The locale_t type is provided by <xlocale.h> on Linux, FreeBSD, and Darwin.
While, like on some of those systems, it is automatically included by
<locale.h> with the proper feature test macros, its presence under this
particular name is still presumed in real-world software.
Signed-off-by: Yaakov Selkowitz <yselkowi@redhat.com>
Problem:
After passing locales created by 'duplocale' to 'uselocale',
referencing 'MB_CUR_MAX', which is actually expanded to
'__locale_mb_cur_max()' by preprocessors, causes segmentation faults.
Direct use of locales from 'newlocale' does not cause the problem.
This is the problem of 'duplocale'.
$ echo $LANG
ja_JP.UTF-8
$ cat test.c
#include <stdlib.h>
#include <locale.h>
volatile int var;
int main(void) {
locale_t const loc = newlocale(LC_ALL_MASK, "", NULL);
locale_t const dup = duplocale(loc);
locale_t const old = uselocale(dup);
var = MB_CUR_MAX; /* <-- crashes here */
uselocale(old);
freelocale(dup);
freelocale(loc);
return 0;
}
$ gcc test.c
$ ./a
Segmentation fault (core dumped)
# Note: "core dumped" in the above message was actually written in
# Japanese, but I translated the part to post a mail in English.
Bug:
In the beginning of '__loadlocale' (newlib/libc/locale/locale.c:501),
there is a code which checks if the operations can be skipped:
> /* Avoid doing everything twice if nothing has changed. */
> if (!strcmp (new_locale, loc->categories[category]))
> return loc->categories[category];
While, in the function '_duplocale_r' (newlib/libc/locale/
duplocale.c), '__loadlocale' is called as in the quoted codes:
> /* If the object is not a "C" locale category, copy it. Just call
> __loadlocale. It knows what to do to replicate the category. */
> tmp_locale.lc_cat[i].ptr = NULL;
> tmp_locale.lc_cat[i].buf = NULL;
> if (!__loadlocale (&tmp_locale, i, tmp_locale.categories[i]))
> goto error;
This call of '__loadlocale' results in the skip check being
!strcmp(tmp_locale.categories[i], tmp_locale.categories[i]),
which is always true. This means that the actual operations of
'__loadLocale' will never be performed for 'duplocale'.
Fix:
The call of '__loadlocale' in '_duplocale_r' is modified.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
Teach makedocbook how to handle some new things seen in the makedoc markup
since bd547490:
- struct lines appearing in the synopsis
- use of @strong{} texinfo markup
At the moment when targeting bare-metal targets or systems without
definition for the locking primitives newlib, uses dummy empty macros.
This has the advantage of reduced size and faster implementation but
does not allow the application to retarget the locking routines.
Retargeting is useful for a single toolchain to support multiple systems
since then it's only at link time that you know which system you are
targeting.
This patch adds a new configure option
--enable-newlib-retargetable-locking to use dummy empty functions
instead of dummy empty macros. The default is to keep the current
behavior to not have any size or speed impact on targets not interested
in this feature. To allow for any size of lock, the _LOCK_T type is
changed into pointer to struct _lock and the _init function are tasked
with allocating the locks. The platform being targeted must provide the
static locks. A dummy implementation of the locking routines and static
lock is provided for single-threaded applications to link successfully
out of the box.
To ensure that the behavior is consistent (either no locking whatsoever
or working locking), the dummy implementation is strongly defined such
that a partial retargeting will cause a doubly defined link error.
Indeed, the linker will only pull in the file providing the dummy
implementation if it cannot find an implementation for one of the
routine or lock.
Newlib build system defines __SINGLE_THREAD__ to allow concurrency code
to be only compiled when newlib is configured for multithread. One such
example are locks which become useless in single thread mode. Although
most static locks are indeed guarded by !defined(__SINGLE_THREAD__),
some are not.
This commit adds these missing guards to __dd_hash_mutex,
__atexit_recursive_mutex, __at_quick_exit_mutex and __arc4random_mutex.
It also makes sure locking macros in lock.h are noop in single thread
mode.
In preparation for the patch that would allow retargeting of locking
routines, rename all lock objects to follow this pattern:
"__<name>_[recursive_]mutex".
Following locks were renamed:
__dd_hash_lock -> __dd_hash_mutex
__sfp_lock -> __sfp_recursive_mutex
__sinit_lock -> __sinit_recursive_mutex
__atexit_lock -> __atexit_recursive_mutex
_arc4random_mutex -> __arc4random_mutex
__env_lock_object -> __env_recursive_mutex
__malloc_lock_object -> __malloc_recursive_mutex
__atexit_mutex -> __at_quick_exit_mutex
__tz_lock_object -> __tz_mutex
In patch b219285f87 you have a syntax
error in the PLD instruction. The syntax for the pld argument should be
in square brackets as it's a memory address like so: pld [r1]. With
your patch the newlib build fails for armv7-a targets. This patch fixes
the build failures.
Tested by making sure the newlib build completes successfully.
2016-01-26 Kyrylo Tkachov <kyrylo.tkachov@arm.com>
* libc/machine/arm/strcpy.c (strcpy): Fix PLD assembly syntax.
* libc/machine/arm/strlen-stub.c (strlen): Likewise.
LTO can re-order top-level assembly blocks, which can cause this
macro definition to appear after its use (or not at all), causing
compilation failures. On modern toolchains (armv4t+), assembly
should write `bx lr` in all cases, and linkers will transparently
convert them to `mov pc, lr`, allowing us to simply remove the
macro.
(source: https://groups.google.com/forum/#!topic/comp.sys.arm/3l7fVGX-Wug
and verified empirically)
For the armv4.S file, preserve this macro to maximize backwards
compatibility.
LTO can re-order top-level assembly blocks, which can cause this
macro definition to appear after its use (or not at all), causing
compilation failures. As the macro has very few uses, simply removing
it by inlining is a simple fix.
n.b. one of the macro invocations in strlen-stub.c was already
guarded by the relevant #define, so it is simply converted directly
to a pld
Remove stray commas. Include <sys/cdefs.h> for __restrict (includes
<stddef.h> indirectly).
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
Hi,
With the patch to allow newlib's locking routine to be retargeted currently
under discussion, we need to start thinking of locks as part of newlib's ABI
since newlib depends on specific names being provided by the OS. This patch
renames 2 locks so that they follow the same naming convention as other locks.
It needs to be applied before the retargeting patch, while locks are still an
internal consideration.
Newlib builds successfully with this change.
Ok for master branch?
Best regards,
Thomas
Provide an extension NL_LOCALE_NAME() macro, with semantics
matching glibc, which can be used as:
nl_langinfo_l(NL_LOCALE_NAME(LC_MESSAGES), locale);
to get back the locale string that locale was originally
created with during newlocale(). This in turn allows a library
(such as gettext) to determine what thread-local locale settings
it has inherited from the main program without having to be told
what parameters were passed to newlocale(), for less overall
coupling between parts of the program.
gnulib is set up to use the extension:
https://lists.gnu.org/archive/html/bug-gnulib/2017-01/msg00129.html
* libc/include/langinfo.h (NL_LOCALE_NAME): New macro
* libc/locale/nl_langinfo.c (nl_langinfo_l): Expose locale names
of a locale_t's category components.
Signed-off-by: Eric Blake <eblake@redhat.com>
A few files were missing headers for memset/malloc, likely missed
because the files don't directly call the functions, rather they
come in via macros in libc/include/sys/reent.h:
#define _REENT_CHECK(var, what, type, size, init) do { \
struct _reent *_r = (var); \
if (_r->what == NULL) { \
_r->what = (type)malloc(size); \
#define _REENT_CHECK_ASCTIME_BUF(var) \
_REENT_CHECK(var, _asctime_buf, char *, _REENT_ASCTIME_SIZE, \
memset((var)->_asctime_buf, 0, _REENT_ASCTIME_SIZE))
Without these fixes, implicit function signatures are provided,
which gcc warns could cause aliasing issues down the line:
../../../../../../../newlib-2.5.0/newlib/libc/time/asctime.c:62:3: warning: type of 'memset' does not match original declaration [-Wlto-type-mismatch]
/Volumes/code/external/newlib-cygwin/newlib/libc/include/string.h:29:7: note: return value type mismatch
_PTR _EXFUN(memset,(_PTR, int, size_t));
^
/Volumes/code/external/newlib-cygwin/newlib/libc/include/string.h:29:7: note: 'memset' was previously declared here
/Volumes/code/external/newlib-cygwin/newlib/libc/include/string.h:29:7: note: code may be misoptimized unless -fno-strict-aliasing is used
../../../../../../../newlib-2.5.0/newlib/libc/time/asctime.c:62:3: warning: type of 'malloc' does not match original declaration [-Wlto-type-mismatch]
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: return value type mismatch
extern _PTR malloc _PARAMS ((size_t));
^
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: 'malloc' was previously declared here
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: code may be misoptimized unless -fno-strict-aliasing is used
../../../../../../../newlib-2.5.0/newlib/libc/time/lcltime.c:58:3: warning: type of 'malloc' does not match original declaration [-Wlto-type-mismatch]
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: return value type mismatch
extern _PTR malloc _PARAMS ((size_t));
^
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: 'malloc' was previously declared here
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: code may be misoptimized unless -fno-strict-aliasing is used
../../../../../../../newlib-2.5.0/newlib/libc/string/strsignal.c:70:3: warning: type of 'malloc' does not match original declaration [-Wlto-type-mismatch]
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: return value type mismatch
extern _PTR malloc _PARAMS ((size_t));
^
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: 'malloc' was previously declared here
/Volumes/code/external/newlib-cygwin/newlib/libc/include/malloc.h:37:13: note: code may be misoptimized unless -fno-strict-aliasing is used
Including the proper headers elminates the implicit function
signatures and these warnings.
This patch adds further comments to nano-mallocr.c, to more comprehensively
explain how padding works in the malloc_chunk structure.
It was originally discussed in the following thread:
https://sourceware.org/ml/newlib/2017/msg00031.html
2017-01-13 Joe Seymour <joe.s@somniumtech.com>
newlib/
* libc/stdlib/nano-mallocr.c (malloc_chunk, get_chunk_from_ptr)
(nano_malloc): Add comments.
- use of DEBUG flag is non-standard and interferes with other
project's using same flag
- change to be _REENT_CHECK_DEBUG which means the flag is
allowing debugging of _REENT_CHECK macros
- use #ifdef instead of #if
The pthread_setname_np() and pthread_getname_np() are GNU extensions and
provided by glibc.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
As described in nano-mallocr.c, chunks of heap are represented in memory
as a size (of type long), followed by some optional padding containing a
negative offset to size, followed by the data area.
get_chunk_from_ptr is responsible for taking a pointer to the data area
(as returned by malloc) and finding the start of the chunk. It does this
by assuming there is no padding and trying to read the size, if the size
is negative then it uses that as an offset to find the true size.
Crucially, it reads the padding area as a long.
nano_malloc is responsible for populating the optional padding area. It
does so by casting a pointer to an (int *) and writing the negative
offset into it.
This means that padding is being written as an int but read as a long.
On msp430 an int is 2 bytes, while a long is 4 bytes. This means that 2
bytes are written to the padding, but 4 bytes are read from it: it has
only been partially initialised.
nano_malloc is the default malloc implementation for msp430.
This patch changes the cast from (int *) to (long *). The change to
nano_malloc has has been observed to fix a TI Energia project that
had been malfunctioning because malloc was returning invalid addresses.
The change to nano_memalign is based entirely on code inspection.
I've built and tested as follows:
Configured (gcc+newlib) with: --target=msp430-elf --enable-languages=c
gcc testsuite variations:
msp430-sim/-mcpu=msp430
msp430-sim/-mcpu=msp430x
msp430-sim/-mcpu=msp430x/-mlarge/-mdata-region=either/-mcode-region=either
msp430-sim/-mhwmult=none
msp430-sim/-mhwmult=f5series
My testing has shown no regressions, however I don't know if the gcc
testsuite provides sufficient coverage for this patch?
I don't have write access, so if this patch is acceptable after review,
I would appreciate it if someone would commit it for me.
Thanks,
2017-01-XX Joe Seymour <joe.s@somniumtech.com>
newlib/
* libc/stdlib/nano-mallocr.c (nano_malloc): Fix incorrect cast.
(nano_memalign): Likewise.
Add a user-defined name to the self-contained synchronization objects in
order to make system diagnostics, tracing and debugging more user
friendly.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
https://sourceware.org/ml/newlib/2016/msg01139.htmlhttps://gcc.gnu.org/ml/gcc/2016-12/msg00010.html
There is no change if libtool is used.
Some run-time support libraries provided by GCC (e.g. libgomp) use
configure checks to detect certain features, e.g. availability of
thread-local storage. The configure script generates a test program and
tries to compile and link it. It should use target libraries and
startfiles of the build tree if available and not random ones from the
installation prefix for this procedure. The search directories
specified by -B are a bit special, see for_each_path() in gcc.c of the
GCC sources. First a search is performed on all search paths with the
multilib directory appended (if desired), then a second search is
performed on demand with the base directory only. For each multilib
there is a "newlib" subdirectory. This directory is specified by a -B
option for the support libraries. In order to find the newlib artifacts
(ctr0.o, libc.a, libg.a and libm.a) they must be located in a proper
multilib subdirectory withing the build directory.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
RTEMS defined SEM_VALUE_MAX to 32767 unlike other systems like FreeBSD
and glibc. A common value is INT_MAX.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
* libc/stdlib/strtod.c (strtof_l): Set errno to ERANGE when double to
float conversion results in infinity.
(strtof): Likewise.
* libc/stdlib/wcstod.c (wcstof_l): Likewise.
(wcstof): Likewise.
__sinit initialises some common file descriptors as line buffered and
relies on the first users of such FDs to call __smakebuf_r. If
__smakebuf_r realises there's no space for a buffer (malloc returns
NULL), it makes them unbuffered. However, while setting the __SNBF
bit, it doesn't clear the __SLBF bit in the flags. Depending on the
order in which functions check buffering flags in the FD, sometime
they assume it's line buffered (e.g. __sfvwrite_r), trashing
application memory that's not really been allocated to them.
This patch solves the problem by clearing the unbuffered/line buffered
flag when setting the line buffered/unbuffered flag.
In the case of memcpy-armv7m.S being built for a big-endian multilib
(including armv7 without a specific profile), realignment code made
assumptions about the byte ordering being little-endian.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
Ensure the Python Lex/Yacc (PLY) cache used by makedocbook is initialized
before it is used by parallelizable rules to make the DocBook XML, as it
appears that these can collide in cache generation, leading to errors.
Signed-off-by: Jon Turney <jon.turney@dronecode.org.uk>
In order to enable proper detection of thread-local storage availability
we have to provide some symbols on ARM.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
Turn pthread_spinlock_t into a self-contained object. On uni-processor
configurations, interrupts are disabled in the lock/trylock operations
and the previous interrupt status is restored in the corresponding
unlock operations. On SMP configurations, a ticket lock is a acquired
and released in addition.
See also:
https://devel.rtems.org/ticket/2674
This implementation is simple and efficient. However, this test case of
the Linux Test Project would fail due to call of printf() and sleep()
during spin lock ownership:
https://github.com/linux-test-project/ltp/blob/master/testcases/open_posix_testsuite/conformance/interfaces/pthread_spin_lock/1-2.c
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
Provide <memory.h> for all standard Newlib targets and remove
Cygwin-specific header. Most POSIX like systems provide this historic
header.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
The non-standard pthread_yield() function is available at least on
Cygwin, FreeBSD and glibc.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
This makes it possible provide operating system specific types for
<pthread.h>. It is in line with the FreeBSD header file structure and
allows a future cleanup of <pthread.h> to not expose unrelated things
via <sys/types.h> and <unistd.h>. Glibc uses the similar
<bits/pthreadtypes.h> for this purpose.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
Add _TICKET_LOCK_INITIALIZER to statically initialize a
_Ticket_lock_Control structure. This makes it possible to embed a
ticket lock in other structures outside of <sys/lock.h>.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>
Non-default visibility attributes are unsupported on PE/COFF, so don't
use in __hidden definition for Cygwin. Add comment.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
The FreeBSD kernel types are not used in Newlib. Provide them via an
external header file to decouple Newlib and FreeBSD updates for RTEMS.
Signed-off-by: Sebastian Huber <sebastian.huber@embedded-brains.de>