))]
pub fn from_slice<'a, T>(slice: &'a [u8]) -> Result<T>
where
T: de::Deserialize<'a>,
{
let mut deserializer = Deserializer::from_slice(slice);
let value = de::Deserialize::deserialize(&mut deserializer)?;
deserializer.end()?;
Ok(value)
}
// When the "std" feature is enabled there should be little to no need to ever use this function,
// as `from_slice` covers all use cases (at the expense of being less efficient).
/// Decode a value from CBOR data in a mutable slice.
///
/// This can be used in analogy to `from_slice`. Unlike `from_slice`, this will use the slice's
/// mutability to rearrange data in it in order to resolve indefinite byte or text strings without
/// resorting to allocations.
pub fn from_mut_slice<'a, T>(slice: &'a mut [u8]) -> Result<T>
where
T: de::Deserialize<'a>,
{
let mut deserializer = Deserializer::from_mut_slice(slice);
let value = de::Deserialize::deserialize(&mut deserializer)?;
deserializer.end()?;
Ok(value)
}
// When the "std" feature is enabled there should be little to no need to ever use this function,
// as `from_slice` covers all use cases and is much more reliable (at the expense of being less
// efficient).
/// Decode a value from CBOR data using a scratch buffer.
///
/// Users should generally prefer to use `from_slice` or `from_mut_slice` over this function,
/// as decoding may fail when the scratch buffer turns out to be too small.
///
/// A realistic use case for this method would be decoding in a `no_std` environment from an
/// immutable slice that is too large to copy.
pub fn from_slice_with_scratch<'a, 'b, T>(slice: &'a [u8], scratch: &'b mut [u8]) -> Result<T>
where
T: de::Deserialize<'a>,
{
let mut deserializer = Deserializer::from_slice_with_scratch(slice, scratch);
let value = de::Deserialize::deserialize(&mut deserializer)?;
deserializer.end()?;
Ok(value)
}
/// Decodes a value from CBOR data in a reader.
///
/// # Examples
///
/// Deserialize a `String`
///
/// ```
/// # use serde_cbor::de;
/// let v: Vec<u8> = vec![0x66, 0x66, 0x6f, 0x6f, 0x62, 0x61, 0x72];
/// let value: String = de::from_reader(&v[..]).unwrap();
/// assert_eq!(value, "foobar");
/// ```
///
/// Note that `from_reader` cannot borrow data:
///
/// ```compile_fail
/// # use serde_cbor::de;
/// let v: Vec<u8> = vec![0x66, 0x66, 0x6f, 0x6f, 0x62, 0x61, 0x72];
/// let value: &str = de::from_reader(&v[..]).unwrap();
/// assert_eq!(value, "foobar");
/// ```
#[cfg(feature = "std")]
pub fn from_reader<T, R>(reader: R) -> Result<T>
where
T: de::DeserializeOwned,
R: io::Read,
{
let mut deserializer = Deserializer::from_reader(reader);
let value = de::Deserialize::deserialize(&mut deserializer)?;
deserializer.end()?;
Ok(value)
}
/// A Serde `Deserialize`r of CBOR data.
#[derive(Debug)]
pub struct Deserializer<R> {
read: R,
remaining_depth: u8,
accept_named: bool,
accept_packed: bool,
accept_standard_enums: bool,
accept_legacy_enums: bool,
}
#[cfg(feature = "std")]
impl<R> Deserializer<IoRead<R>>
where
R: io::Read,
{
/// Constructs a `Deserializer` which reads from a `Read`er.
pub fn from_reader(reader: R) -> Deserializer<IoRead<R>> {
Deserializer::new(IoRead::new(reader))
}
}
#[cfg(any(feature = "std", feature = "alloc"))]
impl<'a> Deserializer<SliceRead<'a>> {
/// Constructs a `Deserializer` which reads from a slice.
///
/// Borrowed strings and byte slices will be provided when possible.
pub fn from_slice(bytes: &'a [u8]) -> Deserializer<SliceRead<'a>> {
Deserializer::new(SliceRead::new(bytes))
}
}
impl<'a> Deserializer<MutSliceRead<'a>> {
/// Constructs a `Deserializer` which reads from a mutable slice that doubles as its own
/// scratch buffer.
///
/// Borrowed strings and byte slices will be provided even for indefinite strings.
pub fn from_mut_slice(bytes: &'a mut [u8]) -> Deserializer<MutSliceRead<'a>> {
Deserializer::new(MutSliceRead::new(bytes))
}
}
impl<'a, 'b> Deserializer<SliceReadFixed<'a, 'b>> {
#[doc(hidden)]
pub fn from_slice_with_scratch(
bytes: &'a [u8],
scratch: &'b mut [u8],
) -> Deserializer<SliceReadFixed<'a, 'b>> {
Deserializer::new(SliceReadFixed::new(bytes, scratch))
}
}
impl<'de, R> Deserializer<R>
where
R: Read<'de>,
{
/// Constructs a `Deserializer` from one of the possible serde_cbor input sources.
///
/// `from_slice` and `from_reader` should normally be used instead of this method.
pub fn new(read: R) -> Self {
Deserializer {
read,
remaining_depth: 128,
accept_named: true,
accept_packed: true,
accept_standard_enums: true,
accept_legacy_enums: true,
}
}
/// Don't accept named variants and fields.
pub fn disable_named_format(mut self) -> Self {
self.accept_named = false;
self
}
/// Don't accept numbered variants and fields.
pub fn disable_packed_format(mut self) -> Self {
self.accept_packed = false;
self
}
/// Don't accept the new enum format used by `serde_cbor` versions >= v0.10.
pub fn disable_standard_enums(mut self) -> Self {
self.accept_standard_enums = false;
self
}
/// Don't accept the old enum format used by `serde_cbor` versions <= v0.9.
pub fn disable_legacy_enums(mut self) -> Self {
self.accept_legacy_enums = false;
self
}
/// This method should be called after a value has been deserialized to ensure there is no
/// trailing data in the input source.
pub fn end(&mut self) -> Result<()> {
match self.next()? {
Some(_) => Err(self.error(ErrorCode::TrailingData)),
None => Ok(()),
}
}
/// Turn a CBOR deserializer into an iterator over values of type T.
#[allow(clippy::should_implement_trait)] // Trait doesn't allow unconstrained T.
pub fn into_iter<T>(self) -> StreamDeserializer<'de, R, T>
where
T: de::Deserialize<'de>,
{
StreamDeserializer {
de: self,
output: PhantomData,
lifetime: PhantomData,
}
}
fn next(&mut self) -> Result<Option<u8>> {
self.read.next()
}
fn peek(&mut self) -> Result<Option<u8>> {
self.read.peek()
}
fn consume(&mut self) {
self.read.discard();
}
fn error(&self, reason: ErrorCode) -> Error {
let offset = self.read.offset();
Error::syntax(reason, offset)
}
fn parse_u8(&mut self) -> Result<u8> {
match self.next()? {
Some(byte) => Ok(byte),
None => Err(self.error(ErrorCode::EofWhileParsingValue)),
}
}
fn parse_u16(&mut self) -> Result<u16> {
let mut buf = [0; 2];
self.read
.read_into(&mut buf)
.map(|()| u16::from_be_bytes(buf))
}
fn parse_u32(&mut self) -> Result<u32> {
let mut buf = [0; 4];
self.read
.read_into(&mut buf)
.map(|()| u32::from_be_bytes(buf))
}
fn parse_u64(&mut self) -> Result<u64> {
let mut buf = [0; 8];
self.read
.read_into(&mut buf)
.map(|()| u64::from_be_bytes(buf))
}
fn parse_bytes<V>(&mut self, len: usize, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
match self.read.read(len)? {
EitherLifetime::Long(buf) => visitor.visit_borrowed_bytes(buf),
EitherLifetime::Short(buf) => visitor.visit_bytes(buf),
}
}
fn parse_indefinite_bytes<V>(&mut self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.read.clear_buffer();
loop {
let byte = self.parse_u8()?;
let len = match byte {
0x40..=0x57 => byte as usize - 0x40,
0x58 => self.parse_u8()? as usize,
0x59 => self.parse_u16()? as usize,
0x5a => self.parse_u32()? as usize,
0x5b => {
let len = self.parse_u64()?;
if len > usize::max_value() as u64 {
return Err(self.error(ErrorCode::LengthOutOfRange));
}
len as usize
}
0xff => break,
_ => return Err(self.error(ErrorCode::UnexpectedCode)),
};
self.read.read_to_buffer(len)?;
}
match self.read.take_buffer() {
EitherLifetime::Long(buf) => visitor.visit_borrowed_bytes(buf),
EitherLifetime::Short(buf) => visitor.visit_bytes(buf),
}
}
fn convert_str<'a>(buf: &'a [u8], buf_end_offset: u64) -> Result<&'a str> {
match str::from_utf8(buf) {
Ok(s) => Ok(s),
Err(e) => {
let shift = buf.len() - e.valid_up_to();
let offset = buf_end_offset - shift as u64;
Err(Error::syntax(ErrorCode::InvalidUtf8, offset))
}
}
}
fn parse_str<V>(&mut self, len: usize, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
if let Some(offset) = self.read.offset().checked_add(len as u64) {
match self.read.read(len)? {
EitherLifetime::Long(buf) => {
let s = Self::convert_str(buf, offset)?;
visitor.visit_borrowed_str(s)
}
EitherLifetime::Short(buf) => {
let s = Self::convert_str(buf, offset)?;
visitor.visit_str(s)
}
}
} else {
// An overflow would have occured.
Err(Error::syntax(
ErrorCode::LengthOutOfRange,
self.read.offset(),
))
}
}
fn parse_indefinite_str<V>(&mut self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.read.clear_buffer();
loop {
let byte = self.parse_u8()?;
let len = match byte {
0x60..=0x77 => byte as usize - 0x60,
0x78 => self.parse_u8()? as usize,
0x79 => self.parse_u16()? as usize,
0x7a => self.parse_u32()? as usize,
0x7b => {
let len = self.parse_u64()?;
if len > usize::max_value() as u64 {
return Err(self.error(ErrorCode::LengthOutOfRange));
}
len as usize
}
0xff => break,
_ => return Err(self.error(ErrorCode::UnexpectedCode)),
};
self.read.read_to_buffer(len)?;
}
let offset = self.read.offset();
match self.read.take_buffer() {
EitherLifetime::Long(buf) => {
let s = Self::convert_str(buf, offset)?;
visitor.visit_borrowed_str(s)
}
EitherLifetime::Short(buf) => {
let s = Self::convert_str(buf, offset)?;
visitor.visit_str(s)
}
}
}
#[cfg(feature = "tags")]
fn handle_tagged_value<V>(&mut self, tag: u64, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.recursion_checked(|d| {
set_tag(Some(tag));
let r = visitor.visit_newtype_struct(d);
set_tag(None);
r
})
}
#[cfg(not(feature = "tags"))]
fn handle_tagged_value<V>(&mut self, _tag: u64, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.recursion_checked(|de| de.parse_value(visitor))
}
fn recursion_checked<F, T>(&mut self, f: F) -> Result<T>
where
F: FnOnce(&mut Deserializer<R>) -> Result<T>,
{
self.remaining_depth -= 1;
if self.remaining_depth == 0 {
return Err(self.error(ErrorCode::RecursionLimitExceeded));
}
let r = f(self);
self.remaining_depth += 1;
r
}
fn parse_array<V>(&mut self, mut len: usize, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.recursion_checked(|de| {
let value = visitor.visit_seq(SeqAccess { de, len: &mut len })?;
if len != 0 {
Err(de.error(ErrorCode::TrailingData))
} else {
Ok(value)
}
})
}
fn parse_indefinite_array<V>(&mut self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.recursion_checked(|de| {
let value = visitor.visit_seq(IndefiniteSeqAccess { de })?;
match de.next()? {
Some(0xff) => Ok(value),
Some(_) => Err(de.error(ErrorCode::TrailingData)),
None => Err(de.error(ErrorCode::EofWhileParsingArray)),
}
})
}
fn parse_map<V>(&mut self, mut len: usize, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
let accept_packed = self.accept_packed;
let accept_named = self.accept_named;
self.recursion_checked(|de| {
let value = visitor.visit_map(MapAccess {
de,
len: &mut len,
accept_named,
accept_packed,
})?;
if len != 0 {
Err(de.error(ErrorCode::TrailingData))
} else {
Ok(value)
}
})
}
fn parse_indefinite_map<V>(&mut self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
let accept_named = self.accept_named;
let accept_packed = self.accept_packed;
self.recursion_checked(|de| {
let value = visitor.visit_map(IndefiniteMapAccess {
de,
accept_packed,
accept_named,
})?;
match de.next()? {
Some(0xff) => Ok(value),
Some(_) => Err(de.error(ErrorCode::TrailingData)),
None => Err(de.error(ErrorCode::EofWhileParsingMap)),
}
})
}
fn parse_enum<V>(&mut self, mut len: usize, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.recursion_checked(|de| {
let value = visitor.visit_enum(VariantAccess {
seq: SeqAccess { de, len: &mut len },
})?;
if len != 0 {
Err(de.error(ErrorCode::TrailingData))
} else {
Ok(value)
}
})
}
fn parse_enum_map<V>(&mut self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
let accept_named = self.accept_named;
let accept_packed = self.accept_packed;
self.recursion_checked(|de| {
let mut len = 1;
let value = visitor.visit_enum(VariantAccessMap {
map: MapAccess {
de,
len: &mut len,
accept_packed,
accept_named,
},
})?;
if len != 0 {
Err(de.error(ErrorCode::TrailingData))
} else {
Ok(value)
}
})
}
fn parse_indefinite_enum<V>(&mut self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.recursion_checked(|de| {
let value = visitor.visit_enum(VariantAccess {
seq: IndefiniteSeqAccess { de },
})?;
match de.next()? {
Some(0xff) => Ok(value),
Some(_) => Err(de.error(ErrorCode::TrailingData)),
None => Err(de.error(ErrorCode::EofWhileParsingArray)),
}
})
}
fn parse_f16(&mut self) -> Result<f32> {
Ok(f32::from(f16::from_bits(self.parse_u16()?)))
}
fn parse_f32(&mut self) -> Result<f32> {
self.parse_u32().map(|i| f32::from_bits(i))
}
fn parse_f64(&mut self) -> Result<f64> {
self.parse_u64().map(|i| f64::from_bits(i))
}
// Don't warn about the `unreachable!` in case
// exhaustive integer pattern matching is enabled.
#[allow(unreachable_patterns)]
fn parse_value<V>(&mut self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
let byte = self.parse_u8()?;
match byte {
// Major type 0: an unsigned integer
0x00..=0x17 => visitor.visit_u8(byte),
0x18 => {
let value = self.parse_u8()?;
visitor.visit_u8(value)
}
0x19 => {
let value = self.parse_u16()?;
visitor.visit_u16(value)
}
0x1a => {
let value = self.parse_u32()?;
visitor.visit_u32(value)
}
0x1b => {
let value = self.parse_u64()?;
visitor.visit_u64(value)
}
0x1c..=0x1f => Err(self.error(ErrorCode::UnassignedCode)),
// Major type 1: a negative integer
0x20..=0x37 => visitor.visit_i8(-1 - (byte - 0x20) as i8),
0x38 => {
let value = self.parse_u8()?;
visitor.visit_i16(-1 - i16::from(value))
}
0x39 => {
let value = self.parse_u16()?;
visitor.visit_i32(-1 - i32::from(value))
}
0x3a => {
let value = self.parse_u32()?;
visitor.visit_i64(-1 - i64::from(value))
}
0x3b => {
let value = self.parse_u64()?;
if value > i64::max_value() as u64 {
return visitor.visit_i128(-1 - i128::from(value));
}
visitor.visit_i64(-1 - value as i64)
}
0x3c..=0x3f => Err(self.error(ErrorCode::UnassignedCode)),
// Major type 2: a byte string
0x40..=0x57 => self.parse_bytes(byte as usize - 0x40, visitor),
0x58 => {
let len = self.parse_u8()?;
self.parse_bytes(len as usize, visitor)
}
0x59 => {
let len = self.parse_u16()?;
self.parse_bytes(len as usize, visitor)
}
0x5a => {
let len = self.parse_u32()?;
self.parse_bytes(len as usize, visitor)
}
0x5b => {
let len = self.parse_u64()?;
if len > usize::max_value() as u64 {
return Err(self.error(ErrorCode::LengthOutOfRange));
}
self.parse_bytes(len as usize, visitor)
}
0x5c..=0x5e => Err(self.error(ErrorCode::UnassignedCode)),
0x5f => self.parse_indefinite_bytes(visitor),
// Major type 3: a text string
0x60..=0x77 => self.parse_str(byte as usize - 0x60, visitor),
0x78 => {
let len = self.parse_u8()?;
self.parse_str(len as usize, visitor)
}
0x79 => {
let len = self.parse_u16()?;
self.parse_str(len as usize, visitor)
}
0x7a => {
let len = self.parse_u32()?;
self.parse_str(len as usize, visitor)
}
0x7b => {
let len = self.parse_u64()?;
if len > usize::max_value() as u64 {
return Err(self.error(ErrorCode::LengthOutOfRange));
}
self.parse_str(len as usize, visitor)
}
0x7c..=0x7e => Err(self.error(ErrorCode::UnassignedCode)),
0x7f => self.parse_indefinite_str(visitor),
// Major type 4: an array of data items
0x80..=0x97 => self.parse_array(byte as usize - 0x80, visitor),
0x98 => {
let len = self.parse_u8()?;
self.parse_array(len as usize, visitor)
}
0x99 => {
let len = self.parse_u16()?;
self.parse_array(len as usize, visitor)
}
0x9a => {
let len = self.parse_u32()?;
self.parse_array(len as usize, visitor)
}
0x9b => {
let len = self.parse_u64()?;
if len > usize::max_value() as u64 {
return Err(self.error(ErrorCode::LengthOutOfRange));
}
self.parse_array(len as usize, visitor)
}
0x9c..=0x9e => Err(self.error(ErrorCode::UnassignedCode)),
0x9f => self.parse_indefinite_array(visitor),
// Major type 5: a map of pairs of data items
0xa0..=0xb7 => self.parse_map(byte as usize - 0xa0, visitor),
0xb8 => {
let len = self.parse_u8()?;
self.parse_map(len as usize, visitor)
}
0xb9 => {
let len = self.parse_u16()?;
self.parse_map(len as usize, visitor)
}
0xba => {
let len = self.parse_u32()?;
self.parse_map(len as usize, visitor)
}
0xbb => {
let len = self.parse_u64()?;
if len > usize::max_value() as u64 {
return Err(self.error(ErrorCode::LengthOutOfRange));
}
self.parse_map(len as usize, visitor)
}
0xbc..=0xbe => Err(self.error(ErrorCode::UnassignedCode)),
0xbf => self.parse_indefinite_map(visitor),
// Major type 6: optional semantic tagging of other major types
0xc0..=0xd7 => {
let tag = u64::from(byte) - 0xc0;
self.handle_tagged_value(tag, visitor)
}
0xd8 => {
let tag = self.parse_u8()?;
self.handle_tagged_value(tag.into(), visitor)
}
0xd9 => {
let tag = self.parse_u16()?;
self.handle_tagged_value(tag.into(), visitor)
}
0xda => {
let tag = self.parse_u32()?;
self.handle_tagged_value(tag.into(), visitor)
}
0xdb => {
let tag = self.parse_u64()?;
self.handle_tagged_value(tag, visitor)
}
0xdc..=0xdf => Err(self.error(ErrorCode::UnassignedCode)),
// Major type 7: floating-point numbers and other simple data types that need no content
0xe0..=0xf3 => Err(self.error(ErrorCode::UnassignedCode)),
0xf4 => visitor.visit_bool(false),
0xf5 => visitor.visit_bool(true),
0xf6 => visitor.visit_unit(),
0xf7 => visitor.visit_unit(),
0xf8 => Err(self.error(ErrorCode::UnassignedCode)),
0xf9 => {
let value = self.parse_f16()?;
visitor.visit_f32(value)
}
0xfa => {
let value = self.parse_f32()?;
visitor.visit_f32(value)
}
0xfb => {
let value = self.parse_f64()?;
visitor.visit_f64(value)
}
0xfc..=0xfe => Err(self.error(ErrorCode::UnassignedCode)),
0xff => Err(self.error(ErrorCode::UnexpectedCode)),
_ => unreachable!(),
}
}
}
impl<'de, 'a, R> de::Deserializer<'de> for &'a mut Deserializer<R>
where
R: Read<'de>,
{
type Error = Error;
#[inline]
fn deserialize_any<V>(self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
self.parse_value(visitor)
}
#[inline]
fn deserialize_option<V>(self, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
match self.peek()? {
Some(0xf6) => {
self.consume();
visitor.visit_none()
}
_ => visitor.visit_some(self),
}
}
#[inline]
fn deserialize_newtype_struct<V>(self, _name: &str, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
visitor.visit_newtype_struct(self)
}
// Unit variants are encoded as just the variant identifier.
// Tuple variants are encoded as an array of the variant identifier followed by the fields.
// Struct variants are encoded as an array of the variant identifier followed by the struct.
#[inline]
fn deserialize_enum<V>(
self,
_name: &str,
_variants: &'static [&'static str],
visitor: V,
) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
match self.peek()? {
Some(byte @ 0x80..=0x9f) => {
if !self.accept_legacy_enums {
return Err(self.error(ErrorCode::WrongEnumFormat));
}
self.consume();
match byte {
0x80..=0x97 => self.parse_enum(byte as usize - 0x80, visitor),
0x98 => {
let len = self.parse_u8()?;
self.parse_enum(len as usize, visitor)
}
0x99 => {
let len = self.parse_u16()?;
self.parse_enum(len as usize, visitor)
}
0x9a => {
let len = self.parse_u32()?;
self.parse_enum(len as usize, visitor)
}
0x9b => {
let len = self.parse_u64()?;
if len > usize::max_value() as u64 {
return Err(self.error(ErrorCode::LengthOutOfRange));
}
self.parse_enum(len as usize, visitor)
}
0x9c..=0x9e => Err(self.error(ErrorCode::UnassignedCode)),
0x9f => self.parse_indefinite_enum(visitor),
_ => unreachable!(),
}
}
Some(0xa1) => {
if !self.accept_standard_enums {
return Err(self.error(ErrorCode::WrongEnumFormat));
}
self.consume();
self.parse_enum_map(visitor)
}
None => Err(self.error(ErrorCode::EofWhileParsingValue)),
_ => {
if !self.accept_standard_enums && !self.accept_legacy_enums {
return Err(self.error(ErrorCode::WrongEnumFormat));
}
visitor.visit_enum(UnitVariantAccess { de: self })
}
}
}
#[inline]
fn is_human_readable(&self) -> bool {
false
}
serde::forward_to_deserialize_any! {
bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string unit
unit_struct seq tuple tuple_struct map struct identifier ignored_any
bytes byte_buf
}
}
impl<R> Deserializer<R>
where
R: Offset,
{
/// Return the current offset in the reader
#[inline]
pub fn byte_offset(&self) -> usize {
self.read.byte_offset()
}
}
trait MakeError {
fn error(&self, code: ErrorCode) -> Error;
}
struct SeqAccess<'a, R> {
de: &'a mut Deserializer<R>,
len: &'a mut usize,
}
impl<'de, 'a, R> de::SeqAccess<'de> for SeqAccess<'a, R>
where
R: Read<'de>,
{
type Error = Error;
fn next_element_seed<T>(&mut self, seed: T) -> Result<Option<T::Value>>
where
T: de::DeserializeSeed<'de>,
{
if *self.len == 0 {
return Ok(None);
}
*self.len -= 1;
let value = seed.deserialize(&mut *self.de)?;
Ok(Some(value))
}
fn size_hint(&self) -> Option<usize> {
Some(*self.len)
}
}
impl<'de, 'a, R> MakeError for SeqAccess<'a, R>
where
R: Read<'de>,
{
fn error(&self, code: ErrorCode) -> Error {
self.de.error(code)
}
}
struct IndefiniteSeqAccess<'a, R> {
de: &'a mut Deserializer<R>,
}
impl<'de, 'a, R> de::SeqAccess<'de> for IndefiniteSeqAccess<'a, R>
where
R: Read<'de>,
{
type Error = Error;
fn next_element_seed<T>(&mut self, seed: T) -> Result<Option<T::Value>>
where
T: de::DeserializeSeed<'de>,
{
match self.de.peek()? {
Some(0xff) => return Ok(None),
Some(_) => {}
None => return Err(self.de.error(ErrorCode::EofWhileParsingArray)),
}
let value = seed.deserialize(&mut *self.de)?;
Ok(Some(value))
}
}
impl<'de, 'a, R> MakeError for IndefiniteSeqAccess<'a, R>
where
R: Read<'de>,
{
fn error(&self, code: ErrorCode) -> Error {
self.de.error(code)
}
}
struct MapAccess<'a, R> {
de: &'a mut Deserializer<R>,
len: &'a mut usize,
accept_named: bool,
accept_packed: bool,
}
impl<'de, 'a, R> de::MapAccess<'de> for MapAccess<'a, R>
where
R: Read<'de>,
{
type Error = Error;
fn next_key_seed<K>(&mut self, seed: K) -> Result<Option<K::Value>>
where
K: de::DeserializeSeed<'de>,
{
if *self.len == 0 {
return Ok(None);
}
*self.len -= 1;
match self.de.peek()? {
Some(_byte @ 0x00..=0x1b) if !self.accept_packed => {
return Err(self.de.error(ErrorCode::WrongStructFormat));
}
Some(_byte @ 0x60..=0x7f) if !self.accept_named => {
return Err(self.de.error(ErrorCode::WrongStructFormat));
}
_ => {}
};
let value = seed.deserialize(&mut *self.de)?;
Ok(Some(value))
}
fn next_value_seed<V>(&mut self, seed: V) -> Result<V::Value>
where
V: de::DeserializeSeed<'de>,
{
seed.deserialize(&mut *self.de)
}
fn size_hint(&self) -> Option<usize> {
Some(*self.len)
}
}
impl<'de, 'a, R> MakeError for MapAccess<'a, R>
where
R: Read<'de>,
{
fn error(&self, code: ErrorCode) -> Error {
self.de.error(code)
}
}
struct IndefiniteMapAccess<'a, R> {
de: &'a mut Deserializer<R>,
accept_packed: bool,
accept_named: bool,
}
impl<'de, 'a, R> de::MapAccess<'de> for IndefiniteMapAccess<'a, R>
where
R: Read<'de>,
{
type Error = Error;
fn next_key_seed<K>(&mut self, seed: K) -> Result<Option<K::Value>>
where
K: de::DeserializeSeed<'de>,
{
match self.de.peek()? {
Some(_byte @ 0x00..=0x1b) if !self.accept_packed => {
return Err(self.de.error(ErrorCode::WrongStructFormat))
}
Some(_byte @ 0x60..=0x7f) if !self.accept_named => {
return Err(self.de.error(ErrorCode::WrongStructFormat))
}
Some(0xff) => return Ok(None),
Some(_) => {}
None => return Err(self.de.error(ErrorCode::EofWhileParsingMap)),
}
let value = seed.deserialize(&mut *self.de)?;
Ok(Some(value))
}
fn next_value_seed<V>(&mut self, seed: V) -> Result<V::Value>
where
V: de::DeserializeSeed<'de>,
{
seed.deserialize(&mut *self.de)
}
}
struct UnitVariantAccess<'a, R> {
de: &'a mut Deserializer<R>,
}
impl<'de, 'a, R> de::EnumAccess<'de> for UnitVariantAccess<'a, R>
where
R: Read<'de>,
{
type Error = Error;
type Variant = UnitVariantAccess<'a, R>;
fn variant_seed<V>(self, seed: V) -> Result<(V::Value, UnitVariantAccess<'a, R>)>
where
V: de::DeserializeSeed<'de>,
{
let variant = seed.deserialize(&mut *self.de)?;
Ok((variant, self))
}
}
impl<'de, 'a, R> de::VariantAccess<'de> for UnitVariantAccess<'a, R>
where
R: Read<'de>,
{
type Error = Error;
fn unit_variant(self) -> Result<()> {
Ok(())
}
fn newtype_variant_seed<T>(self, _seed: T) -> Result<T::Value>
where
T: de::DeserializeSeed<'de>,
{
Err(de::Error::invalid_type(
de::Unexpected::UnitVariant,
&"newtype variant",
))
}
fn tuple_variant<V>(self, _len: usize, _visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
Err(de::Error::invalid_type(
de::Unexpected::UnitVariant,
&"tuple variant",
))
}
fn struct_variant<V>(self, _fields: &'static [&'static str], _visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
Err(de::Error::invalid_type(
de::Unexpected::UnitVariant,
&"struct variant",
))
}
}
struct VariantAccess<T> {
seq: T,
}
impl<'de, T> de::EnumAccess<'de> for VariantAccess<T>
where
T: de::SeqAccess<'de, Error = Error> + MakeError,
{
type Error = Error;
type Variant = VariantAccess<T>;
fn variant_seed<V>(mut self, seed: V) -> Result<(V::Value, VariantAccess<T>)>
where
V: de::DeserializeSeed<'de>,
{
let variant = match self.seq.next_element_seed(seed) {
Ok(Some(variant)) => variant,
Ok(None) => return Err(self.seq.error(ErrorCode::ArrayTooShort)),
Err(e) => return Err(e),
};
Ok((variant, self))
}
}
impl<'de, T> de::VariantAccess<'de> for VariantAccess<T>
where
T: de::SeqAccess<'de, Error = Error> + MakeError,
{
type Error = Error;
fn unit_variant(mut self) -> Result<()> {
match self.seq.next_element() {
Ok(Some(())) => Ok(()),
Ok(None) => Err(self.seq.error(ErrorCode::ArrayTooLong)),
Err(e) => Err(e),
}
}
fn newtype_variant_seed<S>(mut self, seed: S) -> Result<S::Value>
where
S: de::DeserializeSeed<'de>,
{
match self.seq.next_element_seed(seed) {
Ok(Some(variant)) => Ok(variant),
Ok(None) => Err(self.seq.error(ErrorCode::ArrayTooShort)),
Err(e) => Err(e),
}
}
fn tuple_variant<V>(self, _len: usize, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
visitor.visit_seq(self.seq)
}
fn struct_variant<V>(mut self, _fields: &'static [&'static str], visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
let seed = StructVariantSeed { visitor };
match self.seq.next_element_seed(seed) {
Ok(Some(variant)) => Ok(variant),
Ok(None) => Err(self.seq.error(ErrorCode::ArrayTooShort)),
Err(e) => Err(e),
}
}
}
struct StructVariantSeed<V> {
visitor: V,
}
impl<'de, V> de::DeserializeSeed<'de> for StructVariantSeed<V>
where
V: de::Visitor<'de>,
{
type Value = V::Value;
fn deserialize<D>(self, de: D) -> result::Result<V::Value, D::Error>
where
D: de::Deserializer<'de>,
{
de.deserialize_any(self.visitor)
}
}
/// Iterator that deserializes a stream into multiple CBOR values.
///
/// A stream deserializer can be created from any CBOR deserializer using the
/// `Deserializer::into_iter` method.
///
/// ```
/// # extern crate serde_cbor;
/// use serde_cbor::de::Deserializer;
/// use serde_cbor::value::Value;
///
/// # fn main() {
/// let data: Vec<u8> = vec![
/// 0x01, 0x66, 0x66, 0x6f, 0x6f, 0x62, 0x61, 0x72,
/// ];
/// let mut it = Deserializer::from_slice(&data[..]).into_iter::<Value>();
/// assert_eq!(
/// Value::Integer(1),
/// it.next().unwrap().unwrap()
/// );
/// assert_eq!(
/// Value::Text("foobar".to_string()),
/// it.next().unwrap().unwrap()
/// );
/// # }
/// ```
#[derive(Debug)]
pub struct StreamDeserializer<'de, R, T> {
de: Deserializer<R>,
output: PhantomData<T>,
lifetime: PhantomData<&'de ()>,
}
impl<'de, R, T> StreamDeserializer<'de, R, T>
where
R: Read<'de>,
T: de::Deserialize<'de>,
{
/// Create a new CBOR stream deserializer from one of the possible
/// serde_cbor input sources.
///
/// Typically it is more convenient to use one of these methods instead:
///
/// * `Deserializer::from_slice(...).into_iter()`
/// * `Deserializer::from_reader(...).into_iter()`
pub fn new(read: R) -> StreamDeserializer<'de, R, T> {
StreamDeserializer {
de: Deserializer::new(read),
output: PhantomData,
lifetime: PhantomData,
}
}
}
impl<'de, R, T> StreamDeserializer<'de, R, T>
where
R: Offset,
T: de::Deserialize<'de>,
{
/// Return the current offset in the reader
#[inline]
pub fn byte_offset(&self) -> usize {
self.de.byte_offset()
}
}
impl<'de, R, T> Iterator for StreamDeserializer<'de, R, T>
where
R: Read<'de>,
T: de::Deserialize<'de>,
{
type Item = Result<T>;
fn next(&mut self) -> Option<Result<T>> {
match self.de.peek() {
Ok(Some(_)) => Some(T::deserialize(&mut self.de)),
Ok(None) => None,
Err(e) => Some(Err(e)),
}
}
}
struct VariantAccessMap<T> {
map: T,
}
impl<'de, T> de::EnumAccess<'de> for VariantAccessMap<T>
where
T: de::MapAccess<'de, Error = Error> + MakeError,
{
type Error = Error;
type Variant = VariantAccessMap<T>;
fn variant_seed<V>(mut self, seed: V) -> Result<(V::Value, VariantAccessMap<T>)>
where
V: de::DeserializeSeed<'de>,
{
let variant = match self.map.next_key_seed(seed) {
Ok(Some(variant)) => variant,
Ok(None) => return Err(self.map.error(ErrorCode::ArrayTooShort)),
Err(e) => return Err(e),
};
Ok((variant, self))
}
}
impl<'de, T> de::VariantAccess<'de> for VariantAccessMap<T>
where
T: de::MapAccess<'de, Error = Error> + MakeError,
{
type Error = Error;
fn unit_variant(mut self) -> Result<()> {
match self.map.next_value() {
Ok(()) => Ok(()),
Err(e) => Err(e),
}
}
fn newtype_variant_seed<S>(mut self, seed: S) -> Result<S::Value>
where
S: de::DeserializeSeed<'de>,
{
self.map.next_value_seed(seed)
}
fn tuple_variant<V>(mut self, _len: usize, visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
let seed = StructVariantSeed { visitor };
self.map.next_value_seed(seed)
}
fn struct_variant<V>(mut self, _fields: &'static [&'static str], visitor: V) -> Result<V::Value>
where
V: de::Visitor<'de>,
{
let seed = StructVariantSeed { visitor };
self.map.next_value_seed(seed)
}
}
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