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// Copyright 2023 Google LLC. All rights reserved.
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//
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file or at
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// https://developers.google.com/open-source/licenses/bsd
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use conformance_rust_proto::{ConformanceRequest, ConformanceResponse, WireFormat};
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#[cfg(cpp_kernel)]
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use protobuf_cpp as kernel;
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#[cfg(upb_kernel)]
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use protobuf_upb as kernel;
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use kernel::Optional::{Set, Unset};
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use std::io::{self, ErrorKind, Read, Write};
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use test_messages_edition2023_rust_proto::TestAllTypesEdition2023;
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use test_messages_proto2_editions_rust_proto::TestAllTypesProto2 as EditionsTestAllTypesProto2;
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use test_messages_proto2_rust_proto::TestAllTypesProto2;
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use test_messages_proto3_editions_rust_proto::TestAllTypesProto3 as EditionsTestAllTypesProto3;
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use test_messages_proto3_rust_proto::TestAllTypesProto3;
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/// Returns Some(i32) if a binary read can succeed from stdin.
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/// Returns None if we have reached an EOF.
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/// Panics for any other error reading.
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fn read_little_endian_i32_from_stdin() -> Option<i32> {
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let mut buffer = [0_u8; 4];
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if let Err(e) = io::stdin().read_exact(&mut buffer) {
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match e.kind() {
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ErrorKind::UnexpectedEof => None,
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_ => panic!("failed to read i32 from stdin"),
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}
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} else {
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Some(i32::from_le_bytes(buffer))
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}
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}
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/// Returns Some of a conformance request read from stdin.
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/// Returns None if we have hit an EOF that suggests the test suite is complete.
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/// Panics in any other case (e.g. an EOF in a place that would imply a
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/// programmer error in the conformance test suite).
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fn read_request_from_stdin() -> Option<ConformanceRequest> {
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let msg_len = read_little_endian_i32_from_stdin()?;
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let mut serialized = vec![0_u8; msg_len as usize];
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io::stdin().read_exact(&mut serialized).unwrap();
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Some(ConformanceRequest::parse(&serialized).unwrap())
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}
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fn write_response_to_stdout(resp: &ConformanceResponse) {
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let bytes = resp.serialize().unwrap();
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let len = bytes.len() as u32;
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let mut handle = io::stdout();
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handle.write_all(&len.to_le_bytes()).unwrap();
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handle.write(&bytes).unwrap();
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handle.flush().unwrap();
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}
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fn do_test(req: &ConformanceRequest) -> ConformanceResponse {
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let mut resp = ConformanceResponse::new();
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let message_type = req.message_type();
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if req.requested_output_format() != WireFormat::Protobuf {
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resp.set_skipped("only wire format output implemented");
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return resp;
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}
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let bytes = match req.protobuf_payload_opt() {
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Unset(_) => {
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resp.set_skipped("only wire format input implemented");
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return resp;
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}
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Set(bytes) => bytes,
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};
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let serialized = match message_type.as_bytes() {
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b"protobuf_test_messages.proto2.TestAllTypesProto2" => {
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if let Ok(msg) = TestAllTypesProto2::parse(bytes) {
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msg.serialize().unwrap()
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} else {
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resp.set_parse_error("failed to parse bytes");
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return resp;
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}
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}
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b"protobuf_test_messages.proto3.TestAllTypesProto3" => {
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if let Ok(msg) = TestAllTypesProto3::parse(bytes) {
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msg.serialize().unwrap()
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} else {
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resp.set_parse_error("failed to parse bytes");
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return resp;
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}
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}
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b"protobuf_test_messages.editions.TestAllTypesEdition2023" => {
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if let Ok(msg) = TestAllTypesEdition2023::parse(bytes) {
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msg.serialize().unwrap()
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} else {
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resp.set_parse_error("failed to parse bytes");
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return resp;
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}
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}
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b"protobuf_test_messages.editions.proto2.TestAllTypesProto2" => {
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if let Ok(msg) = EditionsTestAllTypesProto2::parse(bytes) {
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msg.serialize().unwrap()
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} else {
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resp.set_parse_error("failed to parse bytes");
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return resp;
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}
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}
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b"protobuf_test_messages.editions.proto3.TestAllTypesProto3" => {
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if let Ok(msg) = EditionsTestAllTypesProto3::parse(bytes) {
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msg.serialize().unwrap()
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} else {
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resp.set_parse_error("failed to parse bytes");
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return resp;
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}
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}
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_ => panic!("unexpected msg type {message_type}"),
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};
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resp.set_protobuf_payload(serialized);
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return resp;
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}
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fn main() {
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let mut total_runs = 0;
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while let Some(req) = read_request_from_stdin() {
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let resp = do_test(&req);
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write_response_to_stdout(&resp);
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total_runs += 1;
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}
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eprintln!("conformance_rust: received EOF from test runner after {total_runs} tests");
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}
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