Report Windows Firewall state even for ServiceDiscoverySharedClient::GetInstance
[chromium-blink-merge.git] / base / threading / thread_local_storage.cc
blob54928ede272526bc4ac24bc4621facecfc9b9eee
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "base/threading/thread_local_storage.h"
7 #include "base/atomicops.h"
8 #include "base/logging.h"
10 using base::internal::PlatformThreadLocalStorage;
12 namespace {
13 // In order to make TLS destructors work, we need to keep around a function
14 // pointer to the destructor for each slot. We keep this array of pointers in a
15 // global (static) array.
16 // We use the single OS-level TLS slot (giving us one pointer per thread) to
17 // hold a pointer to a per-thread array (table) of slots that we allocate to
18 // Chromium consumers.
20 // g_native_tls_key is the one native TLS that we use. It stores our table.
21 base::subtle::Atomic32 g_native_tls_key =
22 PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES;
24 // g_last_used_tls_key is the high-water-mark of allocated thread local storage.
25 // Each allocation is an index into our g_tls_destructors[]. Each such index is
26 // assigned to the instance variable slot_ in a ThreadLocalStorage::Slot
27 // instance. We reserve the value slot_ == 0 to indicate that the corresponding
28 // instance of ThreadLocalStorage::Slot has been freed (i.e., destructor called,
29 // etc.). This reserved use of 0 is then stated as the initial value of
30 // g_last_used_tls_key, so that the first issued index will be 1.
31 base::subtle::Atomic32 g_last_used_tls_key = 0;
33 // The maximum number of 'slots' in our thread local storage stack.
34 const int kThreadLocalStorageSize = 256;
36 // The maximum number of times to try to clear slots by calling destructors.
37 // Use pthread naming convention for clarity.
38 const int kMaxDestructorIterations = kThreadLocalStorageSize;
40 // An array of destructor function pointers for the slots. If a slot has a
41 // destructor, it will be stored in its corresponding entry in this array.
42 // The elements are volatile to ensure that when the compiler reads the value
43 // to potentially call the destructor, it does so once, and that value is tested
44 // for null-ness and then used. Yes, that would be a weird de-optimization,
45 // but I can imagine some register machines where it was just as easy to
46 // re-fetch an array element, and I want to be sure a call to free the key
47 // (i.e., null out the destructor entry) that happens on a separate thread can't
48 // hurt the racy calls to the destructors on another thread.
49 volatile base::ThreadLocalStorage::TLSDestructorFunc
50 g_tls_destructors[kThreadLocalStorageSize];
52 // This function is called to initialize our entire Chromium TLS system.
53 // It may be called very early, and we need to complete most all of the setup
54 // (initialization) before calling *any* memory allocator functions, which may
55 // recursively depend on this initialization.
56 // As a result, we use Atomics, and avoid anything (like a singleton) that might
57 // require memory allocations.
58 void** ConstructTlsVector() {
59 PlatformThreadLocalStorage::TLSKey key =
60 base::subtle::NoBarrier_Load(&g_native_tls_key);
61 if (key == PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES) {
62 CHECK(PlatformThreadLocalStorage::AllocTLS(&key));
64 // The TLS_KEY_OUT_OF_INDEXES is used to find out whether the key is set or
65 // not in NoBarrier_CompareAndSwap, but Posix doesn't have invalid key, we
66 // define an almost impossible value be it.
67 // If we really get TLS_KEY_OUT_OF_INDEXES as value of key, just alloc
68 // another TLS slot.
69 if (key == PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES) {
70 PlatformThreadLocalStorage::TLSKey tmp = key;
71 CHECK(PlatformThreadLocalStorage::AllocTLS(&key) &&
72 key != PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES);
73 PlatformThreadLocalStorage::FreeTLS(tmp);
75 // Atomically test-and-set the tls_key. If the key is
76 // TLS_KEY_OUT_OF_INDEXES, go ahead and set it. Otherwise, do nothing, as
77 // another thread already did our dirty work.
78 if (PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES !=
79 base::subtle::NoBarrier_CompareAndSwap(&g_native_tls_key,
80 PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES, key)) {
81 // We've been shortcut. Another thread replaced g_native_tls_key first so
82 // we need to destroy our index and use the one the other thread got
83 // first.
84 PlatformThreadLocalStorage::FreeTLS(key);
85 key = base::subtle::NoBarrier_Load(&g_native_tls_key);
88 CHECK(!PlatformThreadLocalStorage::GetTLSValue(key));
90 // Some allocators, such as TCMalloc, make use of thread local storage.
91 // As a result, any attempt to call new (or malloc) will lazily cause such a
92 // system to initialize, which will include registering for a TLS key. If we
93 // are not careful here, then that request to create a key will call new back,
94 // and we'll have an infinite loop. We avoid that as follows:
95 // Use a stack allocated vector, so that we don't have dependence on our
96 // allocator until our service is in place. (i.e., don't even call new until
97 // after we're setup)
98 void* stack_allocated_tls_data[kThreadLocalStorageSize];
99 memset(stack_allocated_tls_data, 0, sizeof(stack_allocated_tls_data));
100 // Ensure that any rentrant calls change the temp version.
101 PlatformThreadLocalStorage::SetTLSValue(key, stack_allocated_tls_data);
103 // Allocate an array to store our data.
104 void** tls_data = new void*[kThreadLocalStorageSize];
105 memcpy(tls_data, stack_allocated_tls_data, sizeof(stack_allocated_tls_data));
106 PlatformThreadLocalStorage::SetTLSValue(key, tls_data);
107 return tls_data;
110 void OnThreadExitInternal(void* value) {
111 DCHECK(value);
112 void** tls_data = static_cast<void**>(value);
113 // Some allocators, such as TCMalloc, use TLS. As a result, when a thread
114 // terminates, one of the destructor calls we make may be to shut down an
115 // allocator. We have to be careful that after we've shutdown all of the
116 // known destructors (perchance including an allocator), that we don't call
117 // the allocator and cause it to resurrect itself (with no possibly destructor
118 // call to follow). We handle this problem as follows:
119 // Switch to using a stack allocated vector, so that we don't have dependence
120 // on our allocator after we have called all g_tls_destructors. (i.e., don't
121 // even call delete[] after we're done with destructors.)
122 void* stack_allocated_tls_data[kThreadLocalStorageSize];
123 memcpy(stack_allocated_tls_data, tls_data, sizeof(stack_allocated_tls_data));
124 // Ensure that any re-entrant calls change the temp version.
125 PlatformThreadLocalStorage::TLSKey key =
126 base::subtle::NoBarrier_Load(&g_native_tls_key);
127 PlatformThreadLocalStorage::SetTLSValue(key, stack_allocated_tls_data);
128 delete[] tls_data; // Our last dependence on an allocator.
130 int remaining_attempts = kMaxDestructorIterations;
131 bool need_to_scan_destructors = true;
132 while (need_to_scan_destructors) {
133 need_to_scan_destructors = false;
134 // Try to destroy the first-created-slot (which is slot 1) in our last
135 // destructor call. That user was able to function, and define a slot with
136 // no other services running, so perhaps it is a basic service (like an
137 // allocator) and should also be destroyed last. If we get the order wrong,
138 // then we'll itterate several more times, so it is really not that
139 // critical (but it might help).
140 base::subtle::Atomic32 last_used_tls_key =
141 base::subtle::NoBarrier_Load(&g_last_used_tls_key);
142 for (int slot = last_used_tls_key; slot > 0; --slot) {
143 void* tls_value = stack_allocated_tls_data[slot];
144 if (tls_value == NULL)
145 continue;
147 base::ThreadLocalStorage::TLSDestructorFunc destructor =
148 g_tls_destructors[slot];
149 if (destructor == NULL)
150 continue;
151 stack_allocated_tls_data[slot] = NULL; // pre-clear the slot.
152 destructor(tls_value);
153 // Any destructor might have called a different service, which then set
154 // a different slot to a non-NULL value. Hence we need to check
155 // the whole vector again. This is a pthread standard.
156 need_to_scan_destructors = true;
158 if (--remaining_attempts <= 0) {
159 NOTREACHED(); // Destructors might not have been called.
160 break;
164 // Remove our stack allocated vector.
165 PlatformThreadLocalStorage::SetTLSValue(key, NULL);
168 } // namespace
170 namespace base {
172 namespace internal {
174 #if defined(OS_WIN)
175 void PlatformThreadLocalStorage::OnThreadExit() {
176 PlatformThreadLocalStorage::TLSKey key =
177 base::subtle::NoBarrier_Load(&g_native_tls_key);
178 if (key == PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES)
179 return;
180 void *tls_data = GetTLSValue(key);
181 // Maybe we have never initialized TLS for this thread.
182 if (!tls_data)
183 return;
184 OnThreadExitInternal(tls_data);
186 #elif defined(OS_POSIX)
187 void PlatformThreadLocalStorage::OnThreadExit(void* value) {
188 OnThreadExitInternal(value);
190 #endif // defined(OS_WIN)
192 } // namespace internal
194 ThreadLocalStorage::Slot::Slot(TLSDestructorFunc destructor) {
195 initialized_ = false;
196 slot_ = 0;
197 Initialize(destructor);
200 bool ThreadLocalStorage::StaticSlot::Initialize(TLSDestructorFunc destructor) {
201 PlatformThreadLocalStorage::TLSKey key =
202 base::subtle::NoBarrier_Load(&g_native_tls_key);
203 if (key == PlatformThreadLocalStorage::TLS_KEY_OUT_OF_INDEXES ||
204 !PlatformThreadLocalStorage::GetTLSValue(key))
205 ConstructTlsVector();
207 // Grab a new slot.
208 slot_ = base::subtle::NoBarrier_AtomicIncrement(&g_last_used_tls_key, 1);
209 DCHECK_GT(slot_, 0);
210 CHECK_LT(slot_, kThreadLocalStorageSize);
212 // Setup our destructor.
213 g_tls_destructors[slot_] = destructor;
214 initialized_ = true;
215 return true;
218 void ThreadLocalStorage::StaticSlot::Free() {
219 // At this time, we don't reclaim old indices for TLS slots.
220 // So all we need to do is wipe the destructor.
221 DCHECK_GT(slot_, 0);
222 DCHECK_LT(slot_, kThreadLocalStorageSize);
223 g_tls_destructors[slot_] = NULL;
224 slot_ = 0;
225 initialized_ = false;
228 void* ThreadLocalStorage::StaticSlot::Get() const {
229 void** tls_data = static_cast<void**>(
230 PlatformThreadLocalStorage::GetTLSValue(
231 base::subtle::NoBarrier_Load(&g_native_tls_key)));
232 if (!tls_data)
233 tls_data = ConstructTlsVector();
234 DCHECK_GT(slot_, 0);
235 DCHECK_LT(slot_, kThreadLocalStorageSize);
236 return tls_data[slot_];
239 void ThreadLocalStorage::StaticSlot::Set(void* value) {
240 void** tls_data = static_cast<void**>(
241 PlatformThreadLocalStorage::GetTLSValue(
242 base::subtle::NoBarrier_Load(&g_native_tls_key)));
243 if (!tls_data)
244 tls_data = ConstructTlsVector();
245 DCHECK_GT(slot_, 0);
246 DCHECK_LT(slot_, kThreadLocalStorageSize);
247 tls_data[slot_] = value;
250 } // namespace base