// Copyright 2020 The Pigweed 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 // // https://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 "pw_thread/thread.h" #include "FreeRTOS.h" #include "pw_assert/assert.h" #include "pw_preprocessor/compiler.h" #include "pw_thread/id.h" #include "pw_thread_freertos/config.h" #include "pw_thread_freertos/context.h" #include "pw_thread_freertos/options.h" #include "task.h" using pw::thread::freertos::Context; namespace pw::thread { namespace { #if PW_THREAD_JOINING_ENABLED constexpr EventBits_t kThreadDoneBit = 1 << 0; #endif // PW_THREAD_JOINING_ENABLED } // namespace void Context::RunThread(void* void_context_ptr) { Context& context = *static_cast(void_context_ptr); context.entry_(context.arg_); // Use a task only critical section to guard against join() and detach(). vTaskSuspendAll(); if (context.detached()) { // There is no threadsafe way to re-use detached threads, as there's no way // to signal the vTaskDelete success. Joining MUST be used for this. // However to enable unit test coverage we go ahead and clear this. context.set_task_handle(nullptr); #if PW_THREAD_JOINING_ENABLED // Just in case someone abused our API, ensure their use of the event group // is properly handled by the kernel regardless. vEventGroupDelete(&context.join_event_group()); #endif // PW_THREAD_JOINING_ENABLED #if PW_THREAD_FREERTOS_CONFIG_DYNAMIC_ALLOCATION_ENABLED // The thread was detached before the task finished, free any allocations // it ran on. if (context.dynamically_allocated()) { delete &context; } #endif // PW_THREAD_FREERTOS_CONFIG_DYNAMIC_ALLOCATION_ENABLED // Re-enable the scheduler before we delete this execution. xTaskResumeAll(); vTaskDelete(nullptr); PW_UNREACHABLE; } // Otherwise the task finished before the thread was detached or joined, defer // cleanup to Thread's join() or detach(). context.set_thread_done(); xTaskResumeAll(); #if PW_THREAD_JOINING_ENABLED xEventGroupSetBits(&context.join_event_group(), kThreadDoneBit); #endif // PW_THREAD_JOINING_ENABLED while (true) { #if INCLUDE_vTaskSuspend == 1 // Use indefinite suspension when available. vTaskSuspend(nullptr); #else vTaskDelay(portMAX_DELAY); #endif // INCLUDE_vTaskSuspend == 1 } PW_UNREACHABLE; } void Context::TerminateThread(Context& context) { // Stop the other task first. PW_DCHECK_NOTNULL(context.task_handle(), "We shall not delete ourselves!"); vTaskDelete(context.task_handle()); // Mark the context as unused for potential later re-use. context.set_task_handle(nullptr); #if PW_THREAD_JOINING_ENABLED // Just in case someone abused our API, ensure their use of the event group is // properly handled by the kernel regardless. vEventGroupDelete(&context.join_event_group()); #endif // PW_THREAD_JOINING_ENABLED #if PW_THREAD_FREERTOS_CONFIG_DYNAMIC_ALLOCATION_ENABLED // Then free any allocations it ran on. if (context.dynamically_allocated()) { delete &context; } #endif // PW_THREAD_FREERTOS_CONFIG_DYNAMIC_ALLOCATION_ENABLED } Thread::Thread(const thread::Options& facade_options, ThreadRoutine entry, void* arg) : native_type_(nullptr) { // Cast the generic facade options to the backend specific option of which // only one type can exist at compile time. auto options = static_cast(facade_options); if (options.static_context() != nullptr) { // Use the statically allocated context. native_type_ = options.static_context(); // Can't use a context more than once. PW_DCHECK_PTR_EQ(native_type_->task_handle(), nullptr); // Reset the state of the static context in case it was re-used. native_type_->set_detached(false); native_type_->set_thread_done(false); #if PW_THREAD_JOINING_ENABLED const EventGroupHandle_t event_group_handle = xEventGroupCreateStatic(&native_type_->join_event_group()); PW_DCHECK_PTR_EQ(event_group_handle, &native_type_->join_event_group(), "Failed to create the joining event group"); #endif // PW_THREAD_JOINING_ENABLED // In order to support functions which return and joining, a delegate is // deep copied into the context with a small wrapping function to actually // invoke the task with its arg. native_type_->set_thread_routine(entry, arg); const TaskHandle_t task_handle = xTaskCreateStatic(Context::RunThread, options.name(), options.static_context()->stack().size(), native_type_, options.priority(), options.static_context()->stack().data(), &options.static_context()->tcb()); PW_CHECK_NOTNULL(task_handle); // Ensure it succeeded. native_type_->set_task_handle(task_handle); } else { #if !PW_THREAD_FREERTOS_CONFIG_DYNAMIC_ALLOCATION_ENABLED PW_CRASH( "dynamic thread allocations are not enabled and no static_context " "was provided"); #else // PW_THREAD_FREERTOS_CONFIG_DYNAMIC_ALLOCATION_ENABLED // Dynamically allocate the context and the task. native_type_ = new pw::thread::freertos::Context(); native_type_->set_dynamically_allocated(); #if PW_THREAD_JOINING_ENABLED const EventGroupHandle_t event_group_handle = xEventGroupCreateStatic(&native_type_->join_event_group()); PW_DCHECK_PTR_EQ(event_group_handle, &native_type_->join_event_group(), "Failed to create the joining event group"); #endif // PW_THREAD_JOINING_ENABLED // In order to support functions which return and joining, a delegate is // deep copied into the context with a small wrapping function to actually // invoke the task with its arg. native_type_->set_thread_routine(entry, arg); TaskHandle_t task_handle; const BaseType_t result = xTaskCreate(Context::RunThread, options.name(), options.stack_size_words(), native_type_, options.priority(), &task_handle); // Ensure it succeeded. PW_CHECK_UINT_EQ(result, pdPASS); native_type_->set_task_handle(task_handle); #endif // !PW_THREAD_FREERTOS_CONFIG_DYNAMIC_ALLOCATION_ENABLED } } void Thread::detach() { PW_CHECK(joinable()); #if INCLUDE_vTaskSuspend == 1 // No need to suspend extra tasks. vTaskSuspend(native_type_->task_handle()); #else vTaskSuspendAll(); #endif // INCLUDE_vTaskSuspend == 1 native_type_->set_detached(); const bool thread_done = native_type_->thread_done(); #if INCLUDE_vTaskSuspend == 1 // No need to suspend extra tasks. vTaskResume(native_type_->task_handle()); #else vTaskResumeAll(); #endif // INCLUDE_vTaskSuspend == 1 if (thread_done) { // The task finished (hit end of Context::RunThread) before we invoked // detach, clean up the thread. Context::TerminateThread(*native_type_); } else { // We're detaching before the task finished, defer cleanup to the task at // the end of Context::RunThread. } // Update to no longer represent a thread of execution. native_type_ = nullptr; } #if PW_THREAD_JOINING_ENABLED void Thread::join() { PW_CHECK(joinable()); PW_CHECK(this_thread::get_id() != get_id()); // Wait indefinitely until kThreadDoneBit is set. while (xEventGroupWaitBits(&native_type_->join_event_group(), kThreadDoneBit, pdTRUE, // Clear the bits. pdFALSE, // Any bits is fine, N/A. portMAX_DELAY) != kThreadDoneBit) { } // No need for a critical section here as the thread at this point is // waiting to be terminated. Context::TerminateThread(*native_type_); // Update to no longer represent a thread of execution. native_type_ = nullptr; } #endif // PW_THREAD_JOINING_ENABLED } // namespace pw::thread