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swift-mirror/unittests/runtime/TaskStatus.cpp
Fred Riss bbda706393 [Concurrency] Add a unique Task ID to AsyncTask 
This commit changes JobFlags storage to be 32bits, but leaves the runtime
API expressed in terms of size_t. This allows us to pack an Id in the
32bits we freed up.

The offset of this Id in the AsyncTask is an ABI constant. This way
introspection tools can extract the currently running task identifier
without any need for special APIs.
2021-05-11 08:28:17 -07:00

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9.3 KiB
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//===--- TaskStatus.cpp - Unit tests for the task-status API --------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
#include "swift/Runtime/Concurrency.h"
#include "swift/Basic/STLExtras.h"
#include "gtest/gtest.h"
using namespace swift;
namespace {
template <class T> struct ValueContext;
template <class T>
using InvokeFunctionRef =
llvm::function_ref<void(ValueContext<T> *context)>;
using BodyFunctionRef =
llvm::function_ref<void(AsyncTask *task)>;
template <class Storage> struct ValueContext : AsyncContext {
Storage Value;
InvokeFunctionRef<Storage> StoredInvokeFn;
};
// Disable template argument deduction.
template <class T>
using undeduced =
typename std::enable_if<std::is_same<T, T>::value, T>::type;
template <class T>
SWIFT_CC(swiftasync)
static void simpleTaskInvokeFunction(SWIFT_ASYNC_CONTEXT AsyncContext *context,
SWIFT_CONTEXT HeapObject *) {
auto valueContext = static_cast<ValueContext<T>*>(context);
valueContext->StoredInvokeFn(valueContext);
// Destroy the stored value.
valueContext->Value.T::~T();
// Return to finish off the task.
// In a normal situation we'd need to free the context, but here
// we know we're at the top level.
return valueContext->ResumeParent(valueContext);
}
template <class T>
static void withSimpleTask(JobFlags flags, T &&value,
undeduced<InvokeFunctionRef<T>> invokeFn,
BodyFunctionRef body) {
auto taskAndContext =
swift_task_create_f(flags.getOpaqueValue(),
reinterpret_cast<TaskContinuationFunction *>(
&simpleTaskInvokeFunction<T>),
sizeof(ValueContext<T>));
auto valueContext =
static_cast<ValueContext<T>*>(taskAndContext.InitialContext);
new (&valueContext->Value) T(std::forward<T>(value));
valueContext->StoredInvokeFn = invokeFn;
// Forward our owning reference to the task into its execution,
// causing it to be destroyed when it completes.
body(taskAndContext.Task);
}
template <class T>
static void withSimpleTask(T &&value,
undeduced<InvokeFunctionRef<T>> invokeFn,
BodyFunctionRef bodyFn) {
withSimpleTask(JobKind::Task, std::forward<T>(value), invokeFn, bodyFn);
}
static ExecutorRef createFakeExecutor(uintptr_t value) {
return ExecutorRef::forDefaultActor(reinterpret_cast<DefaultActor*>(value));
}
} // end anonymous namespace
TEST(TaskStatusTest, basicTasks) {
AsyncTask *createdTask = nullptr;
auto createdExecutor = createFakeExecutor(1234);
bool hasRun = false;
struct Storage { int value; };
withSimpleTask(Storage{47},
[&](ValueContext<Storage> *context) {
// The task passed in should be the task we created.
EXPECT_EQ(createdTask, swift_task_getCurrent());
// The executor passed in should be the executor we created.
//EXPECT_EQ(createdExecutor, executor);
// We shouldn't have run yet.
EXPECT_FALSE(hasRun);
// The context should've been initialized correctly.
// (This is really just testing our harness, not the runtime.)
EXPECT_EQ(47, context->Value.value);
hasRun = true;
}, [&](AsyncTask *task) {
createdTask = task;
EXPECT_FALSE(hasRun);
swift_job_run(task, createdExecutor);
EXPECT_TRUE(hasRun);
createdTask = nullptr;
});
EXPECT_TRUE(hasRun);
EXPECT_EQ(nullptr, createdTask);
}
TEST(TaskStatusTest, cancellation_simple) {
struct Storage { int value; };
withSimpleTask(Storage{47},
[&](ValueContext<Storage> *context) {
auto task = swift_task_getCurrent();
EXPECT_FALSE(task->isCancelled());
swift_task_cancel(task);
EXPECT_TRUE(task->isCancelled());
swift_task_cancel(task);
EXPECT_TRUE(task->isCancelled());
}, [&](AsyncTask *task) {
swift_job_run(task, createFakeExecutor(1234));
});
}
// Test basic deadline mechanics (other than actually setting up
// something to cancel the task). Also tests adding and removing
// records quite a bit.
TEST(TaskStatusTest, deadline) {
struct Storage { int value; };
withSimpleTask(Storage{47},
[&](ValueContext<Storage> *context) {
auto task = swift_task_getCurrent();
EXPECT_FALSE(task->isCancelled());
TaskDeadline deadlineOne = { 1234 };
TaskDeadline deadlineTwo = { 2345 };
DeadlineStatusRecord recordOne(deadlineOne);
DeadlineStatusRecord recordTwo(deadlineTwo);
bool result;
NearestTaskDeadline nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::None, nearest.ValueKind);
// Add deadline 1. Check that we haven't been cancelled yet.
result = swift_task_addStatusRecord(&recordOne);
EXPECT_TRUE(result);
// There should now be an active deadline.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::Active, nearest.ValueKind);
EXPECT_EQ(deadlineOne, nearest.Value);
// Remove deadline 1. Check that we haven't been cancelled yet.
result = swift_task_removeStatusRecord(&recordOne);
EXPECT_TRUE(result);
// There shouldn't be an active deadline anymore.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::None, nearest.ValueKind);
// Add deadline 1, then 2.
result = swift_task_addStatusRecord(&recordOne);
EXPECT_TRUE(result);
result = swift_task_addStatusRecord(&recordTwo);
EXPECT_TRUE(result);
// The nearest deadline should be deadline 1.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::Active, nearest.ValueKind);
EXPECT_EQ(deadlineOne, nearest.Value);
// Remove the deadlines.
result = swift_task_removeStatusRecord(&recordTwo);
EXPECT_TRUE(result);
result = swift_task_removeStatusRecord(&recordOne);
EXPECT_TRUE(result);
// Add deadline 2, then 1s.
result = swift_task_addStatusRecord(&recordTwo);
EXPECT_TRUE(result);
// In the middle, the nearest deadline should be deadline 2.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::Active, nearest.ValueKind);
EXPECT_EQ(deadlineTwo, nearest.Value);
result = swift_task_addStatusRecord(&recordOne);
EXPECT_TRUE(result);
// The nearest deadline should be deadline 1.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::Active, nearest.ValueKind);
EXPECT_EQ(deadlineOne, nearest.Value);
// Remove the deadlines.
result = swift_task_removeStatusRecord(&recordOne);
EXPECT_TRUE(result);
result = swift_task_removeStatusRecord(&recordTwo);
EXPECT_TRUE(result);
// Do the same thing with tryAddStatus.
result = swift_task_tryAddStatusRecord(&recordTwo);
EXPECT_TRUE(result);
result = swift_task_tryAddStatusRecord(&recordOne);
EXPECT_TRUE(result);
// The nearest deadline should be deadline 1.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::Active, nearest.ValueKind);
EXPECT_EQ(deadlineOne, nearest.Value);
result = swift_task_removeStatusRecord(&recordOne);
EXPECT_TRUE(result);
result = swift_task_removeStatusRecord(&recordTwo);
EXPECT_TRUE(result);
// Remove out of order.
result = swift_task_addStatusRecord(&recordTwo);
EXPECT_TRUE(result);
result = swift_task_addStatusRecord(&recordOne);
EXPECT_TRUE(result);
// The nearest deadline should be deadline 1.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::Active, nearest.ValueKind);
EXPECT_EQ(deadlineOne, nearest.Value);
result = swift_task_removeStatusRecord(&recordTwo);
EXPECT_TRUE(result);
result = swift_task_removeStatusRecord(&recordOne);
EXPECT_TRUE(result);
// Add deadline 2, then cancel.
result = swift_task_addStatusRecord(&recordTwo);
EXPECT_TRUE(result);
// The nearest deadline should be deadline 2.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::Active, nearest.ValueKind);
EXPECT_EQ(deadlineTwo, nearest.Value);
// Cancel.
swift_task_cancel(task);
EXPECT_TRUE(task->isCancelled());
// We should report already cancelled now.
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::AlreadyCancelled, nearest.ValueKind);
// Add deadline 1.
result = swift_task_addStatusRecord(&recordOne);
EXPECT_FALSE(result);
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::AlreadyCancelled, nearest.ValueKind);
result = swift_task_removeStatusRecord(&recordOne);
EXPECT_FALSE(result);
result = swift_task_tryAddStatusRecord(&recordOne);
EXPECT_FALSE(result);
result = swift_task_removeStatusRecord(&recordTwo);
EXPECT_FALSE(result);
nearest = swift_task_getNearestDeadline(task);
EXPECT_EQ(NearestTaskDeadline::AlreadyCancelled, nearest.ValueKind);
EXPECT_TRUE(task->isCancelled());
}, [&](AsyncTask *task) {
swift_job_run(task, createFakeExecutor(1234));
});
}
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