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android / platform / external / rust / crates / grpcio-compiler / refs/tags/aml_go_ads_330913000 / . / src / codegen.rs
blob: e2f6c10c66d282574303a5425fdd067af746060a [file] [log] [blame]
// Copyright 2019 TiKV Project Authors. Licensed under Apache-2.0.
// Copyright (c) 2016, Stepan Koltsov
//
// Permission is hereby granted, free of charge, to any person obtaining
// a copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to
// permit persons to whom the Software is furnished to do so, subject to
// the following conditions:
//
// The above copyright notice and this permission notice shall be
// included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
use std::collections::HashMap;
use std::io::Write;
use protobuf::compiler_plugin;
use protobuf::descriptor::*;
use protobuf::descriptorx::*;
struct CodeWriter<'a> {
writer: &'a mut (dyn Write + 'a),
indent: String,
}
impl<'a> CodeWriter<'a> {
pub fn new(writer: &'a mut dyn Write) -> CodeWriter<'a> {
CodeWriter {
writer,
indent: "".to_string(),
}
}
pub fn write_line<S: AsRef<str>>(&mut self, line: S) {
(if line.as_ref().is_empty() {
self.writer.write_all(b"\n")
} else {
let s: String = [self.indent.as_ref(), line.as_ref(), "\n"].concat();
self.writer.write_all(s.as_bytes())
})
.unwrap();
}
pub fn write_generated(&mut self) {
self.write_line("// This file is generated. Do not edit");
self.write_generated_common();
}
fn write_generated_common(&mut self) {
// https://secure.phabricator.com/T784
self.write_line("// @generated");
self.write_line("");
self.comment("https://github.com/Manishearth/rust-clippy/issues/702");
self.write_line("#![allow(unknown_lints)]");
self.write_line("#![allow(clippy::all)]");
self.write_line("");
self.write_line("#![allow(box_pointers)]");
self.write_line("#![allow(dead_code)]");
self.write_line("#![allow(missing_docs)]");
self.write_line("#![allow(non_camel_case_types)]");
self.write_line("#![allow(non_snake_case)]");
self.write_line("#![allow(non_upper_case_globals)]");
self.write_line("#![allow(trivial_casts)]");
self.write_line("#![allow(unsafe_code)]");
self.write_line("#![allow(unused_imports)]");
self.write_line("#![allow(unused_results)]");
}
pub fn indented<F>(&mut self, cb: F)
where
F: Fn(&mut CodeWriter),
{
cb(&mut CodeWriter {
writer: self.writer,
indent: format!("{} ", self.indent),
});
}
#[allow(dead_code)]
pub fn commented<F>(&mut self, cb: F)
where
F: Fn(&mut CodeWriter),
{
cb(&mut CodeWriter {
writer: self.writer,
indent: format!("// {}", self.indent),
});
}
pub fn block<F>(&mut self, first_line: &str, last_line: &str, cb: F)
where
F: Fn(&mut CodeWriter),
{
self.write_line(first_line);
self.indented(cb);
self.write_line(last_line);
}
pub fn expr_block<F>(&mut self, prefix: &str, cb: F)
where
F: Fn(&mut CodeWriter),
{
self.block(&format!("{} {{", prefix), "}", cb);
}
pub fn impl_self_block<S: AsRef<str>, F>(&mut self, name: S, cb: F)
where
F: Fn(&mut CodeWriter),
{
self.expr_block(&format!("impl {}", name.as_ref()), cb);
}
pub fn pub_struct<S: AsRef<str>, F>(&mut self, name: S, cb: F)
where
F: Fn(&mut CodeWriter),
{
self.expr_block(&format!("pub struct {}", name.as_ref()), cb);
}
pub fn pub_trait<F>(&mut self, name: &str, cb: F)
where
F: Fn(&mut CodeWriter),
{
self.expr_block(&format!("pub trait {}", name), cb);
}
pub fn field_entry(&mut self, name: &str, value: &str) {
self.write_line(&format!("{}: {},", name, value));
}
pub fn field_decl(&mut self, name: &str, field_type: &str) {
self.write_line(&format!("{}: {},", name, field_type));
}
pub fn comment(&mut self, comment: &str) {
if comment.is_empty() {
self.write_line("//");
} else {
self.write_line(&format!("// {}", comment));
}
}
pub fn fn_block<F>(&mut self, public: bool, sig: &str, cb: F)
where
F: Fn(&mut CodeWriter),
{
if public {
self.expr_block(&format!("pub fn {}", sig), cb);
} else {
self.expr_block(&format!("fn {}", sig), cb);
}
}
pub fn pub_fn<F>(&mut self, sig: &str, cb: F)
where
F: Fn(&mut CodeWriter),
{
self.fn_block(true, sig, cb);
}
}
use super::util::{self, fq_grpc, to_snake_case, MethodType};
struct MethodGen<'a> {
proto: &'a MethodDescriptorProto,
service_name: String,
service_path: String,
root_scope: &'a RootScope<'a>,
}
impl<'a> MethodGen<'a> {
fn new(
proto: &'a MethodDescriptorProto,
service_name: String,
service_path: String,
root_scope: &'a RootScope<'a>,
) -> MethodGen<'a> {
MethodGen {
proto,
service_name,
service_path,
root_scope,
}
}
fn input(&self) -> String {
format!(
"super::{}",
self.root_scope
.find_message(self.proto.get_input_type())
.rust_fq_name()
)
}
fn output(&self) -> String {
format!(
"super::{}",
self.root_scope
.find_message(self.proto.get_output_type())
.rust_fq_name()
)
}
fn method_type(&self) -> (MethodType, String) {
match (
self.proto.get_client_streaming(),
self.proto.get_server_streaming(),
) {
(false, false) => (MethodType::Unary, fq_grpc("MethodType::Unary")),
(true, false) => (
MethodType::ClientStreaming,
fq_grpc("MethodType::ClientStreaming"),
),
(false, true) => (
MethodType::ServerStreaming,
fq_grpc("MethodType::ServerStreaming"),
),
(true, true) => (MethodType::Duplex, fq_grpc("MethodType::Duplex")),
}
}
fn service_name(&self) -> String {
to_snake_case(&self.service_name)
}
fn name(&self) -> String {
to_snake_case(self.proto.get_name())
}
fn fq_name(&self) -> String {
format!("\"{}/{}\"", self.service_path, &self.proto.get_name())
}
fn const_method_name(&self) -> String {
format!(
"METHOD_{}_{}",
self.service_name().to_uppercase(),
self.name().to_uppercase()
)
}
fn write_definition(&self, w: &mut CodeWriter) {
let head = format!(
"const {}: {}<{}, {}> = {} {{",
self.const_method_name(),
fq_grpc("Method"),
self.input(),
self.output(),
fq_grpc("Method")
);
let pb_mar = format!(
"{} {{ ser: {}, de: {} }}",
fq_grpc("Marshaller"),
fq_grpc("pb_ser"),
fq_grpc("pb_de")
);
w.block(&head, "};", |w| {
w.field_entry("ty", &self.method_type().1);
w.field_entry("name", &self.fq_name());
w.field_entry("req_mar", &pb_mar);
w.field_entry("resp_mar", &pb_mar);
});
}
// Method signatures
fn unary(&self, method_name: &str) -> String {
format!(
"{}(&self, req: &{}) -> {}<{}>",
method_name,
self.input(),
fq_grpc("Result"),
self.output()
)
}
fn unary_opt(&self, method_name: &str) -> String {
format!(
"{}_opt(&self, req: &{}, opt: {}) -> {}<{}>",
method_name,
self.input(),
fq_grpc("CallOption"),
fq_grpc("Result"),
self.output()
)
}
fn unary_async(&self, method_name: &str) -> String {
format!(
"{}_async(&self, req: &{}) -> {}<{}<{}>>",
method_name,
self.input(),
fq_grpc("Result"),
fq_grpc("ClientUnaryReceiver"),
self.output()
)
}
fn unary_async_opt(&self, method_name: &str) -> String {
format!(
"{}_async_opt(&self, req: &{}, opt: {}) -> {}<{}<{}>>",
method_name,
self.input(),
fq_grpc("CallOption"),
fq_grpc("Result"),
fq_grpc("ClientUnaryReceiver"),
self.output()
)
}
fn client_streaming(&self, method_name: &str) -> String {
format!(
"{}(&self) -> {}<({}<{}>, {}<{}>)>",
method_name,
fq_grpc("Result"),
fq_grpc("ClientCStreamSender"),
self.input(),
fq_grpc("ClientCStreamReceiver"),
self.output()
)
}
fn client_streaming_opt(&self, method_name: &str) -> String {
format!(
"{}_opt(&self, opt: {}) -> {}<({}<{}>, {}<{}>)>",
method_name,
fq_grpc("CallOption"),
fq_grpc("Result"),
fq_grpc("ClientCStreamSender"),
self.input(),
fq_grpc("ClientCStreamReceiver"),
self.output()
)
}
fn server_streaming(&self, method_name: &str) -> String {
format!(
"{}(&self, req: &{}) -> {}<{}<{}>>",
method_name,
self.input(),
fq_grpc("Result"),
fq_grpc("ClientSStreamReceiver"),
self.output()
)
}
fn server_streaming_opt(&self, method_name: &str) -> String {
format!(
"{}_opt(&self, req: &{}, opt: {}) -> {}<{}<{}>>",
method_name,
self.input(),
fq_grpc("CallOption"),
fq_grpc("Result"),
fq_grpc("ClientSStreamReceiver"),
self.output()
)
}
fn duplex_streaming(&self, method_name: &str) -> String {
format!(
"{}(&self) -> {}<({}<{}>, {}<{}>)>",
method_name,
fq_grpc("Result"),
fq_grpc("ClientDuplexSender"),
self.input(),
fq_grpc("ClientDuplexReceiver"),
self.output()
)
}
fn duplex_streaming_opt(&self, method_name: &str) -> String {
format!(
"{}_opt(&self, opt: {}) -> {}<({}<{}>, {}<{}>)>",
method_name,
fq_grpc("CallOption"),
fq_grpc("Result"),
fq_grpc("ClientDuplexSender"),
self.input(),
fq_grpc("ClientDuplexReceiver"),
self.output()
)
}
fn write_client(&self, w: &mut CodeWriter) {
let method_name = self.name();
match self.method_type().0 {
// Unary
MethodType::Unary => {
w.pub_fn(&self.unary_opt(&method_name), |w| {
w.write_line(&format!(
"self.client.unary_call(&{}, req, opt)",
self.const_method_name()
));
});
w.write_line("");
w.pub_fn(&self.unary(&method_name), |w| {
w.write_line(&format!(
"self.{}_opt(req, {})",
method_name,
fq_grpc("CallOption::default()")
));
});
w.write_line("");
w.pub_fn(&self.unary_async_opt(&method_name), |w| {
w.write_line(&format!(
"self.client.unary_call_async(&{}, req, opt)",
self.const_method_name()
));
});
w.write_line("");
w.pub_fn(&self.unary_async(&method_name), |w| {
w.write_line(&format!(
"self.{}_async_opt(req, {})",
method_name,
fq_grpc("CallOption::default()")
));
});
}
// Client streaming
MethodType::ClientStreaming => {
w.pub_fn(&self.client_streaming_opt(&method_name), |w| {
w.write_line(&format!(
"self.client.client_streaming(&{}, opt)",
self.const_method_name()
));
});
w.write_line("");
w.pub_fn(&self.client_streaming(&method_name), |w| {
w.write_line(&format!(
"self.{}_opt({})",
method_name,
fq_grpc("CallOption::default()")
));
});
}
// Server streaming
MethodType::ServerStreaming => {
w.pub_fn(&self.server_streaming_opt(&method_name), |w| {
w.write_line(&format!(
"self.client.server_streaming(&{}, req, opt)",
self.const_method_name()
));
});
w.write_line("");
w.pub_fn(&self.server_streaming(&method_name), |w| {
w.write_line(&format!(
"self.{}_opt(req, {})",
method_name,
fq_grpc("CallOption::default()")
));
});
}
// Duplex streaming
MethodType::Duplex => {
w.pub_fn(&self.duplex_streaming_opt(&method_name), |w| {
w.write_line(&format!(
"self.client.duplex_streaming(&{}, opt)",
self.const_method_name()
));
});
w.write_line("");
w.pub_fn(&self.duplex_streaming(&method_name), |w| {
w.write_line(&format!(
"self.{}_opt({})",
method_name,
fq_grpc("CallOption::default()")
));
});
}
};
}
fn write_service(&self, w: &mut CodeWriter) {
let req_stream_type = format!("{}<{}>", fq_grpc("RequestStream"), self.input());
let (req, req_type, resp_type) = match self.method_type().0 {
MethodType::Unary => ("req", self.input(), "UnarySink"),
MethodType::ClientStreaming => ("stream", req_stream_type, "ClientStreamingSink"),
MethodType::ServerStreaming => ("req", self.input(), "ServerStreamingSink"),
MethodType::Duplex => ("stream", req_stream_type, "DuplexSink"),
};
let sig = format!(
"{}(&mut self, ctx: {}, _{}: {}, sink: {}<{}>)",
self.name(),
fq_grpc("RpcContext"),
req,
req_type,
fq_grpc(resp_type),
self.output()
);
w.fn_block(false, &sig, |w| {
w.write_line("grpcio::unimplemented_call!(ctx, sink)");
});
}
fn write_bind(&self, w: &mut CodeWriter) {
let add = match self.method_type().0 {
MethodType::Unary => "add_unary_handler",
MethodType::ClientStreaming => "add_client_streaming_handler",
MethodType::ServerStreaming => "add_server_streaming_handler",
MethodType::Duplex => "add_duplex_streaming_handler",
};
w.block(
&format!(
"builder = builder.{}(&{}, move |ctx, req, resp| {{",
add,
self.const_method_name()
),
"});",
|w| {
w.write_line(&format!("instance.{}(ctx, req, resp)", self.name()));
},
);
}
}
struct ServiceGen<'a> {
proto: &'a ServiceDescriptorProto,
methods: Vec<MethodGen<'a>>,
}
impl<'a> ServiceGen<'a> {
fn new(
proto: &'a ServiceDescriptorProto,
file: &FileDescriptorProto,
root_scope: &'a RootScope,
) -> ServiceGen<'a> {
let service_path = if file.get_package().is_empty() {
format!("/{}", proto.get_name())
} else {
format!("/{}.{}", file.get_package(), proto.get_name())
};
let methods = proto
.get_method()
.iter()
.map(|m| {
MethodGen::new(
m,
util::to_camel_case(proto.get_name()),
service_path.clone(),
root_scope,
)
})
.collect();
ServiceGen { proto, methods }
}
fn service_name(&self) -> String {
util::to_camel_case(self.proto.get_name())
}
fn client_name(&self) -> String {
format!("{}Client", self.service_name())
}
fn write_client(&self, w: &mut CodeWriter) {
w.write_line("#[derive(Clone)]");
w.pub_struct(&self.client_name(), |w| {
w.field_decl("client", "::grpcio::Client");
});
w.write_line("");
w.impl_self_block(&self.client_name(), |w| {
w.pub_fn("new(channel: ::grpcio::Channel) -> Self", |w| {
w.expr_block(&self.client_name(), |w| {
w.field_entry("client", "::grpcio::Client::new(channel)");
});
});
for method in &self.methods {
w.write_line("");
method.write_client(w);
}
w.pub_fn(
"spawn<F>(&self, f: F) where F: ::futures::Future<Output = ()> + Send + 'static",
|w| {
w.write_line("self.client.spawn(f)");
},
)
});
}
fn write_server(&self, w: &mut CodeWriter) {
w.pub_trait(&self.service_name(), |w| {
for method in &self.methods {
method.write_service(w);
}
});
w.write_line("");
let s = format!(
"create_{}<S: {} + Send + Clone + 'static>(s: S) -> {}",
to_snake_case(&self.service_name()),
self.service_name(),
fq_grpc("Service")
);
w.pub_fn(&s, |w| {
w.write_line("let mut builder = ::grpcio::ServiceBuilder::new();");
for method in &self.methods[0..self.methods.len() - 1] {
w.write_line("let mut instance = s.clone();");
method.write_bind(w);
}
w.write_line("let mut instance = s;");
self.methods[self.methods.len() - 1].write_bind(w);
w.write_line("builder.build()");
});
}
fn write_method_definitions(&self, w: &mut CodeWriter) {
for (i, method) in self.methods.iter().enumerate() {
if i != 0 {
w.write_line("");
}
method.write_definition(w);
}
}
fn write(&self, w: &mut CodeWriter) {
self.write_method_definitions(w);
w.write_line("");
self.write_client(w);
w.write_line("");
self.write_server(w);
}
}
fn gen_file(
file: &FileDescriptorProto,
root_scope: &RootScope,
) -> Option<compiler_plugin::GenResult> {
if file.get_service().is_empty() {
return None;
}
let base = protobuf::descriptorx::proto_path_to_rust_mod(file.get_name());
let mut v = Vec::new();
{
let mut w = CodeWriter::new(&mut v);
w.write_generated();
for service in file.get_service() {
w.write_line("");
ServiceGen::new(service, file, root_scope).write(&mut w);
}
}
Some(compiler_plugin::GenResult {
name: base + "_grpc.rs",
content: v,
})
}
pub fn gen(
file_descriptors: &[FileDescriptorProto],
files_to_generate: &[String],
) -> Vec<compiler_plugin::GenResult> {
let files_map: HashMap<&str, &FileDescriptorProto> =
file_descriptors.iter().map(|f| (f.get_name(), f)).collect();
let root_scope = RootScope { file_descriptors };
let mut results = Vec::new();
for file_name in files_to_generate {
let file = files_map[&file_name[..]];
if file.get_service().is_empty() {
continue;
}
results.extend(gen_file(file, &root_scope).into_iter());
}
results
}
pub fn protoc_gen_grpc_rust_main() {
compiler_plugin::plugin_main(gen);
}