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glibc/nptl/Makefile
Adhemerval Zanella 89b53077d2 nptl: Fix Race conditions in pthread cancellation [BZ#12683] 
The current racy approach is to enable asynchronous cancellation
before making the syscall and restore the previous cancellation
type once the syscall returns, and check if cancellation has happen
during the cancellation entrypoint.

As described in BZ#12683, this approach shows 2 problems:

  1. Cancellation can act after the syscall has returned from the
     kernel, but before userspace saves the return value.  It might
     result in a resource leak if the syscall allocated a resource or a
     side effect (partial read/write), and there is no way to program
     handle it with cancellation handlers.

  2. If a signal is handled while the thread is blocked at a cancellable
     syscall, the entire signal handler runs with asynchronous
     cancellation enabled.  This can lead to issues if the signal
     handler call functions which are async-signal-safe but not
     async-cancel-safe.

For the cancellation to work correctly, there are 5 points at which the
cancellation signal could arrive:

	[ ... )[ ... )[ syscall ]( ...
	   1      2        3    4   5

  1. Before initial testcancel, e.g. [*... testcancel)
  2. Between testcancel and syscall start, e.g. [testcancel...syscall start)
  3. While syscall is blocked and no side effects have yet taken
     place, e.g. [ syscall ]
  4. Same as 3 but with side-effects having occurred (e.g. a partial
     read or write).
  5. After syscall end e.g. (syscall end...*]

And libc wants to act on cancellation in cases 1, 2, and 3 but not
in cases 4 or 5.  For the 4 and 5 cases, the cancellation will eventually
happen in the next cancellable entrypoint without any further external
event.

The proposed solution for each case is:

  1. Do a conditional branch based on whether the thread has received
     a cancellation request;

  2. It can be caught by the signal handler determining that the saved
     program counter (from the ucontext_t) is in some address range
     beginning just before the "testcancel" and ending with the
     syscall instruction.

  3. SIGCANCEL can be caught by the signal handler and determine that
     the saved program counter (from the ucontext_t) is in the address
     range beginning just before "testcancel" and ending with the first
     uninterruptable (via a signal) syscall instruction that enters the
      kernel.

  4. In this case, except for certain syscalls that ALWAYS fail with
     EINTR even for non-interrupting signals, the kernel will reset
     the program counter to point at the syscall instruction during
     signal handling, so that the syscall is restarted when the signal
     handler returns.  So, from the signal handler's standpoint, this
     looks the same as case 2, and thus it's taken care of.

  5. For syscalls with side-effects, the kernel cannot restart the
     syscall; when it's interrupted by a signal, the kernel must cause
     the syscall to return with whatever partial result is obtained
     (e.g. partial read or write).

  6. The saved program counter points just after the syscall
     instruction, so the signal handler won't act on cancellation.
     This is similar to 4. since the program counter is past the syscall
     instruction.

So The proposed fixes are:

  1. Remove the enable_asynccancel/disable_asynccancel function usage in
     cancellable syscall definition and instead make them call a common
     symbol that will check if cancellation is enabled (__syscall_cancel
     at nptl/cancellation.c), call the arch-specific cancellable
     entry-point (__syscall_cancel_arch), and cancel the thread when
     required.

  2. Provide an arch-specific generic system call wrapper function
     that contains global markers.  These markers will be used in
     SIGCANCEL signal handler to check if the interruption has been
     called in a valid syscall and if the syscalls has side-effects.

     A reference implementation sysdeps/unix/sysv/linux/syscall_cancel.c
     is provided.  However, the markers may not be set on correct
     expected places depending on how INTERNAL_SYSCALL_NCS is
     implemented by the architecture.  It is expected that all
     architectures add an arch-specific implementation.

  3. Rewrite SIGCANCEL asynchronous handler to check for both canceling
     type and if current IP from signal handler falls between the global
     markers and act accordingly.

  4. Adjust libc code to replace LIBC_CANCEL_ASYNC/LIBC_CANCEL_RESET to
     use the appropriate cancelable syscalls.

  5. Adjust 'lowlevellock-futex.h' arch-specific implementations to
     provide cancelable futex calls.

Some architectures require specific support on syscall handling:

  * On i386 the syscall cancel bridge needs to use the old int80
    instruction because the optimized vDSO symbol the resulting PC value
    for an interrupted syscall points to an address outside the expected
    markers in __syscall_cancel_arch.  It has been discussed in LKML [1]
    on how kernel could help userland to accomplish it, but afaik
    discussion has stalled.

    Also, sysenter should not be used directly by libc since its calling
    convention is set by the kernel depending of the underlying x86 chip
    (check kernel commit 30bfa7b3488bfb1bb75c9f50a5fcac1832970c60).

  * mips o32 is the only kABI that requires 7 argument syscall, and to
    avoid add a requirement on all architectures to support it, mips
    support is added with extra internal defines.

Checked on aarch64-linux-gnu, arm-linux-gnueabihf, powerpc-linux-gnu,
powerpc64-linux-gnu, powerpc64le-linux-gnu, i686-linux-gnu, and
x86_64-linux-gnu.

[1] https://lkml.org/lkml/2016/3/8/1105
Reviewed-by: Carlos O'Donell <carlos@redhat.com>
2024-08-23 14:27:43 -03:00

733 lines
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# Copyright (C) 2002-2024 Free Software Foundation, Inc.
# This file is part of the GNU C Library.
# The GNU C Library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# The GNU C Library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with the GNU C Library; if not, see
# <https://www.gnu.org/licenses/>.
#
# Sub-makefile for NPTL portion of the library.
#
subdir := nptl
include ../Makeconfig
headers := \
bits/atomic_wide_counter.h \
bits/semaphore.h \
bits/struct_mutex.h \
bits/struct_rwlock.h \
pthread.h \
semaphore.h \
# headers
extra-libs := libpthread
extra-libs-others := $(extra-libs)
routines = \
alloca_cutoff \
cancellation \
cleanup \
cleanup_compat \
cleanup_defer \
cleanup_defer_compat \
cleanup_routine \
elision-conf \
elision-lock \
elision-timed \
elision-trylock \
elision-unlock \
events \
futex-internal \
libc-cleanup \
lowlevellock \
nptl-stack \
nptl_deallocate_tsd \
nptl_free_tcb \
nptl_nthreads \
nptl_setxid \
nptlfreeres \
old_pthread_cond_broadcast \
old_pthread_cond_destroy \
old_pthread_cond_init \
old_pthread_cond_signal \
old_pthread_cond_timedwait \
old_pthread_cond_wait \
pthread_atfork \
pthread_attr_copy \
pthread_attr_destroy \
pthread_attr_extension \
pthread_attr_getaffinity \
pthread_attr_getdetachstate \
pthread_attr_getguardsize \
pthread_attr_getinheritsched \
pthread_attr_getschedparam \
pthread_attr_getschedpolicy \
pthread_attr_getscope \
pthread_attr_getsigmask \
pthread_attr_getstack \
pthread_attr_getstackaddr \
pthread_attr_getstacksize \
pthread_attr_init \
pthread_attr_setaffinity \
pthread_attr_setdetachstate \
pthread_attr_setguardsize \
pthread_attr_setinheritsched \
pthread_attr_setschedparam \
pthread_attr_setschedpolicy \
pthread_attr_setscope \
pthread_attr_setsigmask \
pthread_attr_setsigmask_internal \
pthread_attr_setstack \
pthread_attr_setstackaddr \
pthread_attr_setstacksize \
pthread_barrier_destroy \
pthread_barrier_init \
pthread_barrier_wait \
pthread_barrierattr_destroy \
pthread_barrierattr_getpshared \
pthread_barrierattr_init \
pthread_barrierattr_setpshared \
pthread_cancel \
pthread_cleanup_upto \
pthread_clockjoin \
pthread_cond_broadcast \
pthread_cond_destroy \
pthread_cond_init \
pthread_cond_signal \
pthread_cond_wait \
pthread_condattr_destroy \
pthread_condattr_getclock \
pthread_condattr_getpshared \
pthread_condattr_init \
pthread_condattr_setclock \
pthread_condattr_setpshared \
pthread_create \
pthread_detach \
pthread_equal \
pthread_exit \
pthread_getaffinity \
pthread_getattr_default_np \
pthread_getattr_np \
pthread_getconcurrency \
pthread_getcpuclockid \
pthread_getname \
pthread_getschedparam \
pthread_getspecific \
pthread_join \
pthread_join_common \
pthread_key_create \
pthread_key_delete \
pthread_keys \
pthread_kill \
pthread_kill_other_threads \
pthread_mutex_cond_lock \
pthread_mutex_conf \
pthread_mutex_consistent \
pthread_mutex_destroy \
pthread_mutex_getprioceiling \
pthread_mutex_init \
pthread_mutex_lock \
pthread_mutex_setprioceiling \
pthread_mutex_timedlock \
pthread_mutex_trylock \
pthread_mutex_unlock \
pthread_mutexattr_destroy \
pthread_mutexattr_getprioceiling \
pthread_mutexattr_getprotocol \
pthread_mutexattr_getpshared \
pthread_mutexattr_getrobust \
pthread_mutexattr_gettype \
pthread_mutexattr_init \
pthread_mutexattr_setprioceiling \
pthread_mutexattr_setprotocol \
pthread_mutexattr_setpshared \
pthread_mutexattr_setrobust \
pthread_mutexattr_settype \
pthread_once \
pthread_rwlock_clockrdlock \
pthread_rwlock_clockwrlock \
pthread_rwlock_destroy \
pthread_rwlock_init \
pthread_rwlock_rdlock \
pthread_rwlock_timedrdlock \
pthread_rwlock_timedwrlock \
pthread_rwlock_tryrdlock \
pthread_rwlock_trywrlock \
pthread_rwlock_unlock \
pthread_rwlock_wrlock \
pthread_rwlockattr_destroy \
pthread_rwlockattr_getkind_np \
pthread_rwlockattr_getpshared \
pthread_rwlockattr_init \
pthread_rwlockattr_setkind_np \
pthread_rwlockattr_setpshared \
pthread_self \
pthread_setaffinity \
pthread_setattr_default_np \
pthread_setcancelstate \
pthread_setcanceltype \
pthread_setconcurrency \
pthread_setname \
pthread_setschedparam \
pthread_setschedprio \
pthread_setspecific \
pthread_sigmask \
pthread_sigqueue \
pthread_spin_destroy \
pthread_spin_init \
pthread_spin_lock \
pthread_spin_trylock \
pthread_spin_unlock \
pthread_testcancel \
pthread_timedjoin \
pthread_tryjoin \
pthread_yield \
sem_clockwait \
sem_close \
sem_destroy \
sem_getvalue \
sem_init \
sem_open \
sem_post \
sem_routines \
sem_timedwait \
sem_unlink \
sem_wait \
syscall_cancel \
tpp \
unwind \
vars \
# routines
static-only-routines = pthread_atfork
libpthread-routines = libpthread-compat
libpthread-shared-only-routines = libpthread-compat
# Pretend that libpthread.so is a linker script, so that the symbolic
# link is not installed.
install-lib-ldscripts = libpthread.so
$(inst_libdir)/libpthread.so:
# Since cancellation handling is in large parts handled using exceptions
# we have to compile some files with exception handling enabled, some
# even with asynchronous unwind tables.
# nptl-init.c contains sigcancel_handler().
CFLAGS-nptl-init.c += -fexceptions -fasynchronous-unwind-tables
# The unwind code itself,
CFLAGS-unwind.c += -fexceptions
CFLAGS-unwind-forcedunwind.c += -fexceptions -fasynchronous-unwind-tables
# The following three functions must be async-cancel safe.
CFLAGS-pthread_cancel.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-pthread_setcancelstate.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-pthread_setcanceltype.c += -fexceptions -fasynchronous-unwind-tables
# These are internal functions which similar functionality as setcancelstate
# and setcanceltype.
CFLAGS-cancellation.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-syscall_cancel.c += -fexceptions -fasynchronous-unwind-tables
# Calling pthread_exit() must cause the registered cancel handlers to
# be executed. Therefore exceptions have to be thrown through this
# function.
CFLAGS-pthread_exit.c += -fexceptions
# Among others, __pthread_unwind is forwarded. This function must handle
# exceptions.
CFLAGS-forward.c += -fexceptions
# The following are cancellation points. Some of the functions can
# block and therefore temporarily enable asynchronous cancellation.
# Those must be compiled asynchronous unwind tables.
CFLAGS-pthread_testcancel.c += -fexceptions
CFLAGS-pthread_join.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-pthread_timedjoin.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-pthread_clockjoin.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-pthread_once.c += $(uses-callbacks) -fexceptions \
-fasynchronous-unwind-tables
CFLAGS-pthread_cond_wait.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-pthread_kill.c = -fexceptions -fasynchronous-unwind-tables
CFLAGS-sem_wait.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-sem_timedwait.c += -fexceptions -fasynchronous-unwind-tables
CFLAGS-sem_clockwait.c = -fexceptions -fasynchronous-unwind-tables
CFLAGS-futex-internal.c += -fexceptions -fasynchronous-unwind-tables
LDLIBS-tst-once5 = -lstdc++
CFLAGS-tst-thread_local1.o = -std=gnu++11
LDLIBS-tst-thread_local1 = -lstdc++
CFLAGS-tst-thread-exit-clobber.o = -std=gnu++11
LDLIBS-tst-thread-exit-clobber = -lstdc++
CFLAGS-tst-minstack-throw.o = -std=gnu++11
LDLIBS-tst-minstack-throw = -lstdc++
tests = \
tst-attr2 \
tst-attr3 \
tst-cancel4_1 \
tst-cancel4_2 \
tst-cancel7 \
tst-cancel17 \
tst-cancel24 \
tst-cancel31 \
tst-cond26 \
tst-context1 \
tst-default-attr \
tst-dlsym1 \
tst-exec4 \
tst-exec5 \
tst-initializers1 \
tst-initializers1-c11 \
tst-initializers1-c89 \
tst-initializers1-c99 \
tst-initializers1-gnu11 \
tst-initializers1-gnu89 \
tst-initializers1-gnu99 \
tst-minstack-cancel \
tst-minstack-exit \
tst-minstack-throw \
tst-mutex5a \
tst-mutex7a \
tst-mutexpi1 \
tst-mutexpi2 \
tst-mutexpi3 \
tst-mutexpi4 \
tst-mutexpi5 \
tst-mutexpi6 \
tst-mutexpi7 \
tst-mutexpi9 \
tst-mutexpi10 \
tst-mutexpi11 \
tst-mutexpi12 \
tst-once5 \
tst-pthread-attr-affinity \
tst-pthread-attr-affinity-fail \
tst-pthread-attr-sigmask \
tst-pthread-defaultattr-free \
tst-pthread-gdb-attach \
tst-pthread-gdb-attach-static \
tst-pthread-key1-static \
tst-pthread-timedlock-lockloop \
tst-pthread_exit-nothreads \
tst-pthread_exit-nothreads-static \
tst-robust-fork \
tst-robustpi1 \
tst-robustpi2 \
tst-robustpi3 \
tst-robustpi4 \
tst-robustpi5 \
tst-robustpi6 \
tst-robustpi7 \
tst-robustpi9 \
tst-rwlock-pwn \
tst-rwlock2 \
tst-rwlock3 \
tst-rwlock6 \
tst-rwlock7 \
tst-rwlock8 \
tst-rwlock9 \
tst-rwlock10 \
tst-rwlock11 \
tst-rwlock15 \
tst-rwlock17 \
tst-rwlock18 \
tst-rwlock21 \
tst-rwlock22 \
tst-sched1 \
tst-sem17 \
tst-signal3 \
tst-stack2 \
tst-stack3 \
tst-stack4 \
tst-thread-affinity-pthread \
tst-thread-affinity-pthread2 \
tst-thread-affinity-sched \
tst-thread-exit-clobber \
tst-thread-setspecific \
tst-thread_local1 \
tst-tsd3 \
tst-tsd4 \
# tests
tests-nolibpthread = \
tst-pthread_exit-nothreads \
tst-pthread_exit-nothreads-static \
# tests-nolibpthread
tests-container = tst-pthread-getattr
tests-internal := \
tst-barrier5 \
tst-cond22 \
tst-mutex8 \
tst-mutex8-static \
tst-mutexpi8 \
tst-mutexpi8-static \
tst-robustpi8 \
tst-rwlock19 \
tst-rwlock20 \
tst-sem11 \
tst-sem12 \
tst-sem13 \
tst-setgetname \
tst-signal7 \
# tests-internal
xtests = \
tst-mutexpp1 \
tst-mutexpp5 \
tst-mutexpp6 \
tst-mutexpp9 \
tst-mutexpp10 \
tst-setgroups \
tst-setuid1 \
tst-setuid1-static \
tst-setuid2 \
# xtests
tests-time64 := \
tst-cancel4_2-time64
# tests-time64
# This test can run into task limits because of a linux kernel bug
# and then cause the make process to fail too, see bug 24537.
xtests += tst-eintr1
test-srcs = tst-oddstacklimit
gen-as-const-headers = \
descr-const.sym \
unwindbuf.sym \
# gen-as-const-headers
gen-py-const-headers := nptl_lock_constants.pysym
pretty-printers := nptl-printers.py
tests-printers := \
test-cond-printers \
test-condattr-printers \
test-mutex-printers \
test-mutexattr-printers \
test-rwlock-printers \
test-rwlockattr-printers \
# tests-printers
# We must specify both CFLAGS and CPPFLAGS to override any
# compiler options the user might have provided that conflict
# with what we need e.g. user specifies CPPFLAGS with -O2 and
# we need -O0.
CFLAGS-test-mutexattr-printers.c := $(CFLAGS-printers-tests)
CFLAGS-test-mutex-printers.c := $(CFLAGS-printers-tests)
CFLAGS-test-condattr-printers.c := $(CFLAGS-printers-tests)
CFLAGS-test-cond-printers.c := $(CFLAGS-printers-tests)
CFLAGS-test-rwlockattr-printers.c := $(CFLAGS-printers-tests)
CFLAGS-test-rwlock-printers.c := $(CFLAGS-printers-tests)
CPPFLAGS-test-mutexattr-printers.c := $(CFLAGS-printers-tests)
CPPFLAGS-test-mutex-printers.c := $(CFLAGS-printers-tests)
CPPFLAGS-test-condattr-printers.c := $(CFLAGS-printers-tests)
CPPFLAGS-test-cond-printers.c := $(CFLAGS-printers-tests)
CPPFLAGS-test-rwlockattr-printers.c := $(CFLAGS-printers-tests)
CPPFLAGS-test-rwlock-printers.c := $(CFLAGS-printers-tests)
# Reuse the CFLAGS setting for the GDB attaching test. It needs
# debugging information.
CFLAGS-tst-pthread-gdb-attach.c := $(CFLAGS-printers-tests)
CPPFLAGS-tst-pthread-gdb-attach.c := $(CFLAGS-printers-tests)
ifeq ($(build-shared)$(build-hardcoded-path-in-tests),yesno)
CPPFLAGS-tst-pthread-gdb-attach.c += -DDO_ADD_SYMBOL_FILE=1
else
CPPFLAGS-tst-pthread-gdb-attach.c += -DDO_ADD_SYMBOL_FILE=0
endif
CFLAGS-tst-pthread-gdb-attach-static.c := $(CFLAGS-printers-tests)
CPPFLAGS-tst-pthread-gdb-attach-static.c := \
$(CFLAGS-printers-tests) -DDO_ADD_SYMBOL_FILE=0
# As of version 9.2, GDB cannot attach properly to PIE programs that
# were launched with an explicit ld.so invocation.
tst-pthread-gdb-attach-no-pie = yes
tests += \
tst-cancelx7 \
tst-cancelx17 \
# tests
ifeq ($(build-shared),yes)
tests += \
tst-audit-threads \
tst-compat-forwarder \
# tests
tests-internal += \
tst-stackguard1 \
tst-tls3 \
tst-tls3-malloc \
tst-tls5 \
# tests-internal
ifeq ($(have-z-execstack),yes)
tests += tst-execstack-threads
endif
endif
modules-names = \
tst-audit-threads-mod1 \
tst-audit-threads-mod2 \
tst-compat-forwarder-mod \
tst-execstack-threads-mod \
tst-stack4mod \
tst-tls3mod \
tst-tls5mod \
tst-tls5moda \
tst-tls5modb \
tst-tls5modc \
tst-tls5modd \
tst-tls5mode \
tst-tls5modf \
# modules-names
extra-test-objs += \
$(addsuffix .os,$(strip $(modules-names))) \
tst-cleanup4aux.o \
tst-cleanupx4aux.o \
# extra-test-objs
test-extras += \
tst-cleanup4aux \
tst-cleanupx4aux \
# test-extras
# This test exercises compat symbols removed in glibc 2.34.
ifdef have-GLIBC_2.33
tests += tst-cleanup4
ifeq ($(build-shared),yes)
tests += tst-cleanupx4
endif
endif
tst-tls3mod.so-no-z-defs = yes
tst-tls5mod.so-no-z-defs = yes
tst-tls5moda.so-no-z-defs = yes
tst-tls5modb.so-no-z-defs = yes
tst-tls5modc.so-no-z-defs = yes
tst-tls5modd.so-no-z-defs = yes
tst-tls5mode.so-no-z-defs = yes
tst-tls5modf.so-no-z-defs = yes
ifeq ($(build-shared),yes)
# Set the `multidir' variable by grabbing the variable from the compiler.
# We do it once and save the result in a generated makefile.
-include $(objpfx)multidir.mk
$(objpfx)multidir.mk: $(common-objpfx)config.make
$(make-target-directory)
dir=`$(CC) $(CFLAGS) $(CPPFLAGS) -print-multi-directory`; \
echo "multidir := $$dir" > $@T
mv -f $@T $@
endif
CFLAGS-ftrylockfile.c += $(libio-mtsafe)
CFLAGS-funlockfile.c += $(libio-mtsafe)
link-libc-static := $(common-objpfx)libc.a $(static-gnulib) \
$(common-objpfx)libc.a
tests-static += \
tst-cancel24-static \
tst-mutex8-static \
tst-mutexpi8-static \
tst-pthread-gdb-attach-static \
tst-pthread-key1-static \
tst-pthread_exit-nothreads-static \
tst-sem11-static \
tst-sem12-static tst-cond11-static \
tst-stackguard1-static \
# tests-static
tests += tst-cancel24-static
ifeq ($(static-cxx-tests),no)
tests-unsupported += tst-cancel24-static
endif
tests-internal += \
tst-sem11-static \
tst-sem12-static \
tst-stackguard1-static \
# tests-internal
xtests-static += tst-setuid1-static
ifeq ($(run-built-tests),yes)
tests-special += \
$(objpfx)tst-oddstacklimit.out \
# tests-special
ifeq ($(build-shared),yes)
tests-special += $(objpfx)tst-tls6.out
ifneq ($(PERL),no)
tests-special += $(objpfx)tst-stack3-mem.out
endif
endif
endif
ifeq (,$(CXX))
# These tests require a C++ compiler and runtime.
tests-unsupported += \
tst-cancel24 \
tst-cancel24-static \
tst-minstack-throw \
tst-once5 \
tst-thread-exit-clobber \
# tests-unsupported
endif
# These tests require a C++ compiler and runtime with thread_local support.
ifneq ($(have-cxx-thread_local),yes)
tests-unsupported += tst-thread_local1
endif
include ../Rules
ifeq (yes,$(build-shared))
# Make sure these things are built in the `make lib' pass so they can be used
# to run programs during the `make others' pass.
lib-noranlib: $(addprefix $(objpfx),$(extra-objs))
endif
# 'pthread_self' is a simple memory or register load. Setting up the
# stack frame is more work than the actual operation. Disable the
# frame creation entirely. This will help applications which call the
# function frequently to get a thread-specific handle.
CFLAGS-pthread_self.os += -fomit-frame-pointer
# Run the cancellation and cleanup tests also for the modern, exception-based
# implementation. For this we have to pass the -fexceptions parameter.
CFLAGS-tst-cancelx7.c += -fexceptions
CFLAGS-tst-cancelx17.c += -fexceptions
CFLAGS-tst-cleanupx4.c += -fexceptions
CFLAGS-tst-cleanupx4aux.c += -fexceptions
CFLAGS-tst-initializers1.c += -W -Wall -Werror
CFLAGS-tst-initializers1-< = $(CFLAGS-tst-initializers1.c) \
$(patsubst tst-initializers1-%.c,-std=%,$<)
CFLAGS-tst-initializers1-c89.c += $(CFLAGS-tst-initializers1-<)
CFLAGS-tst-initializers1-c99.c += $(CFLAGS-tst-initializers1-<)
CFLAGS-tst-initializers1-c11.c += $(CFLAGS-tst-initializers1-<)
CFLAGS-tst-initializers1-gnu89.c += $(CFLAGS-tst-initializers1-<)
CFLAGS-tst-initializers1-gnu99.c += $(CFLAGS-tst-initializers1-<)
CFLAGS-tst-initializers1-gnu11.c += $(CFLAGS-tst-initializers1-<)
tst-cancel7-ARGS = --command "exec $(host-test-program-cmd)"
tst-cancelx7-ARGS = $(tst-cancel7-ARGS)
tst-stack3-ENV = MALLOC_TRACE=$(objpfx)tst-stack3.mtrace \
LD_PRELOAD=$(common-objpfx)/malloc/libc_malloc_debug.so
$(objpfx)tst-stack3-mem.out: $(objpfx)tst-stack3.out
$(common-objpfx)malloc/mtrace $(objpfx)tst-stack3.mtrace > $@; \
$(evaluate-test)
ifeq ($(run-built-tests),yes)
ifeq (yes,$(build-shared))
ifneq ($(PERL),no)
generated += \
tst-stack3-mem.out \
tst-stack3.mtrace \
# generated
endif
endif
endif
tst-stack4mod.sos=$(shell for i in 0 1 2 3 4 5 6 7 8 9 10 \
11 12 13 14 15 16 17 18 19; do \
for j in 0 1 2 3 4 5 6 7 8 9 10 \
11 12 13 14 15 16 17 18 19; do \
echo $(objpfx)tst-stack4mod-$$i-$$j.so; \
done; done)
$(objpfx)tst-stack4.out: $(tst-stack4mod.sos)
$(tst-stack4mod.sos): $(objpfx)tst-stack4mod.so
cp -f $< $@
clean:
rm -f $(tst-stack4mod.sos)
$(objpfx)tst-cleanup4: $(objpfx)tst-cleanup4aux.o
$(objpfx)tst-cleanupx4: $(objpfx)tst-cleanupx4aux.o
LDFLAGS-tst-tls3 = -rdynamic
LDFLAGS-tst-tls3mod.so = -Wl,-z,lazy
$(objpfx)tst-tls3.out: $(objpfx)tst-tls3mod.so
LDFLAGS-tst-tls3-malloc = -rdynamic
$(objpfx)tst-tls3-malloc.out: $(objpfx)tst-tls3mod.so
$(objpfx)tst-tls5: $(objpfx)tst-tls5mod.so
LDFLAGS-tst-tls5 = -Wl,--no-as-needed
LDFLAGS-tst-tls5mod.so = -Wl,-soname,tst-tls5mod.so
ifeq ($(build-shared),yes)
$(objpfx)tst-tls6.out: tst-tls6.sh $(objpfx)tst-tls5 \
$(objpfx)tst-tls5moda.so $(objpfx)tst-tls5modb.so \
$(objpfx)tst-tls5modc.so $(objpfx)tst-tls5modd.so \
$(objpfx)tst-tls5mode.so $(objpfx)tst-tls5modf.so
$(BASH) $< $(common-objpfx) '$(test-via-rtld-prefix)' \
'$(test-wrapper-env)' '$(run-program-env)'; \
$(evaluate-test)
endif
LDLIBS-tst-cancel24 = -Wl,--no-as-needed -lstdc++
LDLIBS-tst-cancel24-static = $(LDLIBS-tst-cancel24)
ifeq ($(build-shared),yes)
generated += \
multidir.mk \
tst-tls6.out \
# generated
endif
tst-exec4-ARGS = $(host-test-program-cmd)
$(objpfx)tst-execstack-threads.out: $(objpfx)tst-execstack-threads-mod.so
LDFLAGS-tst-execstack-threads = -Wl,-z,noexecstack
LDFLAGS-tst-execstack-threads-mod.so = -Wl,-z,execstack
CFLAGS-tst-execstack-threads-mod.c += -Wno-trampolines
tst-stackguard1-ARGS = --command "$(host-test-program-cmd) --child"
tst-stackguard1-static-ARGS = --command "$(objpfx)tst-stackguard1-static --child"
ifeq ($(run-built-tests),yes)
$(objpfx)tst-oddstacklimit.out: $(objpfx)tst-oddstacklimit $(objpfx)tst-basic1
$(test-program-prefix) $< --command '$(host-test-program-cmd)' > $@; \
$(evaluate-test)
endif
$(objpfx)tst-compat-forwarder: $(objpfx)tst-compat-forwarder-mod.so
tst-mutex10-ENV = GLIBC_TUNABLES=glibc.elision.enable=1
# Protect against a build using -Wl,-z,now.
LDFLAGS-tst-audit-threads-mod1.so = -Wl,-z,lazy
LDFLAGS-tst-audit-threads-mod2.so = -Wl,-z,lazy
LDFLAGS-tst-audit-threads = -Wl,-z,lazy
$(objpfx)tst-audit-threads: $(objpfx)tst-audit-threads-mod2.so
$(objpfx)tst-audit-threads.out: $(objpfx)tst-audit-threads-mod1.so
tst-audit-threads-ENV = LD_AUDIT=$(objpfx)tst-audit-threads-mod1.so
# The test uses dlopen indirectly and would otherwise load system
# objects.
tst-setuid1-static-ENV = \
LD_LIBRARY_PATH=$(ld-library-path):$(common-objpfx)elf:$(common-objpfx)nss
tst-pthread-proc-maps-ENV = \
GLIBC_TUNABLES=glibc.malloc.arena_max=8:glibc.malloc.mmap_threshold=1024
tst-pthread-proc-maps-ARGS = 8
# The tests here better do not run in parallel.
ifeq ($(run-built-tests),yes)
ifneq ($(filter %tests,$(MAKECMDGOALS)),)
.NOTPARALLEL:
endif
endif
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