mirror of
https://github.com/dart-lang/sdk
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c4e913c839
TEST=ci, cbuild Change-Id: I0fa9c11bbe826f71494cc9f7c89caed4f3597629 Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/238161 Reviewed-by: Alexander Aprelev <aam@google.com> Commit-Queue: Ryan Macnak <rmacnak@google.com>
495 lines
14 KiB
C++
495 lines
14 KiB
C++
// Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
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// for details. All rights reserved. Use of this source code is governed by a
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// BSD-style license that can be found in the LICENSE file.
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#include "platform/globals.h" // NOLINT
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#if defined(DART_HOST_OS_FUCHSIA) && !defined(DART_USE_ABSL)
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#include "vm/os.h"
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#include "vm/os_thread.h"
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#include "vm/os_thread_fuchsia.h"
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#include <errno.h> // NOLINT
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#include <zircon/status.h>
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#include <zircon/syscalls.h>
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#include <zircon/threads.h>
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#include <zircon/tls.h>
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#include <zircon/types.h>
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#include "platform/address_sanitizer.h"
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#include "platform/assert.h"
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#include "platform/safe_stack.h"
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namespace dart {
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#define VALIDATE_PTHREAD_RESULT(result) \
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if (result != 0) { \
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FATAL1("pthread error: %d", result); \
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}
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#if defined(PRODUCT)
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#define VALIDATE_PTHREAD_RESULT_NAMED(result) VALIDATE_PTHREAD_RESULT(result)
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#else
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#define VALIDATE_PTHREAD_RESULT_NAMED(result) \
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if (result != 0) { \
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FATAL2("[%s] pthread error: %d", name_, result); \
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}
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#endif
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#if defined(DEBUG)
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#define ASSERT_PTHREAD_SUCCESS(result) VALIDATE_PTHREAD_RESULT(result)
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#else
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// NOTE: This (currently) expands to a no-op.
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#define ASSERT_PTHREAD_SUCCESS(result) ASSERT(result == 0)
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#endif
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#ifdef DEBUG
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#define RETURN_ON_PTHREAD_FAILURE(result) \
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if (result != 0) { \
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fprintf(stderr, "%s:%d: pthread error: %d\n", __FILE__, __LINE__, result); \
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return result; \
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}
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#else
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#define RETURN_ON_PTHREAD_FAILURE(result) \
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if (result != 0) return result;
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#endif
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static void ComputeTimeSpecMicros(struct timespec* ts, int64_t micros) {
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// time in nanoseconds.
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zx_time_t now = zx_clock_get_monotonic();
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zx_time_t target = now + (micros * kNanosecondsPerMicrosecond);
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int64_t secs = target / kNanosecondsPerSecond;
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int64_t nanos = target - (secs * kNanosecondsPerSecond);
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ts->tv_sec = secs;
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ts->tv_nsec = nanos;
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}
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class ThreadStartData {
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public:
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ThreadStartData(const char* name,
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OSThread::ThreadStartFunction function,
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uword parameter)
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: name_(name), function_(function), parameter_(parameter) {}
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const char* name() const { return name_; }
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OSThread::ThreadStartFunction function() const { return function_; }
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uword parameter() const { return parameter_; }
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private:
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const char* name_;
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OSThread::ThreadStartFunction function_;
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uword parameter_;
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DISALLOW_COPY_AND_ASSIGN(ThreadStartData);
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};
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// Dispatch to the thread start function provided by the caller. This trampoline
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// is used to ensure that the thread is properly destroyed if the thread just
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// exits.
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static void* ThreadStart(void* data_ptr) {
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ThreadStartData* data = reinterpret_cast<ThreadStartData*>(data_ptr);
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const char* name = data->name();
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OSThread::ThreadStartFunction function = data->function();
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uword parameter = data->parameter();
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delete data;
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// Set the thread name.
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zx_handle_t thread_handle = thrd_get_zx_handle(thrd_current());
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zx_object_set_property(thread_handle, ZX_PROP_NAME, name, strlen(name) + 1);
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// Create new OSThread object and set as TLS for new thread.
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OSThread* thread = OSThread::CreateOSThread();
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if (thread != NULL) {
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OSThread::SetCurrent(thread);
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thread->set_name(name);
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// Call the supplied thread start function handing it its parameters.
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function(parameter);
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}
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return NULL;
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}
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int OSThread::Start(const char* name,
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ThreadStartFunction function,
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uword parameter) {
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pthread_attr_t attr;
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int result = pthread_attr_init(&attr);
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RETURN_ON_PTHREAD_FAILURE(result);
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result = pthread_attr_setstacksize(&attr, OSThread::GetMaxStackSize());
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RETURN_ON_PTHREAD_FAILURE(result);
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ThreadStartData* data = new ThreadStartData(name, function, parameter);
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pthread_t tid;
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result = pthread_create(&tid, &attr, ThreadStart, data);
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RETURN_ON_PTHREAD_FAILURE(result);
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result = pthread_attr_destroy(&attr);
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RETURN_ON_PTHREAD_FAILURE(result);
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return 0;
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}
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const ThreadId OSThread::kInvalidThreadId = ZX_HANDLE_INVALID;
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const ThreadJoinId OSThread::kInvalidThreadJoinId =
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static_cast<ThreadJoinId>(0);
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ThreadLocalKey OSThread::CreateThreadLocal(ThreadDestructor destructor) {
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pthread_key_t key = kUnsetThreadLocalKey;
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int result = pthread_key_create(&key, destructor);
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VALIDATE_PTHREAD_RESULT(result);
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ASSERT(key != kUnsetThreadLocalKey);
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return key;
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}
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void OSThread::DeleteThreadLocal(ThreadLocalKey key) {
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ASSERT(key != kUnsetThreadLocalKey);
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int result = pthread_key_delete(key);
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VALIDATE_PTHREAD_RESULT(result);
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}
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void OSThread::SetThreadLocal(ThreadLocalKey key, uword value) {
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ASSERT(key != kUnsetThreadLocalKey);
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int result = pthread_setspecific(key, reinterpret_cast<void*>(value));
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VALIDATE_PTHREAD_RESULT(result);
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}
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intptr_t OSThread::GetMaxStackSize() {
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const int kStackSize = (128 * kWordSize * KB);
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return kStackSize;
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}
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ThreadId OSThread::GetCurrentThreadId() {
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return thrd_get_zx_handle(thrd_current());
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}
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#ifdef SUPPORT_TIMELINE
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ThreadId OSThread::GetCurrentThreadTraceId() {
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return pthread_self();
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}
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#endif // SUPPORT_TIMELINE
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ThreadJoinId OSThread::GetCurrentThreadJoinId(OSThread* thread) {
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ASSERT(thread != NULL);
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// Make sure we're filling in the join id for the current thread.
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ASSERT(thread->id() == GetCurrentThreadId());
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// Make sure the join_id_ hasn't been set, yet.
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DEBUG_ASSERT(thread->join_id_ == kInvalidThreadJoinId);
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pthread_t id = pthread_self();
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#if defined(DEBUG)
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thread->join_id_ = id;
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#endif
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return id;
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}
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void OSThread::Join(ThreadJoinId id) {
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int result = pthread_join(id, NULL);
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ASSERT(result == 0);
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}
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intptr_t OSThread::ThreadIdToIntPtr(ThreadId id) {
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ASSERT(sizeof(id) == sizeof(intptr_t));
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return static_cast<intptr_t>(id);
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}
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ThreadId OSThread::ThreadIdFromIntPtr(intptr_t id) {
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return static_cast<ThreadId>(id);
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}
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bool OSThread::Compare(ThreadId a, ThreadId b) {
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return pthread_equal(a, b) != 0;
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}
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bool OSThread::GetCurrentStackBounds(uword* lower, uword* upper) {
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pthread_attr_t attr;
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if (pthread_getattr_np(pthread_self(), &attr) != 0) {
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return false;
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}
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void* base;
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size_t size;
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int error = pthread_attr_getstack(&attr, &base, &size);
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pthread_attr_destroy(&attr);
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if (error != 0) {
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return false;
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}
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*lower = reinterpret_cast<uword>(base);
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*upper = *lower + size;
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return true;
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}
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#if defined(USING_SAFE_STACK)
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#define STRINGIFY(s) #s
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NO_SANITIZE_ADDRESS
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NO_SANITIZE_SAFE_STACK
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uword OSThread::GetCurrentSafestackPointer() {
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uword result;
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#if defined(HOST_ARCH_X64)
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#define _loadfsword(index) "movq %%fs:" STRINGIFY(index) ", %0"
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asm volatile(
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_loadfsword(ZX_TLS_UNSAFE_SP_OFFSET)
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: "=r"(result) // outputs
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);
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#undef _loadfsword
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#elif defined(HOST_ARCH_ARM64)
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#define _loadword(index) "ldr %0, [%0, " STRINGIFY(index) "]"
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asm volatile(
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"mrs %0, TPIDR_EL0;\n"
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_loadword(ZX_TLS_UNSAFE_SP_OFFSET)
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: "=r"(result) // outputs
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);
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#else
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#error "Architecture not supported"
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#endif
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return result;
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}
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NO_SANITIZE_ADDRESS
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NO_SANITIZE_SAFE_STACK
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void OSThread::SetCurrentSafestackPointer(uword ssp) {
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#if defined(HOST_ARCH_X64)
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#define str(s) #s
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#define _storefsword(index) "movq %0, %%fs:" str(index)
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asm volatile(
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_storefsword(ZX_TLS_UNSAFE_SP_OFFSET)
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: // outputs.
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: "r"(ssp) // inputs.
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: // clobbered.
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);
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#undef _storefsword
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#undef str
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#elif defined(HOST_ARCH_ARM64)
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#define _storeword(index) "str %1, [%0, " STRINGIFY(index) "]"
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uword tmp;
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asm volatile(
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"mrs %0, TPIDR_EL0;\n"
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_storeword(ZX_TLS_UNSAFE_SP_OFFSET)
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: "=r"(tmp) // outputs.
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: "r"(ssp) // inputs.
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: // clobbered.
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);
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#else
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#error "Architecture not supported"
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#endif
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}
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#undef STRINGIFY
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#endif
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Mutex::Mutex(NOT_IN_PRODUCT(const char* name))
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#if !defined(PRODUCT)
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: name_(name)
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#endif
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{
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pthread_mutexattr_t attr;
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int result = pthread_mutexattr_init(&attr);
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VALIDATE_PTHREAD_RESULT_NAMED(result);
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#if defined(DEBUG)
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result = pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK);
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VALIDATE_PTHREAD_RESULT_NAMED(result);
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#endif // defined(DEBUG)
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result = pthread_mutex_init(data_.mutex(), &attr);
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// Verify that creating a pthread_mutex succeeded.
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VALIDATE_PTHREAD_RESULT_NAMED(result);
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result = pthread_mutexattr_destroy(&attr);
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VALIDATE_PTHREAD_RESULT_NAMED(result);
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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owner_ = OSThread::kInvalidThreadId;
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#endif // defined(DEBUG)
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}
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Mutex::~Mutex() {
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int result = pthread_mutex_destroy(data_.mutex());
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// Verify that the pthread_mutex was destroyed.
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VALIDATE_PTHREAD_RESULT_NAMED(result);
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(owner_ == OSThread::kInvalidThreadId);
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#endif // defined(DEBUG)
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}
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void Mutex::Lock() {
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int result = pthread_mutex_lock(data_.mutex());
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// Specifically check for dead lock to help debugging.
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ASSERT(result != EDEADLK);
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ASSERT_PTHREAD_SUCCESS(result); // Verify no other errors.
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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owner_ = OSThread::GetCurrentThreadId();
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#endif // defined(DEBUG)
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}
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bool Mutex::TryLock() {
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int result = pthread_mutex_trylock(data_.mutex());
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// Return false if the lock is busy and locking failed.
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if (result == EBUSY) {
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return false;
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}
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ASSERT_PTHREAD_SUCCESS(result); // Verify no other errors.
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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owner_ = OSThread::GetCurrentThreadId();
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#endif // defined(DEBUG)
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return true;
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}
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void Mutex::Unlock() {
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(IsOwnedByCurrentThread());
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owner_ = OSThread::kInvalidThreadId;
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#endif // defined(DEBUG)
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int result = pthread_mutex_unlock(data_.mutex());
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// Specifically check for wrong thread unlocking to aid debugging.
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ASSERT(result != EPERM);
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ASSERT_PTHREAD_SUCCESS(result); // Verify no other errors.
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}
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Monitor::Monitor() {
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pthread_mutexattr_t mutex_attr;
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int result = pthread_mutexattr_init(&mutex_attr);
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VALIDATE_PTHREAD_RESULT(result);
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#if defined(DEBUG)
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result = pthread_mutexattr_settype(&mutex_attr, PTHREAD_MUTEX_ERRORCHECK);
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VALIDATE_PTHREAD_RESULT(result);
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#endif // defined(DEBUG)
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result = pthread_mutex_init(data_.mutex(), &mutex_attr);
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VALIDATE_PTHREAD_RESULT(result);
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result = pthread_mutexattr_destroy(&mutex_attr);
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VALIDATE_PTHREAD_RESULT(result);
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pthread_condattr_t cond_attr;
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result = pthread_condattr_init(&cond_attr);
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VALIDATE_PTHREAD_RESULT(result);
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result = pthread_condattr_setclock(&cond_attr, CLOCK_MONOTONIC);
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VALIDATE_PTHREAD_RESULT(result);
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result = pthread_cond_init(data_.cond(), &cond_attr);
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VALIDATE_PTHREAD_RESULT(result);
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result = pthread_condattr_destroy(&cond_attr);
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VALIDATE_PTHREAD_RESULT(result);
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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owner_ = OSThread::kInvalidThreadId;
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#endif // defined(DEBUG)
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}
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Monitor::~Monitor() {
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(owner_ == OSThread::kInvalidThreadId);
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#endif // defined(DEBUG)
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int result = pthread_mutex_destroy(data_.mutex());
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VALIDATE_PTHREAD_RESULT(result);
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result = pthread_cond_destroy(data_.cond());
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VALIDATE_PTHREAD_RESULT(result);
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}
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bool Monitor::TryEnter() {
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int result = pthread_mutex_trylock(data_.mutex());
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// Return false if the lock is busy and locking failed.
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if (result == EBUSY) {
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return false;
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}
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ASSERT_PTHREAD_SUCCESS(result); // Verify no other errors.
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(owner_ == OSThread::kInvalidThreadId);
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owner_ = OSThread::GetCurrentThreadId();
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#endif // defined(DEBUG)
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return true;
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}
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void Monitor::Enter() {
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int result = pthread_mutex_lock(data_.mutex());
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VALIDATE_PTHREAD_RESULT(result);
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(owner_ == OSThread::kInvalidThreadId);
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owner_ = OSThread::GetCurrentThreadId();
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#endif // defined(DEBUG)
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}
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void Monitor::Exit() {
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(IsOwnedByCurrentThread());
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owner_ = OSThread::kInvalidThreadId;
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#endif // defined(DEBUG)
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int result = pthread_mutex_unlock(data_.mutex());
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VALIDATE_PTHREAD_RESULT(result);
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}
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Monitor::WaitResult Monitor::Wait(int64_t millis) {
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Monitor::WaitResult retval = WaitMicros(millis * kMicrosecondsPerMillisecond);
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return retval;
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}
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Monitor::WaitResult Monitor::WaitMicros(int64_t micros) {
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(IsOwnedByCurrentThread());
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ThreadId saved_owner = owner_;
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owner_ = OSThread::kInvalidThreadId;
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#endif // defined(DEBUG)
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Monitor::WaitResult retval = kNotified;
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if (micros == kNoTimeout) {
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// Wait forever.
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int result = pthread_cond_wait(data_.cond(), data_.mutex());
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VALIDATE_PTHREAD_RESULT(result);
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} else {
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struct timespec ts;
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ComputeTimeSpecMicros(&ts, micros);
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int result = pthread_cond_timedwait(data_.cond(), data_.mutex(), &ts);
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ASSERT((result == 0) || (result == ETIMEDOUT));
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if (result == ETIMEDOUT) {
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retval = kTimedOut;
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}
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}
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#if defined(DEBUG)
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// When running with assertions enabled we track the owner.
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ASSERT(owner_ == OSThread::kInvalidThreadId);
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owner_ = OSThread::GetCurrentThreadId();
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ASSERT(owner_ == saved_owner);
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#endif // defined(DEBUG)
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return retval;
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}
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void Monitor::Notify() {
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// When running with assertions enabled we track the owner.
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ASSERT(IsOwnedByCurrentThread());
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int result = pthread_cond_signal(data_.cond());
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VALIDATE_PTHREAD_RESULT(result);
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}
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void Monitor::NotifyAll() {
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// When running with assertions enabled we track the owner.
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ASSERT(IsOwnedByCurrentThread());
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int result = pthread_cond_broadcast(data_.cond());
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VALIDATE_PTHREAD_RESULT(result);
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}
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} // namespace dart
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#endif // defined(DART_HOST_OS_FUCHSIA) && !defined(DART_USE_ABSL)
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