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// This file is @generated by prost-build.
/// The protocol compiler can output a FileDescriptorSet containing the .proto
/// files it parses.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FileDescriptorSet {
#[prost(message, repeated, tag = "1")]
pub file: ::prost::alloc::vec::Vec<FileDescriptorProto>,
}
/// Describes a complete .proto file.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FileDescriptorProto {
/// file name, relative to root of source tree
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
/// e.g. "foo", "foo.bar", etc.
#[prost(string, optional, tag = "2")]
pub package: ::core::option::Option<::prost::alloc::string::String>,
/// Names of files imported by this file.
#[prost(string, repeated, tag = "3")]
pub dependency: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
/// Indexes of the public imported files in the dependency list above.
#[prost(int32, repeated, packed = "false", tag = "10")]
pub public_dependency: ::prost::alloc::vec::Vec<i32>,
/// Indexes of the weak imported files in the dependency list.
/// For Google-internal migration only. Do not use.
#[prost(int32, repeated, packed = "false", tag = "11")]
pub weak_dependency: ::prost::alloc::vec::Vec<i32>,
/// All top-level definitions in this file.
#[prost(message, repeated, tag = "4")]
pub message_type: ::prost::alloc::vec::Vec<DescriptorProto>,
#[prost(message, repeated, tag = "5")]
pub enum_type: ::prost::alloc::vec::Vec<EnumDescriptorProto>,
#[prost(message, repeated, tag = "6")]
pub service: ::prost::alloc::vec::Vec<ServiceDescriptorProto>,
#[prost(message, repeated, tag = "7")]
pub extension: ::prost::alloc::vec::Vec<FieldDescriptorProto>,
#[prost(message, optional, tag = "8")]
pub options: ::core::option::Option<FileOptions>,
/// This field contains optional information about the original source code.
/// You may safely remove this entire field without harming runtime
/// functionality of the descriptors -- the information is needed only by
/// development tools.
#[prost(message, optional, tag = "9")]
pub source_code_info: ::core::option::Option<SourceCodeInfo>,
/// The syntax of the proto file.
/// The supported values are "proto2" and "proto3".
#[prost(string, optional, tag = "12")]
pub syntax: ::core::option::Option<::prost::alloc::string::String>,
}
/// Describes a message type.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct DescriptorProto {
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
#[prost(message, repeated, tag = "2")]
pub field: ::prost::alloc::vec::Vec<FieldDescriptorProto>,
#[prost(message, repeated, tag = "6")]
pub extension: ::prost::alloc::vec::Vec<FieldDescriptorProto>,
#[prost(message, repeated, tag = "3")]
pub nested_type: ::prost::alloc::vec::Vec<DescriptorProto>,
#[prost(message, repeated, tag = "4")]
pub enum_type: ::prost::alloc::vec::Vec<EnumDescriptorProto>,
#[prost(message, repeated, tag = "5")]
pub extension_range: ::prost::alloc::vec::Vec<descriptor_proto::ExtensionRange>,
#[prost(message, repeated, tag = "8")]
pub oneof_decl: ::prost::alloc::vec::Vec<OneofDescriptorProto>,
#[prost(message, optional, tag = "7")]
pub options: ::core::option::Option<MessageOptions>,
#[prost(message, repeated, tag = "9")]
pub reserved_range: ::prost::alloc::vec::Vec<descriptor_proto::ReservedRange>,
/// Reserved field names, which may not be used by fields in the same message.
/// A given name may only be reserved once.
#[prost(string, repeated, tag = "10")]
pub reserved_name: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
}
/// Nested message and enum types in `DescriptorProto`.
pub mod descriptor_proto {
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ExtensionRange {
/// Inclusive.
#[prost(int32, optional, tag = "1")]
pub start: ::core::option::Option<i32>,
/// Exclusive.
#[prost(int32, optional, tag = "2")]
pub end: ::core::option::Option<i32>,
#[prost(message, optional, tag = "3")]
pub options: ::core::option::Option<super::ExtensionRangeOptions>,
}
/// Range of reserved tag numbers. Reserved tag numbers may not be used by
/// fields or extension ranges in the same message. Reserved ranges may
/// not overlap.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReservedRange {
/// Inclusive.
#[prost(int32, optional, tag = "1")]
pub start: ::core::option::Option<i32>,
/// Exclusive.
#[prost(int32, optional, tag = "2")]
pub end: ::core::option::Option<i32>,
}
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ExtensionRangeOptions {
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
/// Describes a field within a message.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FieldDescriptorProto {
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
#[prost(int32, optional, tag = "3")]
pub number: ::core::option::Option<i32>,
#[prost(enumeration = "field_descriptor_proto::Label", optional, tag = "4")]
pub label: ::core::option::Option<i32>,
/// If type_name is set, this need not be set. If both this and type_name
/// are set, this must be one of TYPE_ENUM, TYPE_MESSAGE or TYPE_GROUP.
#[prost(enumeration = "field_descriptor_proto::Type", optional, tag = "5")]
pub r#type: ::core::option::Option<i32>,
/// For message and enum types, this is the name of the type. If the name
/// starts with a '.', it is fully-qualified. Otherwise, C++-like scoping
/// rules are used to find the type (i.e. first the nested types within this
/// message are searched, then within the parent, on up to the root
/// namespace).
#[prost(string, optional, tag = "6")]
pub type_name: ::core::option::Option<::prost::alloc::string::String>,
/// For extensions, this is the name of the type being extended. It is
/// resolved in the same manner as type_name.
#[prost(string, optional, tag = "2")]
pub extendee: ::core::option::Option<::prost::alloc::string::String>,
/// For numeric types, contains the original text representation of the value.
/// For booleans, "true" or "false".
/// For strings, contains the default text contents (not escaped in any way).
/// For bytes, contains the C escaped value. All bytes >= 128 are escaped.
/// TODO(kenton): Base-64 encode?
#[prost(string, optional, tag = "7")]
pub default_value: ::core::option::Option<::prost::alloc::string::String>,
/// If set, gives the index of a oneof in the containing type's oneof_decl
/// list. This field is a member of that oneof.
#[prost(int32, optional, tag = "9")]
pub oneof_index: ::core::option::Option<i32>,
/// JSON name of this field. The value is set by protocol compiler. If the
/// user has set a "json_name" option on this field, that option's value
/// will be used. Otherwise, it's deduced from the field's name by converting
/// it to camelCase.
#[prost(string, optional, tag = "10")]
pub json_name: ::core::option::Option<::prost::alloc::string::String>,
#[prost(message, optional, tag = "8")]
pub options: ::core::option::Option<FieldOptions>,
/// If true, this is a proto3 "optional". When a proto3 field is optional, it
/// tracks presence regardless of field type.
///
/// When proto3_optional is true, this field must be belong to a oneof to
/// signal to old proto3 clients that presence is tracked for this field. This
/// oneof is known as a "synthetic" oneof, and this field must be its sole
/// member (each proto3 optional field gets its own synthetic oneof). Synthetic
/// oneofs exist in the descriptor only, and do not generate any API. Synthetic
/// oneofs must be ordered after all "real" oneofs.
///
/// For message fields, proto3_optional doesn't create any semantic change,
/// since non-repeated message fields always track presence. However it still
/// indicates the semantic detail of whether the user wrote "optional" or not.
/// This can be useful for round-tripping the .proto file. For consistency we
/// give message fields a synthetic oneof also, even though it is not required
/// to track presence. This is especially important because the parser can't
/// tell if a field is a message or an enum, so it must always create a
/// synthetic oneof.
///
/// Proto2 optional fields do not set this flag, because they already indicate
/// optional with `LABEL_OPTIONAL`.
#[prost(bool, optional, tag = "17")]
pub proto3_optional: ::core::option::Option<bool>,
}
/// Nested message and enum types in `FieldDescriptorProto`.
pub mod field_descriptor_proto {
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum Type {
/// 0 is reserved for errors.
/// Order is weird for historical reasons.
Double = 1,
Float = 2,
/// Not ZigZag encoded. Negative numbers take 10 bytes. Use TYPE_SINT64 if
/// negative values are likely.
Int64 = 3,
Uint64 = 4,
/// Not ZigZag encoded. Negative numbers take 10 bytes. Use TYPE_SINT32 if
/// negative values are likely.
Int32 = 5,
Fixed64 = 6,
Fixed32 = 7,
Bool = 8,
String = 9,
/// Tag-delimited aggregate.
/// Group type is deprecated and not supported in proto3. However, Proto3
/// implementations should still be able to parse the group wire format and
/// treat group fields as unknown fields.
Group = 10,
/// Length-delimited aggregate.
Message = 11,
/// New in version 2.
Bytes = 12,
Uint32 = 13,
Enum = 14,
Sfixed32 = 15,
Sfixed64 = 16,
/// Uses ZigZag encoding.
Sint32 = 17,
/// Uses ZigZag encoding.
Sint64 = 18,
}
impl Type {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Type::Double => "TYPE_DOUBLE",
Type::Float => "TYPE_FLOAT",
Type::Int64 => "TYPE_INT64",
Type::Uint64 => "TYPE_UINT64",
Type::Int32 => "TYPE_INT32",
Type::Fixed64 => "TYPE_FIXED64",
Type::Fixed32 => "TYPE_FIXED32",
Type::Bool => "TYPE_BOOL",
Type::String => "TYPE_STRING",
Type::Group => "TYPE_GROUP",
Type::Message => "TYPE_MESSAGE",
Type::Bytes => "TYPE_BYTES",
Type::Uint32 => "TYPE_UINT32",
Type::Enum => "TYPE_ENUM",
Type::Sfixed32 => "TYPE_SFIXED32",
Type::Sfixed64 => "TYPE_SFIXED64",
Type::Sint32 => "TYPE_SINT32",
Type::Sint64 => "TYPE_SINT64",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"TYPE_DOUBLE" => Some(Self::Double),
"TYPE_FLOAT" => Some(Self::Float),
"TYPE_INT64" => Some(Self::Int64),
"TYPE_UINT64" => Some(Self::Uint64),
"TYPE_INT32" => Some(Self::Int32),
"TYPE_FIXED64" => Some(Self::Fixed64),
"TYPE_FIXED32" => Some(Self::Fixed32),
"TYPE_BOOL" => Some(Self::Bool),
"TYPE_STRING" => Some(Self::String),
"TYPE_GROUP" => Some(Self::Group),
"TYPE_MESSAGE" => Some(Self::Message),
"TYPE_BYTES" => Some(Self::Bytes),
"TYPE_UINT32" => Some(Self::Uint32),
"TYPE_ENUM" => Some(Self::Enum),
"TYPE_SFIXED32" => Some(Self::Sfixed32),
"TYPE_SFIXED64" => Some(Self::Sfixed64),
"TYPE_SINT32" => Some(Self::Sint32),
"TYPE_SINT64" => Some(Self::Sint64),
_ => None,
}
}
}
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum Label {
/// 0 is reserved for errors
Optional = 1,
Required = 2,
Repeated = 3,
}
impl Label {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Label::Optional => "LABEL_OPTIONAL",
Label::Required => "LABEL_REQUIRED",
Label::Repeated => "LABEL_REPEATED",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"LABEL_OPTIONAL" => Some(Self::Optional),
"LABEL_REQUIRED" => Some(Self::Required),
"LABEL_REPEATED" => Some(Self::Repeated),
_ => None,
}
}
}
}
/// Describes a oneof.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct OneofDescriptorProto {
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
#[prost(message, optional, tag = "2")]
pub options: ::core::option::Option<OneofOptions>,
}
/// Describes an enum type.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct EnumDescriptorProto {
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
#[prost(message, repeated, tag = "2")]
pub value: ::prost::alloc::vec::Vec<EnumValueDescriptorProto>,
#[prost(message, optional, tag = "3")]
pub options: ::core::option::Option<EnumOptions>,
/// Range of reserved numeric values. Reserved numeric values may not be used
/// by enum values in the same enum declaration. Reserved ranges may not
/// overlap.
#[prost(message, repeated, tag = "4")]
pub reserved_range: ::prost::alloc::vec::Vec<
enum_descriptor_proto::EnumReservedRange,
>,
/// Reserved enum value names, which may not be reused. A given name may only
/// be reserved once.
#[prost(string, repeated, tag = "5")]
pub reserved_name: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
}
/// Nested message and enum types in `EnumDescriptorProto`.
pub mod enum_descriptor_proto {
/// Range of reserved numeric values. Reserved values may not be used by
/// entries in the same enum. Reserved ranges may not overlap.
///
/// Note that this is distinct from DescriptorProto.ReservedRange in that it
/// is inclusive such that it can appropriately represent the entire int32
/// domain.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct EnumReservedRange {
/// Inclusive.
#[prost(int32, optional, tag = "1")]
pub start: ::core::option::Option<i32>,
/// Inclusive.
#[prost(int32, optional, tag = "2")]
pub end: ::core::option::Option<i32>,
}
}
/// Describes a value within an enum.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct EnumValueDescriptorProto {
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
#[prost(int32, optional, tag = "2")]
pub number: ::core::option::Option<i32>,
#[prost(message, optional, tag = "3")]
pub options: ::core::option::Option<EnumValueOptions>,
}
/// Describes a service.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ServiceDescriptorProto {
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
#[prost(message, repeated, tag = "2")]
pub method: ::prost::alloc::vec::Vec<MethodDescriptorProto>,
#[prost(message, optional, tag = "3")]
pub options: ::core::option::Option<ServiceOptions>,
}
/// Describes a method of a service.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MethodDescriptorProto {
#[prost(string, optional, tag = "1")]
pub name: ::core::option::Option<::prost::alloc::string::String>,
/// Input and output type names. These are resolved in the same way as
/// FieldDescriptorProto.type_name, but must refer to a message type.
#[prost(string, optional, tag = "2")]
pub input_type: ::core::option::Option<::prost::alloc::string::String>,
#[prost(string, optional, tag = "3")]
pub output_type: ::core::option::Option<::prost::alloc::string::String>,
#[prost(message, optional, tag = "4")]
pub options: ::core::option::Option<MethodOptions>,
/// Identifies if client streams multiple client messages
#[prost(bool, optional, tag = "5", default = "false")]
pub client_streaming: ::core::option::Option<bool>,
/// Identifies if server streams multiple server messages
#[prost(bool, optional, tag = "6", default = "false")]
pub server_streaming: ::core::option::Option<bool>,
}
/// Each of the definitions above may have "options" attached. These are
/// just annotations which may cause code to be generated slightly differently
/// or may contain hints for code that manipulates protocol messages.
///
/// Clients may define custom options as extensions of the \*Options messages.
/// These extensions may not yet be known at parsing time, so the parser cannot
/// store the values in them. Instead it stores them in a field in the \*Options
/// message called uninterpreted_option. This field must have the same name
/// across all \*Options messages. We then use this field to populate the
/// extensions when we build a descriptor, at which point all protos have been
/// parsed and so all extensions are known.
///
/// Extension numbers for custom options may be chosen as follows:
///
/// * For options which will only be used within a single application or
/// organization, or for experimental options, use field numbers 50000
/// through 99999. It is up to you to ensure that you do not use the
/// same number for multiple options.
/// * For options which will be published and used publicly by multiple
/// independent entities, e-mail protobuf-global-extension-registry@google.com
/// to reserve extension numbers. Simply provide your project name (e.g.
/// Objective-C plugin) and your project website (if available) -- there's no
/// need to explain how you intend to use them. Usually you only need one
/// extension number. You can declare multiple options with only one extension
/// number by putting them in a sub-message. See the Custom Options section of
/// the docs for examples:
/// <https://developers.google.com/protocol-buffers/docs/proto#options>
/// If this turns out to be popular, a web service will be set up
/// to automatically assign option numbers.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FileOptions {
/// Sets the Java package where classes generated from this .proto will be
/// placed. By default, the proto package is used, but this is often
/// inappropriate because proto packages do not normally start with backwards
/// domain names.
#[prost(string, optional, tag = "1")]
pub java_package: ::core::option::Option<::prost::alloc::string::String>,
/// Controls the name of the wrapper Java class generated for the .proto file.
/// That class will always contain the .proto file's getDescriptor() method as
/// well as any top-level extensions defined in the .proto file.
/// If java_multiple_files is disabled, then all the other classes from the
/// .proto file will be nested inside the single wrapper outer class.
#[prost(string, optional, tag = "8")]
pub java_outer_classname: ::core::option::Option<::prost::alloc::string::String>,
/// If enabled, then the Java code generator will generate a separate .java
/// file for each top-level message, enum, and service defined in the .proto
/// file. Thus, these types will *not* be nested inside the wrapper class
/// named by java_outer_classname. However, the wrapper class will still be
/// generated to contain the file's getDescriptor() method as well as any
/// top-level extensions defined in the file.
#[prost(bool, optional, tag = "10", default = "false")]
pub java_multiple_files: ::core::option::Option<bool>,
/// This option does nothing.
#[deprecated]
#[prost(bool, optional, tag = "20")]
pub java_generate_equals_and_hash: ::core::option::Option<bool>,
/// If set true, then the Java2 code generator will generate code that
/// throws an exception whenever an attempt is made to assign a non-UTF-8
/// byte sequence to a string field.
/// Message reflection will do the same.
/// However, an extension field still accepts non-UTF-8 byte sequences.
/// This option has no effect on when used with the lite runtime.
#[prost(bool, optional, tag = "27", default = "false")]
pub java_string_check_utf8: ::core::option::Option<bool>,
#[prost(
enumeration = "file_options::OptimizeMode",
optional,
tag = "9",
default = "Speed"
)]
pub optimize_for: ::core::option::Option<i32>,
/// Sets the Go package where structs generated from this .proto will be
/// placed. If omitted, the Go package will be derived from the following:
///
/// * The basename of the package import path, if provided.
/// * Otherwise, the package statement in the .proto file, if present.
/// * Otherwise, the basename of the .proto file, without extension.
#[prost(string, optional, tag = "11")]
pub go_package: ::core::option::Option<::prost::alloc::string::String>,
/// Should generic services be generated in each language? "Generic" services
/// are not specific to any particular RPC system. They are generated by the
/// main code generators in each language (without additional plugins).
/// Generic services were the only kind of service generation supported by
/// early versions of google.protobuf.
///
/// Generic services are now considered deprecated in favor of using plugins
/// that generate code specific to your particular RPC system. Therefore,
/// these default to false. Old code which depends on generic services should
/// explicitly set them to true.
#[prost(bool, optional, tag = "16", default = "false")]
pub cc_generic_services: ::core::option::Option<bool>,
#[prost(bool, optional, tag = "17", default = "false")]
pub java_generic_services: ::core::option::Option<bool>,
#[prost(bool, optional, tag = "18", default = "false")]
pub py_generic_services: ::core::option::Option<bool>,
#[prost(bool, optional, tag = "42", default = "false")]
pub php_generic_services: ::core::option::Option<bool>,
/// Is this file deprecated?
/// Depending on the target platform, this can emit Deprecated annotations
/// for everything in the file, or it will be completely ignored; in the very
/// least, this is a formalization for deprecating files.
#[prost(bool, optional, tag = "23", default = "false")]
pub deprecated: ::core::option::Option<bool>,
/// Enables the use of arenas for the proto messages in this file. This applies
/// only to generated classes for C++.
#[prost(bool, optional, tag = "31", default = "true")]
pub cc_enable_arenas: ::core::option::Option<bool>,
/// Sets the objective c class prefix which is prepended to all objective c
/// generated classes from this .proto. There is no default.
#[prost(string, optional, tag = "36")]
pub objc_class_prefix: ::core::option::Option<::prost::alloc::string::String>,
/// Namespace for generated classes; defaults to the package.
#[prost(string, optional, tag = "37")]
pub csharp_namespace: ::core::option::Option<::prost::alloc::string::String>,
/// By default Swift generators will take the proto package and CamelCase it
/// replacing '.' with underscore and use that to prefix the types/symbols
/// defined. When this options is provided, they will use this value instead
/// to prefix the types/symbols defined.
#[prost(string, optional, tag = "39")]
pub swift_prefix: ::core::option::Option<::prost::alloc::string::String>,
/// Sets the php class prefix which is prepended to all php generated classes
/// from this .proto. Default is empty.
#[prost(string, optional, tag = "40")]
pub php_class_prefix: ::core::option::Option<::prost::alloc::string::String>,
/// Use this option to change the namespace of php generated classes. Default
/// is empty. When this option is empty, the package name will be used for
/// determining the namespace.
#[prost(string, optional, tag = "41")]
pub php_namespace: ::core::option::Option<::prost::alloc::string::String>,
/// Use this option to change the namespace of php generated metadata classes.
/// Default is empty. When this option is empty, the proto file name will be
/// used for determining the namespace.
#[prost(string, optional, tag = "44")]
pub php_metadata_namespace: ::core::option::Option<::prost::alloc::string::String>,
/// Use this option to change the package of ruby generated classes. Default
/// is empty. When this option is not set, the package name will be used for
/// determining the ruby package.
#[prost(string, optional, tag = "45")]
pub ruby_package: ::core::option::Option<::prost::alloc::string::String>,
/// The parser stores options it doesn't recognize here.
/// See the documentation for the "Options" section above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
/// Nested message and enum types in `FileOptions`.
pub mod file_options {
/// Generated classes can be optimized for speed or code size.
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum OptimizeMode {
/// Generate complete code for parsing, serialization,
Speed = 1,
/// etc.
///
/// Use ReflectionOps to implement these methods.
CodeSize = 2,
/// Generate code using MessageLite and the lite runtime.
LiteRuntime = 3,
}
impl OptimizeMode {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
OptimizeMode::Speed => "SPEED",
OptimizeMode::CodeSize => "CODE_SIZE",
OptimizeMode::LiteRuntime => "LITE_RUNTIME",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"SPEED" => Some(Self::Speed),
"CODE_SIZE" => Some(Self::CodeSize),
"LITE_RUNTIME" => Some(Self::LiteRuntime),
_ => None,
}
}
}
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MessageOptions {
/// Set true to use the old proto1 MessageSet wire format for extensions.
/// This is provided for backwards-compatibility with the MessageSet wire
/// format. You should not use this for any other reason: It's less
/// efficient, has fewer features, and is more complicated.
///
/// The message must be defined exactly as follows:
/// message Foo {
/// option message_set_wire_format = true;
/// extensions 4 to max;
/// }
/// Note that the message cannot have any defined fields; MessageSets only
/// have extensions.
///
/// All extensions of your type must be singular messages; e.g. they cannot
/// be int32s, enums, or repeated messages.
///
/// Because this is an option, the above two restrictions are not enforced by
/// the protocol compiler.
#[prost(bool, optional, tag = "1", default = "false")]
pub message_set_wire_format: ::core::option::Option<bool>,
/// Disables the generation of the standard "descriptor()" accessor, which can
/// conflict with a field of the same name. This is meant to make migration
/// from proto1 easier; new code should avoid fields named "descriptor".
#[prost(bool, optional, tag = "2", default = "false")]
pub no_standard_descriptor_accessor: ::core::option::Option<bool>,
/// Is this message deprecated?
/// Depending on the target platform, this can emit Deprecated annotations
/// for the message, or it will be completely ignored; in the very least,
/// this is a formalization for deprecating messages.
#[prost(bool, optional, tag = "3", default = "false")]
pub deprecated: ::core::option::Option<bool>,
/// Whether the message is an automatically generated map entry type for the
/// maps field.
///
/// For maps fields:
/// map\<KeyType, ValueType> map_field = 1;
/// The parsed descriptor looks like:
/// message MapFieldEntry {
/// option map_entry = true;
/// optional KeyType key = 1;
/// optional ValueType value = 2;
/// }
/// repeated MapFieldEntry map_field = 1;
///
/// Implementations may choose not to generate the map_entry=true message, but
/// use a native map in the target language to hold the keys and values.
/// The reflection APIs in such implementations still need to work as
/// if the field is a repeated message field.
///
/// NOTE: Do not set the option in .proto files. Always use the maps syntax
/// instead. The option should only be implicitly set by the proto compiler
/// parser.
#[prost(bool, optional, tag = "7")]
pub map_entry: ::core::option::Option<bool>,
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FieldOptions {
/// The ctype option instructs the C++ code generator to use a different
/// representation of the field than it normally would. See the specific
/// options below. This option is not yet implemented in the open source
/// release -- sorry, we'll try to include it in a future version!
#[prost(
enumeration = "field_options::CType",
optional,
tag = "1",
default = "String"
)]
pub ctype: ::core::option::Option<i32>,
/// The packed option can be enabled for repeated primitive fields to enable
/// a more efficient representation on the wire. Rather than repeatedly
/// writing the tag and type for each element, the entire array is encoded as
/// a single length-delimited blob. In proto3, only explicit setting it to
/// false will avoid using packed encoding.
#[prost(bool, optional, tag = "2")]
pub packed: ::core::option::Option<bool>,
/// The jstype option determines the JavaScript type used for values of the
/// field. The option is permitted only for 64 bit integral and fixed types
/// (int64, uint64, sint64, fixed64, sfixed64). A field with jstype JS_STRING
/// is represented as JavaScript string, which avoids loss of precision that
/// can happen when a large value is converted to a floating point JavaScript.
/// Specifying JS_NUMBER for the jstype causes the generated JavaScript code to
/// use the JavaScript "number" type. The behavior of the default option
/// JS_NORMAL is implementation dependent.
///
/// This option is an enum to permit additional types to be added, e.g.
/// goog.math.Integer.
#[prost(
enumeration = "field_options::JsType",
optional,
tag = "6",
default = "JsNormal"
)]
pub jstype: ::core::option::Option<i32>,
/// Should this field be parsed lazily? Lazy applies only to message-type
/// fields. It means that when the outer message is initially parsed, the
/// inner message's contents will not be parsed but instead stored in encoded
/// form. The inner message will actually be parsed when it is first accessed.
///
/// This is only a hint. Implementations are free to choose whether to use
/// eager or lazy parsing regardless of the value of this option. However,
/// setting this option true suggests that the protocol author believes that
/// using lazy parsing on this field is worth the additional bookkeeping
/// overhead typically needed to implement it.
///
/// This option does not affect the public interface of any generated code;
/// all method signatures remain the same. Furthermore, thread-safety of the
/// interface is not affected by this option; const methods remain safe to
/// call from multiple threads concurrently, while non-const methods continue
/// to require exclusive access.
///
/// Note that implementations may choose not to check required fields within
/// a lazy sub-message. That is, calling IsInitialized() on the outer message
/// may return true even if the inner message has missing required fields.
/// This is necessary because otherwise the inner message would have to be
/// parsed in order to perform the check, defeating the purpose of lazy
/// parsing. An implementation which chooses not to check required fields
/// must be consistent about it. That is, for any particular sub-message, the
/// implementation must either *always* check its required fields, or *never*
/// check its required fields, regardless of whether or not the message has
/// been parsed.
#[prost(bool, optional, tag = "5", default = "false")]
pub lazy: ::core::option::Option<bool>,
/// Is this field deprecated?
/// Depending on the target platform, this can emit Deprecated annotations
/// for accessors, or it will be completely ignored; in the very least, this
/// is a formalization for deprecating fields.
#[prost(bool, optional, tag = "3", default = "false")]
pub deprecated: ::core::option::Option<bool>,
/// For Google-internal migration only. Do not use.
#[prost(bool, optional, tag = "10", default = "false")]
pub weak: ::core::option::Option<bool>,
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
/// Nested message and enum types in `FieldOptions`.
pub mod field_options {
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum CType {
/// Default mode.
String = 0,
Cord = 1,
StringPiece = 2,
}
impl CType {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
CType::String => "STRING",
CType::Cord => "CORD",
CType::StringPiece => "STRING_PIECE",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"STRING" => Some(Self::String),
"CORD" => Some(Self::Cord),
"STRING_PIECE" => Some(Self::StringPiece),
_ => None,
}
}
}
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum JsType {
/// Use the default type.
JsNormal = 0,
/// Use JavaScript strings.
JsString = 1,
/// Use JavaScript numbers.
JsNumber = 2,
}
impl JsType {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
JsType::JsNormal => "JS_NORMAL",
JsType::JsString => "JS_STRING",
JsType::JsNumber => "JS_NUMBER",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"JS_NORMAL" => Some(Self::JsNormal),
"JS_STRING" => Some(Self::JsString),
"JS_NUMBER" => Some(Self::JsNumber),
_ => None,
}
}
}
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct OneofOptions {
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct EnumOptions {
/// Set this option to true to allow mapping different tag names to the same
/// value.
#[prost(bool, optional, tag = "2")]
pub allow_alias: ::core::option::Option<bool>,
/// Is this enum deprecated?
/// Depending on the target platform, this can emit Deprecated annotations
/// for the enum, or it will be completely ignored; in the very least, this
/// is a formalization for deprecating enums.
#[prost(bool, optional, tag = "3", default = "false")]
pub deprecated: ::core::option::Option<bool>,
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct EnumValueOptions {
/// Is this enum value deprecated?
/// Depending on the target platform, this can emit Deprecated annotations
/// for the enum value, or it will be completely ignored; in the very least,
/// this is a formalization for deprecating enum values.
#[prost(bool, optional, tag = "1", default = "false")]
pub deprecated: ::core::option::Option<bool>,
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ServiceOptions {
/// Is this service deprecated?
/// Depending on the target platform, this can emit Deprecated annotations
/// for the service, or it will be completely ignored; in the very least,
/// this is a formalization for deprecating services.
#[prost(bool, optional, tag = "33", default = "false")]
pub deprecated: ::core::option::Option<bool>,
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MethodOptions {
/// Is this method deprecated?
/// Depending on the target platform, this can emit Deprecated annotations
/// for the method, or it will be completely ignored; in the very least,
/// this is a formalization for deprecating methods.
#[prost(bool, optional, tag = "33", default = "false")]
pub deprecated: ::core::option::Option<bool>,
#[prost(
enumeration = "method_options::IdempotencyLevel",
optional,
tag = "34",
default = "IdempotencyUnknown"
)]
pub idempotency_level: ::core::option::Option<i32>,
/// The parser stores options it doesn't recognize here. See above.
#[prost(message, repeated, tag = "999")]
pub uninterpreted_option: ::prost::alloc::vec::Vec<UninterpretedOption>,
}
/// Nested message and enum types in `MethodOptions`.
pub mod method_options {
/// Is this method side-effect-free (or safe in HTTP parlance), or idempotent,
/// or neither? HTTP based RPC implementation may choose GET verb for safe
/// methods, and PUT verb for idempotent methods instead of the default POST.
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum IdempotencyLevel {
IdempotencyUnknown = 0,
/// implies idempotent
NoSideEffects = 1,
/// idempotent, but may have side effects
Idempotent = 2,
}
impl IdempotencyLevel {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
IdempotencyLevel::IdempotencyUnknown => "IDEMPOTENCY_UNKNOWN",
IdempotencyLevel::NoSideEffects => "NO_SIDE_EFFECTS",
IdempotencyLevel::Idempotent => "IDEMPOTENT",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"IDEMPOTENCY_UNKNOWN" => Some(Self::IdempotencyUnknown),
"NO_SIDE_EFFECTS" => Some(Self::NoSideEffects),
"IDEMPOTENT" => Some(Self::Idempotent),
_ => None,
}
}
}
}
/// A message representing a option the parser does not recognize. This only
/// appears in options protos created by the compiler::Parser class.
/// DescriptorPool resolves these when building Descriptor objects. Therefore,
/// options protos in descriptor objects (e.g. returned by Descriptor::options(),
/// or produced by Descriptor::CopyTo()) will never have UninterpretedOptions
/// in them.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct UninterpretedOption {
#[prost(message, repeated, tag = "2")]
pub name: ::prost::alloc::vec::Vec<uninterpreted_option::NamePart>,
/// The value of the uninterpreted option, in whatever type the tokenizer
/// identified it as during parsing. Exactly one of these should be set.
#[prost(string, optional, tag = "3")]
pub identifier_value: ::core::option::Option<::prost::alloc::string::String>,
#[prost(uint64, optional, tag = "4")]
pub positive_int_value: ::core::option::Option<u64>,
#[prost(int64, optional, tag = "5")]
pub negative_int_value: ::core::option::Option<i64>,
#[prost(double, optional, tag = "6")]
pub double_value: ::core::option::Option<f64>,
#[prost(bytes = "vec", optional, tag = "7")]
pub string_value: ::core::option::Option<::prost::alloc::vec::Vec<u8>>,
#[prost(string, optional, tag = "8")]
pub aggregate_value: ::core::option::Option<::prost::alloc::string::String>,
}
/// Nested message and enum types in `UninterpretedOption`.
pub mod uninterpreted_option {
/// The name of the uninterpreted option. Each string represents a segment in
/// a dot-separated name. is_extension is true iff a segment represents an
/// extension (denoted with parentheses in options specs in .proto files).
/// E.g.,{ \["foo", false\], \["bar.baz", true\], \["qux", false\] } represents
/// "foo.(bar.baz).qux".
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct NamePart {
#[prost(string, required, tag = "1")]
pub name_part: ::prost::alloc::string::String,
#[prost(bool, required, tag = "2")]
pub is_extension: bool,
}
}
/// Encapsulates information about the original source file from which a
/// FileDescriptorProto was generated.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SourceCodeInfo {
/// A Location identifies a piece of source code in a .proto file which
/// corresponds to a particular definition. This information is intended
/// to be useful to IDEs, code indexers, documentation generators, and similar
/// tools.
///
/// For example, say we have a file like:
/// message Foo {
/// optional string foo = 1;
/// }
/// Let's look at just the field definition:
/// optional string foo = 1;
/// ^ ^^ ^^ ^ ^^^
/// a bc de f ghi
/// We have the following locations:
/// span path represents
/// \[a,i) \[ 4, 0, 2, 0 \] The whole field definition.
/// \[a,b) \[ 4, 0, 2, 0, 4 \] The label (optional).
/// \[c,d) \[ 4, 0, 2, 0, 5 \] The type (string).
/// \[e,f) \[ 4, 0, 2, 0, 1 \] The name (foo).
/// \[g,h) \[ 4, 0, 2, 0, 3 \] The number (1).
///
/// Notes:
///
/// * A location may refer to a repeated field itself (i.e. not to any
/// particular index within it). This is used whenever a set of elements are
/// logically enclosed in a single code segment. For example, an entire
/// extend block (possibly containing multiple extension definitions) will
/// have an outer location whose path refers to the "extensions" repeated
/// field without an index.
/// * Multiple locations may have the same path. This happens when a single
/// logical declaration is spread out across multiple places. The most
/// obvious example is the "extend" block again -- there may be multiple
/// extend blocks in the same scope, each of which will have the same path.
/// * A location's span is not always a subset of its parent's span. For
/// example, the "extendee" of an extension declaration appears at the
/// beginning of the "extend" block and is shared by all extensions within
/// the block.
/// * Just because a location's span is a subset of some other location's span
/// does not mean that it is a descendant. For example, a "group" defines
/// both a type and a field in a single declaration. Thus, the locations
/// corresponding to the type and field and their components will overlap.
/// * Code which tries to interpret locations should probably be designed to
/// ignore those that it doesn't understand, as more types of locations could
/// be recorded in the future.
#[prost(message, repeated, tag = "1")]
pub location: ::prost::alloc::vec::Vec<source_code_info::Location>,
}
/// Nested message and enum types in `SourceCodeInfo`.
pub mod source_code_info {
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Location {
/// Identifies which part of the FileDescriptorProto was defined at this
/// location.
///
/// Each element is a field number or an index. They form a path from
/// the root FileDescriptorProto to the place where the definition. For
/// example, this path:
/// \[ 4, 3, 2, 7, 1 \]
/// refers to:
/// file.message_type(3) // 4, 3
/// .field(7) // 2, 7
/// .name() // 1
/// This is because FileDescriptorProto.message_type has field number 4:
/// repeated DescriptorProto message_type = 4;
/// and DescriptorProto.field has field number 2:
/// repeated FieldDescriptorProto field = 2;
/// and FieldDescriptorProto.name has field number 1:
/// optional string name = 1;
///
/// Thus, the above path gives the location of a field name. If we removed
/// the last element:
/// \[ 4, 3, 2, 7 \]
/// this path refers to the whole field declaration (from the beginning
/// of the label to the terminating semicolon).
#[prost(int32, repeated, tag = "1")]
pub path: ::prost::alloc::vec::Vec<i32>,
/// Always has exactly three or four elements: start line, start column,
/// end line (optional, otherwise assumed same as start line), end column.
/// These are packed into a single field for efficiency. Note that line
/// and column numbers are zero-based -- typically you will want to add
/// 1 to each before displaying to a user.
#[prost(int32, repeated, tag = "2")]
pub span: ::prost::alloc::vec::Vec<i32>,
/// If this SourceCodeInfo represents a complete declaration, these are any
/// comments appearing before and after the declaration which appear to be
/// attached to the declaration.
///
/// A series of line comments appearing on consecutive lines, with no other
/// tokens appearing on those lines, will be treated as a single comment.
///
/// leading_detached_comments will keep paragraphs of comments that appear
/// before (but not connected to) the current element. Each paragraph,
/// separated by empty lines, will be one comment element in the repeated
/// field.
///
/// Only the comment content is provided; comment markers (e.g. //) are
/// stripped out. For block comments, leading whitespace and an asterisk
/// will be stripped from the beginning of each line other than the first.
/// Newlines are included in the output.
///
/// Examples:
///
/// optional int32 foo = 1; // Comment attached to foo.
/// // Comment attached to bar.
/// optional int32 bar = 2;
///
/// optional string baz = 3;
/// // Comment attached to baz.
/// // Another line attached to baz.
///
/// // Comment attached to qux.
/// //
/// // Another line attached to qux.
/// optional double qux = 4;
///
/// // Detached comment for corge. This is not leading or trailing comments
/// // to qux or corge because there are blank lines separating it from
/// // both.
///
/// // Detached comment for corge paragraph 2.
///
/// optional string corge = 5;
/// /\* Block comment attached
/// \* to corge. Leading asterisks
/// \* will be removed. */
/// /* Block comment attached to
/// \* grault. \*/
/// optional int32 grault = 6;
///
/// // ignored detached comments.
#[prost(string, optional, tag = "3")]
pub leading_comments: ::core::option::Option<::prost::alloc::string::String>,
#[prost(string, optional, tag = "4")]
pub trailing_comments: ::core::option::Option<::prost::alloc::string::String>,
#[prost(string, repeated, tag = "6")]
pub leading_detached_comments: ::prost::alloc::vec::Vec<
::prost::alloc::string::String,
>,
}
}
/// Describes the relationship between generated code and its original source
/// file. A GeneratedCodeInfo message is associated with only one generated
/// source file, but may contain references to different source .proto files.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct GeneratedCodeInfo {
/// An Annotation connects some span of text in generated code to an element
/// of its generating .proto file.
#[prost(message, repeated, tag = "1")]
pub annotation: ::prost::alloc::vec::Vec<generated_code_info::Annotation>,
}
/// Nested message and enum types in `GeneratedCodeInfo`.
pub mod generated_code_info {
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Annotation {
/// Identifies the element in the original source .proto file. This field
/// is formatted the same as SourceCodeInfo.Location.path.
#[prost(int32, repeated, tag = "1")]
pub path: ::prost::alloc::vec::Vec<i32>,
/// Identifies the filesystem path to the original source .proto.
#[prost(string, optional, tag = "2")]
pub source_file: ::core::option::Option<::prost::alloc::string::String>,
/// Identifies the starting offset in bytes in the generated code
/// that relates to the identified object.
#[prost(int32, optional, tag = "3")]
pub begin: ::core::option::Option<i32>,
/// Identifies the ending offset in bytes in the generated code that
/// relates to the identified offset. The end offset should be one past
/// the last relevant byte (so the length of the text = end - begin).
#[prost(int32, optional, tag = "4")]
pub end: ::core::option::Option<i32>,
}
}
/// `Any` contains an arbitrary serialized protocol buffer message along with a
/// URL that describes the type of the serialized message.
///
/// Protobuf library provides support to pack/unpack Any values in the form
/// of utility functions or additional generated methods of the Any type.
///
/// Example 1: Pack and unpack a message in C++.
///
/// ```text
/// Foo foo = ...;
/// Any any;
/// any.PackFrom(foo);
/// ...
/// if (any.UnpackTo(&foo)) {
/// ...
/// }
/// ```
///
/// Example 2: Pack and unpack a message in Java.
///
/// ```text
/// Foo foo = ...;
/// Any any = Any.pack(foo);
/// ...
/// if (any.is(Foo.class)) {
/// foo = any.unpack(Foo.class);
/// }
/// ```
///
/// Example 3: Pack and unpack a message in Python.
///
/// ```text
/// foo = Foo(...)
/// any = Any()
/// any.Pack(foo)
/// ...
/// if any.Is(Foo.DESCRIPTOR):
/// any.Unpack(foo)
/// ...
/// ```
///
/// Example 4: Pack and unpack a message in Go
///
/// ```text
/// foo := &pb.Foo{...}
/// any, err := anypb.New(foo)
/// if err != nil {
/// ...
/// }
/// ...
/// foo := &pb.Foo{}
/// if err := any.UnmarshalTo(foo); err != nil {
/// ...
/// }
/// ```
///
/// The pack methods provided by protobuf library will by default use
/// 'type.googleapis.com/full.type.name' as the type URL and the unpack
/// methods only use the fully qualified type name after the last '/'
/// in the type URL, for example "foo.bar.com/x/y.z" will yield type
/// name "y.z".
///
/// # JSON
///
/// The JSON representation of an `Any` value uses the regular
/// representation of the deserialized, embedded message, with an
/// additional field `@type` which contains the type URL. Example:
///
/// ```text
/// package google.profile;
/// message Person {
/// string first_name = 1;
/// string last_name = 2;
/// }
///
/// {
/// "@type": "type.googleapis.com/google.profile.Person",
/// "firstName": <string>,
/// "lastName": <string>
/// }
/// ```
///
/// If the embedded message type is well-known and has a custom JSON
/// representation, that representation will be embedded adding a field
/// `value` which holds the custom JSON in addition to the `@type`
/// field. Example (for message \[google.protobuf.Duration\]\[\]):
///
/// ```text
/// {
/// "@type": "type.googleapis.com/google.protobuf.Duration",
/// "value": "1.212s"
/// }
/// ```
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Any {
/// A URL/resource name that uniquely identifies the type of the serialized
/// protocol buffer message. This string must contain at least
/// one "/" character. The last segment of the URL's path must represent
/// the fully qualified name of the type (as in
/// `path/google.protobuf.Duration`). The name should be in a canonical form
/// (e.g., leading "." is not accepted).
///
/// In practice, teams usually precompile into the binary all types that they
/// expect it to use in the context of Any. However, for URLs which use the
/// scheme `http`, `https`, or no scheme, one can optionally set up a type
/// server that maps type URLs to message definitions as follows:
///
/// * If no scheme is provided, `https` is assumed.
/// * An HTTP GET on the URL must yield a \[google.protobuf.Type\]\[\]
/// value in binary format, or produce an error.
/// * Applications are allowed to cache lookup results based on the
/// URL, or have them precompiled into a binary to avoid any
/// lookup. Therefore, binary compatibility needs to be preserved
/// on changes to types. (Use versioned type names to manage
/// breaking changes.)
///
/// Note: this functionality is not currently available in the official
/// protobuf release, and it is not used for type URLs beginning with
/// type.googleapis.com.
///
/// Schemes other than `http`, `https` (or the empty scheme) might be
/// used with implementation specific semantics.
#[prost(string, tag = "1")]
pub type_url: ::prost::alloc::string::String,
/// Must be a valid serialized protocol buffer of the above specified type.
#[prost(bytes = "vec", tag = "2")]
pub value: ::prost::alloc::vec::Vec<u8>,
}
/// `SourceContext` represents information about the source of a
/// protobuf element, like the file in which it is defined.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SourceContext {
/// The path-qualified name of the .proto file that contained the associated
/// protobuf element. For example: `"google/protobuf/source_context.proto"`.
#[prost(string, tag = "1")]
pub file_name: ::prost::alloc::string::String,
}
/// A protocol buffer message type.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Type {
/// The fully qualified message name.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// The list of fields.
#[prost(message, repeated, tag = "2")]
pub fields: ::prost::alloc::vec::Vec<Field>,
/// The list of types appearing in `oneof` definitions in this type.
#[prost(string, repeated, tag = "3")]
pub oneofs: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
/// The protocol buffer options.
#[prost(message, repeated, tag = "4")]
pub options: ::prost::alloc::vec::Vec<Option>,
/// The source context.
#[prost(message, optional, tag = "5")]
pub source_context: ::core::option::Option<SourceContext>,
/// The source syntax.
#[prost(enumeration = "Syntax", tag = "6")]
pub syntax: i32,
}
/// A single field of a message type.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Field {
/// The field type.
#[prost(enumeration = "field::Kind", tag = "1")]
pub kind: i32,
/// The field cardinality.
#[prost(enumeration = "field::Cardinality", tag = "2")]
pub cardinality: i32,
/// The field number.
#[prost(int32, tag = "3")]
pub number: i32,
/// The field name.
#[prost(string, tag = "4")]
pub name: ::prost::alloc::string::String,
/// The field type URL, without the scheme, for message or enumeration
/// types. Example: `"type.googleapis.com/google.protobuf.Timestamp"`.
#[prost(string, tag = "6")]
pub type_url: ::prost::alloc::string::String,
/// The index of the field type in `Type.oneofs`, for message or enumeration
/// types. The first type has index 1; zero means the type is not in the list.
#[prost(int32, tag = "7")]
pub oneof_index: i32,
/// Whether to use alternative packed wire representation.
#[prost(bool, tag = "8")]
pub packed: bool,
/// The protocol buffer options.
#[prost(message, repeated, tag = "9")]
pub options: ::prost::alloc::vec::Vec<Option>,
/// The field JSON name.
#[prost(string, tag = "10")]
pub json_name: ::prost::alloc::string::String,
/// The string value of the default value of this field. Proto2 syntax only.
#[prost(string, tag = "11")]
pub default_value: ::prost::alloc::string::String,
}
/// Nested message and enum types in `Field`.
pub mod field {
/// Basic field types.
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum Kind {
/// Field type unknown.
TypeUnknown = 0,
/// Field type double.
TypeDouble = 1,
/// Field type float.
TypeFloat = 2,
/// Field type int64.
TypeInt64 = 3,
/// Field type uint64.
TypeUint64 = 4,
/// Field type int32.
TypeInt32 = 5,
/// Field type fixed64.
TypeFixed64 = 6,
/// Field type fixed32.
TypeFixed32 = 7,
/// Field type bool.
TypeBool = 8,
/// Field type string.
TypeString = 9,
/// Field type group. Proto2 syntax only, and deprecated.
TypeGroup = 10,
/// Field type message.
TypeMessage = 11,
/// Field type bytes.
TypeBytes = 12,
/// Field type uint32.
TypeUint32 = 13,
/// Field type enum.
TypeEnum = 14,
/// Field type sfixed32.
TypeSfixed32 = 15,
/// Field type sfixed64.
TypeSfixed64 = 16,
/// Field type sint32.
TypeSint32 = 17,
/// Field type sint64.
TypeSint64 = 18,
}
impl Kind {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Kind::TypeUnknown => "TYPE_UNKNOWN",
Kind::TypeDouble => "TYPE_DOUBLE",
Kind::TypeFloat => "TYPE_FLOAT",
Kind::TypeInt64 => "TYPE_INT64",
Kind::TypeUint64 => "TYPE_UINT64",
Kind::TypeInt32 => "TYPE_INT32",
Kind::TypeFixed64 => "TYPE_FIXED64",
Kind::TypeFixed32 => "TYPE_FIXED32",
Kind::TypeBool => "TYPE_BOOL",
Kind::TypeString => "TYPE_STRING",
Kind::TypeGroup => "TYPE_GROUP",
Kind::TypeMessage => "TYPE_MESSAGE",
Kind::TypeBytes => "TYPE_BYTES",
Kind::TypeUint32 => "TYPE_UINT32",
Kind::TypeEnum => "TYPE_ENUM",
Kind::TypeSfixed32 => "TYPE_SFIXED32",
Kind::TypeSfixed64 => "TYPE_SFIXED64",
Kind::TypeSint32 => "TYPE_SINT32",
Kind::TypeSint64 => "TYPE_SINT64",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"TYPE_UNKNOWN" => Some(Self::TypeUnknown),
"TYPE_DOUBLE" => Some(Self::TypeDouble),
"TYPE_FLOAT" => Some(Self::TypeFloat),
"TYPE_INT64" => Some(Self::TypeInt64),
"TYPE_UINT64" => Some(Self::TypeUint64),
"TYPE_INT32" => Some(Self::TypeInt32),
"TYPE_FIXED64" => Some(Self::TypeFixed64),
"TYPE_FIXED32" => Some(Self::TypeFixed32),
"TYPE_BOOL" => Some(Self::TypeBool),
"TYPE_STRING" => Some(Self::TypeString),
"TYPE_GROUP" => Some(Self::TypeGroup),
"TYPE_MESSAGE" => Some(Self::TypeMessage),
"TYPE_BYTES" => Some(Self::TypeBytes),
"TYPE_UINT32" => Some(Self::TypeUint32),
"TYPE_ENUM" => Some(Self::TypeEnum),
"TYPE_SFIXED32" => Some(Self::TypeSfixed32),
"TYPE_SFIXED64" => Some(Self::TypeSfixed64),
"TYPE_SINT32" => Some(Self::TypeSint32),
"TYPE_SINT64" => Some(Self::TypeSint64),
_ => None,
}
}
}
/// Whether a field is optional, required, or repeated.
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum Cardinality {
/// For fields with unknown cardinality.
Unknown = 0,
/// For optional fields.
Optional = 1,
/// For required fields. Proto2 syntax only.
Required = 2,
/// For repeated fields.
Repeated = 3,
}
impl Cardinality {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Cardinality::Unknown => "CARDINALITY_UNKNOWN",
Cardinality::Optional => "CARDINALITY_OPTIONAL",
Cardinality::Required => "CARDINALITY_REQUIRED",
Cardinality::Repeated => "CARDINALITY_REPEATED",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"CARDINALITY_UNKNOWN" => Some(Self::Unknown),
"CARDINALITY_OPTIONAL" => Some(Self::Optional),
"CARDINALITY_REQUIRED" => Some(Self::Required),
"CARDINALITY_REPEATED" => Some(Self::Repeated),
_ => None,
}
}
}
}
/// Enum type definition.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Enum {
/// Enum type name.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// Enum value definitions.
#[prost(message, repeated, tag = "2")]
pub enumvalue: ::prost::alloc::vec::Vec<EnumValue>,
/// Protocol buffer options.
#[prost(message, repeated, tag = "3")]
pub options: ::prost::alloc::vec::Vec<Option>,
/// The source context.
#[prost(message, optional, tag = "4")]
pub source_context: ::core::option::Option<SourceContext>,
/// The source syntax.
#[prost(enumeration = "Syntax", tag = "5")]
pub syntax: i32,
}
/// Enum value definition.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct EnumValue {
/// Enum value name.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// Enum value number.
#[prost(int32, tag = "2")]
pub number: i32,
/// Protocol buffer options.
#[prost(message, repeated, tag = "3")]
pub options: ::prost::alloc::vec::Vec<Option>,
}
/// A protocol buffer option, which can be attached to a message, field,
/// enumeration, etc.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Option {
/// The option's name. For protobuf built-in options (options defined in
/// descriptor.proto), this is the short name. For example, `"map_entry"`.
/// For custom options, it should be the fully-qualified name. For example,
/// `"google.api.http"`.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// The option's value packed in an Any message. If the value is a primitive,
/// the corresponding wrapper type defined in google/protobuf/wrappers.proto
/// should be used. If the value is an enum, it should be stored as an int32
/// value using the google.protobuf.Int32Value type.
#[prost(message, optional, tag = "2")]
pub value: ::core::option::Option<Any>,
}
/// The syntax in which a protocol buffer element is defined.
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, ::prost::Enumeration)]
#[repr(i32)]
pub enum Syntax {
/// Syntax `proto2`.
Proto2 = 0,
/// Syntax `proto3`.
Proto3 = 1,
}
impl Syntax {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Syntax::Proto2 => "SYNTAX_PROTO2",
Syntax::Proto3 => "SYNTAX_PROTO3",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"SYNTAX_PROTO2" => Some(Self::Proto2),
"SYNTAX_PROTO3" => Some(Self::Proto3),
_ => None,
}
}
}
/// Api is a light-weight descriptor for an API Interface.
///
/// Interfaces are also described as "protocol buffer services" in some contexts,
/// such as by the "service" keyword in a .proto file, but they are different
/// from API Services, which represent a concrete implementation of an interface
/// as opposed to simply a description of methods and bindings. They are also
/// sometimes simply referred to as "APIs" in other contexts, such as the name of
/// this message itself. See <https://cloud.google.com/apis/design/glossary> for
/// detailed terminology.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Api {
/// The fully qualified name of this interface, including package name
/// followed by the interface's simple name.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// The methods of this interface, in unspecified order.
#[prost(message, repeated, tag = "2")]
pub methods: ::prost::alloc::vec::Vec<Method>,
/// Any metadata attached to the interface.
#[prost(message, repeated, tag = "3")]
pub options: ::prost::alloc::vec::Vec<Option>,
/// A version string for this interface. If specified, must have the form
/// `major-version.minor-version`, as in `1.10`. If the minor version is
/// omitted, it defaults to zero. If the entire version field is empty, the
/// major version is derived from the package name, as outlined below. If the
/// field is not empty, the version in the package name will be verified to be
/// consistent with what is provided here.
///
/// The versioning schema uses [semantic
/// versioning](<http://semver.org>) where the major version number
/// indicates a breaking change and the minor version an additive,
/// non-breaking change. Both version numbers are signals to users
/// what to expect from different versions, and should be carefully
/// chosen based on the product plan.
///
/// The major version is also reflected in the package name of the
/// interface, which must end in `v<major-version>`, as in
/// `google.feature.v1`. For major versions 0 and 1, the suffix can
/// be omitted. Zero major versions must only be used for
/// experimental, non-GA interfaces.
#[prost(string, tag = "4")]
pub version: ::prost::alloc::string::String,
/// Source context for the protocol buffer service represented by this
/// message.
#[prost(message, optional, tag = "5")]
pub source_context: ::core::option::Option<SourceContext>,
/// Included interfaces. See \[Mixin\]\[\].
#[prost(message, repeated, tag = "6")]
pub mixins: ::prost::alloc::vec::Vec<Mixin>,
/// The source syntax of the service.
#[prost(enumeration = "Syntax", tag = "7")]
pub syntax: i32,
}
/// Method represents a method of an API interface.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Method {
/// The simple name of this method.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// A URL of the input message type.
#[prost(string, tag = "2")]
pub request_type_url: ::prost::alloc::string::String,
/// If true, the request is streamed.
#[prost(bool, tag = "3")]
pub request_streaming: bool,
/// The URL of the output message type.
#[prost(string, tag = "4")]
pub response_type_url: ::prost::alloc::string::String,
/// If true, the response is streamed.
#[prost(bool, tag = "5")]
pub response_streaming: bool,
/// Any metadata attached to the method.
#[prost(message, repeated, tag = "6")]
pub options: ::prost::alloc::vec::Vec<Option>,
/// The source syntax of this method.
#[prost(enumeration = "Syntax", tag = "7")]
pub syntax: i32,
}
/// Declares an API Interface to be included in this interface. The including
/// interface must redeclare all the methods from the included interface, but
/// documentation and options are inherited as follows:
///
/// * If after comment and whitespace stripping, the documentation
/// string of the redeclared method is empty, it will be inherited
/// from the original method.
///
/// * Each annotation belonging to the service config (http,
/// visibility) which is not set in the redeclared method will be
/// inherited.
///
/// * If an http annotation is inherited, the path pattern will be
/// modified as follows. Any version prefix will be replaced by the
/// version of the including interface plus the \[root\]\[\] path if
/// specified.
///
/// Example of a simple mixin:
///
/// ```text
/// package google.acl.v1;
/// service AccessControl {
/// // Get the underlying ACL object.
/// rpc GetAcl(GetAclRequest) returns (Acl) {
/// option (google.api.http).get = "/v1/{resource=**}:getAcl";
/// }
/// }
///
/// package google.storage.v2;
/// service Storage {
/// rpc GetAcl(GetAclRequest) returns (Acl);
///
/// // Get a data record.
/// rpc GetData(GetDataRequest) returns (Data) {
/// option (google.api.http).get = "/v2/{resource=**}";
/// }
/// }
/// ```
///
/// Example of a mixin configuration:
///
/// ```text
/// apis:
/// - name: google.storage.v2.Storage
/// mixins:
/// - name: google.acl.v1.AccessControl
/// ```
///
/// The mixin construct implies that all methods in `AccessControl` are
/// also declared with same name and request/response types in
/// `Storage`. A documentation generator or annotation processor will
/// see the effective `Storage.GetAcl` method after inheriting
/// documentation and annotations as follows:
///
/// ```text
/// service Storage {
/// // Get the underlying ACL object.
/// rpc GetAcl(GetAclRequest) returns (Acl) {
/// option (google.api.http).get = "/v2/{resource=**}:getAcl";
/// }
/// ...
/// }
/// ```
///
/// Note how the version in the path pattern changed from `v1` to `v2`.
///
/// If the `root` field in the mixin is specified, it should be a
/// relative path under which inherited HTTP paths are placed. Example:
///
/// ```text
/// apis:
/// - name: google.storage.v2.Storage
/// mixins:
/// - name: google.acl.v1.AccessControl
/// root: acls
/// ```
///
/// This implies the following inherited HTTP annotation:
///
/// ```text
/// service Storage {
/// // Get the underlying ACL object.
/// rpc GetAcl(GetAclRequest) returns (Acl) {
/// option (google.api.http).get = "/v2/acls/{resource=**}:getAcl";
/// }
/// ...
/// }
/// ```
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Mixin {
/// The fully qualified name of the interface which is included.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// If non-empty specifies a path under which inherited HTTP paths
/// are rooted.
#[prost(string, tag = "2")]
pub root: ::prost::alloc::string::String,
}
/// A Duration represents a signed, fixed-length span of time represented
/// as a count of seconds and fractions of seconds at nanosecond
/// resolution. It is independent of any calendar and concepts like "day"
/// or "month". It is related to Timestamp in that the difference between
/// two Timestamp values is a Duration and it can be added or subtracted
/// from a Timestamp. Range is approximately +-10,000 years.
///
/// # Examples
///
/// Example 1: Compute Duration from two Timestamps in pseudo code.
///
/// ```text
/// Timestamp start = ...;
/// Timestamp end = ...;
/// Duration duration = ...;
///
/// duration.seconds = end.seconds - start.seconds;
/// duration.nanos = end.nanos - start.nanos;
///
/// if (duration.seconds < 0 && duration.nanos > 0) {
/// duration.seconds += 1;
/// duration.nanos -= 1000000000;
/// } else if (duration.seconds > 0 && duration.nanos < 0) {
/// duration.seconds -= 1;
/// duration.nanos += 1000000000;
/// }
/// ```
///
/// Example 2: Compute Timestamp from Timestamp + Duration in pseudo code.
///
/// ```text
/// Timestamp start = ...;
/// Duration duration = ...;
/// Timestamp end = ...;
///
/// end.seconds = start.seconds + duration.seconds;
/// end.nanos = start.nanos + duration.nanos;
///
/// if (end.nanos < 0) {
/// end.seconds -= 1;
/// end.nanos += 1000000000;
/// } else if (end.nanos >= 1000000000) {
/// end.seconds += 1;
/// end.nanos -= 1000000000;
/// }
/// ```
///
/// Example 3: Compute Duration from datetime.timedelta in Python.
///
/// ```text
/// td = datetime.timedelta(days=3, minutes=10)
/// duration = Duration()
/// duration.FromTimedelta(td)
/// ```
///
/// # JSON Mapping
///
/// In JSON format, the Duration type is encoded as a string rather than an
/// object, where the string ends in the suffix "s" (indicating seconds) and
/// is preceded by the number of seconds, with nanoseconds expressed as
/// fractional seconds. For example, 3 seconds with 0 nanoseconds should be
/// encoded in JSON format as "3s", while 3 seconds and 1 nanosecond should
/// be expressed in JSON format as "3.000000001s", and 3 seconds and 1
/// microsecond should be expressed in JSON format as "3.000001s".
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Duration {
/// Signed seconds of the span of time. Must be from -315,576,000,000
/// to +315,576,000,000 inclusive. Note: these bounds are computed from:
/// 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
#[prost(int64, tag = "1")]
pub seconds: i64,
/// Signed fractions of a second at nanosecond resolution of the span
/// of time. Durations less than one second are represented with a 0
/// `seconds` field and a positive or negative `nanos` field. For durations
/// of one second or more, a non-zero value for the `nanos` field must be
/// of the same sign as the `seconds` field. Must be from -999,999,999
/// to +999,999,999 inclusive.
#[prost(int32, tag = "2")]
pub nanos: i32,
}
/// `FieldMask` represents a set of symbolic field paths, for example:
///
/// ```text
/// paths: "f.a"
/// paths: "f.b.d"
/// ```
///
/// Here `f` represents a field in some root message, `a` and `b`
/// fields in the message found in `f`, and `d` a field found in the
/// message in `f.b`.
///
/// Field masks are used to specify a subset of fields that should be
/// returned by a get operation or modified by an update operation.
/// Field masks also have a custom JSON encoding (see below).
///
/// # Field Masks in Projections
///
/// When used in the context of a projection, a response message or
/// sub-message is filtered by the API to only contain those fields as
/// specified in the mask. For example, if the mask in the previous
/// example is applied to a response message as follows:
///
/// ```text
/// f {
/// a : 22
/// b {
/// d : 1
/// x : 2
/// }
/// y : 13
/// }
/// z: 8
/// ```
///
/// The result will not contain specific values for fields x,y and z
/// (their value will be set to the default, and omitted in proto text
/// output):
///
/// ```text
/// f {
/// a : 22
/// b {
/// d : 1
/// }
/// }
/// ```
///
/// A repeated field is not allowed except at the last position of a
/// paths string.
///
/// If a FieldMask object is not present in a get operation, the
/// operation applies to all fields (as if a FieldMask of all fields
/// had been specified).
///
/// Note that a field mask does not necessarily apply to the
/// top-level response message. In case of a REST get operation, the
/// field mask applies directly to the response, but in case of a REST
/// list operation, the mask instead applies to each individual message
/// in the returned resource list. In case of a REST custom method,
/// other definitions may be used. Where the mask applies will be
/// clearly documented together with its declaration in the API. In
/// any case, the effect on the returned resource/resources is required
/// behavior for APIs.
///
/// # Field Masks in Update Operations
///
/// A field mask in update operations specifies which fields of the
/// targeted resource are going to be updated. The API is required
/// to only change the values of the fields as specified in the mask
/// and leave the others untouched. If a resource is passed in to
/// describe the updated values, the API ignores the values of all
/// fields not covered by the mask.
///
/// If a repeated field is specified for an update operation, new values will
/// be appended to the existing repeated field in the target resource. Note that
/// a repeated field is only allowed in the last position of a `paths` string.
///
/// If a sub-message is specified in the last position of the field mask for an
/// update operation, then new value will be merged into the existing sub-message
/// in the target resource.
///
/// For example, given the target message:
///
/// ```text
/// f {
/// b {
/// d: 1
/// x: 2
/// }
/// c: \[1\]
/// }
/// ```
///
/// And an update message:
///
/// ```text
/// f {
/// b {
/// d: 10
/// }
/// c: \[2\]
/// }
/// ```
///
/// then if the field mask is:
///
/// paths: \["f.b", "f.c"\]
///
/// then the result will be:
///
/// ```text
/// f {
/// b {
/// d: 10
/// x: 2
/// }
/// c: \[1, 2\]
/// }
/// ```
///
/// An implementation may provide options to override this default behavior for
/// repeated and message fields.
///
/// In order to reset a field's value to the default, the field must
/// be in the mask and set to the default value in the provided resource.
/// Hence, in order to reset all fields of a resource, provide a default
/// instance of the resource and set all fields in the mask, or do
/// not provide a mask as described below.
///
/// If a field mask is not present on update, the operation applies to
/// all fields (as if a field mask of all fields has been specified).
/// Note that in the presence of schema evolution, this may mean that
/// fields the client does not know and has therefore not filled into
/// the request will be reset to their default. If this is unwanted
/// behavior, a specific service may require a client to always specify
/// a field mask, producing an error if not.
///
/// As with get operations, the location of the resource which
/// describes the updated values in the request message depends on the
/// operation kind. In any case, the effect of the field mask is
/// required to be honored by the API.
///
/// ## Considerations for HTTP REST
///
/// The HTTP kind of an update operation which uses a field mask must
/// be set to PATCH instead of PUT in order to satisfy HTTP semantics
/// (PUT must only be used for full updates).
///
/// # JSON Encoding of Field Masks
///
/// In JSON, a field mask is encoded as a single string where paths are
/// separated by a comma. Fields name in each path are converted
/// to/from lower-camel naming conventions.
///
/// As an example, consider the following message declarations:
///
/// ```text
/// message Profile {
/// User user = 1;
/// Photo photo = 2;
/// }
/// message User {
/// string display_name = 1;
/// string address = 2;
/// }
/// ```
///
/// In proto a field mask for `Profile` may look as such:
///
/// ```text
/// mask {
/// paths: "user.display_name"
/// paths: "photo"
/// }
/// ```
///
/// In JSON, the same mask is represented as below:
///
/// ```text
/// {
/// mask: "user.displayName,photo"
/// }
/// ```
///
/// # Field Masks and Oneof Fields
///
/// Field masks treat fields in oneofs just as regular fields. Consider the
/// following message:
///
/// ```text
/// message SampleMessage {
/// oneof test_oneof {
/// string name = 4;
/// SubMessage sub_message = 9;
/// }
/// }
/// ```
///
/// The field mask can be:
///
/// ```text
/// mask {
/// paths: "name"
/// }
/// ```
///
/// Or:
///
/// ```text
/// mask {
/// paths: "sub_message"
/// }
/// ```
///
/// Note that oneof type names ("test_oneof" in this case) cannot be used in
/// paths.
///
/// ## Field Mask Verification
///
/// The implementation of any API method which has a FieldMask type field in the
/// request should verify the included field paths, and return an
/// `INVALID_ARGUMENT` error if any path is unmappable.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FieldMask {
/// The set of field mask paths.
#[prost(string, repeated, tag = "1")]
pub paths: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
}
/// `Struct` represents a structured data value, consisting of fields
/// which map to dynamically typed values. In some languages, `Struct`
/// might be supported by a native representation. For example, in
/// scripting languages like JS a struct is represented as an
/// object. The details of that representation are described together
/// with the proto support for the language.
///
/// The JSON representation for `Struct` is JSON object.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Struct {
/// Unordered map of dynamically typed values.
#[prost(btree_map = "string, message", tag = "1")]
pub fields: ::prost::alloc::collections::BTreeMap<
::prost::alloc::string::String,
Value,
>,
}
/// `Value` represents a dynamically typed value which can be either
/// null, a number, a string, a boolean, a recursive struct value, or a
/// list of values. A producer of value is expected to set one of these
/// variants. Absence of any variant indicates an error.
///
/// The JSON representation for `Value` is JSON value.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Value {
/// The kind of value.
#[prost(oneof = "value::Kind", tags = "1, 2, 3, 4, 5, 6")]
pub kind: ::core::option::Option<value::Kind>,
}
/// Nested message and enum types in `Value`.
pub mod value {
/// The kind of value.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Kind {
/// Represents a null value.
#[prost(enumeration = "super::NullValue", tag = "1")]
NullValue(i32),
/// Represents a double value.
#[prost(double, tag = "2")]
NumberValue(f64),
/// Represents a string value.
#[prost(string, tag = "3")]
StringValue(::prost::alloc::string::String),
/// Represents a boolean value.
#[prost(bool, tag = "4")]
BoolValue(bool),
/// Represents a structured value.
#[prost(message, tag = "5")]
StructValue(super::Struct),
/// Represents a repeated `Value`.
#[prost(message, tag = "6")]
ListValue(super::ListValue),
}
}
/// `ListValue` is a wrapper around a repeated field of values.
///
/// The JSON representation for `ListValue` is JSON array.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ListValue {
/// Repeated field of dynamically typed values.
#[prost(message, repeated, tag = "1")]
pub values: ::prost::alloc::vec::Vec<Value>,
}
/// `NullValue` is a singleton enumeration to represent the null value for the
/// `Value` type union.
///
/// The JSON representation for `NullValue` is JSON `null`.
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, ::prost::Enumeration)]
#[repr(i32)]
pub enum NullValue {
/// Null value.
NullValue = 0,
}
impl NullValue {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
NullValue::NullValue => "NULL_VALUE",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"NULL_VALUE" => Some(Self::NullValue),
_ => None,
}
}
}
/// A Timestamp represents a point in time independent of any time zone or local
/// calendar, encoded as a count of seconds and fractions of seconds at
/// nanosecond resolution. The count is relative to an epoch at UTC midnight on
/// January 1, 1970, in the proleptic Gregorian calendar which extends the
/// Gregorian calendar backwards to year one.
///
/// All minutes are 60 seconds long. Leap seconds are "smeared" so that no leap
/// second table is needed for interpretation, using a [24-hour linear
/// smear](<https://developers.google.com/time/smear>).
///
/// The range is from 0001-01-01T00:00:00Z to 9999-12-31T23:59:59.999999999Z. By
/// restricting to that range, we ensure that we can convert to and from [RFC
/// 3339](<https://www.ietf.org/rfc/rfc3339.txt>) date strings.
///
/// # Examples
///
/// Example 1: Compute Timestamp from POSIX `time()`.
///
/// ```text
/// Timestamp timestamp;
/// timestamp.set_seconds(time(NULL));
/// timestamp.set_nanos(0);
/// ```
///
/// Example 2: Compute Timestamp from POSIX `gettimeofday()`.
///
/// ```text
/// struct timeval tv;
/// gettimeofday(&tv, NULL);
///
/// Timestamp timestamp;
/// timestamp.set_seconds(tv.tv_sec);
/// timestamp.set_nanos(tv.tv_usec * 1000);
/// ```
///
/// Example 3: Compute Timestamp from Win32 `GetSystemTimeAsFileTime()`.
///
/// ```text
/// FILETIME ft;
/// GetSystemTimeAsFileTime(&ft);
/// UINT64 ticks = (((UINT64)ft.dwHighDateTime) << 32) | ft.dwLowDateTime;
///
/// // A Windows tick is 100 nanoseconds. Windows epoch 1601-01-01T00:00:00Z
/// // is 11644473600 seconds before Unix epoch 1970-01-01T00:00:00Z.
/// Timestamp timestamp;
/// timestamp.set_seconds((INT64) ((ticks / 10000000) - 11644473600LL));
/// timestamp.set_nanos((INT32) ((ticks % 10000000) * 100));
/// ```
///
/// Example 4: Compute Timestamp from Java `System.currentTimeMillis()`.
///
/// ```text
/// long millis = System.currentTimeMillis();
///
/// Timestamp timestamp = Timestamp.newBuilder().setSeconds(millis / 1000)
/// .setNanos((int) ((millis % 1000) * 1000000)).build();
/// ```
///
/// Example 5: Compute Timestamp from Java `Instant.now()`.
///
/// ```text
/// Instant now = Instant.now();
///
/// Timestamp timestamp =
/// Timestamp.newBuilder().setSeconds(now.getEpochSecond())
/// .setNanos(now.getNano()).build();
/// ```
///
/// Example 6: Compute Timestamp from current time in Python.
///
/// ```text
/// timestamp = Timestamp()
/// timestamp.GetCurrentTime()
/// ```
///
/// # JSON Mapping
///
/// In JSON format, the Timestamp type is encoded as a string in the
/// [RFC 3339](<https://www.ietf.org/rfc/rfc3339.txt>) format. That is, the
/// format is "{year}-{month}-{day}T{hour}:{min}:{sec}\[.{frac_sec}\]Z"
/// where {year} is always expressed using four digits while {month}, {day},
/// {hour}, {min}, and {sec} are zero-padded to two digits each. The fractional
/// seconds, which can go up to 9 digits (i.e. up to 1 nanosecond resolution),
/// are optional. The "Z" suffix indicates the timezone ("UTC"); the timezone
/// is required. A proto3 JSON serializer should always use UTC (as indicated by
/// "Z") when printing the Timestamp type and a proto3 JSON parser should be
/// able to accept both UTC and other timezones (as indicated by an offset).
///
/// For example, "2017-01-15T01:30:15.01Z" encodes 15.01 seconds past
/// 01:30 UTC on January 15, 2017.
///
/// In JavaScript, one can convert a Date object to this format using the
/// standard
/// [toISOString()](<https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date/toISOString>)
/// method. In Python, a standard `datetime.datetime` object can be converted
/// to this format using
/// [`strftime`](<https://docs.python.org/2/library/time.html#time.strftime>) with
/// the time format spec '%Y-%m-%dT%H:%M:%S.%fZ'. Likewise, in Java, one can use
/// the Joda Time's [`ISODateTimeFormat.dateTime()`](<http://www.joda.org/joda-time/apidocs/org/joda/time/format/ISODateTimeFormat.html#dateTime%2D%2D>) to obtain a formatter capable of generating timestamps in this format.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Timestamp {
/// Represents seconds of UTC time since Unix epoch
/// 1970-01-01T00:00:00Z. Must be from 0001-01-01T00:00:00Z to
/// 9999-12-31T23:59:59Z inclusive.
#[prost(int64, tag = "1")]
pub seconds: i64,
/// Non-negative fractions of a second at nanosecond resolution. Negative
/// second values with fractions must still have non-negative nanos values
/// that count forward in time. Must be from 0 to 999,999,999
/// inclusive.
#[prost(int32, tag = "2")]
pub nanos: i32,
}