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chromium / external / github.com / emscripten-core / emscripten-fastcomp / refs/tags/1.39.15 / . / unittests / ExecutionEngine / Orc / RPCUtilsTest.cpp
blob: 7fe449b70169d0c4709a50b522c264f941d6ee81 [file] [log] [blame]
//===----------- RPCUtilsTest.cpp - Unit tests the Orc RPC utils ----------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/ExecutionEngine/Orc/RPCUtils.h"
#include "QueueChannel.h"
#include "gtest/gtest.h"
#include <queue>
using namespace llvm;
using namespace llvm::orc;
using namespace llvm::orc::rpc;
class RPCFoo {};
namespace llvm {
namespace orc {
namespace rpc {
template <>
class RPCTypeName<RPCFoo> {
public:
static const char* getName() { return "RPCFoo"; }
};
template <>
class SerializationTraits<QueueChannel, RPCFoo, RPCFoo> {
public:
static Error serialize(QueueChannel&, const RPCFoo&) {
return Error::success();
}
static Error deserialize(QueueChannel&, RPCFoo&) {
return Error::success();
}
};
} // end namespace rpc
} // end namespace orc
} // end namespace llvm
class RPCBar {};
class DummyError : public ErrorInfo<DummyError> {
public:
static char ID;
DummyError(uint32_t Val) : Val(Val) {}
std::error_code convertToErrorCode() const override {
// Use a nonsense error code - we want to verify that errors
// transmitted over the network are replaced with
// OrcErrorCode::UnknownErrorCodeFromRemote.
return orcError(OrcErrorCode::RemoteAllocatorDoesNotExist);
}
void log(raw_ostream &OS) const override {
OS << "Dummy error " << Val;
}
uint32_t getValue() const { return Val; }
public:
uint32_t Val;
};
char DummyError::ID = 0;
template <typename ChannelT>
void registerDummyErrorSerialization() {
static bool AlreadyRegistered = false;
if (!AlreadyRegistered) {
SerializationTraits<ChannelT, Error>::
template registerErrorType<DummyError>(
"DummyError",
[](ChannelT &C, const DummyError &DE) {
return serializeSeq(C, DE.getValue());
},
[](ChannelT &C, Error &Err) -> Error {
ErrorAsOutParameter EAO(&Err);
uint32_t Val;
if (auto Err = deserializeSeq(C, Val))
return Err;
Err = make_error<DummyError>(Val);
return Error::success();
});
AlreadyRegistered = true;
}
}
namespace llvm {
namespace orc {
namespace rpc {
template <>
class SerializationTraits<QueueChannel, RPCFoo, RPCBar> {
public:
static Error serialize(QueueChannel&, const RPCBar&) {
return Error::success();
}
static Error deserialize(QueueChannel&, RPCBar&) {
return Error::success();
}
};
} // end namespace rpc
} // end namespace orc
} // end namespace llvm
namespace DummyRPCAPI {
class VoidBool : public Function<VoidBool, void(bool)> {
public:
static const char* getName() { return "VoidBool"; }
};
class IntInt : public Function<IntInt, int32_t(int32_t)> {
public:
static const char* getName() { return "IntInt"; }
};
class VoidString : public Function<VoidString, void(std::string)> {
public:
static const char* getName() { return "VoidString"; }
};
class AllTheTypes
: public Function<AllTheTypes,
void(int8_t, uint8_t, int16_t, uint16_t, int32_t,
uint32_t, int64_t, uint64_t, bool, std::string,
std::vector<int>)> {
public:
static const char* getName() { return "AllTheTypes"; }
};
class CustomType : public Function<CustomType, RPCFoo(RPCFoo)> {
public:
static const char* getName() { return "CustomType"; }
};
class ErrorFunc : public Function<ErrorFunc, Error()> {
public:
static const char* getName() { return "ErrorFunc"; }
};
class ExpectedFunc : public Function<ExpectedFunc, Expected<uint32_t>()> {
public:
static const char* getName() { return "ExpectedFunc"; }
};
}
class DummyRPCEndpoint : public SingleThreadedRPCEndpoint<QueueChannel> {
public:
DummyRPCEndpoint(QueueChannel &C)
: SingleThreadedRPCEndpoint(C, true) {}
};
void freeVoidBool(bool B) {
}
TEST(DummyRPC, TestFreeFunctionHandler) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Server(*Channels.first);
Server.addHandler<DummyRPCAPI::VoidBool>(freeVoidBool);
}
TEST(DummyRPC, TestCallAsyncVoidBool) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::VoidBool>(
[](bool B) {
EXPECT_EQ(B, true)
<< "Server void(bool) received unexpected result";
});
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the VoidBool call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to void(bool)";
}
});
{
// Make an async call.
auto Err = Client.callAsync<DummyRPCAPI::VoidBool>(
[](Error Err) {
EXPECT_FALSE(!!Err) << "Async void(bool) response handler failed";
return Error::success();
}, true);
EXPECT_FALSE(!!Err) << "Client.callAsync failed for void(bool)";
}
{
// Poke the client to process the result of the void(bool) call.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
}
ServerThread.join();
}
TEST(DummyRPC, TestCallAsyncIntInt) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::IntInt>(
[](int X) -> int {
EXPECT_EQ(X, 21) << "Server int(int) receieved unexpected result";
return 2 * X;
});
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the int(int) call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to int(int)";
}
});
{
auto Err = Client.callAsync<DummyRPCAPI::IntInt>(
[](Expected<int> Result) {
EXPECT_TRUE(!!Result) << "Async int(int) response handler failed";
EXPECT_EQ(*Result, 42)
<< "Async int(int) response handler received incorrect result";
return Error::success();
}, 21);
EXPECT_FALSE(!!Err) << "Client.callAsync failed for int(int)";
}
{
// Poke the client to process the result.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
}
ServerThread.join();
}
TEST(DummyRPC, TestAsyncVoidBoolHandler) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addAsyncHandler<DummyRPCAPI::VoidBool>(
[](std::function<Error(Error)> SendResult,
bool B) {
EXPECT_EQ(B, true) << "Server void(bool) receieved unexpected result";
cantFail(SendResult(Error::success()));
return Error::success();
});
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the VoidBool call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to void(bool)";
}
});
{
auto Err = Client.callAsync<DummyRPCAPI::VoidBool>(
[](Error Result) {
EXPECT_FALSE(!!Result) << "Async void(bool) response handler failed";
return Error::success();
}, true);
EXPECT_FALSE(!!Err) << "Client.callAsync failed for void(bool)";
}
{
// Poke the client to process the result.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
}
ServerThread.join();
}
TEST(DummyRPC, TestAsyncIntIntHandler) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addAsyncHandler<DummyRPCAPI::IntInt>(
[](std::function<Error(Expected<int32_t>)> SendResult,
int32_t X) {
EXPECT_EQ(X, 21) << "Server int(int) receieved unexpected result";
return SendResult(2 * X);
});
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the VoidBool call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to void(bool)";
}
});
{
auto Err = Client.callAsync<DummyRPCAPI::IntInt>(
[](Expected<int> Result) {
EXPECT_TRUE(!!Result) << "Async int(int) response handler failed";
EXPECT_EQ(*Result, 42)
<< "Async int(int) response handler received incorrect result";
return Error::success();
}, 21);
EXPECT_FALSE(!!Err) << "Client.callAsync failed for int(int)";
}
{
// Poke the client to process the result.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
}
ServerThread.join();
}
TEST(DummyRPC, TestAsyncIntIntHandlerMethod) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
class Dummy {
public:
Error handler(std::function<Error(Expected<int32_t>)> SendResult,
int32_t X) {
EXPECT_EQ(X, 21) << "Server int(int) receieved unexpected result";
return SendResult(2 * X);
}
};
std::thread ServerThread([&]() {
Dummy D;
Server.addAsyncHandler<DummyRPCAPI::IntInt>(D, &Dummy::handler);
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the VoidBool call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to void(bool)";
}
});
{
auto Err = Client.callAsync<DummyRPCAPI::IntInt>(
[](Expected<int> Result) {
EXPECT_TRUE(!!Result) << "Async int(int) response handler failed";
EXPECT_EQ(*Result, 42)
<< "Async int(int) response handler received incorrect result";
return Error::success();
}, 21);
EXPECT_FALSE(!!Err) << "Client.callAsync failed for int(int)";
}
{
// Poke the client to process the result.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
}
ServerThread.join();
}
TEST(DummyRPC, TestCallAsyncVoidString) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::VoidString>(
[](const std::string &S) {
EXPECT_EQ(S, "hello")
<< "Server void(std::string) received unexpected result";
});
// Poke the server to handle the negotiate call.
for (int I = 0; I < 4; ++I) {
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call";
}
});
{
// Make an call using a std::string.
auto Err = Client.callB<DummyRPCAPI::VoidString>(std::string("hello"));
EXPECT_FALSE(!!Err) << "Client.callAsync failed for void(std::string)";
}
{
// Make an call using a std::string.
auto Err = Client.callB<DummyRPCAPI::VoidString>(StringRef("hello"));
EXPECT_FALSE(!!Err) << "Client.callAsync failed for void(std::string)";
}
{
// Make an call using a std::string.
auto Err = Client.callB<DummyRPCAPI::VoidString>("hello");
EXPECT_FALSE(!!Err) << "Client.callAsync failed for void(string)";
}
ServerThread.join();
}
TEST(DummyRPC, TestSerialization) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::AllTheTypes>(
[&](int8_t S8, uint8_t U8, int16_t S16, uint16_t U16,
int32_t S32, uint32_t U32, int64_t S64, uint64_t U64,
bool B, std::string S, std::vector<int> V) {
EXPECT_EQ(S8, -101) << "int8_t serialization broken";
EXPECT_EQ(U8, 250) << "uint8_t serialization broken";
EXPECT_EQ(S16, -10000) << "int16_t serialization broken";
EXPECT_EQ(U16, 10000) << "uint16_t serialization broken";
EXPECT_EQ(S32, -1000000000) << "int32_t serialization broken";
EXPECT_EQ(U32, 1000000000ULL) << "uint32_t serialization broken";
EXPECT_EQ(S64, -10000000000) << "int64_t serialization broken";
EXPECT_EQ(U64, 10000000000ULL) << "uint64_t serialization broken";
EXPECT_EQ(B, true) << "bool serialization broken";
EXPECT_EQ(S, "foo") << "std::string serialization broken";
EXPECT_EQ(V, std::vector<int>({42, 7}))
<< "std::vector serialization broken";
return Error::success();
});
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the AllTheTypes call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to void(bool)";
}
});
{
// Make an async call.
std::vector<int> v({42, 7});
auto Err = Client.callAsync<DummyRPCAPI::AllTheTypes>(
[](Error Err) {
EXPECT_FALSE(!!Err) << "Async AllTheTypes response handler failed";
return Error::success();
},
static_cast<int8_t>(-101), static_cast<uint8_t>(250),
static_cast<int16_t>(-10000), static_cast<uint16_t>(10000),
static_cast<int32_t>(-1000000000), static_cast<uint32_t>(1000000000),
static_cast<int64_t>(-10000000000), static_cast<uint64_t>(10000000000),
true, std::string("foo"), v);
EXPECT_FALSE(!!Err) << "Client.callAsync failed for AllTheTypes";
}
{
// Poke the client to process the result of the AllTheTypes call.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err) << "Client failed to handle response from AllTheTypes";
}
ServerThread.join();
}
TEST(DummyRPC, TestCustomType) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::CustomType>(
[](RPCFoo F) {});
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the CustomType call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to RPCFoo(RPCFoo)";
}
});
{
// Make an async call.
auto Err = Client.callAsync<DummyRPCAPI::CustomType>(
[](Expected<RPCFoo> FOrErr) {
EXPECT_TRUE(!!FOrErr)
<< "Async RPCFoo(RPCFoo) response handler failed";
return Error::success();
}, RPCFoo());
EXPECT_FALSE(!!Err) << "Client.callAsync failed for RPCFoo(RPCFoo)";
}
{
// Poke the client to process the result of the RPCFoo() call.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err)
<< "Client failed to handle response from RPCFoo(RPCFoo)";
}
ServerThread.join();
}
TEST(DummyRPC, TestWithAltCustomType) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::CustomType>(
[](RPCBar F) {});
{
// Poke the server to handle the negotiate call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to negotiate";
}
{
// Poke the server to handle the CustomType call.
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to RPCFoo(RPCFoo)";
}
});
{
// Make an async call.
auto Err = Client.callAsync<DummyRPCAPI::CustomType>(
[](Expected<RPCBar> FOrErr) {
EXPECT_TRUE(!!FOrErr)
<< "Async RPCFoo(RPCFoo) response handler failed";
return Error::success();
}, RPCBar());
EXPECT_FALSE(!!Err) << "Client.callAsync failed for RPCFoo(RPCFoo)";
}
{
// Poke the client to process the result of the RPCFoo() call.
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err)
<< "Client failed to handle response from RPCFoo(RPCFoo)";
}
ServerThread.join();
}
TEST(DummyRPC, ReturnErrorSuccess) {
registerDummyErrorSerialization<QueueChannel>();
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::ErrorFunc>(
[]() {
return Error::success();
});
// Handle the negotiate plus one call.
for (unsigned I = 0; I != 2; ++I)
cantFail(Server.handleOne());
});
cantFail(Client.callAsync<DummyRPCAPI::ErrorFunc>(
[&](Error Err) {
EXPECT_FALSE(!!Err) << "Expected success value";
return Error::success();
}));
cantFail(Client.handleOne());
ServerThread.join();
}
TEST(DummyRPC, ReturnErrorFailure) {
registerDummyErrorSerialization<QueueChannel>();
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::ErrorFunc>(
[]() {
return make_error<DummyError>(42);
});
// Handle the negotiate plus one call.
for (unsigned I = 0; I != 2; ++I)
cantFail(Server.handleOne());
});
cantFail(Client.callAsync<DummyRPCAPI::ErrorFunc>(
[&](Error Err) {
EXPECT_TRUE(Err.isA<DummyError>())
<< "Incorrect error type";
return handleErrors(
std::move(Err),
[](const DummyError &DE) {
EXPECT_EQ(DE.getValue(), 42ULL)
<< "Incorrect DummyError serialization";
});
}));
cantFail(Client.handleOne());
ServerThread.join();
}
TEST(DummyRPC, ReturnExpectedSuccess) {
registerDummyErrorSerialization<QueueChannel>();
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::ExpectedFunc>(
[]() -> uint32_t {
return 42;
});
// Handle the negotiate plus one call.
for (unsigned I = 0; I != 2; ++I)
cantFail(Server.handleOne());
});
cantFail(Client.callAsync<DummyRPCAPI::ExpectedFunc>(
[&](Expected<uint32_t> ValOrErr) {
EXPECT_TRUE(!!ValOrErr)
<< "Expected success value";
EXPECT_EQ(*ValOrErr, 42ULL)
<< "Incorrect Expected<uint32_t> deserialization";
return Error::success();
}));
cantFail(Client.handleOne());
ServerThread.join();
}
TEST(DummyRPC, ReturnExpectedFailure) {
registerDummyErrorSerialization<QueueChannel>();
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::ExpectedFunc>(
[]() -> Expected<uint32_t> {
return make_error<DummyError>(7);
});
// Handle the negotiate plus one call.
for (unsigned I = 0; I != 2; ++I)
cantFail(Server.handleOne());
});
cantFail(Client.callAsync<DummyRPCAPI::ExpectedFunc>(
[&](Expected<uint32_t> ValOrErr) {
EXPECT_FALSE(!!ValOrErr)
<< "Expected failure value";
auto Err = ValOrErr.takeError();
EXPECT_TRUE(Err.isA<DummyError>())
<< "Incorrect error type";
return handleErrors(
std::move(Err),
[](const DummyError &DE) {
EXPECT_EQ(DE.getValue(), 7ULL)
<< "Incorrect DummyError serialization";
});
}));
cantFail(Client.handleOne());
ServerThread.join();
}
TEST(DummyRPC, TestParallelCallGroup) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread([&]() {
Server.addHandler<DummyRPCAPI::IntInt>(
[](int X) -> int {
return 2 * X;
});
// Handle the negotiate, plus three calls.
for (unsigned I = 0; I != 4; ++I) {
auto Err = Server.handleOne();
EXPECT_FALSE(!!Err) << "Server failed to handle call to int(int)";
}
});
{
int A, B, C;
ParallelCallGroup PCG;
{
auto Err = PCG.call(
rpcAsyncDispatch<DummyRPCAPI::IntInt>(Client),
[&A](Expected<int> Result) {
EXPECT_TRUE(!!Result) << "Async int(int) response handler failed";
A = *Result;
return Error::success();
}, 1);
EXPECT_FALSE(!!Err) << "First parallel call failed for int(int)";
}
{
auto Err = PCG.call(
rpcAsyncDispatch<DummyRPCAPI::IntInt>(Client),
[&B](Expected<int> Result) {
EXPECT_TRUE(!!Result) << "Async int(int) response handler failed";
B = *Result;
return Error::success();
}, 2);
EXPECT_FALSE(!!Err) << "Second parallel call failed for int(int)";
}
{
auto Err = PCG.call(
rpcAsyncDispatch<DummyRPCAPI::IntInt>(Client),
[&C](Expected<int> Result) {
EXPECT_TRUE(!!Result) << "Async int(int) response handler failed";
C = *Result;
return Error::success();
}, 3);
EXPECT_FALSE(!!Err) << "Third parallel call failed for int(int)";
}
// Handle the three int(int) results.
for (unsigned I = 0; I != 3; ++I) {
auto Err = Client.handleOne();
EXPECT_FALSE(!!Err) << "Client failed to handle response from void(bool)";
}
PCG.wait();
EXPECT_EQ(A, 2) << "First parallel call returned bogus result";
EXPECT_EQ(B, 4) << "Second parallel call returned bogus result";
EXPECT_EQ(C, 6) << "Third parallel call returned bogus result";
}
ServerThread.join();
}
TEST(DummyRPC, TestAPICalls) {
using DummyCalls1 = APICalls<DummyRPCAPI::VoidBool, DummyRPCAPI::IntInt>;
using DummyCalls2 = APICalls<DummyRPCAPI::AllTheTypes>;
using DummyCalls3 = APICalls<DummyCalls1, DummyRPCAPI::CustomType>;
using DummyCallsAll = APICalls<DummyCalls1, DummyCalls2, DummyRPCAPI::CustomType>;
static_assert(DummyCalls1::Contains<DummyRPCAPI::VoidBool>::value,
"Contains<Func> template should return true here");
static_assert(!DummyCalls1::Contains<DummyRPCAPI::CustomType>::value,
"Contains<Func> template should return false here");
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Client(*Channels.first);
DummyRPCEndpoint Server(*Channels.second);
std::thread ServerThread(
[&]() {
Server.addHandler<DummyRPCAPI::VoidBool>([](bool b) { });
Server.addHandler<DummyRPCAPI::IntInt>([](int x) { return x; });
Server.addHandler<DummyRPCAPI::CustomType>([](RPCFoo F) {});
for (unsigned I = 0; I < 4; ++I) {
auto Err = Server.handleOne();
(void)!!Err;
}
});
{
auto Err = DummyCalls1::negotiate(Client);
EXPECT_FALSE(!!Err) << "DummyCalls1::negotiate failed";
}
{
auto Err = DummyCalls3::negotiate(Client);
EXPECT_FALSE(!!Err) << "DummyCalls3::negotiate failed";
}
{
auto Err = DummyCallsAll::negotiate(Client);
EXPECT_TRUE(Err.isA<CouldNotNegotiate>())
<< "Expected CouldNotNegotiate error for attempted negotiate of "
"unsupported function";
consumeError(std::move(Err));
}
ServerThread.join();
}
TEST(DummyRPC, TestRemoveHandler) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Server(*Channels.second);
Server.addHandler<DummyRPCAPI::VoidBool>(
[](bool B) {
EXPECT_EQ(B, true)
<< "Server void(bool) received unexpected result";
});
Server.removeHandler<DummyRPCAPI::VoidBool>();
}
TEST(DummyRPC, TestClearHandlers) {
auto Channels = createPairedQueueChannels();
DummyRPCEndpoint Server(*Channels.second);
Server.addHandler<DummyRPCAPI::VoidBool>(
[](bool B) {
EXPECT_EQ(B, true)
<< "Server void(bool) received unexpected result";
});
Server.clearHandlers();
}