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166 lines
6.6 KiB
C
166 lines
6.6 KiB
C
/* Register destructors for C++ TLS variables declared with thread_local.
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Copyright (C) 2013-2019 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<http://www.gnu.org/licenses/>. */
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/* CONCURRENCY NOTES:
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This documents concurrency for the non-POD TLS destructor registration,
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calling and destruction. The functions __cxa_thread_atexit_impl,
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_dl_close_worker and __call_tls_dtors are the three main routines that may
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run concurrently and access shared data. The shared data in all possible
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combinations of all three functions are the link map list, a link map for a
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DSO and the link map member l_tls_dtor_count.
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__cxa_thread_atexit_impl acquires the dl_load_lock before accessing any
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shared state and hence multiple of its instances can safely execute
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concurrently.
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_dl_close_worker acquires the dl_load_lock before accessing any shared state
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as well and hence can concurrently execute multiple of its own instances as
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well as those of __cxa_thread_atexit_impl safely. Not all accesses to
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l_tls_dtor_count are protected by the dl_load_lock, so we need to
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synchronize using atomics.
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__call_tls_dtors accesses the l_tls_dtor_count without taking the lock; it
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decrements the value by one. It does not need the big lock because it does
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not access any other shared state except for the current DSO link map and
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its member l_tls_dtor_count.
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Correspondingly, _dl_close_worker loads l_tls_dtor_count and if it is zero,
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unloads the DSO, thus deallocating the current link map. This is the goal
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of maintaining l_tls_dtor_count - to unload the DSO and free resources if
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there are no pending destructors to be called.
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We want to eliminate the inconsistent state where the DSO is unloaded in
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_dl_close_worker before it is used in __call_tls_dtors. This could happen
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if __call_tls_dtors uses the link map after it sets l_tls_dtor_count to 0,
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since _dl_close_worker will conclude from the 0 l_tls_dtor_count value that
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it is safe to unload the DSO. Hence, to ensure that this does not happen,
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the following conditions must be met:
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1. In _dl_close_worker, the l_tls_dtor_count load happens before the DSO is
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unloaded and its link map is freed
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2. The link map dereference in __call_tls_dtors happens before the
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l_tls_dtor_count dereference.
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To ensure this, the l_tls_dtor_count decrement in __call_tls_dtors should
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have release semantics and the load in _dl_close_worker should have acquire
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semantics.
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Concurrent executions of __call_tls_dtors should only ensure that the value
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is accessed atomically; no reordering constraints need to be considered.
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Likewise for the increment of l_tls_dtor_count in __cxa_thread_atexit_impl.
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There is still a possibility on concurrent execution of _dl_close_worker and
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__call_tls_dtors where _dl_close_worker reads the value of l_tls_dtor_count
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as 1, __call_tls_dtors decrements the value of l_tls_dtor_count but
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_dl_close_worker does not unload the DSO, having read the old value. This
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is not very different from a case where __call_tls_dtors is called after
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_dl_close_worker on the DSO and hence is an accepted execution. */
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#include <stdlib.h>
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#include <ldsodefs.h>
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typedef void (*dtor_func) (void *);
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struct dtor_list
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{
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dtor_func func;
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void *obj;
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struct link_map *map;
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struct dtor_list *next;
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};
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static __thread struct dtor_list *tls_dtor_list;
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static __thread void *dso_symbol_cache;
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static __thread struct link_map *lm_cache;
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/* Register a destructor for TLS variables declared with the 'thread_local'
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keyword. This function is only called from code generated by the C++
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compiler. FUNC is the destructor function and OBJ is the object to be
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passed to the destructor. DSO_SYMBOL is the __dso_handle symbol that each
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DSO has at a unique address in its map, added from crtbegin.o during the
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linking phase. */
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int
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__cxa_thread_atexit_impl (dtor_func func, void *obj, void *dso_symbol)
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{
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#ifdef PTR_MANGLE
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PTR_MANGLE (func);
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#endif
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/* Prepend. */
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struct dtor_list *new = calloc (1, sizeof (struct dtor_list));
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new->func = func;
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new->obj = obj;
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new->next = tls_dtor_list;
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tls_dtor_list = new;
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/* We have to acquire the big lock to prevent a racing dlclose from pulling
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our DSO from underneath us while we're setting up our destructor. */
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__rtld_lock_lock_recursive (GL(dl_load_lock));
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/* See if we already encountered the DSO. */
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if (__glibc_unlikely (dso_symbol_cache != dso_symbol))
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{
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ElfW(Addr) caller = (ElfW(Addr)) dso_symbol;
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struct link_map *l = _dl_find_dso_for_object (caller);
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/* If the address is not recognized the call comes from the main
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program (we hope). */
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lm_cache = l ? l : GL(dl_ns)[LM_ID_BASE]._ns_loaded;
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}
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/* This increment may only be concurrently observed either by the decrement
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in __call_tls_dtors since the other l_tls_dtor_count access in
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_dl_close_worker is protected by the dl_load_lock. The execution in
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__call_tls_dtors does not really depend on this value beyond the fact that
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it should be atomic, so Relaxed MO should be sufficient. */
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atomic_fetch_add_relaxed (&lm_cache->l_tls_dtor_count, 1);
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__rtld_lock_unlock_recursive (GL(dl_load_lock));
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new->map = lm_cache;
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return 0;
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}
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/* Call the destructors. This is called either when a thread returns from the
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initial function or when the process exits via the exit function. */
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void
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__call_tls_dtors (void)
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{
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while (tls_dtor_list)
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{
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struct dtor_list *cur = tls_dtor_list;
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dtor_func func = cur->func;
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#ifdef PTR_DEMANGLE
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PTR_DEMANGLE (func);
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#endif
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tls_dtor_list = tls_dtor_list->next;
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func (cur->obj);
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/* Ensure that the MAP dereference happens before
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l_tls_dtor_count decrement. That way, we protect this access from a
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potential DSO unload in _dl_close_worker, which happens when
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l_tls_dtor_count is 0. See CONCURRENCY NOTES for more detail. */
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atomic_fetch_add_release (&cur->map->l_tls_dtor_count, -1);
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free (cur);
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}
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}
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libc_hidden_def (__call_tls_dtors)
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