//===--- TaskLocal.cpp - Task Local Values --------------------------------===// // // This source file is part of the Swift.org open source project // // Copyright (c) 2014 - 2020 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/ABI/TaskLocal.h" #include "../CompatibilityOverride/CompatibilityOverride.h" #include "TaskPrivate.h" #include "swift/ABI/Actor.h" #include "swift/ABI/Metadata.h" #include "swift/ABI/Task.h" #include "swift/Runtime/Atomic.h" #include "swift/Runtime/Casting.h" #include "swift/Runtime/Concurrency.h" #include "swift/Threading/ThreadLocalStorage.h" #include "llvm/ADT/PointerIntPair.h" #include #include #if SWIFT_STDLIB_HAS_ASL #include #elif defined(__ANDROID__) #include #endif #if defined(_WIN32) #include #endif using namespace swift; // ============================================================================= /// An extremely silly class which exists to make pointer /// default-initialization constexpr. template struct Pointer { T *Value; constexpr Pointer() : Value(nullptr) {} constexpr Pointer(T *value) : Value(value) {} operator T *() const { return Value; } T *operator->() const { return Value; } }; /// THIS IS RUNTIME INTERNAL AND NOT ABI. class FallbackTaskLocalStorage { static SWIFT_THREAD_LOCAL_TYPE(Pointer, tls_key::concurrency_fallback) Value; public: static void set(TaskLocal::Storage *task) { Value.set(task); } static TaskLocal::Storage *get() { return Value.get(); } }; /// Define the thread-locals. SWIFT_THREAD_LOCAL_TYPE(Pointer, tls_key::concurrency_fallback) FallbackTaskLocalStorage::Value; // ==== ABI -------------------------------------------------------------------- SWIFT_CC(swift) static void swift_task_localValuePushImpl(const HeapObject *key, /* +1 */ OpaqueValue *value, const Metadata *valueType) { if (AsyncTask *task = swift_task_getCurrent()) { task->localValuePush(key, value, valueType); return; } // no AsyncTask available so we must check the fallback TaskLocal::Storage *Local = nullptr; if (auto storage = FallbackTaskLocalStorage::get()) { Local = storage; } else { void *allocation = malloc(sizeof(TaskLocal::Storage)); auto *freshStorage = new(allocation) TaskLocal::Storage(); FallbackTaskLocalStorage::set(freshStorage); Local = freshStorage; } Local->pushValue(/*task=*/nullptr, key, value, valueType); } SWIFT_CC(swift) static OpaqueValue* swift_task_localValueGetImpl(const HeapObject *key) { if (AsyncTask *task = swift_task_getCurrent()) { // we're in the context of a task and can use the task's storage return task->localValueGet(key); } // no AsyncTask available so we must check the fallback if (auto Local = FallbackTaskLocalStorage::get()) { return Local->getValue(/*task*/nullptr, key); } // no value found in task-local or fallback thread-local storage. return nullptr; } SWIFT_CC(swift) static void swift_task_localValuePopImpl() { if (AsyncTask *task = swift_task_getCurrent()) { task->localValuePop(); return; } if (TaskLocal::Storage *Local = FallbackTaskLocalStorage::get()) { bool hasRemainingBindings = Local->popValue(nullptr); if (!hasRemainingBindings) { // We clean up eagerly, it may be that this non-swift-concurrency thread // never again will use task-locals, and as such we better remove the storage. FallbackTaskLocalStorage::set(nullptr); free(Local); } return; } assert(false && "Attempted to pop value but no task or thread-local storage available!"); } SWIFT_CC(swift) static void swift_task_localsCopyToImpl(AsyncTask *task) { TaskLocal::Storage *Local = nullptr; if (AsyncTask *task = swift_task_getCurrent()) { Local = &task->_private().Local; } else if (auto *storage = FallbackTaskLocalStorage::get()) { Local = storage; } else { // bail out, there are no values to copy return; } Local->copyTo(task); } // ============================================================================= // ==== Initialization --------------------------------------------------------- void TaskLocal::Storage::initializeLinkParent(AsyncTask* task, AsyncTask* parent) { assert(!head && "initial task local storage was already initialized"); assert(parent && "parent must be provided to link to it"); head = TaskLocal::Item::createParentLink(task, parent); } TaskLocal::Item* TaskLocal::Item::createParentLink(AsyncTask *task, AsyncTask *parent) { size_t amountToAllocate = Item::itemSize(/*valueType*/nullptr); void *allocation = _swift_task_alloc_specific(task, amountToAllocate); Item *item = new(allocation) Item(); auto parentHead = parent->_private().Local.head; if (parentHead) { if (parentHead->isEmpty()) { switch (parentHead->getNextLinkType()) { case NextLinkType::IsParent: // it has no values, and just points to its parent, // therefore skip also skip pointing to that parent and point // to whichever parent it was pointing to as well, it may be its // immediate parent, or some super-parent. item->next = reinterpret_cast(parentHead->getNext()) | static_cast(NextLinkType::IsParent); break; case NextLinkType::IsNext: if (parentHead->getNext()) { assert(false && "empty taskValue head in parent task, yet parent's 'head' is `IsNext`, " "this should not happen, as it implies the parent must have stored some value."); } else { // is terminal pointer item->next = reinterpret_cast(parentHead->getNext()); } break; } } else { item->next = reinterpret_cast(parentHead) | static_cast(NextLinkType::IsParent); } } else { item->next = reinterpret_cast(parentHead); } return item; } TaskLocal::Item* TaskLocal::Item::createLink(AsyncTask *task, const HeapObject *key, const Metadata *valueType) { size_t amountToAllocate = Item::itemSize(valueType); void *allocation = task ? _swift_task_alloc_specific(task, amountToAllocate) : malloc(amountToAllocate); Item *item = ::new (allocation) Item(key, valueType); auto next = task ? task->_private().Local.head : FallbackTaskLocalStorage::get()->head; item->next = reinterpret_cast(next) | static_cast(NextLinkType::IsNext); return item; } void TaskLocal::Item::copyTo(AsyncTask *target) { assert(target && "TaskLocal item attempt to copy to null target task!"); // 'parent' pointers are signified by null valueType. // We must not copy parent pointers, but rather perform a deep copy of all values, // as such, we skip parent pointers here entirely. if (isParentPointer()) return; auto item = Item::createLink(target, key, valueType); valueType->vw_initializeWithCopy(item->getStoragePtr(), getStoragePtr()); /// A `copyTo` may ONLY be invoked BEFORE the task is actually scheduled, /// so right now we can safely copy the value into the task without additional /// synchronization. target->_private().Local.head = item; } // ============================================================================= // ==== checks ----------------------------------------------------------------- SWIFT_CC(swift) static void swift_task_reportIllegalTaskLocalBindingWithinWithTaskGroupImpl( const unsigned char *file, uintptr_t fileLength, bool fileIsASCII, uintptr_t line) { char *message; swift_asprintf( &message, "error: task-local: detected illegal task-local value binding at %.*s:%d.\n" "Task-local values must only be set in a structured-context, such as: " "around any (synchronous or asynchronous function invocation), " "around an 'async let' declaration, or around a 'with(Throwing)TaskGroup(...){ ... }' " "invocation. Notably, binding a task-local value is illegal *within the body* " "of a withTaskGroup invocation.\n" "\n" "The following example is illegal:\n\n" " await withTaskGroup(...) { group in \n" " await .withValue(1234) {\n" " group.addTask { ... }\n" " }\n" " }\n" "\n" "And should be replaced by, either: setting the value for the entire group:\n" "\n" " // bind task-local for all tasks spawned within the group\n" " await .withValue(1234) {\n" " await withTaskGroup(...) { group in\n" " group.addTask { ... }\n" " }\n" " }\n" "\n" "or, inside the specific task-group child task:\n" "\n" " // bind-task-local for only specific child-task\n" " await withTaskGroup(...) { group in\n" " group.addTask {\n" " await .withValue(1234) {\n" " ... \n" " }\n" " }\n" "\n" " group.addTask { ... }\n" " }\n", (int)fileLength, file, (int)line); if (_swift_shouldReportFatalErrorsToDebugger()) { RuntimeErrorDetails details = { .version = RuntimeErrorDetails::currentVersion, .errorType = "task-local-violation", .currentStackDescription = "Task-local bound in illegal context", .framesToSkip = 1, }; _swift_reportToDebugger(RuntimeErrorFlagFatal, message, &details); } #if defined(_WIN32) #define STDERR_FILENO 2 _write(STDERR_FILENO, message, strlen(message)); #else fputs(message, stderr); fflush(stderr); #endif #if SWIFT_STDLIB_HAS_ASL asl_log(nullptr, nullptr, ASL_LEVEL_ERR, "%s", message); #elif defined(__ANDROID__) __android_log_print(ANDROID_LOG_FATAL, "SwiftRuntime", "%s", message); #endif free(message); abort(); } // ============================================================================= // ==== destroy ---------------------------------------------------------------- void TaskLocal::Item::destroy(AsyncTask *task) { // otherwise it was task-local allocated, so we can safely destroy it right away if (valueType) { valueType->vw_destroy(getStoragePtr()); } // if task is available, we must have used the task allocator to allocate this item, // so we must deallocate it using the same. Otherwise, we must have used malloc. if (task) _swift_task_dealloc_specific(task, this); else free(this); } void TaskLocal::Storage::destroy(AsyncTask *task) { auto item = head; head = nullptr; TaskLocal::Item *next; while (item) { auto linkType = item->getNextLinkType(); switch (linkType) { case TaskLocal::NextLinkType::IsNext: next = item->getNext(); item->destroy(task); item = next; break; case TaskLocal::NextLinkType::IsParent: // we're done here; as we must not proceed into the parent owned values. // we do have to destroy the item pointing at the parent/edge itself though. item->destroy(task); return; } } } // ============================================================================= // ==== Task Local Storage: operations ----------------------------------------- void TaskLocal::Storage::pushValue(AsyncTask *task, const HeapObject *key, /* +1 */ OpaqueValue *value, const Metadata *valueType) { assert(value && "Task local value must not be nil"); auto item = Item::createLink(task, key, valueType); valueType->vw_initializeWithTake(item->getStoragePtr(), value); head = item; } bool TaskLocal::Storage::popValue(AsyncTask *task) { assert(head && "attempted to pop value off empty task-local stack"); auto old = head; head = head->getNext(); old->destroy(task); /// if pointing at not-null next item, there are remaining bindings. return head != nullptr; } OpaqueValue* TaskLocal::Storage::getValue(AsyncTask *task, const HeapObject *key) { assert(key && "TaskLocal key must not be null."); auto item = head; while (item) { if (item->key == key) { return item->getStoragePtr(); } item = item->getNext(); } return nullptr; } void TaskLocal::Storage::copyTo(AsyncTask *target) { assert(target && "task must not be null when copying values into it"); assert(!(target->_private().Local.head) && "Task must not have any task-local values bound before copying into it"); // Set of keys for which we already have copied to the new task. // We only ever need to copy the *first* encounter of any given key, // because it is the most "specific"/"recent" binding and any other binding // of a key does not matter for the target task as it will never be able to // observe it. std::set copied = {}; auto item = head; while (item) { // we only have to copy an item if it is the most recent binding of a key. // i.e. if we've already seen an item for this key, we can skip it. if (copied.emplace(item->key).second) { item->copyTo(target); } item = item->getNext(); } } #define OVERRIDE_TASK_LOCAL COMPATIBILITY_OVERRIDE #include COMPATIBILITY_OVERRIDE_INCLUDE_PATH