fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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391 lines
12 KiB
391 lines
12 KiB
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree. An additional grant
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// of patent rights can be found in the PATENTS file in the same directory.
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "util/thread_local.h"
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#include "util/mutexlock.h"
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#include "port/likely.h"
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#include <stdlib.h>
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namespace rocksdb {
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#if ROCKSDB_SUPPORT_THREAD_LOCAL
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__thread ThreadLocalPtr::ThreadData* ThreadLocalPtr::StaticMeta::tls_ = nullptr;
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#endif
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// Windows doesn't support a per-thread destructor with its
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// TLS primitives. So, we build it manually by inserting a
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// function to be called on each thread's exit.
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// See http://www.codeproject.com/Articles/8113/Thread-Local-Storage-The-C-Way
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// and http://www.nynaeve.net/?p=183
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//
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// really we do this to have clear conscience since using TLS with thread-pools
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// is iffy
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// although OK within a request. But otherwise, threads have no identity in its
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// modern use.
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// This runs on windows only called from the System Loader
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#ifdef OS_WIN
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// Windows cleanup routine is invoked from a System Loader with a different
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// signature so we can not directly hookup the original OnThreadExit which is
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// private member
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// so we make StaticMeta class share with the us the address of the function so
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// we can invoke it.
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namespace wintlscleanup {
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// This is set to OnThreadExit in StaticMeta singleton constructor
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UnrefHandler thread_local_inclass_routine = nullptr;
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pthread_key_t thread_local_key = -1;
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// Static callback function to call with each thread termination.
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void NTAPI WinOnThreadExit(PVOID module, DWORD reason, PVOID reserved) {
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// We decided to punt on PROCESS_EXIT
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if (DLL_THREAD_DETACH == reason) {
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if (thread_local_key != -1 && thread_local_inclass_routine != nullptr) {
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void* tls = pthread_getspecific(thread_local_key);
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if (tls != nullptr) {
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thread_local_inclass_routine(tls);
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}
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}
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}
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}
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} // wintlscleanup
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#ifdef _WIN64
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#pragma comment(linker, "/include:_tls_used")
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#pragma comment(linker, "/include:p_thread_callback_on_exit")
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#else // _WIN64
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#pragma comment(linker, "/INCLUDE:__tls_used")
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#pragma comment(linker, "/INCLUDE:_p_thread_callback_on_exit")
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#endif // _WIN64
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// extern "C" suppresses C++ name mangling so we know the symbol name for the
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// linker /INCLUDE:symbol pragma above.
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extern "C" {
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// The linker must not discard thread_callback_on_exit. (We force a reference
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// to this variable with a linker /include:symbol pragma to ensure that.) If
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// this variable is discarded, the OnThreadExit function will never be called.
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#ifdef _WIN64
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// .CRT section is merged with .rdata on x64 so it must be constant data.
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#pragma const_seg(".CRT$XLB")
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// When defining a const variable, it must have external linkage to be sure the
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// linker doesn't discard it.
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extern const PIMAGE_TLS_CALLBACK p_thread_callback_on_exit;
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const PIMAGE_TLS_CALLBACK p_thread_callback_on_exit =
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wintlscleanup::WinOnThreadExit;
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// Reset the default section.
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#pragma const_seg()
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#else // _WIN64
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#pragma data_seg(".CRT$XLB")
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PIMAGE_TLS_CALLBACK p_thread_callback_on_exit = wintlscleanup::WinOnThreadExit;
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// Reset the default section.
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#pragma data_seg()
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#endif // _WIN64
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} // extern "C"
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#endif // OS_WIN
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void ThreadLocalPtr::InitSingletons() { ThreadLocalPtr::Instance(); }
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ThreadLocalPtr::StaticMeta* ThreadLocalPtr::Instance() {
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// Here we prefer function static variable instead of global
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// static variable as function static variable is initialized
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// when the function is first call. As a result, we can properly
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// control their construction order by properly preparing their
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// first function call.
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//
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// Note that here we decide to make "inst" a static pointer w/o deleting
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// it at the end instead of a static variable. This is to avoid the following
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// destruction order desester happens when a child thread using ThreadLocalPtr
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// dies AFTER the main thread dies: When a child thread happens to use
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// ThreadLocalPtr, it will try to delete its thread-local data on its
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// OnThreadExit when the child thread dies. However, OnThreadExit depends
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// on the following variable. As a result, if the main thread dies before any
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// child thread happen to use ThreadLocalPtr dies, then the destruction of
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// the following variable will go first, then OnThreadExit, therefore causing
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// invalid access.
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//
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// The above problem can be solved by using thread_local to store tls_ instead
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// of using __thread. The major difference between thread_local and __thread
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// is that thread_local supports dynamic construction and destruction of
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// non-primitive typed variables. As a result, we can guarantee the
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// desturction order even when the main thread dies before any child threads.
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// However, thread_local requires gcc 4.8 and is not supported in all the
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// compilers that accepts -std=c++11 (e.g., the default clang on Mac), while
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// the current RocksDB still accept gcc 4.7.
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static ThreadLocalPtr::StaticMeta* inst = new ThreadLocalPtr::StaticMeta();
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return inst;
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}
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port::Mutex* ThreadLocalPtr::StaticMeta::Mutex() { return &Instance()->mutex_; }
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void ThreadLocalPtr::StaticMeta::OnThreadExit(void* ptr) {
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auto* tls = static_cast<ThreadData*>(ptr);
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assert(tls != nullptr);
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// Use the cached StaticMeta::Instance() instead of directly calling
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// the variable inside StaticMeta::Instance() might already go out of
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// scope here in case this OnThreadExit is called after the main thread
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// dies.
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auto* inst = tls->inst;
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pthread_setspecific(inst->pthread_key_, nullptr);
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MutexLock l(inst->MemberMutex());
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inst->RemoveThreadData(tls);
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// Unref stored pointers of current thread from all instances
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uint32_t id = 0;
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for (auto& e : tls->entries) {
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void* raw = e.ptr.load();
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if (raw != nullptr) {
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auto unref = inst->GetHandler(id);
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if (unref != nullptr) {
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unref(raw);
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}
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}
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++id;
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}
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// Delete thread local structure no matter if it is Mac platform
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delete tls;
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}
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ThreadLocalPtr::StaticMeta::StaticMeta() : next_instance_id_(0), head_(this) {
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if (pthread_key_create(&pthread_key_, &OnThreadExit) != 0) {
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abort();
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}
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// OnThreadExit is not getting called on the main thread.
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// Call through the static destructor mechanism to avoid memory leak.
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//
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// Caveats: ~A() will be invoked _after_ ~StaticMeta for the global
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// singleton (destructors are invoked in reverse order of constructor
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// _completion_); the latter must not mutate internal members. This
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// cleanup mechanism inherently relies on use-after-release of the
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// StaticMeta, and is brittle with respect to compiler-specific handling
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// of memory backing destructed statically-scoped objects. Perhaps
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// registering with atexit(3) would be more robust.
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//
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// This is not required on Windows.
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#if !defined(OS_WIN)
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static struct A {
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~A() {
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#if !(ROCKSDB_SUPPORT_THREAD_LOCAL)
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ThreadData* tls_ =
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static_cast<ThreadData*>(pthread_getspecific(Instance()->pthread_key_));
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#endif
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if (tls_) {
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OnThreadExit(tls_);
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}
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}
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} a;
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#endif // !defined(OS_WIN)
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head_.next = &head_;
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head_.prev = &head_;
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#ifdef OS_WIN
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// Share with Windows its cleanup routine and the key
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wintlscleanup::thread_local_inclass_routine = OnThreadExit;
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wintlscleanup::thread_local_key = pthread_key_;
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#endif
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}
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void ThreadLocalPtr::StaticMeta::AddThreadData(ThreadLocalPtr::ThreadData* d) {
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Mutex()->AssertHeld();
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d->next = &head_;
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d->prev = head_.prev;
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head_.prev->next = d;
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head_.prev = d;
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}
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void ThreadLocalPtr::StaticMeta::RemoveThreadData(
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ThreadLocalPtr::ThreadData* d) {
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Mutex()->AssertHeld();
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d->next->prev = d->prev;
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d->prev->next = d->next;
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d->next = d->prev = d;
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}
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ThreadLocalPtr::ThreadData* ThreadLocalPtr::StaticMeta::GetThreadLocal() {
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#if !(ROCKSDB_SUPPORT_THREAD_LOCAL)
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// Make this local variable name look like a member variable so that we
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// can share all the code below
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ThreadData* tls_ =
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static_cast<ThreadData*>(pthread_getspecific(Instance()->pthread_key_));
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#endif
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if (UNLIKELY(tls_ == nullptr)) {
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auto* inst = Instance();
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tls_ = new ThreadData(inst);
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{
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// Register it in the global chain, needs to be done before thread exit
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// handler registration
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MutexLock l(Mutex());
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inst->AddThreadData(tls_);
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}
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// Even it is not OS_MACOSX, need to register value for pthread_key_ so that
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// its exit handler will be triggered.
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if (pthread_setspecific(inst->pthread_key_, tls_) != 0) {
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{
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MutexLock l(Mutex());
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inst->RemoveThreadData(tls_);
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}
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delete tls_;
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abort();
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}
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}
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return tls_;
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}
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void* ThreadLocalPtr::StaticMeta::Get(uint32_t id) const {
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auto* tls = GetThreadLocal();
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if (UNLIKELY(id >= tls->entries.size())) {
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return nullptr;
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}
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return tls->entries[id].ptr.load(std::memory_order_acquire);
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}
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void ThreadLocalPtr::StaticMeta::Reset(uint32_t id, void* ptr) {
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auto* tls = GetThreadLocal();
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if (UNLIKELY(id >= tls->entries.size())) {
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// Need mutex to protect entries access within ReclaimId
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MutexLock l(Mutex());
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tls->entries.resize(id + 1);
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}
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tls->entries[id].ptr.store(ptr, std::memory_order_release);
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}
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void* ThreadLocalPtr::StaticMeta::Swap(uint32_t id, void* ptr) {
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auto* tls = GetThreadLocal();
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if (UNLIKELY(id >= tls->entries.size())) {
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// Need mutex to protect entries access within ReclaimId
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MutexLock l(Mutex());
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tls->entries.resize(id + 1);
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}
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return tls->entries[id].ptr.exchange(ptr, std::memory_order_acquire);
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}
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bool ThreadLocalPtr::StaticMeta::CompareAndSwap(uint32_t id, void* ptr,
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void*& expected) {
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auto* tls = GetThreadLocal();
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if (UNLIKELY(id >= tls->entries.size())) {
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// Need mutex to protect entries access within ReclaimId
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MutexLock l(Mutex());
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tls->entries.resize(id + 1);
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}
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return tls->entries[id].ptr.compare_exchange_strong(
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expected, ptr, std::memory_order_release, std::memory_order_relaxed);
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}
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void ThreadLocalPtr::StaticMeta::Scrape(uint32_t id, autovector<void*>* ptrs,
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void* const replacement) {
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MutexLock l(Mutex());
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for (ThreadData* t = head_.next; t != &head_; t = t->next) {
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if (id < t->entries.size()) {
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void* ptr =
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t->entries[id].ptr.exchange(replacement, std::memory_order_acquire);
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if (ptr != nullptr) {
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ptrs->push_back(ptr);
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}
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}
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}
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}
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void ThreadLocalPtr::StaticMeta::SetHandler(uint32_t id, UnrefHandler handler) {
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MutexLock l(Mutex());
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handler_map_[id] = handler;
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}
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UnrefHandler ThreadLocalPtr::StaticMeta::GetHandler(uint32_t id) {
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Mutex()->AssertHeld();
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auto iter = handler_map_.find(id);
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if (iter == handler_map_.end()) {
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return nullptr;
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}
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return iter->second;
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}
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uint32_t ThreadLocalPtr::StaticMeta::GetId() {
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MutexLock l(Mutex());
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if (free_instance_ids_.empty()) {
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return next_instance_id_++;
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}
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uint32_t id = free_instance_ids_.back();
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free_instance_ids_.pop_back();
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return id;
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}
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uint32_t ThreadLocalPtr::StaticMeta::PeekId() const {
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MutexLock l(Mutex());
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if (!free_instance_ids_.empty()) {
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return free_instance_ids_.back();
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}
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return next_instance_id_;
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}
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void ThreadLocalPtr::StaticMeta::ReclaimId(uint32_t id) {
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// This id is not used, go through all thread local data and release
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// corresponding value
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MutexLock l(Mutex());
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auto unref = GetHandler(id);
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for (ThreadData* t = head_.next; t != &head_; t = t->next) {
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if (id < t->entries.size()) {
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void* ptr = t->entries[id].ptr.exchange(nullptr);
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if (ptr != nullptr && unref != nullptr) {
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unref(ptr);
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}
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}
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}
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handler_map_[id] = nullptr;
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free_instance_ids_.push_back(id);
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}
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ThreadLocalPtr::ThreadLocalPtr(UnrefHandler handler)
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: id_(Instance()->GetId()) {
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if (handler != nullptr) {
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Instance()->SetHandler(id_, handler);
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}
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}
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ThreadLocalPtr::~ThreadLocalPtr() {
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Instance()->ReclaimId(id_);
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}
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void* ThreadLocalPtr::Get() const {
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return Instance()->Get(id_);
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}
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void ThreadLocalPtr::Reset(void* ptr) {
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Instance()->Reset(id_, ptr);
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}
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void* ThreadLocalPtr::Swap(void* ptr) {
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return Instance()->Swap(id_, ptr);
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}
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bool ThreadLocalPtr::CompareAndSwap(void* ptr, void*& expected) {
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return Instance()->CompareAndSwap(id_, ptr, expected);
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}
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void ThreadLocalPtr::Scrape(autovector<void*>* ptrs, void* const replacement) {
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Instance()->Scrape(id_, ptrs, replacement);
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}
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} // namespace rocksdb
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