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03418af046
teak-llvm/llvm/unittests/ExecutionEngine/Orc/RPCUtilsTest.cpp
Lang Hames 03418af046 [ORC] Add a WrappedHandlerReturn type to map handler return types onto error 
return types.

This class allows user provided handlers to return either error-wrapped types
or plain types. In the latter case, the plain type is wrapped with a success
value of Error or Expected<T> type to fit it into the rest of the serialization
machinery.

This patch allows us to remove the RPC unit-test workaround added in r286646.

llvm-svn: 286701
2016-11-12 02:19:31 +00:00

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//===----------- 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/RawByteChannel.h"
#include "llvm/ExecutionEngine/Orc/RPCUtils.h"
#include "gtest/gtest.h"
#include <queue>
using namespace llvm;
using namespace llvm::orc;
using namespace llvm::orc::rpc;
class Queue : public std::queue<char> {
public:
std::mutex &getLock() { return Lock; }
private:
std::mutex Lock;
};
class QueueChannel : public RawByteChannel {
public:
QueueChannel(Queue &InQueue, Queue &OutQueue)
: InQueue(InQueue), OutQueue(OutQueue) {}
Error readBytes(char *Dst, unsigned Size) override {
while (Size != 0) {
// If there's nothing to read then yield.
while (InQueue.empty())
std::this_thread::yield();
// Lock the channel and read what we can.
std::lock_guard<std::mutex> Lock(InQueue.getLock());
while (!InQueue.empty() && Size) {
*Dst++ = InQueue.front();
--Size;
InQueue.pop();
}
}
return Error::success();
}
Error appendBytes(const char *Src, unsigned Size) override {
std::lock_guard<std::mutex> Lock(OutQueue.getLock());
while (Size--)
OutQueue.push(*Src++);
return Error::success();
}
Error send() override { return Error::success(); }
private:
Queue &InQueue;
Queue &OutQueue;
};
class DummyRPCAPI {
public:
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 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 DummyRPCEndpoint : public DummyRPCAPI,
public SingleThreadedRPC<QueueChannel> {
public:
DummyRPCEndpoint(Queue &Q1, Queue &Q2)
: SingleThreadedRPC(C, true), C(Q1, Q2) {}
private:
QueueChannel C;
};
TEST(DummyRPC, TestAsyncVoidBool) {
Queue Q1, Q2;
DummyRPCEndpoint Client(Q1, Q2);
DummyRPCEndpoint Server(Q2, Q1);
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, TestAsyncIntInt) {
Queue Q1, Q2;
DummyRPCEndpoint Client(Q1, Q2);
DummyRPCEndpoint Server(Q2, Q1);
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, TestSerialization) {
Queue Q1, Q2;
DummyRPCEndpoint Client(Q1, Q2);
DummyRPCEndpoint Server(Q2, Q1);
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 the synchronous call API.
// FIXME: Re-enable once deadlock encountered on S390 has been debugged / fixed,
// see http://lab.llvm.org:8011/builders/clang-s390x-linux/builds/3459
// TEST_F(DummyRPC, TestSynchronousCall) {
// Queue Q1, Q2;
// QueueChannel C1(Q1, Q2);
// QueueChannel C2(Q2, Q1);
//
// auto ServerResult =
// std::async(std::launch::async,
// [&]() {
// return expect<IntInt>(C2, [&](int32_t V) { return V; });
// });
//
// auto ValOrErr = callST<IntInt>(C1, 42);
//
// EXPECT_FALSE(!!ServerResult.get())
// << "Server returned an error.";
// EXPECT_TRUE(!!ValOrErr)
// << "callST returned an error.";
// EXPECT_EQ(*ValOrErr, 42)
// << "Incorrect callST<IntInt> result";
// }
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