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use std::{
borrow::Cow,
fmt, iter,
ops::{Range, RangeInclusive},
sync::Arc,
};
use prost::{
bytes::{Buf, BufMut},
encoding::{self, WireType},
DecodeError, EncodeError, Message,
};
use prost_types::{
DescriptorProto, EnumDescriptorProto, EnumValueDescriptorProto, FieldDescriptorProto,
FileDescriptorProto, FileDescriptorSet, MethodDescriptorProto, OneofDescriptorProto,
ServiceDescriptorProto,
};
use crate::{
descriptor::{
error::DescriptorErrorKind,
find_enum_proto, find_message_proto, tag, to_index,
types::{self, Options},
Definition, DefinitionKind, DescriptorIndex, EnumDescriptorInner, EnumValueDescriptorInner,
ExtensionDescriptorInner, FieldDescriptorInner, FileDescriptorInner, KindIndex,
MessageDescriptorInner, MethodDescriptorInner, OneofDescriptorInner,
ServiceDescriptorInner, MAP_ENTRY_KEY_NUMBER, MAP_ENTRY_VALUE_NUMBER,
},
Cardinality, DescriptorError, DescriptorPool, DynamicMessage, EnumDescriptor,
EnumValueDescriptor, ExtensionDescriptor, FieldDescriptor, FileDescriptor, Kind,
MessageDescriptor, MethodDescriptor, OneofDescriptor, ServiceDescriptor, Syntax, Value,
};
impl fmt::Debug for Syntax {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
Syntax::Proto2 => write!(f, "proto2"),
Syntax::Proto3 => write!(f, "proto3"),
}
}
}
impl Kind {
fn new(pool: &DescriptorPool, kind: KindIndex) -> Self {
match kind {
KindIndex::Double => Kind::Double,
KindIndex::Float => Kind::Float,
KindIndex::Int64 => Kind::Int64,
KindIndex::Uint64 => Kind::Uint64,
KindIndex::Int32 => Kind::Int32,
KindIndex::Fixed64 => Kind::Fixed64,
KindIndex::Fixed32 => Kind::Fixed32,
KindIndex::Bool => Kind::Bool,
KindIndex::String => Kind::String,
KindIndex::Bytes => Kind::Bytes,
KindIndex::Uint32 => Kind::Uint32,
KindIndex::Sfixed32 => Kind::Sfixed32,
KindIndex::Sfixed64 => Kind::Sfixed64,
KindIndex::Sint32 => Kind::Sint32,
KindIndex::Sint64 => Kind::Sint64,
KindIndex::Message(index) | KindIndex::Group(index) => {
Kind::Message(MessageDescriptor {
pool: pool.clone(),
index,
})
}
KindIndex::Enum(index) => Kind::Enum(EnumDescriptor {
pool: pool.clone(),
index,
}),
}
}
/// Gets a reference to the [`MessageDescriptor`] if this is a message type,
/// or `None` otherwise.
pub fn as_message(&self) -> Option<&MessageDescriptor> {
match self {
Kind::Message(desc) => Some(desc),
_ => None,
}
}
/// Gets a reference to the [`EnumDescriptor`] if this is an enum type,
/// or `None` otherwise.
pub fn as_enum(&self) -> Option<&EnumDescriptor> {
match self {
Kind::Enum(desc) => Some(desc),
_ => None,
}
}
/// Returns the [`WireType`] used to encode this type.
///
/// Note: The [`Kind::Message`] returns [` WireType::LengthDelimited`],
/// as [groups are deprecated](https://protobuf.dev/programming-guides/encoding/#groups).
pub fn wire_type(&self) -> WireType {
match self {
Kind::Double | Kind::Fixed64 | Kind::Sfixed64 => WireType::SixtyFourBit,
Kind::Float | Kind::Fixed32 | Kind::Sfixed32 => WireType::ThirtyTwoBit,
Kind::Enum(_)
| Kind::Int32
| Kind::Int64
| Kind::Uint32
| Kind::Uint64
| Kind::Sint32
| Kind::Sint64
| Kind::Bool => WireType::Varint,
Kind::String | Kind::Bytes | Kind::Message(_) => WireType::LengthDelimited,
}
}
}
impl fmt::Debug for Kind {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::Double => write!(f, "double"),
Self::Float => write!(f, "float"),
Self::Int32 => write!(f, "int32"),
Self::Int64 => write!(f, "int64"),
Self::Uint32 => write!(f, "uint32"),
Self::Uint64 => write!(f, "uint64"),
Self::Sint32 => write!(f, "sint32"),
Self::Sint64 => write!(f, "sint64"),
Self::Fixed32 => write!(f, "fixed32"),
Self::Fixed64 => write!(f, "fixed64"),
Self::Sfixed32 => write!(f, "sfixed32"),
Self::Sfixed64 => write!(f, "sfixed64"),
Self::Bool => write!(f, "bool"),
Self::String => write!(f, "string"),
Self::Bytes => write!(f, "bytes"),
Self::Message(m) => write!(f, "{}", m.full_name()),
Self::Enum(e) => write!(f, "{}", e.full_name()),
}
}
}
impl DescriptorPool {
/// Creates a new, empty [`DescriptorPool`].
///
/// For the common case of creating a `DescriptorPool` from a single [`FileDescriptorSet`], see
/// [`DescriptorPool::from_file_descriptor_set`] or [`DescriptorPool::decode`].
pub fn new() -> Self {
DescriptorPool::default()
}
/// Creates a [`DescriptorPool`] from a [`FileDescriptorSet`].
///
/// A file descriptor set may be generated by running the protobuf compiler with the
/// `--descriptor_set_out` flag. If you are using [`prost-build`](https://crates.io/crates/prost-build),
/// then [`Config::file_descriptor_set_path`](https://docs.rs/prost-build/latest/prost_build/struct.Config.html#method..file_descriptor_set_path)
/// is a convenient way to generate it as part of your build.
pub fn from_file_descriptor_set(
file_descriptor_set: FileDescriptorSet,
) -> Result<Self, DescriptorError> {
let mut pool = DescriptorPool::new();
pool.add_file_descriptor_set(file_descriptor_set)?;
Ok(pool)
}
/// Decodes and adds a set of file descriptors to the pool.
///
/// A file descriptor set may be generated by running the protobuf compiler with the
/// `--descriptor_set_out` flag. If you are using [`prost-build`](https://crates.io/crates/prost-build),
/// then [`Config::file_descriptor_set_path`](https://docs.rs/prost-build/latest/prost_build/struct.Config.html#method..file_descriptor_set_path)
/// is a convenient way to generate it as part of your build.
///
/// Unlike when using [`DescriptorPool::from_file_descriptor_set`], any extension options
/// defined in the file descriptors are preserved.
///
/// # Errors
///
/// Returns an error if the given bytes are not a valid protobuf-encoded file descriptor set, or if the descriptor set itself
/// is invalid. When using a file descriptor set generated by the protobuf compiler, this method will always succeed.
pub fn decode<B>(bytes: B) -> Result<Self, DescriptorError>
where
B: Buf,
{
let file_descriptor_set = types::FileDescriptorSet::decode(bytes).map_err(|err| {
DescriptorError::new(vec![DescriptorErrorKind::DecodeFileDescriptorSet { err }])
})?;
let mut pool = DescriptorPool::new();
pool.build_files(file_descriptor_set.file.into_iter())?;
Ok(pool)
}
/// Adds a new [`FileDescriptorSet`] to this [`DescriptorPool`].
///
/// A file descriptor set may be generated by running the protobuf compiler with the
/// `--descriptor_set_out` flag. If you are using [`prost-build`](https://crates.io/crates/prost-build),
/// then [`Config::file_descriptor_set_path`](https://docs.rs/prost-build/latest/prost_build/struct.Config.html#method..file_descriptor_set_path)
/// is a convenient way to generate it as part of your build.
///
/// Any duplicates of files already in the pool will be skipped. Note this may cause issues when trying to add two different versions of a file with the same name.
///
/// # Errors
///
/// Returns an error if the descriptor set is invalid, for example if it references types not yet added
/// to the pool. When using a file descriptor set generated by the protobuf compiler, this method will
/// always succeed.
pub fn add_file_descriptor_set(
&mut self,
file_descriptor_set: FileDescriptorSet,
) -> Result<(), DescriptorError> {
self.add_file_descriptor_protos(file_descriptor_set.file)
}
/// Adds a collection of file descriptors to this pool.
///
/// The file descriptors may be provided in any order, however all types referenced must be defined
/// either in one of the files provided, or in a file previously added to the pool.
///
/// Any duplicates of files already in the pool will be skipped. Note this may cause issues when trying to add two different versions of a file with the same name.
///
/// # Errors
///
/// Returns an error if any of the given file descriptor is invalid, for example if they reference
/// types not yet added to the pool.
pub fn add_file_descriptor_protos<I>(&mut self, files: I) -> Result<(), DescriptorError>
where
I: IntoIterator<Item = FileDescriptorProto>,
{
self.build_files(
files
.into_iter()
.map(types::FileDescriptorProto::from_prost),
)
}
/// Add a single file descriptor to the pool.
///
/// All types referenced by the file must be defined either in the file itself, or in a file
/// previously added to the pool.
///
/// If the file is a duplicate of a files already in the pool, it will be skipped. Note this may cause issues when trying to add two different versions of a file with the same name.
///
/// # Errors
///
/// Returns an error if the given file descriptor is invalid, for example if it references types not yet added
/// to the pool.
pub fn add_file_descriptor_proto(
&mut self,
file: FileDescriptorProto,
) -> Result<(), DescriptorError> {
self.add_file_descriptor_protos(iter::once(file))
}
/// Decode and add a single file descriptor to the pool.
///
/// All types referenced by the file must be defined either in the file itself, or in a file
/// previously added to the pool.
///
/// Unlike when using [`add_file_descriptor_proto()`][DescriptorPool::add_file_descriptor_proto], any extension options
/// defined in the file descriptor are preserved.
///
/// If the file is a duplicate of a files already in the pool, it will be skipped. Note this may cause issues when trying to add two different versions of a file with the same name.
///
/// # Errors
///
/// Returns an error if the given bytes are not a valid protobuf-encoded file descriptor, or if the file descriptor itself
/// is invalid, for example if it references types not yet added to the pool.
pub fn decode_file_descriptor_proto<B>(&mut self, bytes: B) -> Result<(), DescriptorError>
where
B: Buf,
{
let file = types::FileDescriptorProto::decode(bytes).map_err(|err| {
DescriptorError::new(vec![DescriptorErrorKind::DecodeFileDescriptorSet { err }])
})?;
self.build_files(iter::once(file))
}
/// Decode and add a set of file descriptors to the pool.
///
/// A file descriptor set may be generated by running the protobuf compiler with the
/// `--descriptor_set_out` flag. If you are using [`prost-build`](https://crates.io/crates/prost-build),
/// then [`Config::file_descriptor_set_path`](https://docs.rs/prost-build/latest/prost_build/struct.Config.html#method..file_descriptor_set_path)
/// is a convenient way to generate it as part of your build.
///
/// Unlike when using [`add_file_descriptor_set()`][DescriptorPool::add_file_descriptor_set], any extension options
/// defined in the file descriptors are preserved.
///
/// Any duplicates of files already in the pool will be skipped. Note this may cause issues when trying to add two different versions of a file with the same name.
///
/// # Errors
///
/// Returns an error if the given bytes are not a valid protobuf-encoded file descriptor set, or if the descriptor set itself
/// is invalid. When using a file descriptor set generated by the protobuf compiler, this method will always succeed.
pub fn decode_file_descriptor_set<B>(&mut self, bytes: B) -> Result<(), DescriptorError>
where
B: Buf,
{
let file = types::FileDescriptorSet::decode(bytes).map_err(|err| {
DescriptorError::new(vec![DescriptorErrorKind::DecodeFileDescriptorSet { err }])
})?;
self.build_files(file.file)
}
/// Gets an iterator over the file descriptors added to this pool.
pub fn files(&self) -> impl ExactSizeIterator<Item = FileDescriptor> + '_ {
indices(&self.inner.files).map(|index| FileDescriptor {
pool: self.clone(),
index,
})
}
/// Gets a file descriptor by its name, or `None` if no such file has been added.
pub fn get_file_by_name(&self, name: &str) -> Option<FileDescriptor> {
if let Some(&index) = self.inner.file_names.get(name) {
Some(FileDescriptor {
pool: self.clone(),
index,
})
} else {
None
}
}
/// Gets a iterator over the raw [`FileDescriptorProto`] instances wrapped by this [`DescriptorPool`].
pub fn file_descriptor_protos(
&self,
) -> impl ExactSizeIterator<Item = &FileDescriptorProto> + '_ {
indices(&self.inner.files).map(|index| &self.inner.files[index as usize].prost)
}
/// Encodes the files contained within this [`DescriptorPool`] to their byte representation.
///
/// The encoded message is equivalent to a [`FileDescriptorSet`], however also includes
/// any extension options that were defined.
pub fn encode<B>(&self, buf: B) -> Result<(), EncodeError>
where
B: BufMut,
{
use prost::encoding::{encoded_len_varint, DecodeContext};
struct FileDescriptorSet<'a> {
files: &'a [FileDescriptorInner],
}
impl<'a> fmt::Debug for FileDescriptorSet<'a> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("FileDescriptorSet").finish_non_exhaustive()
}
}
impl<'a> Message for FileDescriptorSet<'a> {
fn encode_raw<B>(&self, buf: &mut B)
where
B: BufMut,
Self: Sized,
{
for file in self.files {
encoding::message::encode(
tag::file_descriptor_set::FILE as u32,
&file.raw,
buf,
);
}
}
fn encoded_len(&self) -> usize {
encoding::key_len(tag::file_descriptor_set::FILE as u32) * self.files.len()
+ self
.files
.iter()
.map(|f| &f.raw)
.map(Message::encoded_len)
.map(|len| len + encoded_len_varint(len as u64))
.sum::<usize>()
}
fn merge_field<B>(
&mut self,
_: u32,
_: WireType,
_: &mut B,
_: DecodeContext,
) -> Result<(), DecodeError>
where
B: Buf,
Self: Sized,
{
unimplemented!()
}
fn clear(&mut self) {
unimplemented!()
}
}
let mut buf = buf;
FileDescriptorSet {
files: &self.inner.files,
}
.encode(&mut buf)
}
/// Encodes the files contained within this [`DescriptorPool`] to a newly allocated buffer.
///
/// The encoded message is equivalent to a [`FileDescriptorSet`], however also includes
/// any extension options that were defined.
pub fn encode_to_vec(&self) -> Vec<u8> {
let mut buf = Vec::new();
self.encode(&mut buf).expect("vec should have capacity");
buf
}
/// Gets an iterator over the services defined in these protobuf files.
pub fn services(&self) -> impl ExactSizeIterator<Item = ServiceDescriptor> + '_ {
indices(&self.inner.services).map(|index| ServiceDescriptor {
pool: self.clone(),
index,
})
}
/// Gets an iterator over all message types defined in these protobuf files.
///
/// The iterator includes nested messages defined in another message.
pub fn all_messages(&self) -> impl ExactSizeIterator<Item = MessageDescriptor> + '_ {
indices(&self.inner.messages).map(|index| MessageDescriptor {
pool: self.clone(),
index,
})
}
/// Gets an iterator over all enum types defined in these protobuf files.
///
/// The iterator includes nested enums defined in another message.
pub fn all_enums(&self) -> impl ExactSizeIterator<Item = EnumDescriptor> + '_ {
indices(&self.inner.enums).map(|index| EnumDescriptor {
pool: self.clone(),
index,
})
}
/// Gets an iterator over all extension fields defined in these protobuf files.
///
/// The iterator includes nested extension fields defined in another message.
pub fn all_extensions(&self) -> impl ExactSizeIterator<Item = ExtensionDescriptor> + '_ {
indices(&self.inner.extensions).map(|index| ExtensionDescriptor {
pool: self.clone(),
index,
})
}
/// Gets a [`MessageDescriptor`] by its fully qualified name, for example `my.package.MessageName`.
pub fn get_message_by_name(&self, name: &str) -> Option<MessageDescriptor> {
match self.inner.get_by_name(name) {
Some(&Definition {
kind: DefinitionKind::Message(index),
..
}) => Some(MessageDescriptor {
pool: self.clone(),
index,
}),
_ => None,
}
}
/// Gets an [`EnumDescriptor`] by its fully qualified name, for example `my.package.EnumName`.
pub fn get_enum_by_name(&self, name: &str) -> Option<EnumDescriptor> {
match self.inner.get_by_name(name) {
Some(&Definition {
kind: DefinitionKind::Enum(index),
..
}) => Some(EnumDescriptor {
pool: self.clone(),
index,
}),
_ => None,
}
}
/// Gets an [`ExtensionDescriptor`] by its fully qualified name, for example `my.package.my_extension`.
pub fn get_extension_by_name(&self, name: &str) -> Option<ExtensionDescriptor> {
match self.inner.get_by_name(name) {
Some(&Definition {
kind: DefinitionKind::Extension(index),
..
}) => Some(ExtensionDescriptor {
pool: self.clone(),
index,
}),
_ => None,
}
}
/// Gets an [`ServiceDescriptor`] by its fully qualified name, for example `my.package.MyService`.
pub fn get_service_by_name(&self, name: &str) -> Option<ServiceDescriptor> {
match self.inner.get_by_name(name) {
Some(&Definition {
kind: DefinitionKind::Service(index),
..
}) => Some(ServiceDescriptor {
pool: self.clone(),
index,
}),
_ => None,
}
}
}
impl fmt::Debug for DescriptorPool {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("DescriptorPool")
.field("files", &debug_fmt_iter(self.files()))
.field("services", &debug_fmt_iter(self.services()))
.field("all_messages", &debug_fmt_iter(self.all_messages()))
.field("all_enums", &debug_fmt_iter(self.all_enums()))
.field("all_extensions", &debug_fmt_iter(self.all_extensions()))
.finish()
}
}
impl PartialEq for DescriptorPool {
fn eq(&self, other: &Self) -> bool {
Arc::ptr_eq(&self.inner, &other.inner)
}
}
impl Eq for DescriptorPool {}
impl FileDescriptor {
/// Create a new [`FileDescriptor`] referencing the file at `index` within the given [`DescriptorPool`].
///
/// # Panics
///
/// Panics if `index` is out-of-bounds.
pub fn new(descriptor_pool: DescriptorPool, index: usize) -> Self {
debug_assert!(index < descriptor_pool.files().len());
FileDescriptor {
pool: descriptor_pool,
index: to_index(index),
}
}
/// Gets a reference to the [`DescriptorPool`] this file is included in.
pub fn parent_pool(&self) -> &DescriptorPool {
&self.pool
}
/// Gets the unique name of this file relative to the root of the source tree,
/// e.g. `path/to/my_package.proto`.
pub fn name(&self) -> &str {
self.inner().prost.name()
}
/// Gets the name of the package specifier for a file, e.g. `my.package`.
///
/// If no package name is set, an empty string is returned.
pub fn package_name(&self) -> &str {
self.inner().prost.package()
}
/// Gets the index of this file within the parent [`DescriptorPool`].
pub fn index(&self) -> usize {
self.index as usize
}
/// Gets the syntax of this protobuf file.
pub fn syntax(&self) -> Syntax {
self.inner().syntax
}
/// Gets the dependencies of this file.
///
/// This corresponds to the [`FileDescriptorProto::dependency`] field.
pub fn dependencies(&self) -> impl ExactSizeIterator<Item = FileDescriptor> + '_ {
let pool = self.parent_pool();
self.file_descriptor_proto()
.dependency
.iter()
.map(|name| pool.get_file_by_name(name).expect("file not found"))
}
/// Gets the public dependencies of this file.
///
/// This corresponds to the [`FileDescriptorProto::public_dependency`] field.
pub fn public_dependencies(&self) -> impl ExactSizeIterator<Item = FileDescriptor> + '_ {
let pool = self.parent_pool();
let raw = self.file_descriptor_proto();
raw.public_dependency.iter().map(|&index| {
pool.get_file_by_name(&raw.dependency[index as usize])
.expect("file not found")
})
}
/// Gets the top-level message types defined within this file.
///
/// This does not include nested messages defined within another message.
pub fn messages(&self) -> impl ExactSizeIterator<Item = MessageDescriptor> + '_ {
let pool = self.parent_pool();
let raw_file = self.file_descriptor_proto();
raw_file.message_type.iter().map(move |raw_message| {
pool.get_message_by_name(join_name(raw_file.package(), raw_message.name()).as_ref())
.expect("message not found")
})
}
/// Gets the top-level enum types defined within this file.
///
/// This does not include nested enums defined within another message.
pub fn enums(&self) -> impl ExactSizeIterator<Item = EnumDescriptor> + '_ {
let pool = self.parent_pool();
let raw_file = self.file_descriptor_proto();
raw_file.enum_type.iter().map(move |raw_enum| {
pool.get_enum_by_name(join_name(raw_file.package(), raw_enum.name()).as_ref())
.expect("enum not found")
})
}
/// Gets the top-level extension fields defined within this file.
///
/// This does not include nested extensions defined within another message.
pub fn extensions(&self) -> impl ExactSizeIterator<Item = ExtensionDescriptor> + '_ {
let pool = self.parent_pool();
let raw_file = self.file_descriptor_proto();
raw_file.extension.iter().map(move |raw_extension| {
pool.get_extension_by_name(join_name(raw_file.package(), raw_extension.name()).as_ref())
.expect("extension not found")
})
}
/// Gets the services defined within this file.
pub fn services(&self) -> impl ExactSizeIterator<Item = ServiceDescriptor> + '_ {
let pool = self.parent_pool();
let raw_file = self.file_descriptor_proto();
raw_file.service.iter().map(move |raw_service| {
pool.get_service_by_name(join_name(raw_file.package(), raw_service.name()).as_ref())
.expect("service not found")
})
}
/// Gets a reference to the raw [`FileDescriptorProto`] wrapped by this [`FileDescriptor`].
pub fn file_descriptor_proto(&self) -> &FileDescriptorProto {
&self.inner().prost
}
/// Encodes this file descriptor to its byte representation.
///
/// The encoded message is equivalent to a [`FileDescriptorProto`], however also includes
/// any extension options that were defined.
pub fn encode<B>(&self, buf: B) -> Result<(), EncodeError>
where
B: BufMut,
{
let mut buf = buf;
self.inner().raw.encode(&mut buf)
}
/// Encodes this file descriptor to a newly allocated buffer.
///
/// The encoded message is equivalent to a [`FileDescriptorProto`], however also includes
/// any extension options that were defined.
pub fn encode_to_vec(&self) -> Vec<u8> {
let mut buf = Vec::new();
self.encode(&mut buf).expect("vec should have capacity");
buf
}
/// Decodes the options defined for this [`FileDescriptor`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.FileOptions",
&self.inner().raw.options,
)
}
fn inner(&self) -> &FileDescriptorInner {
&self.pool.inner.files[self.index as usize]
}
}
impl fmt::Debug for FileDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("FileDescriptor")
.field("name", &self.name())
.field("package_name", &self.package_name())
.finish()
}
}
impl MessageDescriptor {
/// Gets a reference to the [`DescriptorPool`] this message is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
&self.pool
}
/// Gets the [`FileDescriptor`] this message is defined in.
pub fn parent_file(&self) -> FileDescriptor {
FileDescriptor {
pool: self.pool.clone(),
index: self.inner().id.file,
}
}
/// Gets the parent message type if this message type is nested inside a another message, or `None` otherwise
pub fn parent_message(&self) -> Option<MessageDescriptor> {
self.inner().parent.map(|index| MessageDescriptor {
pool: self.pool.clone(),
index,
})
}
/// Gets the short name of the message type, e.g. `MyMessage`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the message type, e.g. `my.package.MyMessage`.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the name of the package this message type is defined in, e.g. `my.package`.
///
/// If no package name is set, an empty string is returned.
pub fn package_name(&self) -> &str {
self.raw_file().package()
}
/// Gets the path where this message is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[4, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the [`FileDescriptorProto`] in which this message is defined.
pub fn parent_file_descriptor_proto(&self) -> &FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].prost
}
/// Gets a reference to the raw [`DescriptorProto`] wrapped by this [`MessageDescriptor`].
pub fn descriptor_proto(&self) -> &DescriptorProto {
find_message_proto_prost(self.parent_file_descriptor_proto(), self.path())
}
/// Decodes the options defined for this [`MessageDescriptor`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.MessageOptions",
&self.raw().options,
)
}
/// Gets an iterator yielding a [`FieldDescriptor`] for each field defined in this message.
pub fn fields(&self) -> impl ExactSizeIterator<Item = FieldDescriptor> + '_ {
self.inner()
.field_numbers
.values()
.map(|&index| FieldDescriptor {
message: self.clone(),
index,
})
}
/// Gets an iterator yielding a [`OneofDescriptor`] for each oneof field defined in this message.
pub fn oneofs(&self) -> impl ExactSizeIterator<Item = OneofDescriptor> + '_ {
indices(&self.inner().oneofs).map(|index| OneofDescriptor {
message: self.clone(),
index,
})
}
/// Gets the nested message types defined within this message.
pub fn child_messages(&self) -> impl ExactSizeIterator<Item = MessageDescriptor> + '_ {
let pool = self.parent_pool();
let namespace = self.full_name();
let raw_message = self.descriptor_proto();
raw_message.nested_type.iter().map(move |raw_message| {
pool.get_message_by_name(join_name(namespace, raw_message.name()).as_ref())
.expect("message not found")
})
}
/// Gets the nested enum types defined within this message.
pub fn child_enums(&self) -> impl ExactSizeIterator<Item = EnumDescriptor> + '_ {
let pool = self.parent_pool();
let namespace = self.full_name();
let raw_message = self.descriptor_proto();
raw_message.enum_type.iter().map(move |raw_enum| {
pool.get_enum_by_name(join_name(namespace, raw_enum.name()).as_ref())
.expect("enum not found")
})
}
/// Gets the nested extension fields defined within this message.
///
/// Note this only returns extensions defined nested within this message. See
/// [`MessageDescriptor::extensions`] to get fields defined anywhere that extend this message.
pub fn child_extensions(&self) -> impl ExactSizeIterator<Item = ExtensionDescriptor> + '_ {
let pool = self.parent_pool();
let namespace = self.full_name();
let raw_message = self.descriptor_proto();
raw_message.extension.iter().map(move |raw_extension| {
pool.get_extension_by_name(join_name(namespace, raw_extension.name()).as_ref())
.expect("extension not found")
})
}
/// Gets an iterator over all extensions to this message defined in the parent [`DescriptorPool`].
///
/// Note this iterates over extension fields defined anywhere which extend this message. See
/// [`MessageDescriptor::child_extensions`] to just get extensions defined nested within this message.
pub fn extensions(&self) -> impl ExactSizeIterator<Item = ExtensionDescriptor> + '_ {
self.inner()
.extensions
.iter()
.map(|&index| ExtensionDescriptor {
pool: self.parent_pool().clone(),
index,
})
}
/// Gets a [`FieldDescriptor`] with the given number, or `None` if no such field exists.
pub fn get_field(&self, number: u32) -> Option<FieldDescriptor> {
self.inner()
.field_numbers
.get(&number)
.map(|&index| FieldDescriptor {
message: self.clone(),
index,
})
}
/// Gets a [`FieldDescriptor`] with the given name, or `None` if no such field exists.
pub fn get_field_by_name(&self, name: &str) -> Option<FieldDescriptor> {
self.inner()
.field_names
.get(name)
.map(|&index| FieldDescriptor {
message: self.clone(),
index,
})
}
/// Gets a [`FieldDescriptor`] with the given JSON name, or `None` if no such field exists.
pub fn get_field_by_json_name(&self, json_name: &str) -> Option<FieldDescriptor> {
self.inner()
.field_json_names
.get(json_name)
.map(|&index| FieldDescriptor {
message: self.clone(),
index,
})
}
/// Returns `true` if this is an auto-generated message type to
/// represent the entry type for a map field.
//
/// If this method returns `true`, [`fields`][Self::fields] is guaranteed to
/// yield the following two fields:
///
/// * A "key" field with a field number of 1
/// * A "value" field with a field number of 2
///
/// See [`map_entry_key_field`][MessageDescriptor::map_entry_key_field] and
/// [`map_entry_value_field`][MessageDescriptor::map_entry_value_field] for more a convenient way
/// to get these fields.
pub fn is_map_entry(&self) -> bool {
self.raw()
.options
.as_ref()
.map(|o| o.value.map_entry())
.unwrap_or(false)
}
/// If this is a [map entry](MessageDescriptor::is_map_entry), returns a [`FieldDescriptor`] for the key.
///
/// # Panics
///
/// This method may panic if [`is_map_entry`][MessageDescriptor::is_map_entry] returns `false`.
pub fn map_entry_key_field(&self) -> FieldDescriptor {
debug_assert!(self.is_map_entry());
self.get_field(MAP_ENTRY_KEY_NUMBER)
.expect("map entry should have key field")
}
/// If this is a [map entry](MessageDescriptor::is_map_entry), returns a [`FieldDescriptor`] for the value.
///
/// # Panics
///
/// This method may panic if [`is_map_entry`][MessageDescriptor::is_map_entry] returns `false`.
pub fn map_entry_value_field(&self) -> FieldDescriptor {
debug_assert!(self.is_map_entry());
self.get_field(MAP_ENTRY_VALUE_NUMBER)
.expect("map entry should have value field")
}
/// Gets an iterator over reserved field number ranges in this message.
pub fn reserved_ranges(&self) -> impl ExactSizeIterator<Item = Range<u32>> + '_ {
self.raw()
.reserved_range
.iter()
.map(|n| (n.start() as u32)..(n.end() as u32))
}
/// Gets an iterator over reserved field names in this message.
pub fn reserved_names(&self) -> impl ExactSizeIterator<Item = &str> + '_ {
self.raw().reserved_name.iter().map(|n| n.as_ref())
}
/// Gets an iterator over extension field number ranges in this message.
pub fn extension_ranges(&self) -> impl ExactSizeIterator<Item = Range<u32>> + '_ {
self.raw()
.extension_range
.iter()
.map(|n| (n.start() as u32)..(n.end() as u32))
}
/// Gets an extension to this message by its number, or `None` if no such extension exists.
pub fn get_extension(&self, number: u32) -> Option<ExtensionDescriptor> {
self.extensions().find(|ext| ext.number() == number)
}
/// Gets an extension to this message by its full name (e.g. `my.package.my_extension`), or `None` if no such extension exists.
pub fn get_extension_by_full_name(&self, name: &str) -> Option<ExtensionDescriptor> {
self.extensions().find(|ext| ext.full_name() == name)
}
/// Gets an extension to this message by its JSON name (e.g. `[my.package.my_extension]`), or `None` if no such extension exists.
pub fn get_extension_by_json_name(&self, name: &str) -> Option<ExtensionDescriptor> {
self.extensions().find(|ext| ext.json_name() == name)
}
fn inner(&self) -> &MessageDescriptorInner {
&self.pool.inner.messages[self.index as usize]
}
fn raw(&self) -> &types::DescriptorProto {
find_message_proto(self.raw_file(), self.path())
}
fn raw_file(&self) -> &types::FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].raw
}
}
impl fmt::Debug for MessageDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("MessageDescriptor")
.field("name", &self.name())
.field("full_name", &self.full_name())
.field("is_map_entry", &self.is_map_entry())
.field("fields", &debug_fmt_iter(self.fields()))
.field("oneofs", &debug_fmt_iter(self.oneofs()))
.finish()
}
}
impl FieldDescriptor {
/// Gets a reference to the [`DescriptorPool`] this field is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
self.message.parent_pool()
}
/// Gets the [`FileDescriptor`] this field is defined in.
pub fn parent_file(&self) -> FileDescriptor {
self.message.parent_file()
}
/// Gets a reference to the [`MessageDescriptor`] this field is defined in.
pub fn parent_message(&self) -> &MessageDescriptor {
&self.message
}
/// Gets the short name of the message type, e.g. `my_field`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the message field, e.g. `my.package.MyMessage.my_field`.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the path where this message field is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[4, 0, 2, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the raw [`FieldDescriptorProto`] wrapped by this [`FieldDescriptor`].
pub fn field_descriptor_proto(&self) -> &FieldDescriptorProto {
&self.parent_message().descriptor_proto().field[*self.path().last().unwrap() as usize]
}
/// Decodes the options defined for this [`FieldDescriptor`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.FieldOptions",
&self.raw().options,
)
}
/// Gets the unique number for this message field.
pub fn number(&self) -> u32 {
self.inner().number
}
/// Gets the name used for JSON serialization.
///
/// This is usually the camel-cased form of the field name, unless
/// another value is set in the proto file.
pub fn json_name(&self) -> &str {
&self.inner().json_name
}
/// Whether this field is encoded using the proto2 group encoding.
pub fn is_group(&self) -> bool {
matches!(self.inner().kind, KindIndex::Group(_))
}
/// Whether this field is a list type.
///
/// Equivalent to checking that the cardinality is `Repeated` and that
/// [`is_map`][Self::is_map] returns `false`.
pub fn is_list(&self) -> bool {
self.cardinality() == Cardinality::Repeated && !self.is_map()
}
/// Whether this field is a map type.
///
/// Equivalent to checking that the cardinality is `Repeated` and that
/// the field type is a message where [`is_map_entry`][MessageDescriptor::is_map_entry]
/// returns `true`.
pub fn is_map(&self) -> bool {
self.cardinality() == Cardinality::Repeated
&& match self.kind() {
Kind::Message(message) => message.is_map_entry(),
_ => false,
}
}
/// Whether this field is a list encoded using [packed encoding](https://developers.google.com/protocol-buffers/docs/encoding#packed).
pub fn is_packed(&self) -> bool {
self.inner().is_packed
}
/// The cardinality of this field.
pub fn cardinality(&self) -> Cardinality {
self.inner().cardinality
}
/// Whether this field supports distinguishing between an unpopulated field and
/// the default value.
///
/// For proto2 messages this returns `true` for all non-repeated fields.
/// For proto3 this returns `true` for message fields, and fields contained
/// in a `oneof`.
pub fn supports_presence(&self) -> bool {
self.inner().supports_presence
}
/// Gets the [`Kind`] of this field.
pub fn kind(&self) -> Kind {
Kind::new(self.parent_pool(), self.inner().kind)
}
/// Gets a [`OneofDescriptor`] representing the oneof containing this field,
/// or `None` if this field is not contained in a oneof.
pub fn containing_oneof(&self) -> Option<OneofDescriptor> {
self.inner().oneof.map(|index| OneofDescriptor {
message: self.message.clone(),
index,
})
}
pub(crate) fn default_value(&self) -> Option<&Value> {
self.inner().default.as_ref()
}
pub(crate) fn is_packable(&self) -> bool {
self.inner().kind.is_packable()
}
fn inner(&self) -> &FieldDescriptorInner {
&self.message.inner().fields[self.index as usize]
}
fn raw(&self) -> &types::FieldDescriptorProto {
&self.message.raw().field[self.index as usize]
}
}
impl fmt::Debug for FieldDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("FieldDescriptor")
.field("name", &self.name())
.field("full_name", &self.full_name())
.field("json_name", &self.json_name())
.field("number", &self.number())
.field("kind", &self.kind())
.field("cardinality", &self.cardinality())
.field(
"containing_oneof",
&self.containing_oneof().map(|o| o.name().to_owned()),
)
.field("default_value", &self.default_value())
.field("is_group", &self.is_group())
.field("is_list", &self.is_list())
.field("is_map", &self.is_map())
.field("is_packed", &self.is_packed())
.field("supports_presence", &self.supports_presence())
.finish()
}
}
impl ExtensionDescriptor {
/// Gets a reference to the [`DescriptorPool`] this extension field is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
&self.pool
}
/// Gets the [`FileDescriptor`] this extension field is defined in.
pub fn parent_file(&self) -> FileDescriptor {
FileDescriptor {
pool: self.pool.clone(),
index: self.inner().id.file,
}
}
/// Gets the parent message type if this extension is defined within another message, or `None` otherwise.
///
/// Note this just corresponds to where the extension is defined in the proto file. See [`containing_message`][ExtensionDescriptor::containing_message]
/// for the message this field extends.
pub fn parent_message(&self) -> Option<MessageDescriptor> {
self.inner().parent.map(|index| MessageDescriptor {
pool: self.pool.clone(),
index,
})
}
/// Gets the short name of the extension field type, e.g. `my_extension`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the extension field, e.g. `my.package.ParentMessage.my_extension`.
///
/// Note this includes the name of the parent message if any, not the message this field extends.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the name of the package this extension field is defined in, e.g. `my.package`.
///
/// If no package name is set, an empty string is returned.
pub fn package_name(&self) -> &str {
self.raw_file().package()
}
/// Gets the path where this extension field is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[7, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the [`FileDescriptorProto`] in which this extension is defined.
pub fn parent_file_descriptor_proto(&self) -> &FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].prost
}
/// Gets a reference to the raw [`FieldDescriptorProto`] wrapped by this [`ExtensionDescriptor`].
pub fn field_descriptor_proto(&self) -> &FieldDescriptorProto {
let file = self.parent_file_descriptor_proto();
let path = self.path();
debug_assert_ne!(path.len(), 0);
debug_assert_eq!(path.len() % 2, 0);
if path.len() == 2 {
debug_assert_eq!(path[0], tag::file::EXTENSION);
&file.extension[path[1] as usize]
} else {
let message = find_message_proto_prost(file, &path[..path.len() - 2]);
debug_assert_eq!(path[path.len() - 2], tag::message::EXTENSION);
&message.extension[path[path.len() - 1] as usize]
}
}
/// Decodes the options defined for this [`ExtensionDescriptor`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.FieldOptions",
&self.raw().options,
)
}
/// Gets the number for this extension field.
pub fn number(&self) -> u32 {
self.inner().number
}
/// Gets the name used for JSON serialization of this extension field, e.g. `[my.package.ParentMessage.my_field]`.
pub fn json_name(&self) -> &str {
&self.inner().json_name
}
/// Whether this field is encoded using the proto2 group encoding.
pub fn is_group(&self) -> bool {
matches!(self.inner().kind, KindIndex::Group(_))
}
/// Whether this field is a list type.
///
/// Equivalent to checking that the cardinality is `Repeated` and that
/// [`is_map`][Self::is_map] returns `false`.
pub fn is_list(&self) -> bool {
self.cardinality() == Cardinality::Repeated && !self.is_map()
}
/// Whether this field is a map type.
///
/// Equivalent to checking that the cardinality is `Repeated` and that
/// the field type is a message where [`is_map_entry`][MessageDescriptor::is_map_entry]
/// returns `true`.
pub fn is_map(&self) -> bool {
self.cardinality() == Cardinality::Repeated
&& match self.kind() {
Kind::Message(message) => message.is_map_entry(),
_ => false,
}
}
/// Whether this field is a list encoded using [packed encoding](https://developers.google.com/protocol-buffers/docs/encoding#packed).
pub fn is_packed(&self) -> bool {
self.inner().is_packed
}
/// The cardinality of this field.
pub fn cardinality(&self) -> Cardinality {
self.inner().cardinality
}
/// Whether this extension supports distinguishing between an unpopulated field and
/// the default value.
///
/// This is equivalent to `cardinality() != Cardinality::Repeated`
pub fn supports_presence(&self) -> bool {
self.cardinality() != Cardinality::Repeated
}
/// Gets the [`Kind`] of this field.
pub fn kind(&self) -> Kind {
Kind::new(&self.pool, self.inner().kind)
}
/// Gets the containing message that this field extends.
pub fn containing_message(&self) -> MessageDescriptor {
MessageDescriptor {
pool: self.pool.clone(),
index: self.inner().extendee,
}
}
pub(crate) fn default_value(&self) -> Option<&Value> {
self.inner().default.as_ref()
}
pub(crate) fn is_packable(&self) -> bool {
self.inner().kind.is_packable()
}
fn inner(&self) -> &ExtensionDescriptorInner {
&self.pool.inner.extensions[self.index as usize]
}
fn raw(&self) -> &types::FieldDescriptorProto {
let file = self.raw_file();
let path = self.path();
debug_assert_ne!(path.len(), 0);
debug_assert_eq!(path.len() % 2, 0);
if path.len() == 2 {
debug_assert_eq!(path[0], tag::file::EXTENSION);
&file.extension[path[1] as usize]
} else {
let message = find_message_proto(file, &path[..path.len() - 2]);
debug_assert_eq!(path[path.len() - 2], tag::message::EXTENSION);
&message.extension[path[path.len() - 1] as usize]
}
}
fn raw_file(&self) -> &types::FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].raw
}
}
impl fmt::Debug for ExtensionDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("ExtensionDescriptor")
.field("name", &self.name())
.field("full_name", &self.full_name())
.field("json_name", &self.json_name())
.field("number", &self.number())
.field("kind", &self.kind())
.field("cardinality", &self.cardinality())
.field(
"containing_message",
&self.containing_message().name().to_owned(),
)
.field("default_value", &self.default_value())
.field("is_group", &self.is_group())
.field("is_list", &self.is_list())
.field("is_map", &self.is_map())
.field("is_packed", &self.is_packed())
.field("supports_presence", &self.supports_presence())
.finish()
}
}
impl EnumDescriptor {
/// Gets a reference to the [`DescriptorPool`] this enum type is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
&self.pool
}
/// Gets the [`FileDescriptor`] this enum type is defined in.
pub fn parent_file(&self) -> FileDescriptor {
FileDescriptor {
pool: self.pool.clone(),
index: self.inner().id.file,
}
}
/// Gets the parent message type if this enum type is nested inside a another message, or `None` otherwise
pub fn parent_message(&self) -> Option<MessageDescriptor> {
self.inner().parent.map(|index| MessageDescriptor {
pool: self.pool.clone(),
index,
})
}
/// Gets the short name of the enum type, e.g. `MyEnum`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the enum, e.g. `my.package.MyEnum`.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the name of the package this enum type is defined in, e.g. `my.package`.
///
/// If no package name is set, an empty string is returned.
pub fn package_name(&self) -> &str {
self.raw_file().package()
}
/// Gets the path where this enum type is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[5, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the [`FileDescriptorProto`] in which this enum is defined.
pub fn parent_file_descriptor_proto(&self) -> &FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].prost
}
/// Gets a reference to the raw [`EnumDescriptorProto`] wrapped by this [`EnumDescriptor`].
pub fn enum_descriptor_proto(&self) -> &EnumDescriptorProto {
let file = self.parent_file_descriptor_proto();
let path = self.path();
debug_assert_ne!(path.len(), 0);
debug_assert_eq!(path.len() % 2, 0);
if path.len() == 2 {
debug_assert_eq!(path[0], tag::file::ENUM_TYPE);
&file.enum_type[path[1] as usize]
} else {
let message = find_message_proto_prost(file, &path[..path.len() - 2]);
debug_assert_eq!(path[path.len() - 2], tag::message::ENUM_TYPE);
&message.enum_type[path[path.len() - 1] as usize]
}
}
/// Decodes the options defined for this [`EnumDescriptor`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.EnumOptions",
&self.raw().options,
)
}
/// Gets the default value for the enum type.
pub fn default_value(&self) -> EnumValueDescriptor {
EnumValueDescriptor {
parent: self.clone(),
index: 0,
}
}
/// Gets a [`EnumValueDescriptor`] for the enum value with the given name, or `None` if no such value exists.
pub fn get_value_by_name(&self, name: &str) -> Option<EnumValueDescriptor> {
self.inner()
.value_names
.get(name)
.map(|&index| EnumValueDescriptor {
parent: self.clone(),
index,
})
}
/// Gets a [`EnumValueDescriptor`] for the enum value with the given number, or `None` if no such value exists.
///
/// If the enum is defined with the `allow_alias` option and has multiple values with the given number, it is
/// unspecified which one will be returned.
pub fn get_value(&self, number: i32) -> Option<EnumValueDescriptor> {
self.inner()
.value_numbers
.binary_search_by(|(l, _)| l.cmp(&number))
.ok()
.map(|index| EnumValueDescriptor {
parent: self.clone(),
index: self.inner().value_numbers[index].1,
})
}
/// Gets an iterator yielding a [`EnumValueDescriptor`] for each value in this enum.
pub fn values(&self) -> impl ExactSizeIterator<Item = EnumValueDescriptor> + '_ {
self.inner()
.value_numbers
.iter()
.map(|&(_, index)| EnumValueDescriptor {
parent: self.clone(),
index,
})
}
/// Gets an iterator over reserved value number ranges in this enum.
pub fn reserved_ranges(&self) -> impl ExactSizeIterator<Item = RangeInclusive<i32>> + '_ {
self.raw()
.reserved_range
.iter()
.map(|n| n.start()..=n.end())
}
/// Gets an iterator over reserved value names in this enum.
pub fn reserved_names(&self) -> impl ExactSizeIterator<Item = &str> + '_ {
self.raw().reserved_name.iter().map(|n| n.as_ref())
}
fn inner(&self) -> &EnumDescriptorInner {
&self.pool.inner.enums[self.index as usize]
}
fn raw(&self) -> &types::EnumDescriptorProto {
find_enum_proto(self.raw_file(), self.path())
}
fn raw_file(&self) -> &types::FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].raw
}
}
impl fmt::Debug for EnumDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("EnumDescriptor")
.field("name", &self.name())
.field("full_name", &self.full_name())
.field("default_value", &self.default_value())
.field("values", &debug_fmt_iter(self.values()))
.finish()
}
}
impl EnumValueDescriptor {
/// Gets a reference to the [`DescriptorPool`] this enum value is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
self.parent.parent_pool()
}
/// Gets the [`FileDescriptor`] this enum value is defined in.
pub fn parent_file(&self) -> FileDescriptor {
self.parent.parent_file()
}
/// Gets a reference to the [`EnumDescriptor`] this enum value is defined in.
pub fn parent_enum(&self) -> &EnumDescriptor {
&self.parent
}
/// Gets the short name of the enum value, e.g. `MY_VALUE`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the enum value, e.g. `my.package.MY_VALUE`.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the path where this enum value is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[5, 0, 2, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the raw [`EnumValueDescriptorProto`] wrapped by this [`EnumValueDescriptor`].
pub fn enum_value_descriptor_proto(&self) -> &EnumValueDescriptorProto {
&self.parent.enum_descriptor_proto().value[self.index as usize]
}
/// Decodes the options defined for this [`EnumValueDescriptor`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.EnumValueOptions",
&self.raw().options,
)
}
/// Gets the number representing this enum value.
pub fn number(&self) -> i32 {
self.inner().number
}
fn inner(&self) -> &EnumValueDescriptorInner {
&self.parent.inner().values[self.index as usize]
}
fn raw(&self) -> &types::EnumValueDescriptorProto {
&self.parent.raw().value[self.index as usize]
}
}
impl fmt::Debug for EnumValueDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("EnumValueDescriptor")
.field("name", &self.number())
.field("full_name", &self.full_name())
.field("number", &self.number())
.finish()
}
}
impl OneofDescriptor {
/// Gets a reference to the [`DescriptorPool`] this oneof is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
self.message.parent_pool()
}
/// Gets the [`FileDescriptor`] this oneof is defined in.
pub fn parent_file(&self) -> FileDescriptor {
self.message.parent_file()
}
/// Gets a reference to the [`MessageDescriptor`] this oneof is defined in.
pub fn parent_message(&self) -> &MessageDescriptor {
&self.message
}
/// Gets the short name of the oneof, e.g. `my_oneof`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the oneof, e.g. `my.package.MyMessage.my_oneof`.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the path where this oneof is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[4, 0, 8, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the raw [`OneofDescriptorProto`] wrapped by this [`OneofDescriptor`].
pub fn oneof_descriptor_proto(&self) -> &OneofDescriptorProto {
&self.message.descriptor_proto().oneof_decl[self.index as usize]
}
/// Decodes the options defined for this [`OneofDescriptorProto`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.OneofOptions",
&self.raw().options,
)
}
/// Gets an iterator yielding a [`FieldDescriptor`] for each field of the parent message this oneof contains.
pub fn fields(&self) -> impl ExactSizeIterator<Item = FieldDescriptor> + '_ {
self.inner().fields.iter().map(|&index| FieldDescriptor {
message: self.parent_message().clone(),
index,
})
}
fn inner(&self) -> &OneofDescriptorInner {
&self.message.inner().oneofs[self.index as usize]
}
fn raw(&self) -> &types::OneofDescriptorProto {
&self.message.raw().oneof_decl[self.index as usize]
}
}
impl fmt::Debug for OneofDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("OneofDescriptor")
.field("name", &self.name())
.field("full_name", &self.full_name())
.field("fields", &debug_fmt_iter(self.fields()))
.finish()
}
}
impl ServiceDescriptor {
/// Create a new [`ServiceDescriptor`] referencing the service at `index` within the given [`DescriptorPool`].
///
/// # Panics
///
/// Panics if `index` is out-of-bounds.
pub fn new(pool: DescriptorPool, index: usize) -> Self {
debug_assert!(index < pool.services().len());
ServiceDescriptor {
pool,
index: to_index(index),
}
}
/// Returns the index of this [`ServiceDescriptor`] within the parent [`DescriptorPool`].
pub fn index(&self) -> usize {
self.index as usize
}
/// Gets a reference to the [`DescriptorPool`] this service is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
&self.pool
}
/// Gets the [`FileDescriptor`] this service is defined in.
pub fn parent_file(&self) -> FileDescriptor {
FileDescriptor {
pool: self.pool.clone(),
index: self.inner().id.file,
}
}
/// Gets the short name of the service, e.g. `MyService`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the service, e.g. `my.package.Service`.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the name of the package this service is defined in, e.g. `my.package`.
///
/// If no package name is set, an empty string is returned.
pub fn package_name(&self) -> &str {
self.raw_file().package()
}
/// Gets the path where this service is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[6, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the [`FileDescriptorProto`] in which this service is defined.
pub fn parent_file_descriptor_proto(&self) -> &FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].prost
}
/// Gets a reference to the raw [`ServiceDescriptorProto`] wrapped by this [`ServiceDescriptor`].
pub fn service_descriptor_proto(&self) -> &ServiceDescriptorProto {
let path = self.path();
debug_assert!(!path.is_empty());
&self.parent_file_descriptor_proto().service[*path.last().unwrap() as usize]
}
/// Decodes the options defined for this [`ServiceDescriptorProto`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.ServiceOptions",
&self.raw().options,
)
}
/// Gets an iterator yielding a [`MethodDescriptor`] for each method defined in this service.
pub fn methods(&self) -> impl ExactSizeIterator<Item = MethodDescriptor> + '_ {
indices(&self.inner().methods).map(|index| MethodDescriptor {
service: self.clone(),
index,
})
}
fn inner(&self) -> &ServiceDescriptorInner {
&self.pool.inner.services[self.index as usize]
}
fn raw(&self) -> &types::ServiceDescriptorProto {
let path = self.path();
debug_assert!(!path.is_empty());
&self.raw_file().service[*path.last().unwrap() as usize]
}
fn raw_file(&self) -> &types::FileDescriptorProto {
&self.pool.inner.files[self.inner().id.file as usize].raw
}
}
impl fmt::Debug for ServiceDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("ServiceDescriptor")
.field("name", &self.name())
.field("full_name", &self.full_name())
.field("index", &self.index())
.field("methods", &debug_fmt_iter(self.methods()))
.finish()
}
}
impl MethodDescriptor {
/// Create a new [`MethodDescriptor`] referencing the method at `index` within the [`ServiceDescriptor`].
///
/// # Panics
///
/// Panics if `index` is out-of-bounds.
pub fn new(service: ServiceDescriptor, index: usize) -> Self {
debug_assert!(index < service.methods().len());
MethodDescriptor {
service,
index: to_index(index),
}
}
/// Gets the index of the method within the parent [`ServiceDescriptor`].
pub fn index(&self) -> usize {
self.index as usize
}
/// Gets a reference to the [`ServiceDescriptor`] this method is defined in.
pub fn parent_service(&self) -> &ServiceDescriptor {
&self.service
}
/// Gets a reference to the [`DescriptorPool`] this method is defined in.
pub fn parent_pool(&self) -> &DescriptorPool {
self.service.parent_pool()
}
/// Gets the [`FileDescriptor`] this method is defined in.
pub fn parent_file(&self) -> FileDescriptor {
self.service.parent_file()
}
/// Gets the short name of the method, e.g. `method`.
pub fn name(&self) -> &str {
self.inner().id.name()
}
/// Gets the full name of the method, e.g. `my.package.MyService.my_method`.
pub fn full_name(&self) -> &str {
self.inner().id.full_name()
}
/// Gets the path where this method is defined within the [`FileDescriptorProto`][FileDescriptorProto], e.g. `[6, 0, 2, 0]`.
///
/// See [`path`][prost_types::source_code_info::Location::path] for more details on the structure of the path.
pub fn path(&self) -> &[i32] {
&self.inner().id.path
}
/// Gets a reference to the raw [`MethodDescriptorProto`] wrapped by this [`MethodDescriptor`].
pub fn method_descriptor_proto(&self) -> &MethodDescriptorProto {
&self.service.service_descriptor_proto().method[self.index as usize]
}
/// Decodes the options defined for this [`MethodDescriptorProto`], including any extension options.
pub fn options(&self) -> DynamicMessage {
decode_options(
self.parent_pool(),
"google.protobuf.MethodOptions",
&self.raw().options,
)
}
/// Gets the [`MessageDescriptor`] for the input type of this method.
pub fn input(&self) -> MessageDescriptor {
MessageDescriptor {
pool: self.parent_pool().clone(),
index: self.inner().input,
}
}
/// Gets the [`MessageDescriptor`] for the output type of this method.
pub fn output(&self) -> MessageDescriptor {
MessageDescriptor {
pool: self.parent_pool().clone(),
index: self.inner().output,
}
}
/// Returns `true` if the client streams multiple messages.
pub fn is_client_streaming(&self) -> bool {
self.raw().client_streaming()
}
/// Returns `true` if the server streams multiple messages.
pub fn is_server_streaming(&self) -> bool {
self.raw().server_streaming()
}
fn inner(&self) -> &MethodDescriptorInner {
&self.service.inner().methods[self.index as usize]
}
fn raw(&self) -> &types::MethodDescriptorProto {
&self.service.raw().method[self.index as usize]
}
}
impl fmt::Debug for MethodDescriptor {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("MethodDescriptor")
.field("name", &self.name())
.field("full_name", &self.full_name())
.field("index", &self.index())
.field("input", &self.input())
.field("output", &self.output())
.field("is_client_streaming", &self.is_client_streaming())
.field("is_server_streaming", &self.is_server_streaming())
.finish()
}
}
fn debug_fmt_iter<I>(i: I) -> impl fmt::Debug
where
I: Iterator,
I::Item: fmt::Debug,
{
struct Wrapper<T>(Vec<T>);
impl<T> fmt::Debug for Wrapper<T>
where
T: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(&self.0).finish()
}
}
Wrapper(i.collect())
}
fn indices<T>(f: &Vec<T>) -> Range<DescriptorIndex> {
0..to_index(f.len())
}
fn join_name<'a>(namespace: &str, name: &'a str) -> Cow<'a, str> {
if namespace.is_empty() {
Cow::Borrowed(name)
} else {
Cow::Owned(format!("{}.{}", namespace, name))
}
}
fn decode_options<T>(
pool: &DescriptorPool,
name: &str,
option: &Option<Options<T>>,
) -> DynamicMessage {
let message_desc = pool
.get_message_by_name(name)
.unwrap_or_else(|| DescriptorPool::global().get_message_by_name(name).unwrap());
let bytes = option
.as_ref()
.map(|o| o.encoded.as_slice())
.unwrap_or_default();
DynamicMessage::decode(message_desc, bytes).unwrap()
}
fn find_message_proto_prost<'a>(
file: &'a FileDescriptorProto,
path: &[i32],
) -> &'a DescriptorProto {
debug_assert_ne!(path.len(), 0);
debug_assert_eq!(path.len() % 2, 0);
let mut message: Option<&'a DescriptorProto> = None;
for part in path.chunks(2) {
match part[0] {
tag::file::MESSAGE_TYPE => message = Some(&file.message_type[part[1] as usize]),
tag::message::NESTED_TYPE => {
message = Some(&message.unwrap().nested_type[part[1] as usize])
}
_ => panic!("invalid message path"),
}
}
message.unwrap()
}