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08325735c2
Lazy TLSDESC initialization needs to be synchronized with concurrent TLS accesses. The TLS descriptor contains a function pointer (entry) and an argument that is accessed from the entry function. With lazy initialization the first call to the entry function updates the entry and the argument to their final value. A final entry function must make sure that it accesses an initialized argument, this needs synchronization on systems with weak memory ordering otherwise the writes of the first call can be observed out of order. There are at least two issues with the current code: tlsdesc.c (i386, x86_64, arm, aarch64) uses volatile memory accesses on the write side (in the initial entry function) instead of C11 atomics. And on systems with weak memory ordering (arm, aarch64) the read side synchronization is missing from the final entry functions (dl-tlsdesc.S). This patch only deals with aarch64. * Write side: Volatile accesses were replaced with C11 relaxed atomics, and a release store was used for the initialization of entry so the read side can synchronize with it. * Read side: TLS access generated by the compiler and an entry function code is roughly ldr x1, [x0] // load the entry blr x1 // call it entryfunc: ldr x0, [x0,#8] // load the arg ret Various alternatives were considered to force the ordering in the entry function between the two loads: (1) barrier entryfunc: dmb ishld ldr x0, [x0,#8] (2) address dependency (if the address of the second load depends on the result of the first one the ordering is guaranteed): entryfunc: ldr x1,[x0] and x1,x1,#8 orr x1,x1,#8 ldr x0,[x0,x1] (3) load-acquire (ARMv8 instruction that is ordered before subsequent loads and stores) entryfunc: ldar xzr,[x0] ldr x0,[x0,#8] Option (1) is the simplest but slowest (note: this runs at every TLS access), options (2) and (3) do one extra load from [x0] (same address loads are ordered so it happens-after the load on the call site), option (2) clobbers x1 which is problematic because existing gcc does not expect that, so approach (3) was chosen. A new _dl_tlsdesc_return_lazy entry function was introduced for lazily relocated static TLS, so non-lazy static TLS can avoid the synchronization cost. [BZ #18034] * sysdeps/aarch64/dl-tlsdesc.h (_dl_tlsdesc_return_lazy): Declare. * sysdeps/aarch64/dl-tlsdesc.S (_dl_tlsdesc_return_lazy): Define. (_dl_tlsdesc_undefweak): Guarantee TLSDESC entry and argument load-load ordering using ldar. (_dl_tlsdesc_dynamic): Likewise. (_dl_tlsdesc_return_lazy): Likewise. * sysdeps/aarch64/tlsdesc.c (_dl_tlsdesc_resolve_rela_fixup): Use relaxed atomics instead of volatile and synchronize with release store. (_dl_tlsdesc_resolve_hold_fixup): Use relaxed atomics instead of volatile. * elf/tlsdeschtab.h (_dl_tlsdesc_resolve_early_return_p): Likewise.
167 lines
5.5 KiB
C
167 lines
5.5 KiB
C
/* Manage TLS descriptors. AArch64 version.
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Copyright (C) 2011-2015 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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#include <link.h>
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#include <ldsodefs.h>
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#include <elf/dynamic-link.h>
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#include <tls.h>
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#include <dl-tlsdesc.h>
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#include <dl-unmap-segments.h>
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#include <tlsdeschtab.h>
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#include <atomic.h>
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/* The following functions take an entry_check_offset argument. It's
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computed by the caller as an offset between its entry point and the
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call site, such that by adding the built-in return address that is
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implicitly passed to the function with this offset, we can easily
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obtain the caller's entry point to compare with the entry point
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given in the TLS descriptor. If it's changed, we want to return
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immediately. */
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/* This function is used to lazily resolve TLS_DESC RELA relocations.
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The argument location is used to hold a pointer to the relocation. */
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void
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attribute_hidden
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_dl_tlsdesc_resolve_rela_fixup (struct tlsdesc *td, struct link_map *l)
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{
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const ElfW(Rela) *reloc = atomic_load_relaxed (&td->arg);
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/* After GL(dl_load_lock) is grabbed only one caller can see td->entry in
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initial state in _dl_tlsdesc_resolve_early_return_p, other concurrent
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callers will return and retry calling td->entry. The updated td->entry
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synchronizes with the single writer so all read accesses here can use
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relaxed order. */
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if (_dl_tlsdesc_resolve_early_return_p
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(td, (void*)(D_PTR (l, l_info[ADDRIDX (DT_TLSDESC_PLT)]) + l->l_addr)))
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return;
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/* The code below was borrowed from _dl_fixup(),
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except for checking for STB_LOCAL. */
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const ElfW(Sym) *const symtab
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= (const void *) D_PTR (l, l_info[DT_SYMTAB]);
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const char *strtab = (const void *) D_PTR (l, l_info[DT_STRTAB]);
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const ElfW(Sym) *sym = &symtab[ELFW(R_SYM) (reloc->r_info)];
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lookup_t result;
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/* Look up the target symbol. If the normal lookup rules are not
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used don't look in the global scope. */
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if (ELFW(ST_BIND) (sym->st_info) != STB_LOCAL
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&& __builtin_expect (ELFW(ST_VISIBILITY) (sym->st_other), 0) == 0)
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{
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const struct r_found_version *version = NULL;
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if (l->l_info[VERSYMIDX (DT_VERSYM)] != NULL)
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{
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const ElfW(Half) *vernum =
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(const void *) D_PTR (l, l_info[VERSYMIDX (DT_VERSYM)]);
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ElfW(Half) ndx = vernum[ELFW(R_SYM) (reloc->r_info)] & 0x7fff;
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version = &l->l_versions[ndx];
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if (version->hash == 0)
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version = NULL;
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}
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result = _dl_lookup_symbol_x (strtab + sym->st_name, l, &sym,
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l->l_scope, version, ELF_RTYPE_CLASS_PLT,
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DL_LOOKUP_ADD_DEPENDENCY, NULL);
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}
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else
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{
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/* We already found the symbol. The module (and therefore its load
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address) is also known. */
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result = l;
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}
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if (!sym)
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{
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atomic_store_relaxed (&td->arg, (void *) reloc->r_addend);
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/* This release store synchronizes with the ldar acquire load
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instruction in _dl_tlsdesc_undefweak. */
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atomic_store_release (&td->entry, _dl_tlsdesc_undefweak);
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}
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else
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{
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# ifndef SHARED
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CHECK_STATIC_TLS (l, result);
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# else
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if (!TRY_STATIC_TLS (l, result))
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{
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void *p = _dl_make_tlsdesc_dynamic (result, sym->st_value
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+ reloc->r_addend);
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atomic_store_relaxed (&td->arg, p);
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/* This release store synchronizes with the ldar acquire load
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instruction in _dl_tlsdesc_dynamic. */
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atomic_store_release (&td->entry, _dl_tlsdesc_dynamic);
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}
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else
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# endif
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{
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void *p = (void*) (sym->st_value + result->l_tls_offset
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+ reloc->r_addend);
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atomic_store_relaxed (&td->arg, p);
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/* This release store synchronizes with the ldar acquire load
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instruction in _dl_tlsdesc_return_lazy. */
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atomic_store_release (&td->entry, _dl_tlsdesc_return_lazy);
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}
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}
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_dl_tlsdesc_wake_up_held_fixups ();
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}
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/* This function is used to avoid busy waiting for other threads to
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complete the lazy relocation. Once another thread wins the race to
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relocate a TLS descriptor, it sets the descriptor up such that this
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function is called to wait until the resolver releases the
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lock. */
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void
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attribute_hidden
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_dl_tlsdesc_resolve_hold_fixup (struct tlsdesc *td, void *caller)
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{
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/* Maybe we're lucky and can return early. */
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if (caller != atomic_load_relaxed (&td->entry))
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return;
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/* Locking here will stop execution until the running resolver runs
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_dl_tlsdesc_wake_up_held_fixups(), releasing the lock.
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FIXME: We'd be better off waiting on a condition variable, such
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that we didn't have to hold the lock throughout the relocation
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processing. */
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__rtld_lock_lock_recursive (GL(dl_load_lock));
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__rtld_lock_unlock_recursive (GL(dl_load_lock));
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}
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/* Unmap the dynamic object, but also release its TLS descriptor table
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if there is one. */
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void
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internal_function
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_dl_unmap (struct link_map *map)
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{
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_dl_unmap_segments (map);
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#ifdef SHARED
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if (map->l_mach.tlsdesc_table)
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htab_delete (map->l_mach.tlsdesc_table);
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#endif
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}
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