Removed the SK_(written_shadow_regs_values)() function. Instead, skins that
use shadow regs can track the `post_regs_write_init' event, and set the shadow
regs from within it. This is much more flexible, since it allows each shadow
register to be set to a separate value if necessary. It also matches the new
shadow-reg-change events described below.
In the core, there were some places where the shadow regs were changed, and
skins had no way of knowing about it, which was a problem for some skins.
So I added a bunch of new events to notify skins about these:
post_reg_write_syscall_return
post_reg_write_deliver_signal
post_reg_write_pthread_return
post_reg_write_clientreq_return
post_reg_write_clientcall_return
Any skin that uses shadow regs should almost certainly track these events. The
post_reg_write_clientcall_return allows a skin to tailor the shadow reg of the
return value of a CLIENTCALL'd function appropriately; this is especially
useful when replacing malloc() et al.
Defined some macros that should be used *whenever the core changes the value of
a shadow register* :
SET_SYSCALL_RETVAL
SET_SIGNAL_EDX (maybe should be SET_SIGNAL_RETVAL? ... not sure)
SET_SIGNAL_ESP
SET_CLREQ_RETVAL
SET_CLCALL_RETVAL
SET_PTHREQ_ESP
SET_PTHREQ_RETVAL
These replace all the old SET_EAX and SET_EDX macros, and are added in a few
places where the shadow-reg update was missing.
Added shadow registers to the machine state saved/restored when signal handlers
are pushed/popped (they were missing).
Added skin-callable functions VG_(set_return_from_syscall_shadow)() and
VG_(get_exit_status_shadow)() which are useful and abstract away from which
registers the results are in.
Also, poll() changes %ebx (it's first argument) sometimes, I don't know why.
So we notify skins about that too (with the `post_reg_write_syscall_return'
event, which isn't ideal I guess...)
git-svn-id: svn://svn.valgrind.org/valgrind/trunk@1642
(prerelease) (SuSE Linux)") seems to complain about signed-vs-unsigned
comparisons, when -Wall is on. This commit fixes (most of) those
complaints.
git-svn-id: svn://svn.valgrind.org/valgrind/trunk@1638
because there was no point exposing them to clients, as they don't know the
ThreadState type.
Also, removed the LOGMESSAGE request type, replaced it with calls to
VG_(message) via the generic VALGRIND_NON_SIMD_CALL2.
In fact, almost every single pthread client request could be removed in this
same way. That would result in less code, which would be nice... yeah, real
nice.
git-svn-id: svn://svn.valgrind.org/valgrind/trunk@1584
NPTL support.
The behaviour of weak vs strong symbols seems to have changed in
glibc-2.3.2. This caused problems in coregrind/vg_intercept.c,
wherein strong symbols in vg_libpthread.c were intended to
override weak symbols in vg_intercept.c, in order to give alternative
thread-safe implementations of some functions, poll(), select(), etc.
The change involves moving the nonblocking implementations of poll, etc
into vg_intercept.c, renaming them to (eg) VGR_(poll), and routing
all calls to poll to VGR_(poll) [dually for other such fns]. This
means even single-threaded programs now use these functions, but
that doesn't strike me as harmful.
MERGE TO STABLE, if it doesn't break anything
git-svn-id: svn://svn.valgrind.org/valgrind/trunk@1559
overview
-----------------------------------------------------------------------------
Previously Valgrind had its own versions of malloc() et al that replaced
glibc's. This is necessary for various reasons for Memcheck, but isn't needed,
and was actually detrimental, to some other skins. I never managed to treat
this satisfactorily w.r.t the core/skin split.
Now I have. If a skin needs to know about malloc() et al, it must provide its
own replacements. But because this is not uncommon, the core provides a module
vg_replace_malloc.c which a skin can link with, which provides skeleton
definitions, to reduce the amount of work a skin must do. The skeletons handle
the transfer of control from the simd CPU to the real CPU, and also the
--alignment, --sloppy-malloc and --trace-malloc options. These skeleton
definitions subsequently call functions SK_(malloc), SK_(free), etc, which the
skin must define; in these functions the skin can do the things it needs to do
about tracking heap blocks.
For skins that track extra info about malloc'd blocks -- previously done with
ShadowChunks -- there is a new file vg_hashtable.c that implements a
generic-ish hash table (using dodgy C-style inheritance using struct overlays)
which allows skins to continue doing this fairly easily.
Skins can also replace other functions too, eg. Memcheck has its own versions
of strcpy(), memcpy(), etc.
Overall, it's slightly more work now for skins that need to replace malloc(),
but other skins don't have to use Valgrind's malloc(), so they're getting a
"purer" program run, which is good, and most of the remaining rough edges from
the core/skin split have been removed.
-----------------------------------------------------------------------------
details
-----------------------------------------------------------------------------
Moved malloc() et al intercepts from vg_clientfuncs.c into vg_replace_malloc.c.
Skins can link to it if they want to replace malloc() and friends; it does
some stuff then passes control to SK_(malloc)() et al which the skin must
define. They can call VG_(cli_malloc)() and VG_(cli_free)() to do the actual
allocation/deallocation. Redzone size for the client (the CLIENT arena) is
specified by the static variable VG_(vg_malloc_redzone_szB).
vg_replace_malloc.c thus represents a kind of "mantle" level service.
To get automake to build vg_replace_malloc.o, had to resort to a similar trick
as used for the demangler -- ask for a "no install" library (which is never
used) to be built from it.
Note that all malloc, calloc, realloc, builtin_new, builtin_vec_new, memalign
are now aware of --alignment, when running on simd CPU or real CPU.
This means the new_mem_heap, die_mem_heap, copy_mem_heap and ban_mem_heap
events no longer exist, since the core doesn't control malloc() any more, and
skins can watch for these events themselves.
This required moving all the ShadowChunk stuff out of the core, which meant
the sizeof_shadow_block ``need'' could be removed, yay -- it was a horrible
hack. Now ShadowChunks are done with a generic HashTable type, in
vg_hashtable.c, which skins can "inherit from" (in a dodgy C-only fashion by
using structs with similar layouts). Also, the free_list stuff was all moved
as a part of this. Also, VgAllocKind was moved out of core into
Memcheck/Addrcheck and renamed MAC_AllocKind.
Moved these options out of core into vg_replace_malloc.c:
--trace-malloc
--sloppy-malloc
--alignment
The alternative_free ``need'' could go, too, since Memcheck is now in complete
control of free(), yay -- another horribility.
The bad_free and free_mismatch events could go too, since they're now not
detected by core, yay -- yet another horribility.
Moved malloc() et al wrappers for Memcheck out of vg_clientmalloc.c into
mac_malloc_wrappers.c. Helgrind has its own wrappers now too.
Introduced VG_USERREQ__CLIENT_CALL[123] client requests. When a skin function
is operating on the simd CPU, this will call a given function and run it on the
real CPU. The macros VG_NON_SIMD_CALL[123] in valgrind.h present a cleaner
interface to actually use. Also introduce analogues of these that pass 'tst'
from the scheduler as the first arg to the called function -- needed for
MC_(client_malloc)() et al.
Fiddled with USERREQ_{MALLOC,FREE} etc. in vg_scheduler.c; they call
SK_({malloc,free})() which by default call VG_(cli_malloc)() -- can't call
glibc's malloc() here. All the other default SK_(calloc)() etc. instantly
panic; there's a lock variable to ensure that the default SK_({malloc,free})()
are only called from the scheduler, which prevents a skin from forgetting to
override SK_({malloc,free})(). Got rid of the unused USERREQ_CALLOC,
USERREQ_BUILTIN_NEW, etc.
Moved special versions of strcpy/strlen, etc, memcpy() and memchr() into
mac_replace_strmem.c -- they are only necessary for memcheck, because the
hyper-optimised normal glibc versions confuse it, and for memcpy() etc. overlap
checking.
Also added dst/src overlap checks to strcpy(), memcpy(), strcat(). They are
reported not as proper errors, but just with single line warnings, as for silly
args to malloc() et al; this is mainly because they're on the simulated CPU
and proper error handling would be a pain; hopefully they're rare enough to
not be a problem. The strcpy check is done after the copy, because it would
require counting the length of the string beforehand. Also added strncpy() and
strncat(), which have overlap checks too. Note that addrcheck doesn't do
overlap checking.
Put USERREQ__LOGMESSAGE in vg_skin.h to do the overlap check error messages.
After removing malloc() et al and strcpy() et al out of vg_clientfuncs.c, moved
the remaining three things (sigsuspend, VG_(__libc_freeres_wrapper),
__errno_location) into vg_intercept.c, since it contains things that run on the
simulated CPU too. Removed vg_clientfuncs.c altogether.
Moved regression test "malloc3" out of corecheck into memcheck, since corecheck
no longer looks for silly (eg. negative) args to malloc().
Removed the m_eip, m_esp, m_ebp fields from the `Error' type. They were being
set up, and then read immediately only once, only if GDB attachment was done.
So now they're just being held in local variables. This saves 12 bytes per
Error.
Made replacement calloc() check for --sloppy-malloc; previously it didn't.
Added "silly" negative size arg check to realloc(), it didn't have one.
Changed VG_(read_selfprocmaps)() so it can parse the file directly, or from a
previously read buffer. Buffer can be filled with the new
VG_(read_selfprocmaps_contents)(). Using this at start-up to snapshot
/proc/self/maps before the skins do anything, and then parsing it once they
have done their setup stuff. Skins can now safely call VG_(malloc)() in
SK_({pre,post}_clo_init)() without the mmap'd superblock erroneously being
identified as client memory.
Changed the --help usage message slightly, now divided into four sections: core
normal, skin normal, core debugging, skin debugging. Changed the interface for
the command_line_options need slightly -- now two functions, VG_(print_usage)()
and VG_(print_debug_usage)(), and they do the printing themselves, instead of
just returning a string -- that's more flexible.
Removed DEBUG_CLIENTMALLOC code, it wasn't being used and was a pain.
Added a regression test testing leak suppressions (nanoleak_supp), and another
testing strcpy/memcpy/etc overlap warnings (overlap).
Also changed Addrcheck to link with the files shared with Memcheck, rather than
#including the .c files directly.
Commoned up a little more shared Addrcheck/Memcheck code, for the usage
message, and initialisation/finalisation.
Added a Bool param to VG_(unique_error)() dictating whether it should allow
GDB to be attached; for leak checks, because we don't want to attach GDB on
leak errors (causes seg faults). A bit hacky, but it will do.
Had to change lots of the expected outputs from regression files now that
malloc() et al are in vg_replace_malloc.c rather than vg_clientfuncs.c.
git-svn-id: svn://svn.valgrind.org/valgrind/trunk@1524
The veneers for msgrcv in vg_intercept.c and vg_libpthread.c are not
returning the number of bytes read correctly - they always return zero
for any non-error case, which causes programs using msgrcv to behave
somewhat non-optimally when running under valgrind ;-)
Attached is a patch against 1.9.3 which fixes this.
Tom
--
Tom Hughes (thh@cyberscience.com)
git-svn-id: svn://svn.valgrind.org/valgrind/trunk@1424
16-function-intercept
Implement a more reliable for vg_libpthread to intercept libc
calls. Since the only reliable way of making sure that our code
defines the symbol is by making sure that valgrind.so itself does it,
this patch adds a new file, vg_intercept.so, which defines those
symbols. They are then passed off to a weak local function if
libpthread isn't present, or to the libpthread version if it is.
git-svn-id: svn://svn.valgrind.org/valgrind/trunk@1265
