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// Copyright 2021 gRPC authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "src/core/lib/promise/activity.h"
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "src/core/lib/promise/join.h"
#include "src/core/lib/promise/promise.h"
#include "src/core/lib/promise/seq.h"
#include "src/core/lib/promise/wait_set.h"
using testing::_;
using testing::Mock;
using testing::MockFunction;
using testing::SaveArg;
using testing::StrictMock;
namespace grpc_core {
class MockCallbackScheduler {
public:
MOCK_METHOD(void, Schedule, (std::function<void()>));
};
// A simple Barrier type: stalls progress until it is 'cleared'.
class Barrier {
public:
struct Result {};
Promise<Result> Wait() {
return [this]() -> Poll<Result> {
absl::MutexLock lock(&mu_);
if (cleared_) {
return Result{};
} else {
return wait_set_.AddPending(Activity::current()->MakeOwningWaker());
}
};
}
void Clear() {
mu_.Lock();
cleared_ = true;
auto wakeup = wait_set_.TakeWakeupSet();
mu_.Unlock();
wakeup.Wakeup();
}
private:
absl::Mutex mu_;
WaitSet wait_set_ ABSL_GUARDED_BY(mu_);
bool cleared_ ABSL_GUARDED_BY(mu_) = false;
};
// A simple Barrier type: stalls progress until it is 'cleared'.
// This variant supports only a single waiter.
class SingleBarrier {
public:
struct Result {};
Promise<Result> Wait() {
return [this]() -> Poll<Result> {
absl::MutexLock lock(&mu_);
if (cleared_) {
return Result{};
} else {
waker_ = Activity::current()->MakeOwningWaker();
return Pending();
}
};
}
void Clear() {
mu_.Lock();
cleared_ = true;
auto waker = std::move(waker_);
mu_.Unlock();
waker.Wakeup();
}
private:
absl::Mutex mu_;
Waker waker_ ABSL_GUARDED_BY(mu_);
bool cleared_ ABSL_GUARDED_BY(mu_) = false;
};
TEST(ActivityTest, ImmediatelyCompleteWithSuccess) {
StrictMock<MockFunction<void(absl::Status)>> on_done;
EXPECT_CALL(on_done, Call(absl::OkStatus()));
MakeActivity(
[] { return [] { return absl::OkStatus(); }; }, NoCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
}
TEST(ActivityTest, ImmediatelyCompleteWithFailure) {
StrictMock<MockFunction<void(absl::Status)>> on_done;
EXPECT_CALL(on_done, Call(absl::CancelledError()));
MakeActivity(
[] { return [] { return absl::CancelledError(); }; },
NoCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
}
TEST(ActivityTest, DropImmediately) {
StrictMock<MockFunction<void(absl::Status)>> on_done;
EXPECT_CALL(on_done, Call(absl::CancelledError()));
MakeActivity(
[] { return []() -> Poll<absl::Status> { return Pending(); }; },
NoCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
}
TEST(ActivityTest, Cancel) {
StrictMock<MockFunction<void(absl::Status)>> on_done;
auto activity = MakeActivity(
[] { return []() -> Poll<absl::Status> { return Pending(); }; },
NoCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
EXPECT_CALL(on_done, Call(absl::CancelledError()));
activity->Cancel();
Mock::VerifyAndClearExpectations(&on_done);
activity.reset();
}
template <typename B>
class BarrierTest : public testing::Test {
public:
using Type = B;
};
using BarrierTestTypes = testing::Types<Barrier, SingleBarrier>;
TYPED_TEST_SUITE(BarrierTest, BarrierTestTypes);
TYPED_TEST(BarrierTest, Barrier) {
typename TestFixture::Type b;
StrictMock<MockFunction<void(absl::Status)>> on_done;
auto activity = MakeActivity(
[&b] {
return Seq(b.Wait(), [](typename TestFixture::Type::Result) {
return absl::OkStatus();
});
},
InlineCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
// Clearing the barrier should let the activity proceed to return a result.
EXPECT_CALL(on_done, Call(absl::OkStatus()));
b.Clear();
}
TYPED_TEST(BarrierTest, BarrierPing) {
typename TestFixture::Type b1;
typename TestFixture::Type b2;
StrictMock<MockFunction<void(absl::Status)>> on_done1;
StrictMock<MockFunction<void(absl::Status)>> on_done2;
MockCallbackScheduler scheduler1;
MockCallbackScheduler scheduler2;
auto activity1 = MakeActivity(
[&b1, &b2] {
return Seq(b1.Wait(), [&b2](typename TestFixture::Type::Result) {
// Clear the barrier whilst executing an activity
b2.Clear();
return absl::OkStatus();
});
},
[&scheduler1](std::function<void()> f) { scheduler1.Schedule(f); },
[&on_done1](absl::Status status) { on_done1.Call(std::move(status)); });
auto activity2 = MakeActivity(
[&b2] {
return Seq(b2.Wait(), [](typename TestFixture::Type::Result) {
return absl::OkStatus();
});
},
[&scheduler2](std::function<void()> f) { scheduler2.Schedule(f); },
[&on_done2](absl::Status status) { on_done2.Call(std::move(status)); });
// Since barrier triggers inside activity1 promise, activity2 wakeup will be
// scheduled from a callback.
std::function<void()> cb1;
std::function<void()> cb2;
EXPECT_CALL(scheduler1, Schedule(_)).WillOnce(SaveArg<0>(&cb1));
b1.Clear();
Mock::VerifyAndClearExpectations(&scheduler1);
EXPECT_CALL(on_done1, Call(absl::OkStatus()));
EXPECT_CALL(scheduler2, Schedule(_)).WillOnce(SaveArg<0>(&cb2));
cb1();
Mock::VerifyAndClearExpectations(&on_done1);
EXPECT_CALL(on_done2, Call(absl::OkStatus()));
cb2();
}
TYPED_TEST(BarrierTest, WakeSelf) {
typename TestFixture::Type b;
StrictMock<MockFunction<void(absl::Status)>> on_done;
EXPECT_CALL(on_done, Call(absl::OkStatus()));
MakeActivity(
[&b] {
return Seq(Join(b.Wait(),
[&b] {
b.Clear();
return 1;
}),
[](std::tuple<typename TestFixture::Type::Result, int>) {
return absl::OkStatus();
});
},
NoCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
}
TYPED_TEST(BarrierTest, WakeAfterDestruction) {
typename TestFixture::Type b;
{
StrictMock<MockFunction<void(absl::Status)>> on_done;
EXPECT_CALL(on_done, Call(absl::CancelledError()));
MakeActivity(
[&b] {
return Seq(b.Wait(), [](typename TestFixture::Type::Result) {
return absl::OkStatus();
});
},
InlineCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
}
b.Clear();
}
TEST(ActivityTest, ForceWakeup) {
StrictMock<MockFunction<void(absl::Status)>> on_done;
int run_count = 0;
auto activity = MakeActivity(
[&run_count]() -> Poll<absl::Status> {
++run_count;
switch (run_count) {
case 1:
return Pending{};
case 2:
return absl::OkStatus();
default:
abort();
}
},
InlineCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); });
EXPECT_CALL(on_done, Call(absl::OkStatus()));
activity->ForceWakeup();
}
struct TestContext {
bool* done;
};
template <>
struct ContextType<TestContext> {};
TEST(ActivityTest, WithContext) {
bool done = false;
StrictMock<MockFunction<void(absl::Status)>> on_done;
EXPECT_CALL(on_done, Call(absl::OkStatus()));
MakeActivity(
[] {
*GetContext<TestContext>()->done = true;
return Immediate(absl::OkStatus());
},
NoCallbackScheduler(),
[&on_done](absl::Status status) { on_done.Call(std::move(status)); },
TestContext{&done});
EXPECT_TRUE(done);
}
TEST(WakerTest, CanWakeupEmptyWaker) {
// Empty wakers should not do anything upon wakeup.
Waker().Wakeup();
}
} // namespace grpc_core
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}