Eine aufbereitete Darstellung der Quelle

 
     
 
 
Anforderungen  |   Konzepte  |   Entwurf  |   Entwicklung  |   Qualitätssicherung  |   Lebenszyklus  |   Steuerung
 
 
 
 

Benutzer

Quelle  locks.cc

  Sprache: C
 

/*
 * Copyright (C) 2011 The Android Open Source Project
 *
 * 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 "locks.h"

#include <errno.h>
#include <sys/time.h>

#include "android-base/logging.h"

#include "base/atomic.h"
#include "base/logging.h"
#include "base/systrace.h"
#include "base/time_utils.h"
#include "base/value_object.h"
#include "mutex-inl.h"
#include "scoped_thread_state_change-inl.h"
#include "thread-inl.h"

namespace art HIDDEN {

static Atomic<Locks::ClientCallback*> safe_to_call_abort_callback(nullptr);

Mutex* Locks::abort_lock_ = nullptr;
Mutex* Locks::alloc_tracker_lock_ = nullptr;
Mutex* Locks::allocated_monitor_ids_lock_ = nullptr;
Mutex* Locks::allocated_thread_ids_lock_ = nullptr;
ReaderWriterMutex* Locks::breakpoint_lock_ = nullptr;
ReaderWriterMutex* Locks::classlinker_classes_lock_ = nullptr;
Mutex* Locks::custom_tls_lock_ = nullptr;
Mutex* Locks::deoptimization_lock_ = nullptr;
ReaderWriterMutex* Locks::heap_bitmap_lock_ = nullptr;
Mutex* Locks::instrument_entrypoints_lock_ = nullptr;
Mutex* Locks::intern_table_lock_ = nullptr;
Mutex* Locks::jni_function_table_lock_ = nullptr;
Mutex* Locks::jni_libraries_lock_ = nullptr;
Mutex* Locks::logging_lock_ = nullptr;
Mutex* Locks::modify_ldt_lock_ = nullptr;
MutatorMutex* Locks::mutator_lock_ = nullptr;
Mutex* Locks::profiler_lock_ = nullptr;
ReaderWriterMutex* Locks::verifier_deps_lock_ = nullptr;
ReaderWriterMutex* Locks::oat_file_manager_lock_ = nullptr;
Mutex* Locks::host_dlopen_handles_lock_ = nullptr;
Mutex* Locks::reference_processor_lock_ = nullptr;
Mutex* Locks::reference_queue_cleared_references_lock_ = nullptr;
Mutex* Locks::reference_queue_finalizer_references_lock_ = nullptr;
Mutex* Locks::reference_queue_phantom_references_lock_ = nullptr;
Mutex* Locks::reference_queue_soft_references_lock_ = nullptr;
Mutex* Locks::reference_queue_weak_references_lock_ = nullptr;
Mutex* Locks::runtime_shutdown_lock_ = nullptr;
Mutex* Locks::runtime_thread_pool_lock_ = nullptr;
Mutex* Locks::cha_lock_ = nullptr;
Mutex* Locks::jit_lock_ = nullptr;
ReaderWriterMutex* Locks::jit_mutator_lock_ = nullptr;
Mutex* Locks::subtype_check_lock_ = nullptr;
Mutex* Locks::thread_list_lock_ = nullptr;
ConditionVariable* Locks::thread_exit_cond_ = nullptr;
Mutex* Locks::thread_suspend_count_lock_ = nullptr;
Mutex* Locks::trace_lock_ = nullptr;
Mutex* Locks::unexpected_signal_lock_ = nullptr;
Mutex* Locks::user_code_suspension_lock_ = nullptr;
Uninterruptible Roles::uninterruptible_;
ReaderWriterMutex* Locks::jni_globals_lock_ = nullptr;
Mutex* Locks::jni_weak_globals_lock_ = nullptr;
Mutex* Locks::dex_cache_lock_ = nullptr;
ReaderWriterMutex* Locks::dex_lock_ = nullptr;
Mutex* Locks::native_debug_interface_lock_ = nullptr;
ReaderWriterMutex* Locks::jni_id_lock_ = nullptr;
std::vector<BaseMutex*> Locks::expected_mutexes_on_weak_ref_access_;
Atomic<const BaseMutex*> Locks::expected_mutexes_on_weak_ref_access_guard_;

// Wait for an amount of time that roughly increases in the argument i.
// Spin for small arguments and yield/sleep for longer ones.
static void BackOff(uint32_t i) {
  static constexpr uint32_t kSpinMax = 10;
  static constexpr uint32_t kYieldMax = 20;
  if (i <= kSpinMax) {
    // TODO: Esp. in very latency-sensitive cases, consider replacing this with an explicit
    // test-and-test-and-set loop in the caller.  Possibly skip entirely on a uniprocessor.
    volatile uint32_t x = 0;
    const uint32_t spin_count = 10 * i;
    for (uint32_t spin = 0; spin < spin_count; ++spin) {
      x = x + 1;  // Volatile; hence should not be optimized away.
    }
    // TODO: Consider adding x86 PAUSE and/or ARM YIELD here.
  } else if (i <= kYieldMax) {
    sched_yield();
  } else {
    NanoSleep(1000ull * (i - kYieldMax));
  }
}

class Locks::ScopedExpectedMutexesOnWeakRefAccessLock final {
 public:
  explicit ScopedExpectedMutexesOnWeakRefAccessLock(const BaseMutex* mutex) : mutex_(mutex) {
    for (uint32_t i = 0;
         !Locks::expected_mutexes_on_weak_ref_access_guard_.CompareAndSetWeakAcquire(nullptr,
                                                                                     mutex);
         ++i) {
      BackOff(i);
    }
  }

  ~ScopedExpectedMutexesOnWeakRefAccessLock() {
    DCHECK_EQ(Locks::expected_mutexes_on_weak_ref_access_guard_.load(std::memory_order_relaxed),
              mutex_);
    Locks::expected_mutexes_on_weak_ref_access_guard_.store(nullptr, std::memory_order_release);
  }

 private:
  const BaseMutex* const mutex_;
};

void Locks::Init() {
  if (logging_lock_ != nullptr) {
    // Already initialized.
    if (kRuntimeISA == InstructionSet::kX86 || kRuntimeISA == InstructionSet::kX86_64) {
      DCHECK(modify_ldt_lock_ != nullptr);
    } else {
      DCHECK(modify_ldt_lock_ == nullptr);
    }
    DCHECK(abort_lock_ != nullptr);
    DCHECK(alloc_tracker_lock_ != nullptr);
    DCHECK(allocated_monitor_ids_lock_ != nullptr);
    DCHECK(allocated_thread_ids_lock_ != nullptr);
    DCHECK(breakpoint_lock_ != nullptr);
    DCHECK(classlinker_classes_lock_ != nullptr);
    DCHECK(custom_tls_lock_ != nullptr);
    DCHECK(deoptimization_lock_ != nullptr);
    DCHECK(heap_bitmap_lock_ != nullptr);
    DCHECK(oat_file_manager_lock_ != nullptr);
    DCHECK(verifier_deps_lock_ != nullptr);
    DCHECK(host_dlopen_handles_lock_ != nullptr);
    DCHECK(intern_table_lock_ != nullptr);
    DCHECK(jni_function_table_lock_ != nullptr);
    DCHECK(jni_libraries_lock_ != nullptr);
    DCHECK(logging_lock_ != nullptr);
    DCHECK(mutator_lock_ != nullptr);
    DCHECK(profiler_lock_ != nullptr);
    DCHECK(cha_lock_ != nullptr);
    DCHECK(jit_lock_ != nullptr);
    DCHECK(jit_mutator_lock_ != nullptr);
    DCHECK(subtype_check_lock_ != nullptr);
    DCHECK(thread_list_lock_ != nullptr);
    DCHECK(thread_suspend_count_lock_ != nullptr);
    DCHECK(trace_lock_ != nullptr);
    DCHECK(unexpected_signal_lock_ != nullptr);
    DCHECK(user_code_suspension_lock_ != nullptr);
    DCHECK(dex_lock_ != nullptr);
    DCHECK(native_debug_interface_lock_ != nullptr);
    DCHECK(jni_id_lock_ != nullptr);
    DCHECK(runtime_thread_pool_lock_ != nullptr);
  } else {
    // Create global locks in level order from highest lock level to lowest.
    LockLevel current_lock_level = kUserCodeSuspensionLock;
    DCHECK(user_code_suspension_lock_ == nullptr);
    user_code_suspension_lock_ = new Mutex("user code suspension lock", current_lock_level);

    #define UPDATE_CURRENT_LOCK_LEVEL(new_level) \
      if ((new_level) >= current_lock_level) { \
        /* Do not use CHECKs or FATAL here, abort_lock_ is not setup yet. */ \
        fprintf(stderr, "New local level %d is not less than current level %d\n", \
                new_level, current_lock_level); \
        exit(1); \
      } \
      current_lock_level = new_level;

    UPDATE_CURRENT_LOCK_LEVEL(kInstrumentEntrypointsLock);
    DCHECK(instrument_entrypoints_lock_ == nullptr);
    instrument_entrypoints_lock_ = new Mutex("instrument entrypoint lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kMutatorLock);
    DCHECK(mutator_lock_ == nullptr);
    mutator_lock_ = new MutatorMutex("mutator lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kHeapBitmapLock);
    DCHECK(heap_bitmap_lock_ == nullptr);
    heap_bitmap_lock_ = new ReaderWriterMutex("heap bitmap lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kTraceLock);
    DCHECK(trace_lock_ == nullptr);
    trace_lock_ = new Mutex("trace lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kRuntimeShutdownLock);
    DCHECK(runtime_shutdown_lock_ == nullptr);
    runtime_shutdown_lock_ = new Mutex("runtime shutdown lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kRuntimeThreadPoolLock);
    DCHECK(runtime_thread_pool_lock_ == nullptr);
    runtime_thread_pool_lock_ = new Mutex("runtime thread pool lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kProfilerLock);
    DCHECK(profiler_lock_ == nullptr);
    profiler_lock_ = new Mutex("profiler lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kDeoptimizationLock);
    DCHECK(deoptimization_lock_ == nullptr);
    deoptimization_lock_ = new Mutex("Deoptimization lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kAllocTrackerLock);
    DCHECK(alloc_tracker_lock_ == nullptr);
    alloc_tracker_lock_ = new Mutex("AllocTracker lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kThreadListLock);
    DCHECK(thread_list_lock_ == nullptr);
    thread_list_lock_ = new Mutex("thread list lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kBreakpointLock);
    DCHECK(breakpoint_lock_ == nullptr);
    breakpoint_lock_ = new ReaderWriterMutex("breakpoint lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kSubtypeCheckLock);
    DCHECK(subtype_check_lock_ == nullptr);
    subtype_check_lock_ = new Mutex("SubtypeCheck lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kClassLinkerClassesLock);
    DCHECK(classlinker_classes_lock_ == nullptr);
    classlinker_classes_lock_ = new ReaderWriterMutex("ClassLinker classes lock",
                                                      current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kMonitorPoolLock);
    DCHECK(allocated_monitor_ids_lock_ == nullptr);
    allocated_monitor_ids_lock_ =  new Mutex("allocated monitor ids lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kAllocatedThreadIdsLock);
    DCHECK(allocated_thread_ids_lock_ == nullptr);
    allocated_thread_ids_lock_ =  new Mutex("allocated thread ids lock", current_lock_level);

    if (kRuntimeISA == InstructionSet::kX86 || kRuntimeISA == InstructionSet::kX86_64) {
      UPDATE_CURRENT_LOCK_LEVEL(kModifyLdtLock);
      DCHECK(modify_ldt_lock_ == nullptr);
      modify_ldt_lock_ = new Mutex("modify_ldt lock", current_lock_level);
    }

    UPDATE_CURRENT_LOCK_LEVEL(kDexLock);
    DCHECK(dex_lock_ == nullptr);
    dex_lock_ = new ReaderWriterMutex("ClassLinker dex lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kDexCacheLock);
    DCHECK(dex_cache_lock_ == nullptr);
    dex_cache_lock_ = new Mutex("DexCache lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kJniLoadLibraryLock);
    DCHECK(jni_libraries_lock_ == nullptr);
    jni_libraries_lock_ = new Mutex("JNI shared libraries map lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kOatFileManagerLock);
    DCHECK(oat_file_manager_lock_ == nullptr);
    oat_file_manager_lock_ = new ReaderWriterMutex("OatFile manager lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kVerifierDepsLock);
    DCHECK(verifier_deps_lock_ == nullptr);
    verifier_deps_lock_ = new ReaderWriterMutex("verifier deps lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kHostDlOpenHandlesLock);
    DCHECK(host_dlopen_handles_lock_ == nullptr);
    host_dlopen_handles_lock_ = new Mutex("host dlopen handles lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kInternTableLock);
    DCHECK(intern_table_lock_ == nullptr);
    intern_table_lock_ = new Mutex("InternTable lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kReferenceProcessorLock);
    DCHECK(reference_processor_lock_ == nullptr);
    reference_processor_lock_ = new Mutex("ReferenceProcessor lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kReferenceQueueClearedReferencesLock);
    DCHECK(reference_queue_cleared_references_lock_ == nullptr);
    reference_queue_cleared_references_lock_ = new Mutex("ReferenceQueue cleared references lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kReferenceQueueWeakReferencesLock);
    DCHECK(reference_queue_weak_references_lock_ == nullptr);
    reference_queue_weak_references_lock_ = new Mutex("ReferenceQueue cleared references lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kReferenceQueueFinalizerReferencesLock);
    DCHECK(reference_queue_finalizer_references_lock_ == nullptr);
    reference_queue_finalizer_references_lock_ = new Mutex("ReferenceQueue finalizer references lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kReferenceQueuePhantomReferencesLock);
    DCHECK(reference_queue_phantom_references_lock_ == nullptr);
    reference_queue_phantom_references_lock_ = new Mutex("ReferenceQueue phantom references lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kReferenceQueueSoftReferencesLock);
    DCHECK(reference_queue_soft_references_lock_ == nullptr);
    reference_queue_soft_references_lock_ = new Mutex("ReferenceQueue soft references lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kJniGlobalsLock);
    DCHECK(jni_globals_lock_ == nullptr);
    jni_globals_lock_ =
        new ReaderWriterMutex("JNI global reference table lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kJniWeakGlobalsLock);
    DCHECK(jni_weak_globals_lock_ == nullptr);
    jni_weak_globals_lock_ = new Mutex("JNI weak global reference table lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kJniFunctionTableLock);
    DCHECK(jni_function_table_lock_ == nullptr);
    jni_function_table_lock_ = new Mutex("JNI function table lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kCustomTlsLock);
    DCHECK(custom_tls_lock_ == nullptr);
    custom_tls_lock_ = new Mutex("Thread::custom_tls_ lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kJitCodeCacheLock);
    DCHECK(jit_lock_ == nullptr);
    jit_lock_ = new Mutex("Jit code cache", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kJitCodeCacheMutatorAndCHALock);
    DCHECK(jit_mutator_lock_ == nullptr);
    jit_mutator_lock_ = new ReaderWriterMutex("Jit code cache for mutator", current_lock_level);

    DCHECK(cha_lock_ == nullptr);
    cha_lock_ = new Mutex("CHA lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kNativeDebugInterfaceLock);
    DCHECK(native_debug_interface_lock_ == nullptr);
    native_debug_interface_lock_ = new Mutex("Native debug interface lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kJniIdLock);
    DCHECK(jni_id_lock_ == nullptr);
    jni_id_lock_ = new ReaderWriterMutex("JNI id map lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kAbortLock);
    DCHECK(abort_lock_ == nullptr);
    abort_lock_ = new Mutex("abort lock", current_lock_level, true);

    UPDATE_CURRENT_LOCK_LEVEL(kThreadSuspendCountLock);
    DCHECK(thread_suspend_count_lock_ == nullptr);
    thread_suspend_count_lock_ = new Mutex("thread suspend count lock", current_lock_level);

    UPDATE_CURRENT_LOCK_LEVEL(kUnexpectedSignalLock);
    DCHECK(unexpected_signal_lock_ == nullptr);
    unexpected_signal_lock_ = new Mutex("unexpected signal lock", current_lock_level, true);

    UPDATE_CURRENT_LOCK_LEVEL(kLoggingLock);
    DCHECK(logging_lock_ == nullptr);
    logging_lock_ = new Mutex("logging lock", current_lock_level, true);

    #undef UPDATE_CURRENT_LOCK_LEVEL

    // List of mutexes that we may hold when accessing a weak ref.
    AddToExpectedMutexesOnWeakRefAccess(dex_lock_, /*need_lock=*/ false);
    AddToExpectedMutexesOnWeakRefAccess(classlinker_classes_lock_, /*need_lock=*/ false);
    AddToExpectedMutexesOnWeakRefAccess(jni_libraries_lock_, /*need_lock=*/ false);

    InitConditions();
  }
}

void Locks::InitConditions() {
  thread_exit_cond_ = new ConditionVariable("thread exit condition variable", *thread_list_lock_);
}

void Locks::SetClientCallback(ClientCallback* safe_to_call_abort_cb) {
  safe_to_call_abort_callback.store(safe_to_call_abort_cb, std::memory_order_release);
}

// Helper to allow checking shutdown while ignoring locking requirements.
bool Locks::IsSafeToCallAbortRacy() {
  Locks::ClientCallback* safe_to_call_abort_cb =
      safe_to_call_abort_callback.load(std::memory_order_acquire);
  return safe_to_call_abort_cb != nullptr && safe_to_call_abort_cb();
}

void Locks::AddToExpectedMutexesOnWeakRefAccess(BaseMutex* mutex, bool need_lock) {
  if (need_lock) {
    ScopedExpectedMutexesOnWeakRefAccessLock mu(mutex);
    mutex->SetShouldRespondToEmptyCheckpointRequest(true);
    expected_mutexes_on_weak_ref_access_.push_back(mutex);
  } else {
    mutex->SetShouldRespondToEmptyCheckpointRequest(true);
    expected_mutexes_on_weak_ref_access_.push_back(mutex);
  }
}

void Locks::RemoveFromExpectedMutexesOnWeakRefAccess(BaseMutex* mutex, bool need_lock) {
  if (need_lock) {
    ScopedExpectedMutexesOnWeakRefAccessLock mu(mutex);
    mutex->SetShouldRespondToEmptyCheckpointRequest(false);
    std::vector<BaseMutex*>& list = expected_mutexes_on_weak_ref_access_;
    auto it = std::find(list.begin(), list.end(), mutex);
    DCHECK(it != list.end());
    list.erase(it);
  } else {
    mutex->SetShouldRespondToEmptyCheckpointRequest(false);
    std::vector<BaseMutex*>& list = expected_mutexes_on_weak_ref_access_;
    auto it = std::find(list.begin(), list.end(), mutex);
    DCHECK(it != list.end());
    list.erase(it);
  }
}

bool Locks::IsExpectedOnWeakRefAccess(BaseMutex* mutex) {
  ScopedExpectedMutexesOnWeakRefAccessLock mu(mutex);
  std::vector<BaseMutex*>& list = expected_mutexes_on_weak_ref_access_;
  return std::find(list.begin(), list.end(), mutex) != list.end();
}

}  // namespace art

Messung V0.5 in Prozent
C=88 H=95 G=91

¤ Dauer der Verarbeitung: 0.15 Sekunden  (vorverarbeitet am  2026-06-29) ¤

*© Formatika GbR, Deutschland






Wurzel

Suchen

PVS Prover

Isabelle Prover

NIST Cobol Testsuite

Cephes Mathematical Library

Vienna Development Method

Haftungshinweis

Die Informationen auf dieser Webseite wurden nach bestem Wissen sorgfältig zusammengestellt. Es wird jedoch weder Vollständigkeit, noch Richtigkeit, noch Qualität der bereit gestellten Informationen zugesichert.

Bemerkung:

Die farbliche Syntaxdarstellung und die Messung sind noch experimentell.






                                                                                                                                                                                                                                                                                                                                                                                                     


Neuigkeiten

     Aktuelles
     Motto des Tages

Software

     Quellcodebibliothek
     Eigene Quellcodes
     Fremde Quellcodes
     Suchen

Aktivitäten

     Artikel über Sicherheit
     Anleitung zur Aktivierung von SSL

Muße

     Gedichte
     Musik
     Bilder

Jenseits des Üblichen ....
    

Besucherstatistik

Besucherstatistik