Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / external / valgrind / c3c98392eb6c417013dc2d3956ce569022f1def7 / . / exp-drd / drd_clientreq.c
blob: caf540a3bf91edad1ba2d8f9fb64f40e5d9729dc [file] [log] [blame]
/*
This file is part of drd, a data race detector.
Copyright (C) 2006-2008 Bart Van Assche
bart.vanassche@gmail.com
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
This program 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
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307, USA.
The GNU General Public License is contained in the file COPYING.
*/
#include "drd_clientreq.h"
#include "drd_cond.h"
#include "drd_mutex.h"
#include "drd_semaphore.h"
#include "drd_suppression.h" // drd_start_suppression()
#include "drd_thread.h"
#include "drd_track.h"
#include "drd_rwlock.h"
#include "priv_drd_clientreq.h"
#include "pub_tool_basics.h" // Bool
#include "pub_tool_debuginfo.h" // VG_(describe_IP)()
#include "pub_tool_libcassert.h"
#include "pub_tool_libcassert.h" // tl_assert()
#include "pub_tool_libcprint.h" // VG_(message)()
#include "pub_tool_machine.h" // VG_(get_SP)()
#include "pub_tool_threadstate.h"
#include "pub_tool_tooliface.h" // VG_(needs_...)()
static void drd_spin_init_or_unlock(const Addr spinlock)
{
struct mutex_info* mutex_p = mutex_get(spinlock);
if (mutex_p)
{
mutex_unlock(spinlock, mutex_type_spinlock);
}
else
{
mutex_init(spinlock, mutex_type_spinlock);
}
}
static void drd_pre_cond_wait(const Addr cond,
const Addr mutex, const MutexT mutex_type)
{
mutex_unlock(mutex, mutex_type);
cond_pre_wait(cond, mutex);
}
static void drd_post_cond_wait(const Addr cond,
const Addr mutex,
const Bool took_lock)
{
cond_post_wait(cond);
mutex_post_lock(mutex, took_lock, True);
}
static void drd_pre_cond_signal(const Addr cond)
{
cond_pre_signal(cond);
}
static void drd_pre_cond_broadcast(const Addr cond)
{
cond_pre_broadcast(cond);
}
/** Walk the stack up to the highest stack frame, and return the stack pointer
* of the highest stack frame. It is assumed that there are no more than
* ten stack frames above the current frame. This should be no problem
* since this function is either called indirectly from the _init() function
* in vgpreload_exp-drd-*.so or from the thread wrapper for a newly created
* thread. See also drd_pthread_intercepts.c.
*/
static Addr highest_used_stack_address(const ThreadId vg_tid)
{
UInt nframes;
const UInt n_ips = 10;
Addr ips[n_ips], sps[n_ips];
nframes = VG_(get_StackTrace)(vg_tid, ips, n_ips, sps, 0, 0);
return (nframes >= 1 ? sps[nframes - 1] : VG_(get_SP)(vg_tid));
}
static Bool drd_handle_client_request(ThreadId vg_tid, UWord* arg, UWord* ret)
{
UWord result = 0;
const DrdThreadId drd_tid = thread_get_running_tid();
tl_assert(vg_tid == VG_(get_running_tid()));
tl_assert(VgThreadIdToDrdThreadId(vg_tid) == drd_tid);
switch (arg[0])
{
case VG_USERREQ__GET_THREAD_SELF:
result = vg_tid;
break;
case VG_USERREQ__DRD_START_SUPPRESSION:
drd_start_suppression(arg[1], arg[1] + arg[2], "client");
break;
case VG_USERREQ__DRD_FINISH_SUPPRESSION:
drd_finish_suppression(arg[1], arg[1] + arg[2]);
break;
case VG_USERREQ__DRD_SUPPRESS_CURRENT_STACK:
{
const Addr topmost_sp = highest_used_stack_address(vg_tid);
#if 0
UInt nframes;
const UInt n_ips = 20;
Addr ips[n_ips], sps[n_ips], fps[n_ips];
Char desc[128];
unsigned i;
nframes = VG_(get_StackTrace)(vg_tid, ips, n_ips, sps, fps, 0);
VG_(message)(Vg_DebugMsg, "thread %d/%d", vg_tid, drd_tid);
for (i = 0; i < nframes; i++)
{
VG_(describe_IP)(ips[i], desc, sizeof(desc));
VG_(message)(Vg_DebugMsg, "[%2d] sp 0x%09lx fp 0x%09lx ip %s",
i, sps[i], fps[i], desc);
}
#endif
thread_set_stack_startup(drd_tid, VG_(get_SP)(vg_tid));
drd_start_suppression(topmost_sp, VG_(thread_get_stack_max)(vg_tid),
"stack top");
break;
}
case VG_USERREQ__DRD_START_NEW_SEGMENT:
thread_new_segment(PtThreadIdToDrdThreadId(arg[1]));
break;
case VG_USERREQ__DRD_START_TRACE_ADDR:
drd_start_tracing_address_range(arg[1], arg[1] + arg[2]);
break;
case VG_USERREQ__DRD_STOP_TRACE_ADDR:
drd_stop_tracing_address_range(arg[1], arg[1] + arg[2]);
break;
case VG_USERREQ__DRD_STOP_RECORDING:
thread_stop_recording(drd_tid);
break;
case VG_USERREQ__DRD_START_RECORDING:
thread_start_recording(drd_tid);
break;
case VG_USERREQ__SET_PTHREADID:
thread_set_pthreadid(drd_tid, arg[1]);
break;
case VG_USERREQ__SET_JOINABLE:
thread_set_joinable(PtThreadIdToDrdThreadId(arg[1]), (Bool)arg[2]);
break;
case VG_USERREQ__POST_THREAD_JOIN:
tl_assert(arg[1]);
drd_post_thread_join(drd_tid,
PtThreadIdToDrdThreadId(arg[1]));
break;
case VG_USERREQ__PRE_MUTEX_INIT:
if (thread_enter_synchr(drd_tid) == 0)
drd_pre_mutex_init(arg[1], arg[2]);
break;
case VG_USERREQ__POST_MUTEX_INIT:
thread_leave_synchr(drd_tid);
break;
case VG_USERREQ__PRE_MUTEX_DESTROY:
thread_enter_synchr(drd_tid);
break;
case VG_USERREQ__POST_MUTEX_DESTROY:
if (thread_leave_synchr(drd_tid) == 0)
drd_post_mutex_destroy(arg[1], arg[2]);
break;
case VG_USERREQ__PRE_MUTEX_LOCK:
if (thread_enter_synchr(drd_tid) == 0)
drd_pre_mutex_lock(arg[1], arg[2], arg[3]);
break;
case VG_USERREQ__POST_MUTEX_LOCK:
if (thread_leave_synchr(drd_tid) == 0)
drd_post_mutex_lock(arg[1], arg[2]);
break;
case VG_USERREQ__PRE_MUTEX_UNLOCK:
if (thread_enter_synchr(drd_tid) == 0)
drd_pre_mutex_unlock(arg[1], arg[2]);
break;
case VG_USERREQ__POST_MUTEX_UNLOCK:
thread_leave_synchr(drd_tid);
break;
case VG_USERREQ__SPIN_INIT_OR_UNLOCK:
tl_assert(thread_get_synchr_nesting_count(drd_tid) == 0);
drd_spin_init_or_unlock(arg[1]);
break;
case VG_USERREQ__PRE_COND_INIT:
tl_assert(thread_get_synchr_nesting_count(drd_tid) == 0);
drd_pre_cond_init(arg[1]);
break;
case VG_USERREQ__POST_COND_DESTROY:
tl_assert(thread_get_synchr_nesting_count(drd_tid) == 0);
drd_post_cond_destroy(arg[1]);
break;
case VG_USERREQ__PRE_COND_WAIT:
if (thread_enter_synchr(drd_tid) == 0)
drd_pre_cond_wait(arg[1], arg[2], arg[3]);
break;
case VG_USERREQ__POST_COND_WAIT:
if (thread_leave_synchr(drd_tid) == 0)
drd_post_cond_wait(arg[1], arg[2], arg[3]);
break;
case VG_USERREQ__PRE_COND_SIGNAL:
tl_assert(thread_get_synchr_nesting_count(drd_tid) == 0);
drd_pre_cond_signal(arg[1]);
break;
case VG_USERREQ__PRE_COND_BROADCAST:
tl_assert(thread_get_synchr_nesting_count(drd_tid) == 0);
drd_pre_cond_broadcast(arg[1]);
break;
case VG_USERREQ__PRE_SEM_INIT:
if (thread_enter_synchr(drd_tid) == 0)
drd_semaphore_init(arg[1], arg[2], arg[3]);
break;
case VG_USERREQ__POST_SEM_INIT:
thread_leave_synchr(drd_tid);
break;
case VG_USERREQ__PRE_SEM_DESTROY:
thread_enter_synchr(drd_tid);
break;
case VG_USERREQ__POST_SEM_DESTROY:
if (thread_leave_synchr(drd_tid) == 0)
drd_semaphore_destroy(arg[1]);
break;
case VG_USERREQ__PRE_SEM_WAIT:
if (thread_enter_synchr(drd_tid) == 0)
drd_semaphore_pre_wait(drd_tid, arg[1]);
break;
case VG_USERREQ__POST_SEM_WAIT:
if (thread_leave_synchr(drd_tid) == 0)
drd_semaphore_post_wait(drd_tid, arg[1], arg[2]);
break;
case VG_USERREQ__PRE_SEM_POST:
if (thread_enter_synchr(drd_tid) == 0)
drd_semaphore_pre_post(drd_tid, arg[1]);
break;
case VG_USERREQ__POST_SEM_POST:
if (thread_leave_synchr(drd_tid) == 0)
drd_semaphore_post_post(drd_tid, arg[1], arg[2]);
break;
case VG_USERREQ__PRE_BARRIER_INIT:
if (thread_enter_synchr(drd_tid) == 0)
drd_barrier_init(arg[1], arg[2], arg[3], arg[4]);
break;
case VG_USERREQ__POST_BARRIER_INIT:
thread_leave_synchr(drd_tid);
break;
case VG_USERREQ__PRE_BARRIER_DESTROY:
thread_enter_synchr(drd_tid);
break;
case VG_USERREQ__POST_BARRIER_DESTROY:
if (thread_leave_synchr(drd_tid) == 0)
drd_barrier_destroy(arg[1], arg[2]);
break;
case VG_USERREQ__PRE_BARRIER_WAIT:
if (thread_enter_synchr(drd_tid) == 0)
drd_barrier_pre_wait(drd_tid, arg[1], arg[2]);
break;
case VG_USERREQ__POST_BARRIER_WAIT:
if (thread_leave_synchr(drd_tid) == 0)
drd_barrier_post_wait(drd_tid, arg[1], arg[2], arg[3]);
break;
case VG_USERREQ__PRE_RWLOCK_INIT:
rwlock_pre_init(arg[1]);
break;
case VG_USERREQ__POST_RWLOCK_DESTROY:
rwlock_post_destroy(arg[1]);
break;
case VG_USERREQ__PRE_RWLOCK_RDLOCK:
if (thread_enter_synchr(drd_tid) == 0)
rwlock_pre_rdlock(arg[1]);
break;
case VG_USERREQ__POST_RWLOCK_RDLOCK:
if (thread_leave_synchr(drd_tid) == 0)
rwlock_post_rdlock(arg[1], arg[2]);
break;
case VG_USERREQ__PRE_RWLOCK_WRLOCK:
if (thread_enter_synchr(drd_tid) == 0)
rwlock_pre_wrlock(arg[1]);
break;
case VG_USERREQ__POST_RWLOCK_WRLOCK:
if (thread_leave_synchr(drd_tid) == 0)
rwlock_post_wrlock(arg[1], arg[2]);
break;
case VG_USERREQ__PRE_RWLOCK_UNLOCK:
if (thread_enter_synchr(drd_tid) == 0)
rwlock_pre_unlock(arg[1]);
break;
case VG_USERREQ__POST_RWLOCK_UNLOCK:
thread_leave_synchr(drd_tid);
break;
default:
VG_(message)(Vg_DebugMsg, "Unrecognized client request 0x%lx 0x%lx",
arg[0], arg[1]);
tl_assert(0);
return False;
}
*ret = result;
return True;
}
void drd_clientreq_init(void)
{
VG_(needs_client_requests)(drd_handle_client_request);
}