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android / platform / external / rust / crates / protobuf / refs/heads/android13-qpr3-s13-release / . / src / unknown.rs
blob: dd670332a1556163e215f7c796989c4dafaac5a3 [file] [log] [blame] [edit]
use std::collections::hash_map;
use std::collections::hash_map::DefaultHasher;
use std::collections::HashMap;
use std::default::Default;
use std::hash::BuildHasherDefault;
use std::hash::Hash;
use std::hash::Hasher;
use std::slice;
use crate::clear::Clear;
use crate::wire_format;
use crate::zigzag::encode_zig_zag_32;
use crate::zigzag::encode_zig_zag_64;
/// Unknown value.
///
/// See [`UnknownFields`](crate::UnknownFields) for the explanations.
#[derive(Debug)]
pub enum UnknownValue {
/// 32-bit unknown (e. g. `fixed32` or `float`)
Fixed32(u32),
/// 64-bit unknown (e. g. `fixed64` or `double`)
Fixed64(u64),
/// Varint unknown (e. g. `int32` or `bool`)
Varint(u64),
/// Length-delimited unknown (e. g. `message` or `string`)
LengthDelimited(Vec<u8>),
}
impl UnknownValue {
/// Wire type for this unknown
pub fn wire_type(&self) -> wire_format::WireType {
self.get_ref().wire_type()
}
/// As ref
pub fn get_ref<'s>(&'s self) -> UnknownValueRef<'s> {
match *self {
UnknownValue::Fixed32(fixed32) => UnknownValueRef::Fixed32(fixed32),
UnknownValue::Fixed64(fixed64) => UnknownValueRef::Fixed64(fixed64),
UnknownValue::Varint(varint) => UnknownValueRef::Varint(varint),
UnknownValue::LengthDelimited(ref bytes) => UnknownValueRef::LengthDelimited(&bytes),
}
}
/// Construct unknown value from `sint32` value.
pub fn sint32(i: i32) -> UnknownValue {
UnknownValue::Varint(encode_zig_zag_32(i) as u64)
}
/// Construct unknown value from `sint64` value.
pub fn sint64(i: i64) -> UnknownValue {
UnknownValue::Varint(encode_zig_zag_64(i))
}
}
/// Reference to unknown value.
///
/// See [`UnknownFields`](crate::UnknownFields) for explanations.
pub enum UnknownValueRef<'o> {
/// 32-bit unknown
Fixed32(u32),
/// 64-bit unknown
Fixed64(u64),
/// Varint unknown
Varint(u64),
/// Length-delimited unknown
LengthDelimited(&'o [u8]),
}
impl<'o> UnknownValueRef<'o> {
/// Wire-type to serialize this unknown
pub fn wire_type(&self) -> wire_format::WireType {
match *self {
UnknownValueRef::Fixed32(_) => wire_format::WireTypeFixed32,
UnknownValueRef::Fixed64(_) => wire_format::WireTypeFixed64,
UnknownValueRef::Varint(_) => wire_format::WireTypeVarint,
UnknownValueRef::LengthDelimited(_) => wire_format::WireTypeLengthDelimited,
}
}
}
/// Field unknown values.
///
/// See [`UnknownFields`](crate::UnknownFields) for explanations.
#[derive(Clone, PartialEq, Eq, Debug, Default, Hash)]
pub struct UnknownValues {
/// 32-bit unknowns
pub fixed32: Vec<u32>,
/// 64-bit unknowns
pub fixed64: Vec<u64>,
/// Varint unknowns
pub varint: Vec<u64>,
/// Length-delimited unknowns
pub length_delimited: Vec<Vec<u8>>,
}
impl UnknownValues {
/// Add unknown value
pub fn add_value(&mut self, value: UnknownValue) {
match value {
UnknownValue::Fixed64(fixed64) => self.fixed64.push(fixed64),
UnknownValue::Fixed32(fixed32) => self.fixed32.push(fixed32),
UnknownValue::Varint(varint) => self.varint.push(varint),
UnknownValue::LengthDelimited(length_delimited) => {
self.length_delimited.push(length_delimited)
}
};
}
/// Iterate over unknown values
pub fn iter<'s>(&'s self) -> UnknownValuesIter<'s> {
UnknownValuesIter {
fixed32: self.fixed32.iter(),
fixed64: self.fixed64.iter(),
varint: self.varint.iter(),
length_delimited: self.length_delimited.iter(),
}
}
}
impl<'a> IntoIterator for &'a UnknownValues {
type Item = UnknownValueRef<'a>;
type IntoIter = UnknownValuesIter<'a>;
fn into_iter(self) -> UnknownValuesIter<'a> {
self.iter()
}
}
/// Iterator over unknown values
pub struct UnknownValuesIter<'o> {
fixed32: slice::Iter<'o, u32>,
fixed64: slice::Iter<'o, u64>,
varint: slice::Iter<'o, u64>,
length_delimited: slice::Iter<'o, Vec<u8>>,
}
impl<'o> Iterator for UnknownValuesIter<'o> {
type Item = UnknownValueRef<'o>;
fn next(&mut self) -> Option<UnknownValueRef<'o>> {
let fixed32 = self.fixed32.next();
if fixed32.is_some() {
return Some(UnknownValueRef::Fixed32(*fixed32.unwrap()));
}
let fixed64 = self.fixed64.next();
if fixed64.is_some() {
return Some(UnknownValueRef::Fixed64(*fixed64.unwrap()));
}
let varint = self.varint.next();
if varint.is_some() {
return Some(UnknownValueRef::Varint(*varint.unwrap()));
}
let length_delimited = self.length_delimited.next();
if length_delimited.is_some() {
return Some(UnknownValueRef::LengthDelimited(&length_delimited.unwrap()));
}
None
}
}
/// Hold "unknown" fields in parsed message.
///
/// Field may be unknown if it they are added in newer version of `.proto`.
/// Unknown fields are stored in `UnknownFields` structure, so
/// protobuf message could process messages without losing data.
///
/// For example, in this operation: load from DB, modify, store to DB,
/// even when working with older `.proto` file, new fields won't be lost.
#[derive(Clone, PartialEq, Eq, Debug, Default)]
pub struct UnknownFields {
/// The map.
//
// `Option` is needed, because HashMap constructor performs allocation,
// and very expensive.
//
// We use "default hasher" to make iteration order deterministic.
// Which is used to make codegen output deterministic in presence of unknown fields
// (e. g. file options are represented as unknown fields).
// Using default hasher is suboptimal, because it makes unknown fields less safe.
// Note, Google Protobuf C++ simply uses linear map (which can exploitable the same way),
// and Google Protobuf Java uses tree map to store unknown fields
// (which is more expensive than hashmap).
// TODO: hide
pub fields: Option<Box<HashMap<u32, UnknownValues, BuildHasherDefault<DefaultHasher>>>>,
}
/// Very simple hash implementation of `Hash` for `UnknownFields`.
/// Since map is unordered, we cannot put entry hashes into hasher,
/// instead we summing hashes of entries.
impl Hash for UnknownFields {
fn hash<H: Hasher>(&self, state: &mut H) {
if let Some(ref map) = self.fields {
if !map.is_empty() {
let mut hash: u64 = 0;
for (k, v) in &**map {
let mut entry_hasher = DefaultHasher::new();
Hash::hash(&(k, v), &mut entry_hasher);
hash = hash.wrapping_add(entry_hasher.finish());
}
Hash::hash(&map.len(), state);
Hash::hash(&hash, state);
}
}
}
}
impl UnknownFields {
/// Empty unknown fields
pub fn new() -> UnknownFields {
Default::default()
}
fn init_map(&mut self) {
if self.fields.is_none() {
self.fields = Some(Default::default());
}
}
fn find_field<'a>(&'a mut self, number: &'a u32) -> &'a mut UnknownValues {
self.init_map();
match self.fields.as_mut().unwrap().entry(*number) {
hash_map::Entry::Occupied(e) => e.into_mut(),
hash_map::Entry::Vacant(e) => e.insert(Default::default()),
}
}
/// Add unknown fixed 32-bit
pub fn add_fixed32(&mut self, number: u32, fixed32: u32) {
self.find_field(&number).fixed32.push(fixed32);
}
/// Add unknown fixed 64-bit
pub fn add_fixed64(&mut self, number: u32, fixed64: u64) {
self.find_field(&number).fixed64.push(fixed64);
}
/// Add unknown varint
pub fn add_varint(&mut self, number: u32, varint: u64) {
self.find_field(&number).varint.push(varint);
}
/// Add unknown length delimited
pub fn add_length_delimited(&mut self, number: u32, length_delimited: Vec<u8>) {
self.find_field(&number)
.length_delimited
.push(length_delimited);
}
/// Add unknown value
pub fn add_value(&mut self, number: u32, value: UnknownValue) {
self.find_field(&number).add_value(value);
}
/// Remove unknown field by number
pub fn remove(&mut self, field_number: u32) {
if let Some(fields) = &mut self.fields {
fields.remove(&field_number);
}
}
/// Iterate over all unknowns
pub fn iter<'s>(&'s self) -> UnknownFieldsIter<'s> {
UnknownFieldsIter {
entries: self.fields.as_ref().map(|m| m.iter()),
}
}
/// Find unknown field by number
pub fn get(&self, field_number: u32) -> Option<&UnknownValues> {
match self.fields {
Some(ref map) => map.get(&field_number),
None => None,
}
}
}
impl Clear for UnknownFields {
fn clear(&mut self) {
if let Some(ref mut fields) = self.fields {
fields.clear();
}
}
}
impl<'a> IntoIterator for &'a UnknownFields {
type Item = (u32, &'a UnknownValues);
type IntoIter = UnknownFieldsIter<'a>;
fn into_iter(self) -> UnknownFieldsIter<'a> {
self.iter()
}
}
/// Iterator over [`UnknownFields`](crate::UnknownFields)
pub struct UnknownFieldsIter<'s> {
entries: Option<hash_map::Iter<'s, u32, UnknownValues>>,
}
impl<'s> Iterator for UnknownFieldsIter<'s> {
type Item = (u32, &'s UnknownValues);
fn next(&mut self) -> Option<(u32, &'s UnknownValues)> {
match self.entries {
Some(ref mut entries) => entries.next().map(|(&number, values)| (number, values)),
None => None,
}
}
}
#[cfg(test)]
mod test {
use std::collections::hash_map::DefaultHasher;
use std::hash::Hash;
use std::hash::Hasher;
use super::UnknownFields;
#[test]
fn unknown_fields_hash() {
let mut unknown_fields_1 = UnknownFields::new();
let mut unknown_fields_2 = UnknownFields::new();
// Check field order is not important
unknown_fields_1.add_fixed32(10, 222);
unknown_fields_1.add_fixed32(10, 223);
unknown_fields_1.add_fixed64(14, 224);
unknown_fields_2.add_fixed32(10, 222);
unknown_fields_2.add_fixed64(14, 224);
unknown_fields_2.add_fixed32(10, 223);
fn hash(unknown_fields: &UnknownFields) -> u64 {
let mut hasher = DefaultHasher::new();
Hash::hash(unknown_fields, &mut hasher);
hasher.finish()
}
assert_eq!(hash(&unknown_fields_1), hash(&unknown_fields_2));
}
#[test]
fn unknown_fields_iteration_order_deterministic() {
let mut u_1 = UnknownFields::new();
let mut u_2 = UnknownFields::new();
for u in &mut [&mut u_1, &mut u_2] {
u.add_fixed32(10, 20);
u.add_varint(30, 40);
u.add_fixed64(50, 60);
u.add_length_delimited(70, Vec::new());
u.add_varint(80, 90);
u.add_fixed32(11, 22);
u.add_fixed64(33, 44);
}
let items_1: Vec<_> = u_1.iter().collect();
let items_2: Vec<_> = u_2.iter().collect();
assert_eq!(items_1, items_2);
}
}