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apache / arrow-experimental-rs-arrow2 / 9f56afb2d2347310184706f7d5e46af583557bea / . / arrow-flight / src / arrow.flight.protocol.rs
blob: 5fce526ff6ea0213bb0c2d8e745ea1d134493af6 [file] [log] [blame]
// This file was automatically generated through the build.rs script, and should not be edited.
///
/// The request that a client provides to a server on handshake.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct HandshakeRequest {
///
/// A defined protocol version
#[prost(uint64, tag = "1")]
pub protocol_version: u64,
///
/// Arbitrary auth/handshake info.
#[prost(bytes = "vec", tag = "2")]
pub payload: ::prost::alloc::vec::Vec<u8>,
}
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct HandshakeResponse {
///
/// A defined protocol version
#[prost(uint64, tag = "1")]
pub protocol_version: u64,
///
/// Arbitrary auth/handshake info.
#[prost(bytes = "vec", tag = "2")]
pub payload: ::prost::alloc::vec::Vec<u8>,
}
///
/// A message for doing simple auth.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct BasicAuth {
#[prost(string, tag = "2")]
pub username: ::prost::alloc::string::String,
#[prost(string, tag = "3")]
pub password: ::prost::alloc::string::String,
}
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Empty {}
///
/// Describes an available action, including both the name used for execution
/// along with a short description of the purpose of the action.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ActionType {
#[prost(string, tag = "1")]
pub r#type: ::prost::alloc::string::String,
#[prost(string, tag = "2")]
pub description: ::prost::alloc::string::String,
}
///
/// A service specific expression that can be used to return a limited set
/// of available Arrow Flight streams.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Criteria {
#[prost(bytes = "vec", tag = "1")]
pub expression: ::prost::alloc::vec::Vec<u8>,
}
///
/// An opaque action specific for the service.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Action {
#[prost(string, tag = "1")]
pub r#type: ::prost::alloc::string::String,
#[prost(bytes = "vec", tag = "2")]
pub body: ::prost::alloc::vec::Vec<u8>,
}
///
/// An opaque result returned after executing an action.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Result {
#[prost(bytes = "vec", tag = "1")]
pub body: ::prost::alloc::vec::Vec<u8>,
}
///
/// Wrap the result of a getSchema call
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SchemaResult {
/// schema of the dataset as described in Schema.fbs::Schema.
#[prost(bytes = "vec", tag = "1")]
pub schema: ::prost::alloc::vec::Vec<u8>,
}
///
/// The name or tag for a Flight. May be used as a way to retrieve or generate
/// a flight or be used to expose a set of previously defined flights.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FlightDescriptor {
#[prost(enumeration = "flight_descriptor::DescriptorType", tag = "1")]
pub r#type: i32,
///
/// Opaque value used to express a command. Should only be defined when
/// type = CMD.
#[prost(bytes = "vec", tag = "2")]
pub cmd: ::prost::alloc::vec::Vec<u8>,
///
/// List of strings identifying a particular dataset. Should only be defined
/// when type = PATH.
#[prost(string, repeated, tag = "3")]
pub path: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
}
/// Nested message and enum types in `FlightDescriptor`.
pub mod flight_descriptor {
///
/// Describes what type of descriptor is defined.
#[derive(
Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, ::prost::Enumeration,
)]
#[repr(i32)]
pub enum DescriptorType {
/// Protobuf pattern, not used.
Unknown = 0,
///
/// A named path that identifies a dataset. A path is composed of a string
/// or list of strings describing a particular dataset. This is conceptually
/// similar to a path inside a filesystem.
Path = 1,
///
/// An opaque command to generate a dataset.
Cmd = 2,
}
}
///
/// The access coordinates for retrieval of a dataset. With a FlightInfo, a
/// consumer is able to determine how to retrieve a dataset.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FlightInfo {
/// schema of the dataset as described in Schema.fbs::Schema.
#[prost(bytes = "vec", tag = "1")]
pub schema: ::prost::alloc::vec::Vec<u8>,
///
/// The descriptor associated with this info.
#[prost(message, optional, tag = "2")]
pub flight_descriptor: ::core::option::Option<FlightDescriptor>,
///
/// A list of endpoints associated with the flight. To consume the whole
/// flight, all endpoints must be consumed.
#[prost(message, repeated, tag = "3")]
pub endpoint: ::prost::alloc::vec::Vec<FlightEndpoint>,
/// Set these to -1 if unknown.
#[prost(int64, tag = "4")]
pub total_records: i64,
#[prost(int64, tag = "5")]
pub total_bytes: i64,
}
///
/// A particular stream or split associated with a flight.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FlightEndpoint {
///
/// Token used to retrieve this stream.
#[prost(message, optional, tag = "1")]
pub ticket: ::core::option::Option<Ticket>,
///
/// A list of URIs where this ticket can be redeemed. If the list is
/// empty, the expectation is that the ticket can only be redeemed on the
/// current service where the ticket was generated.
#[prost(message, repeated, tag = "2")]
pub location: ::prost::alloc::vec::Vec<Location>,
}
///
/// A location where a Flight service will accept retrieval of a particular
/// stream given a ticket.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Location {
#[prost(string, tag = "1")]
pub uri: ::prost::alloc::string::String,
}
///
/// An opaque identifier that the service can use to retrieve a particular
/// portion of a stream.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Ticket {
#[prost(bytes = "vec", tag = "1")]
pub ticket: ::prost::alloc::vec::Vec<u8>,
}
///
/// A batch of Arrow data as part of a stream of batches.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FlightData {
///
/// The descriptor of the data. This is only relevant when a client is
/// starting a new DoPut stream.
#[prost(message, optional, tag = "1")]
pub flight_descriptor: ::core::option::Option<FlightDescriptor>,
///
/// Header for message data as described in Message.fbs::Message.
#[prost(bytes = "vec", tag = "2")]
pub data_header: ::prost::alloc::vec::Vec<u8>,
///
/// Application-defined metadata.
#[prost(bytes = "vec", tag = "3")]
pub app_metadata: ::prost::alloc::vec::Vec<u8>,
///
/// The actual batch of Arrow data. Preferably handled with minimal-copies
/// coming last in the definition to help with sidecar patterns (it is
/// expected that some implementations will fetch this field off the wire
/// with specialized code to avoid extra memory copies).
#[prost(bytes = "vec", tag = "1000")]
pub data_body: ::prost::alloc::vec::Vec<u8>,
}
///*
/// The response message associated with the submission of a DoPut.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct PutResult {
#[prost(bytes = "vec", tag = "1")]
pub app_metadata: ::prost::alloc::vec::Vec<u8>,
}
#[doc = r" Generated client implementations."]
pub mod flight_service_client {
#![allow(unused_variables, dead_code, missing_docs)]
use tonic::codegen::*;
#[doc = ""]
#[doc = " A flight service is an endpoint for retrieving or storing Arrow data. A"]
#[doc = " flight service can expose one or more predefined endpoints that can be"]
#[doc = " accessed using the Arrow Flight Protocol. Additionally, a flight service"]
#[doc = " can expose a set of actions that are available."]
pub struct FlightServiceClient<T> {
inner: tonic::client::Grpc<T>,
}
impl FlightServiceClient<tonic::transport::Channel> {
#[doc = r" Attempt to create a new client by connecting to a given endpoint."]
pub async fn connect<D>(dst: D) -> Result<Self, tonic::transport::Error>
where
D: std::convert::TryInto<tonic::transport::Endpoint>,
D::Error: Into<StdError>,
{
let conn = tonic::transport::Endpoint::new(dst)?.connect().await?;
Ok(Self::new(conn))
}
}
impl<T> FlightServiceClient<T>
where
T: tonic::client::GrpcService<tonic::body::BoxBody>,
T::ResponseBody: Body + HttpBody + Send + 'static,
T::Error: Into<StdError>,
<T::ResponseBody as HttpBody>::Error: Into<StdError> + Send,
{
pub fn new(inner: T) -> Self {
let inner = tonic::client::Grpc::new(inner);
Self { inner }
}
pub fn with_interceptor(
inner: T,
interceptor: impl Into<tonic::Interceptor>,
) -> Self {
let inner = tonic::client::Grpc::with_interceptor(inner, interceptor);
Self { inner }
}
#[doc = ""]
#[doc = " Handshake between client and server. Depending on the server, the"]
#[doc = " handshake may be required to determine the token that should be used for"]
#[doc = " future operations. Both request and response are streams to allow multiple"]
#[doc = " round-trips depending on auth mechanism."]
pub async fn handshake(
&mut self,
request: impl tonic::IntoStreamingRequest<Message = super::HandshakeRequest>,
) -> Result<
tonic::Response<tonic::codec::Streaming<super::HandshakeResponse>>,
tonic::Status,
> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/Handshake",
);
self.inner
.streaming(request.into_streaming_request(), path, codec)
.await
}
#[doc = ""]
#[doc = " Get a list of available streams given a particular criteria. Most flight"]
#[doc = " services will expose one or more streams that are readily available for"]
#[doc = " retrieval. This api allows listing the streams available for"]
#[doc = " consumption. A user can also provide a criteria. The criteria can limit"]
#[doc = " the subset of streams that can be listed via this interface. Each flight"]
#[doc = " service allows its own definition of how to consume criteria."]
pub async fn list_flights(
&mut self,
request: impl tonic::IntoRequest<super::Criteria>,
) -> Result<
tonic::Response<tonic::codec::Streaming<super::FlightInfo>>,
tonic::Status,
> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/ListFlights",
);
self.inner
.server_streaming(request.into_request(), path, codec)
.await
}
#[doc = ""]
#[doc = " For a given FlightDescriptor, get information about how the flight can be"]
#[doc = " consumed. This is a useful interface if the consumer of the interface"]
#[doc = " already can identify the specific flight to consume. This interface can"]
#[doc = " also allow a consumer to generate a flight stream through a specified"]
#[doc = " descriptor. For example, a flight descriptor might be something that"]
#[doc = " includes a SQL statement or a Pickled Python operation that will be"]
#[doc = " executed. In those cases, the descriptor will not be previously available"]
#[doc = " within the list of available streams provided by ListFlights but will be"]
#[doc = " available for consumption for the duration defined by the specific flight"]
#[doc = " service."]
pub async fn get_flight_info(
&mut self,
request: impl tonic::IntoRequest<super::FlightDescriptor>,
) -> Result<tonic::Response<super::FlightInfo>, tonic::Status> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/GetFlightInfo",
);
self.inner.unary(request.into_request(), path, codec).await
}
#[doc = ""]
#[doc = " For a given FlightDescriptor, get the Schema as described in Schema.fbs::Schema"]
#[doc = " This is used when a consumer needs the Schema of flight stream. Similar to"]
#[doc = " GetFlightInfo this interface may generate a new flight that was not previously"]
#[doc = " available in ListFlights."]
pub async fn get_schema(
&mut self,
request: impl tonic::IntoRequest<super::FlightDescriptor>,
) -> Result<tonic::Response<super::SchemaResult>, tonic::Status> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/GetSchema",
);
self.inner.unary(request.into_request(), path, codec).await
}
#[doc = ""]
#[doc = " Retrieve a single stream associated with a particular descriptor"]
#[doc = " associated with the referenced ticket. A Flight can be composed of one or"]
#[doc = " more streams where each stream can be retrieved using a separate opaque"]
#[doc = " ticket that the flight service uses for managing a collection of streams."]
pub async fn do_get(
&mut self,
request: impl tonic::IntoRequest<super::Ticket>,
) -> Result<
tonic::Response<tonic::codec::Streaming<super::FlightData>>,
tonic::Status,
> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/DoGet",
);
self.inner
.server_streaming(request.into_request(), path, codec)
.await
}
#[doc = ""]
#[doc = " Push a stream to the flight service associated with a particular"]
#[doc = " flight stream. This allows a client of a flight service to upload a stream"]
#[doc = " of data. Depending on the particular flight service, a client consumer"]
#[doc = " could be allowed to upload a single stream per descriptor or an unlimited"]
#[doc = " number. In the latter, the service might implement a 'seal' action that"]
#[doc = " can be applied to a descriptor once all streams are uploaded."]
pub async fn do_put(
&mut self,
request: impl tonic::IntoStreamingRequest<Message = super::FlightData>,
) -> Result<
tonic::Response<tonic::codec::Streaming<super::PutResult>>,
tonic::Status,
> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/DoPut",
);
self.inner
.streaming(request.into_streaming_request(), path, codec)
.await
}
#[doc = ""]
#[doc = " Open a bidirectional data channel for a given descriptor. This"]
#[doc = " allows clients to send and receive arbitrary Arrow data and"]
#[doc = " application-specific metadata in a single logical stream. In"]
#[doc = " contrast to DoGet/DoPut, this is more suited for clients"]
#[doc = " offloading computation (rather than storage) to a Flight service."]
pub async fn do_exchange(
&mut self,
request: impl tonic::IntoStreamingRequest<Message = super::FlightData>,
) -> Result<
tonic::Response<tonic::codec::Streaming<super::FlightData>>,
tonic::Status,
> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/DoExchange",
);
self.inner
.streaming(request.into_streaming_request(), path, codec)
.await
}
#[doc = ""]
#[doc = " Flight services can support an arbitrary number of simple actions in"]
#[doc = " addition to the possible ListFlights, GetFlightInfo, DoGet, DoPut"]
#[doc = " operations that are potentially available. DoAction allows a flight client"]
#[doc = " to do a specific action against a flight service. An action includes"]
#[doc = " opaque request and response objects that are specific to the type action"]
#[doc = " being undertaken."]
pub async fn do_action(
&mut self,
request: impl tonic::IntoRequest<super::Action>,
) -> Result<tonic::Response<tonic::codec::Streaming<super::Result>>, tonic::Status>
{
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/DoAction",
);
self.inner
.server_streaming(request.into_request(), path, codec)
.await
}
#[doc = ""]
#[doc = " A flight service exposes all of the available action types that it has"]
#[doc = " along with descriptions. This allows different flight consumers to"]
#[doc = " understand the capabilities of the flight service."]
pub async fn list_actions(
&mut self,
request: impl tonic::IntoRequest<super::Empty>,
) -> Result<
tonic::Response<tonic::codec::Streaming<super::ActionType>>,
tonic::Status,
> {
self.inner.ready().await.map_err(|e| {
tonic::Status::new(
tonic::Code::Unknown,
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/arrow.flight.protocol.FlightService/ListActions",
);
self.inner
.server_streaming(request.into_request(), path, codec)
.await
}
}
impl<T: Clone> Clone for FlightServiceClient<T> {
fn clone(&self) -> Self {
Self {
inner: self.inner.clone(),
}
}
}
impl<T> std::fmt::Debug for FlightServiceClient<T> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "FlightServiceClient {{ ... }}")
}
}
}
#[doc = r" Generated server implementations."]
pub mod flight_service_server {
#![allow(unused_variables, dead_code, missing_docs)]
use tonic::codegen::*;
#[doc = "Generated trait containing gRPC methods that should be implemented for use with FlightServiceServer."]
#[async_trait]
pub trait FlightService: Send + Sync + 'static {
#[doc = "Server streaming response type for the Handshake method."]
type HandshakeStream: futures_core::Stream<Item = Result<super::HandshakeResponse, tonic::Status>>
+ Send
+ Sync
+ 'static;
#[doc = ""]
#[doc = " Handshake between client and server. Depending on the server, the"]
#[doc = " handshake may be required to determine the token that should be used for"]
#[doc = " future operations. Both request and response are streams to allow multiple"]
#[doc = " round-trips depending on auth mechanism."]
async fn handshake(
&self,
request: tonic::Request<tonic::Streaming<super::HandshakeRequest>>,
) -> Result<tonic::Response<Self::HandshakeStream>, tonic::Status>;
#[doc = "Server streaming response type for the ListFlights method."]
type ListFlightsStream: futures_core::Stream<Item = Result<super::FlightInfo, tonic::Status>>
+ Send
+ Sync
+ 'static;
#[doc = ""]
#[doc = " Get a list of available streams given a particular criteria. Most flight"]
#[doc = " services will expose one or more streams that are readily available for"]
#[doc = " retrieval. This api allows listing the streams available for"]
#[doc = " consumption. A user can also provide a criteria. The criteria can limit"]
#[doc = " the subset of streams that can be listed via this interface. Each flight"]
#[doc = " service allows its own definition of how to consume criteria."]
async fn list_flights(
&self,
request: tonic::Request<super::Criteria>,
) -> Result<tonic::Response<Self::ListFlightsStream>, tonic::Status>;
#[doc = ""]
#[doc = " For a given FlightDescriptor, get information about how the flight can be"]
#[doc = " consumed. This is a useful interface if the consumer of the interface"]
#[doc = " already can identify the specific flight to consume. This interface can"]
#[doc = " also allow a consumer to generate a flight stream through a specified"]
#[doc = " descriptor. For example, a flight descriptor might be something that"]
#[doc = " includes a SQL statement or a Pickled Python operation that will be"]
#[doc = " executed. In those cases, the descriptor will not be previously available"]
#[doc = " within the list of available streams provided by ListFlights but will be"]
#[doc = " available for consumption for the duration defined by the specific flight"]
#[doc = " service."]
async fn get_flight_info(
&self,
request: tonic::Request<super::FlightDescriptor>,
) -> Result<tonic::Response<super::FlightInfo>, tonic::Status>;
#[doc = ""]
#[doc = " For a given FlightDescriptor, get the Schema as described in Schema.fbs::Schema"]
#[doc = " This is used when a consumer needs the Schema of flight stream. Similar to"]
#[doc = " GetFlightInfo this interface may generate a new flight that was not previously"]
#[doc = " available in ListFlights."]
async fn get_schema(
&self,
request: tonic::Request<super::FlightDescriptor>,
) -> Result<tonic::Response<super::SchemaResult>, tonic::Status>;
#[doc = "Server streaming response type for the DoGet method."]
type DoGetStream: futures_core::Stream<Item = Result<super::FlightData, tonic::Status>>
+ Send
+ Sync
+ 'static;
#[doc = ""]
#[doc = " Retrieve a single stream associated with a particular descriptor"]
#[doc = " associated with the referenced ticket. A Flight can be composed of one or"]
#[doc = " more streams where each stream can be retrieved using a separate opaque"]
#[doc = " ticket that the flight service uses for managing a collection of streams."]
async fn do_get(
&self,
request: tonic::Request<super::Ticket>,
) -> Result<tonic::Response<Self::DoGetStream>, tonic::Status>;
#[doc = "Server streaming response type for the DoPut method."]
type DoPutStream: futures_core::Stream<Item = Result<super::PutResult, tonic::Status>>
+ Send
+ Sync
+ 'static;
#[doc = ""]
#[doc = " Push a stream to the flight service associated with a particular"]
#[doc = " flight stream. This allows a client of a flight service to upload a stream"]
#[doc = " of data. Depending on the particular flight service, a client consumer"]
#[doc = " could be allowed to upload a single stream per descriptor or an unlimited"]
#[doc = " number. In the latter, the service might implement a 'seal' action that"]
#[doc = " can be applied to a descriptor once all streams are uploaded."]
async fn do_put(
&self,
request: tonic::Request<tonic::Streaming<super::FlightData>>,
) -> Result<tonic::Response<Self::DoPutStream>, tonic::Status>;
#[doc = "Server streaming response type for the DoExchange method."]
type DoExchangeStream: futures_core::Stream<Item = Result<super::FlightData, tonic::Status>>
+ Send
+ Sync
+ 'static;
#[doc = ""]
#[doc = " Open a bidirectional data channel for a given descriptor. This"]
#[doc = " allows clients to send and receive arbitrary Arrow data and"]
#[doc = " application-specific metadata in a single logical stream. In"]
#[doc = " contrast to DoGet/DoPut, this is more suited for clients"]
#[doc = " offloading computation (rather than storage) to a Flight service."]
async fn do_exchange(
&self,
request: tonic::Request<tonic::Streaming<super::FlightData>>,
) -> Result<tonic::Response<Self::DoExchangeStream>, tonic::Status>;
#[doc = "Server streaming response type for the DoAction method."]
type DoActionStream: futures_core::Stream<Item = Result<super::Result, tonic::Status>>
+ Send
+ Sync
+ 'static;
#[doc = ""]
#[doc = " Flight services can support an arbitrary number of simple actions in"]
#[doc = " addition to the possible ListFlights, GetFlightInfo, DoGet, DoPut"]
#[doc = " operations that are potentially available. DoAction allows a flight client"]
#[doc = " to do a specific action against a flight service. An action includes"]
#[doc = " opaque request and response objects that are specific to the type action"]
#[doc = " being undertaken."]
async fn do_action(
&self,
request: tonic::Request<super::Action>,
) -> Result<tonic::Response<Self::DoActionStream>, tonic::Status>;
#[doc = "Server streaming response type for the ListActions method."]
type ListActionsStream: futures_core::Stream<Item = Result<super::ActionType, tonic::Status>>
+ Send
+ Sync
+ 'static;
#[doc = ""]
#[doc = " A flight service exposes all of the available action types that it has"]
#[doc = " along with descriptions. This allows different flight consumers to"]
#[doc = " understand the capabilities of the flight service."]
async fn list_actions(
&self,
request: tonic::Request<super::Empty>,
) -> Result<tonic::Response<Self::ListActionsStream>, tonic::Status>;
}
#[doc = ""]
#[doc = " A flight service is an endpoint for retrieving or storing Arrow data. A"]
#[doc = " flight service can expose one or more predefined endpoints that can be"]
#[doc = " accessed using the Arrow Flight Protocol. Additionally, a flight service"]
#[doc = " can expose a set of actions that are available."]
#[derive(Debug)]
pub struct FlightServiceServer<T: FlightService> {
inner: _Inner<T>,
}
struct _Inner<T>(Arc<T>, Option<tonic::Interceptor>);
impl<T: FlightService> FlightServiceServer<T> {
pub fn new(inner: T) -> Self {
let inner = Arc::new(inner);
let inner = _Inner(inner, None);
Self { inner }
}
pub fn with_interceptor(
inner: T,
interceptor: impl Into<tonic::Interceptor>,
) -> Self {
let inner = Arc::new(inner);
let inner = _Inner(inner, Some(interceptor.into()));
Self { inner }
}
}
impl<T, B> Service<http::Request<B>> for FlightServiceServer<T>
where
T: FlightService,
B: HttpBody + Send + Sync + 'static,
B::Error: Into<StdError> + Send + 'static,
{
type Response = http::Response<tonic::body::BoxBody>;
type Error = Never;
type Future = BoxFuture<Self::Response, Self::Error>;
fn poll_ready(&mut self, _cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
}
fn call(&mut self, req: http::Request<B>) -> Self::Future {
let inner = self.inner.clone();
match req.uri().path() {
"/arrow.flight.protocol.FlightService/Handshake" => {
#[allow(non_camel_case_types)]
struct HandshakeSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::StreamingService<super::HandshakeRequest>
for HandshakeSvc<T>
{
type Response = super::HandshakeResponse;
type ResponseStream = T::HandshakeStream;
type Future = BoxFuture<
tonic::Response<Self::ResponseStream>,
tonic::Status,
>;
fn call(
&mut self,
request: tonic::Request<
tonic::Streaming<super::HandshakeRequest>,
>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).handshake(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1;
let inner = inner.0;
let method = HandshakeSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.streaming(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/ListFlights" => {
#[allow(non_camel_case_types)]
struct ListFlightsSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::ServerStreamingService<super::Criteria>
for ListFlightsSvc<T>
{
type Response = super::FlightInfo;
type ResponseStream = T::ListFlightsStream;
type Future = BoxFuture<
tonic::Response<Self::ResponseStream>,
tonic::Status,
>;
fn call(
&mut self,
request: tonic::Request<super::Criteria>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).list_flights(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1;
let inner = inner.0;
let method = ListFlightsSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.server_streaming(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/GetFlightInfo" => {
#[allow(non_camel_case_types)]
struct GetFlightInfoSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::UnaryService<super::FlightDescriptor>
for GetFlightInfoSvc<T>
{
type Response = super::FlightInfo;
type Future =
BoxFuture<tonic::Response<Self::Response>, tonic::Status>;
fn call(
&mut self,
request: tonic::Request<super::FlightDescriptor>,
) -> Self::Future {
let inner = self.0.clone();
let fut =
async move { (*inner).get_flight_info(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1.clone();
let inner = inner.0;
let method = GetFlightInfoSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.unary(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/GetSchema" => {
#[allow(non_camel_case_types)]
struct GetSchemaSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::UnaryService<super::FlightDescriptor>
for GetSchemaSvc<T>
{
type Response = super::SchemaResult;
type Future =
BoxFuture<tonic::Response<Self::Response>, tonic::Status>;
fn call(
&mut self,
request: tonic::Request<super::FlightDescriptor>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).get_schema(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1.clone();
let inner = inner.0;
let method = GetSchemaSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.unary(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/DoGet" => {
#[allow(non_camel_case_types)]
struct DoGetSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::ServerStreamingService<super::Ticket>
for DoGetSvc<T>
{
type Response = super::FlightData;
type ResponseStream = T::DoGetStream;
type Future = BoxFuture<
tonic::Response<Self::ResponseStream>,
tonic::Status,
>;
fn call(
&mut self,
request: tonic::Request<super::Ticket>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).do_get(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1;
let inner = inner.0;
let method = DoGetSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.server_streaming(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/DoPut" => {
#[allow(non_camel_case_types)]
struct DoPutSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::StreamingService<super::FlightData>
for DoPutSvc<T>
{
type Response = super::PutResult;
type ResponseStream = T::DoPutStream;
type Future = BoxFuture<
tonic::Response<Self::ResponseStream>,
tonic::Status,
>;
fn call(
&mut self,
request: tonic::Request<tonic::Streaming<super::FlightData>>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).do_put(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1;
let inner = inner.0;
let method = DoPutSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.streaming(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/DoExchange" => {
#[allow(non_camel_case_types)]
struct DoExchangeSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::StreamingService<super::FlightData>
for DoExchangeSvc<T>
{
type Response = super::FlightData;
type ResponseStream = T::DoExchangeStream;
type Future = BoxFuture<
tonic::Response<Self::ResponseStream>,
tonic::Status,
>;
fn call(
&mut self,
request: tonic::Request<tonic::Streaming<super::FlightData>>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).do_exchange(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1;
let inner = inner.0;
let method = DoExchangeSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.streaming(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/DoAction" => {
#[allow(non_camel_case_types)]
struct DoActionSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::ServerStreamingService<super::Action>
for DoActionSvc<T>
{
type Response = super::Result;
type ResponseStream = T::DoActionStream;
type Future = BoxFuture<
tonic::Response<Self::ResponseStream>,
tonic::Status,
>;
fn call(
&mut self,
request: tonic::Request<super::Action>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).do_action(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1;
let inner = inner.0;
let method = DoActionSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.server_streaming(method, req).await;
Ok(res)
};
Box::pin(fut)
}
"/arrow.flight.protocol.FlightService/ListActions" => {
#[allow(non_camel_case_types)]
struct ListActionsSvc<T: FlightService>(pub Arc<T>);
impl<T: FlightService>
tonic::server::ServerStreamingService<super::Empty>
for ListActionsSvc<T>
{
type Response = super::ActionType;
type ResponseStream = T::ListActionsStream;
type Future = BoxFuture<
tonic::Response<Self::ResponseStream>,
tonic::Status,
>;
fn call(
&mut self,
request: tonic::Request<super::Empty>,
) -> Self::Future {
let inner = self.0.clone();
let fut = async move { (*inner).list_actions(request).await };
Box::pin(fut)
}
}
let inner = self.inner.clone();
let fut = async move {
let interceptor = inner.1;
let inner = inner.0;
let method = ListActionsSvc(inner);
let codec = tonic::codec::ProstCodec::default();
let mut grpc = if let Some(interceptor) = interceptor {
tonic::server::Grpc::with_interceptor(codec, interceptor)
} else {
tonic::server::Grpc::new(codec)
};
let res = grpc.server_streaming(method, req).await;
Ok(res)
};
Box::pin(fut)
}
_ => Box::pin(async move {
Ok(http::Response::builder()
.status(200)
.header("grpc-status", "12")
.header("content-type", "application/grpc")
.body(tonic::body::BoxBody::empty())
.unwrap())
}),
}
}
}
impl<T: FlightService> Clone for FlightServiceServer<T> {
fn clone(&self) -> Self {
let inner = self.inner.clone();
Self { inner }
}
}
impl<T: FlightService> Clone for _Inner<T> {
fn clone(&self) -> Self {
Self(self.0.clone(), self.1.clone())
}
}
impl<T: std::fmt::Debug> std::fmt::Debug for _Inner<T> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{:?}", self.0)
}
}
impl<T: FlightService> tonic::transport::NamedService for FlightServiceServer<T> {
const NAME: &'static str = "arrow.flight.protocol.FlightService";
}
}