pw_sync_threadx/interrupt_spin_lock.cc - pigweed/pigweed - Git at Google

 // 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_sync/interrupt_spin_lock.h"

 #include "pw_assert/check.h"
 #include "pw_interrupt/context.h"
 #include "tx_api.h"

 namespace pw::sync {
 namespace {

 using State = backend::NativeInterruptSpinLock::State;

 }  // namespace

 void InterruptSpinLock::lock() {
   // In order to be pw::sync::InterruptSpinLock compliant, mask the interrupts
   // before attempting to grab the internal spin lock.
   native_type_.saved_interrupt_mask = tx_interrupt_control(TX_INT_DISABLE);

   const bool in_interrupt = interrupt::InInterruptContext();

   // Disable thread switching to ensure kernel APIs cannot switch to other
   // threads which could then end up deadlocking recursively on this same lock.
   if (!in_interrupt) {
     TX_THREAD* current_thread = tx_thread_identify();
     // During init, i.e. tx_application_define, there may not be a thread yet.
     if (current_thread != nullptr) {
       // Disable thread switching by raising the preemption threshold to the
       // highest priority value of 0.
       UINT preemption_success = tx_thread_preemption_change(
           tx_thread_identify(), 0, &native_type_.saved_preemption_threshold);
       PW_DCHECK_UINT_EQ(
           TX_SUCCESS, preemption_success, "Failed to disable thread switching");
     }
   }

   // This implementation is not set up to support SMP, meaning we cannot
   // deadlock here due to the global interrupt lock, so we crash on recursion
   // on a specific spinlock instead.
   PW_DCHECK_UINT_EQ(native_type_.state,
                     State::kUnlocked,
                     "Recursive InterruptSpinLock::lock() detected");

   native_type_.state =
       in_interrupt ? State::kLockedFromInterrupt : State::kLockedFromThread;
 }

 void InterruptSpinLock::unlock() {
   const bool in_interrupt = interrupt::InInterruptContext();

   const State expected_state =
       in_interrupt ? State::kLockedFromInterrupt : State::kLockedFromThread;
   PW_CHECK_UINT_EQ(
       native_type_.state,
       expected_state,
       "InterruptSpinLock::unlock() was called from a different context "
       "compared to the lock()");

   native_type_.state = State::kUnlocked;

   if (!in_interrupt) {
     TX_THREAD* current_thread = tx_thread_identify();
     // During init, i.e. tx_application_define, there may not be a thread yet.
     if (current_thread != nullptr) {
       // Restore thread switching.
       UINT unused = 0;
       UINT preemption_success =
           tx_thread_preemption_change(tx_thread_identify(),
                                       native_type_.saved_preemption_threshold,
                                       &unused);
       PW_DCHECK_UINT_EQ(
           TX_SUCCESS, preemption_success, "Failed to restore thread switching");
     }
   }
   tx_interrupt_control(native_type_.saved_interrupt_mask);
 }

 }  // namespace pw::sync
	// 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_sync/interrupt_spin_lock.h"

	#include "pw_assert/check.h"
	#include "pw_interrupt/context.h"
	#include "tx_api.h"

	namespace pw::sync {
	namespace {

	using State = backend::NativeInterruptSpinLock::State;

	} // namespace

	void InterruptSpinLock::lock() {
	// In order to be pw::sync::InterruptSpinLock compliant, mask the interrupts
	// before attempting to grab the internal spin lock.
	native_type_.saved_interrupt_mask = tx_interrupt_control(TX_INT_DISABLE);

	const bool in_interrupt = interrupt::InInterruptContext();

	// Disable thread switching to ensure kernel APIs cannot switch to other
	// threads which could then end up deadlocking recursively on this same lock.
	if (!in_interrupt) {
	TX_THREAD* current_thread = tx_thread_identify();
	// During init, i.e. tx_application_define, there may not be a thread yet.
	if (current_thread != nullptr) {
	// Disable thread switching by raising the preemption threshold to the
	// highest priority value of 0.
	UINT preemption_success = tx_thread_preemption_change(
	tx_thread_identify(), 0, &native_type_.saved_preemption_threshold);
	PW_DCHECK_UINT_EQ(
	TX_SUCCESS, preemption_success, "Failed to disable thread switching");
	}
	}

	// This implementation is not set up to support SMP, meaning we cannot
	// deadlock here due to the global interrupt lock, so we crash on recursion
	// on a specific spinlock instead.
	PW_DCHECK_UINT_EQ(native_type_.state,
	State::kUnlocked,
	"Recursive InterruptSpinLock::lock() detected");

	native_type_.state =
	in_interrupt ? State::kLockedFromInterrupt : State::kLockedFromThread;
	}

	void InterruptSpinLock::unlock() {
	const bool in_interrupt = interrupt::InInterruptContext();

	const State expected_state =
	in_interrupt ? State::kLockedFromInterrupt : State::kLockedFromThread;
	PW_CHECK_UINT_EQ(
	native_type_.state,
	expected_state,
	"InterruptSpinLock::unlock() was called from a different context "
	"compared to the lock()");

	native_type_.state = State::kUnlocked;

	if (!in_interrupt) {
	TX_THREAD* current_thread = tx_thread_identify();
	// During init, i.e. tx_application_define, there may not be a thread yet.
	if (current_thread != nullptr) {
	// Restore thread switching.
	UINT unused = 0;
	UINT preemption_success =
	tx_thread_preemption_change(tx_thread_identify(),
	native_type_.saved_preemption_threshold,
	&unused);
	PW_DCHECK_UINT_EQ(
	TX_SUCCESS, preemption_success, "Failed to restore thread switching");
	}
	}
	tx_interrupt_control(native_type_.saved_interrupt_mask);
	}

	} // namespace pw::sync