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gerrit-public.fairphone.software / platform / external / valgrind / 088010dedc10d1ff62375463316ea25397ffa2ad / . / hacked104 / vg_include.h
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/*--------------------------------------------------------------------*/
/*--- A header file for all parts of Valgrind. ---*/
/*--- Include no other! ---*/
/*--- vg_include.h ---*/
/*--------------------------------------------------------------------*/
/*
This file is part of Valgrind, an x86 protected-mode emulator
designed for debugging and profiling binaries on x86-Unixes.
Copyright (C) 2000-2002 Julian Seward
jseward@acm.org
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.
*/
#ifndef __VG_INCLUDE_H
#define __VG_INCLUDE_H
#include <stdarg.h> /* ANSI varargs stuff */
#include <setjmp.h> /* for jmp_buf */
#include "../pub/libvex_guest_x86.h"
/* ---------------------------------------------------------------------
Where to send bug reports to.
------------------------------------------------------------------ */
#define VG_EMAIL_ADDR "jseward@acm.org"
/* ---------------------------------------------------------------------
Build options and table sizes. You should be able to change these
options or sizes, recompile, and still have a working system.
------------------------------------------------------------------ */
#include "vg_constants.h"
/* Set to 1 to enable time profiling. Since this uses SIGPROF, we
don't want this permanently enabled -- only for profiling
builds. */
#if 0
# define VG_PROFILE
#endif
/* Total number of integer registers available for allocation. That's
all of them except %esp, %edi and %ebp. %edi is a general spare
temporary. %ebp permanently points at VG_(baseBlock). Note that
it's important that this tie in with what rankToRealRegNo() says.
DO NOT CHANGE THIS VALUE FROM 5. ! */
#define VG_MAX_REALREGS 5
/* Total number of spill slots available for allocation, if a TempReg
doesn't make it into a RealReg. Just bomb the entire system if
this value is too small; we don't expect it will ever get
particularly high. */
#define VG_MAX_SPILLSLOTS 100
/* Constants for the slow translation lookup cache. */
#define VG_TRANSTAB_SLOW_BITS 11
#define VG_TRANSTAB_SLOW_SIZE (1 << VG_TRANSTAB_SLOW_BITS)
#define VG_TRANSTAB_SLOW_MASK ((VG_TRANSTAB_SLOW_SIZE) - 1)
/* Size of a buffer used for creating messages. */
#define M_VG_MSGBUF 10000
/* Size of a smallish table used to read /proc/self/map entries. */
#define M_PROCMAP_BUF 50000
/* Max length of pathname to a .so/executable file. */
#define M_VG_LIBNAMESTR 100
/* Max length of a text fragment used to construct error messages. */
#define M_VG_ERRTXT 512
/* Max length of the string copied from env var VG_ARGS at startup. */
#define M_VG_CMDLINE_STRLEN 1000
/* Max number of options for Valgrind which we can handle. */
#define M_VG_CMDLINE_OPTS 100
/* After this many different unsuppressed errors have been observed,
be more conservative about collecting new ones. */
#define M_VG_COLLECT_ERRORS_SLOWLY_AFTER 50
/* After this many different unsuppressed errors have been observed,
stop collecting errors at all, and tell the user their program is
evidently a steaming pile of camel dung. */
#define M_VG_COLLECT_NO_ERRORS_AFTER_SHOWN 300
/* After this many total errors have been observed, stop collecting
errors at all. Counterpart to M_VG_COLLECT_NO_ERRORS_AFTER_SHOWN. */
#define M_VG_COLLECT_NO_ERRORS_AFTER_FOUND 30000
/* These many bytes below %ESP are considered addressible if we're
doing the --workaround-gcc296-bugs hack. */
#define VG_GCC296_BUG_STACK_SLOP 1024
/* The maximum number of calls we're prepared to save in a
backtrace. */
#define VG_DEEPEST_BACKTRACE 50
/* Number of lists in which we keep track of malloc'd but not free'd
blocks. Should be prime. */
#define VG_N_MALLOCLISTS 997
/* Number of lists in which we keep track of ExeContexts. Should be
prime. */
#define VG_N_EC_LISTS /*997*/ 4999
/* Defines the thread-scheduling timeslice, in terms of the number of
basic blocks we attempt to run each thread for. Smaller values
give finer interleaving but much increased scheduling overheads. */
#define VG_SCHEDULING_QUANTUM 100000
/* The maximum number of pthreads that we support. This is
deliberately not very high since our implementation of some of the
scheduler algorithms is surely O(N) in the number of threads, since
that's simple, at least. And (in practice) we hope that most
programs do not need many threads. */
#define VG_N_THREADS 50
/* Maximum number of pthread keys available. Again, we start low until
the need for a higher number presents itself. */
#define VG_N_THREAD_KEYS 50
/* Number of file descriptors that can simultaneously be waited on for
I/O to complete. Perhaps this should be the same as VG_N_THREADS
(surely a thread can't wait on more than one fd at once?. Who
knows.) */
#define VG_N_WAITING_FDS 10
/* Stack size for a thread. We try and check that they do not go
beyond it. */
#define VG_PTHREAD_STACK_SIZE (1 << 20)
/* Number of entries in the semaphore-remapping table. */
#define VG_N_SEMAPHORES 50
/* Number of entries in the rwlock-remapping table. */
#define VG_N_RWLOCKS 500
/* Number of entries in each thread's cleanup stack. */
#define VG_N_CLEANUPSTACK 8
/* Number of entries in each thread's fork-handler stack. */
#define VG_N_FORKHANDLERSTACK 2
/* ---------------------------------------------------------------------
Basic types
------------------------------------------------------------------ */
#if 0
typedef unsigned char UChar;
typedef unsigned short UShort;
typedef unsigned int UInt;
typedef unsigned long long int ULong;
typedef signed char Char;
typedef signed short Short;
typedef signed int Int;
typedef signed long long int Long;
typedef unsigned int Addr;
typedef unsigned char Bool;
#define False ((Bool)0)
#define True ((Bool)1)
#endif
#include "../pub/libvex_basictypes.h"
typedef Addr32 Addr;
#define mycat_wrk(aaa,bbb) aaa##bbb
#define mycat(aaa,bbb) mycat_wrk(aaa,bbb)
/* Just pray that gcc's constant folding works properly ... */
#define BITS(bit7,bit6,bit5,bit4,bit3,bit2,bit1,bit0) \
( ((bit7) << 7) | ((bit6) << 6) | ((bit5) << 5) | ((bit4) << 4) \
| ((bit3) << 3) | ((bit2) << 2) | ((bit1) << 1) | (bit0))
/* For cache simulation */
typedef struct {
int size; /* bytes */
int assoc;
int line_size; /* bytes */
} cache_t;
#define UNDEFINED_CACHE ((cache_t) { -1, -1, -1 })
/* ---------------------------------------------------------------------
Now the basic types are set up, we can haul in the kernel-interface
definitions.
------------------------------------------------------------------ */
#include "./vg_kerneliface.h"
/* ---------------------------------------------------------------------
Command-line-settable options
------------------------------------------------------------------ */
#define VG_CLO_SMC_NONE 0
#define VG_CLO_SMC_SOME 1
#define VG_CLO_SMC_ALL 2
#define VG_CLO_MAX_SFILES 10
/* Should we stop collecting errors if too many appear? default: YES */
extern Bool VG_(clo_error_limit);
/* Shall we V-check addrs (they are always A checked too): default: YES */
extern Bool VG_(clo_check_addrVs);
/* Enquire about whether to attach to GDB at errors? default: NO */
extern Bool VG_(clo_GDB_attach);
/* Sanity-check level: 0 = none, 1 (default), > 1 = expensive. */
extern Int VG_(sanity_level);
/* Verbosity level: 0 = silent, 1 (default), > 1 = more verbose. */
extern Int VG_(clo_verbosity);
/* Automatically attempt to demangle C++ names? default: YES */
extern Bool VG_(clo_demangle);
/* Do leak check at exit? default: NO */
extern Bool VG_(clo_leak_check);
/* In leak check, show reachable-but-not-freed blocks? default: NO */
extern Bool VG_(clo_show_reachable);
/* How closely should we compare ExeContexts in leak records? default: 2 */
extern Int VG_(clo_leak_resolution);
/* Round malloc sizes upwards to integral number of words? default:
NO */
extern Bool VG_(clo_sloppy_malloc);
/* Minimum alignment in functions that don't specify alignment explicitly.
default: 0, i.e. use default of the machine (== 4) */
extern Int VG_(clo_alignment);
/* Allow loads from partially-valid addresses? default: YES */
extern Bool VG_(clo_partial_loads_ok);
/* Simulate child processes? default: NO */
extern Bool VG_(clo_trace_children);
/* The file id on which we send all messages. default: 2 (stderr). */
extern Int VG_(clo_logfile_fd);
/* Max volume of the freed blocks queue. */
extern Int VG_(clo_freelist_vol);
/* Assume accesses immediately below %esp are due to gcc-2.96 bugs.
default: NO */
extern Bool VG_(clo_workaround_gcc296_bugs);
/* The number of suppression files specified. */
extern Int VG_(clo_n_suppressions);
/* The names of the suppression files. */
extern Char* VG_(clo_suppressions)[VG_CLO_MAX_SFILES];
/* Single stepping? default: NO */
extern Bool VG_(clo_single_step);
/* Code improvement? default: YES */
extern Bool VG_(clo_optimise);
/* Memory-check instrumentation? default: YES */
extern Bool VG_(clo_instrument);
/* DEBUG: clean up instrumented code? default: YES */
extern Bool VG_(clo_cleanup);
/* When instrumenting, omit some checks if tell-tale literals for
inlined strlen() are visible in the basic block. default: YES */
extern Bool VG_(clo_avoid_strlen_errors);
/* Cache simulation instrumentation? default: NO */
extern Bool VG_(clo_cachesim);
/* I1 cache configuration. default: undefined */
extern cache_t VG_(clo_I1_cache);
/* D1 cache configuration. default: undefined */
extern cache_t VG_(clo_D1_cache);
/* L2 cache configuration. default: undefined */
extern cache_t VG_(clo_L2_cache);
/* SMC write checks? default: SOME (1,2,4 byte movs to mem) */
extern Int VG_(clo_smc_check);
/* DEBUG: print system calls? default: NO */
extern Bool VG_(clo_trace_syscalls);
/* DEBUG: print signal details? default: NO */
extern Bool VG_(clo_trace_signals);
/* DEBUG: print symtab details? default: NO */
extern Bool VG_(clo_trace_symtab);
/* DEBUG: print malloc details? default: NO */
extern Bool VG_(clo_trace_malloc);
/* DEBUG: print thread scheduling events? default: NO */
extern Bool VG_(clo_trace_sched);
/* DEBUG: print pthread (mutex etc) events? default: 0 (none), 1
(some), 2 (all) */
extern Int VG_(clo_trace_pthread_level);
/* Stop after this many basic blocks. default: Infinity. */
extern ULong VG_(clo_stop_after);
/* Display gory details for the k'th most popular error. default:
Infinity. */
extern Int VG_(clo_dump_error);
/* Number of parents of a backtrace. Default: 8. */
extern Int VG_(clo_backtrace_size);
/* Engage miscellaneous wierd hacks needed for some progs. */
extern Char* VG_(clo_weird_hacks);
/* ---------------------------------------------------------------------
Debugging and profiling stuff
------------------------------------------------------------------ */
/* No, really. I _am_ that strange. */
#define OINK(nnn) VG_(message)(Vg_DebugMsg, "OINK %d",nnn)
/* Tools for building messages from multiple parts. */
typedef
enum { Vg_UserMsg, Vg_DebugMsg, Vg_DebugExtraMsg }
VgMsgKind;
extern void VG_(start_msg) ( VgMsgKind kind );
extern void VG_(add_to_msg) ( Char* format, ... );
extern void VG_(end_msg) ( void );
/* Send a simple, single-part message. */
extern void VG_(message) ( VgMsgKind kind, Char* format, ... );
/* Create a logfile into which messages can be dumped. */
extern void VG_(startup_logging) ( void );
extern void VG_(shutdown_logging) ( void );
/* Profiling stuff */
#ifdef VG_PROFILE
#define VGP_M_STACK 10
#define VGP_M_CCS 26 /* == the # of elems in VGP_LIST */
#define VGP_LIST \
VGP_PAIR(VgpUnc=0, "unclassified"), \
VGP_PAIR(VgpRun, "running"), \
VGP_PAIR(VgpSched, "scheduler"), \
VGP_PAIR(VgpMalloc, "low-lev malloc/free"), \
VGP_PAIR(VgpCliMalloc, "client malloc/free"), \
VGP_PAIR(VgpTranslate, "translate-main"), \
VGP_PAIR(VgpToUCode, "to-ucode"), \
VGP_PAIR(VgpFromUcode, "from-ucode"), \
VGP_PAIR(VgpImprove, "improve"), \
VGP_PAIR(VgpInstrument, "instrument"), \
VGP_PAIR(VgpCleanup, "cleanup"), \
VGP_PAIR(VgpRegAlloc, "reg-alloc"), \
VGP_PAIR(VgpDoLRU, "do-lru"), \
VGP_PAIR(VgpSlowFindT, "slow-search-transtab"), \
VGP_PAIR(VgpInitAudit, "init-mem-audit"), \
VGP_PAIR(VgpExeContext, "exe-context"), \
VGP_PAIR(VgpReadSyms, "read-syms"), \
VGP_PAIR(VgpAddToT, "add-to-transtab"), \
VGP_PAIR(VgpSARP, "set-addr-range-perms"), \
VGP_PAIR(VgpSyscall, "syscall wrapper"), \
VGP_PAIR(VgpCacheInstrument, "cache instrument"), \
VGP_PAIR(VgpCacheGetBBCC,"cache get BBCC"), \
VGP_PAIR(VgpCacheSimulate, "cache simulate"), \
VGP_PAIR(VgpCacheDump, "cache stats dump"), \
VGP_PAIR(VgpSpare1, "spare 1"), \
VGP_PAIR(VgpSpare2, "spare 2")
#define VGP_PAIR(enumname,str) enumname
typedef enum { VGP_LIST } VgpCC;
#undef VGP_PAIR
extern void VGP_(init_profiling) ( void );
extern void VGP_(done_profiling) ( void );
extern void VGP_(pushcc) ( VgpCC );
extern void VGP_(popcc) ( void );
#define VGP_PUSHCC(cc) VGP_(pushcc)(cc)
#define VGP_POPCC VGP_(popcc)()
#else
#define VGP_PUSHCC(cc) /* */
#define VGP_POPCC /* */
#endif /* VG_PROFILE */
/* ---------------------------------------------------------------------
Exports of vg_malloc2.c
------------------------------------------------------------------ */
/* Allocation arenas.
SYMTAB is for Valgrind's symbol table storage.
CLIENT is for the client's mallocs/frees.
DEMANGLE is for the C++ demangler.
EXECTXT is for storing ExeContexts.
ERRCTXT is for storing ErrContexts.
PRIVATE is for Valgrind general stuff.
TRANSIENT is for very short-term use. It should be empty
in between uses.
When adding a new arena, remember also to add it
to ensure_mm_init().
*/
typedef Int ArenaId;
#define VG_N_ARENAS 7
#define VG_AR_PRIVATE 0 /* :: ArenaId */
#define VG_AR_SYMTAB 1 /* :: ArenaId */
#define VG_AR_CLIENT 2 /* :: ArenaId */
#define VG_AR_DEMANGLE 3 /* :: ArenaId */
#define VG_AR_EXECTXT 4 /* :: ArenaId */
#define VG_AR_ERRCTXT 5 /* :: ArenaId */
#define VG_AR_TRANSIENT 6 /* :: ArenaId */
extern void* VG_(malloc) ( ArenaId arena, Int nbytes );
extern void VG_(free) ( ArenaId arena, void* ptr );
extern void* VG_(calloc) ( ArenaId arena, Int nmemb, Int nbytes );
extern void* VG_(realloc) ( ArenaId arena, void* ptr, Int size );
extern void* VG_(malloc_aligned) ( ArenaId aid, Int req_alignB,
Int req_pszB );
extern void VG_(mallocSanityCheckArena) ( ArenaId arena );
extern void VG_(mallocSanityCheckAll) ( void );
extern void VG_(show_all_arena_stats) ( void );
extern Bool VG_(is_empty_arena) ( ArenaId aid );
/* The red-zone size for the client. This can be arbitrary, but
unfortunately must be set at compile time. */
#define VG_AR_CLIENT_REDZONE_SZW 4
#define VG_AR_CLIENT_REDZONE_SZB \
(VG_AR_CLIENT_REDZONE_SZW * VKI_BYTES_PER_WORD)
/* ---------------------------------------------------------------------
Exports of vg_clientfuns.c
------------------------------------------------------------------ */
/* This doesn't export code or data that valgrind.so needs to link
against. However, the scheduler does need to know the following
request codes. A few, publically-visible, request codes are also
defined in valgrind.h. */
#define VG_USERREQ__MALLOC 0x2001
#define VG_USERREQ__BUILTIN_NEW 0x2002
#define VG_USERREQ__BUILTIN_VEC_NEW 0x2003
#define VG_USERREQ__FREE 0x2004
#define VG_USERREQ__BUILTIN_DELETE 0x2005
#define VG_USERREQ__BUILTIN_VEC_DELETE 0x2006
#define VG_USERREQ__CALLOC 0x2007
#define VG_USERREQ__REALLOC 0x2008
#define VG_USERREQ__MEMALIGN 0x2009
/* (Fn, Arg): Create a new thread and run Fn applied to Arg in it. Fn
MUST NOT return -- ever. Eventually it will do either __QUIT or
__WAIT_JOINER. */
#define VG_USERREQ__APPLY_IN_NEW_THREAD 0x3001
/* ( no-args ): calling thread disappears from the system forever.
Reclaim resources. */
#define VG_USERREQ__QUIT 0x3002
/* ( void* ): calling thread waits for joiner and returns the void* to
it. */
#define VG_USERREQ__WAIT_JOINER 0x3003
/* ( ThreadId, void** ): wait to join a thread. */
#define VG_USERREQ__PTHREAD_JOIN 0x3004
/* Set cancellation state and type for this thread. */
#define VG_USERREQ__SET_CANCELSTATE 0x3005
#define VG_USERREQ__SET_CANCELTYPE 0x3006
/* ( no-args ): Test if we are at a cancellation point. */
#define VG_USERREQ__TESTCANCEL 0x3007
/* ( ThreadId, &thread_exit_wrapper is the only allowable arg ): call
with this arg to indicate that a cancel is now pending for the
specified thread. */
#define VG_USERREQ__SET_CANCELPEND 0x3008
/* Set/get detach state for this thread. */
#define VG_USERREQ__SET_OR_GET_DETACH 0x3009
#define VG_USERREQ__PTHREAD_GET_THREADID 0x300B
#define VG_USERREQ__PTHREAD_MUTEX_LOCK 0x300C
#define VG_USERREQ__PTHREAD_MUTEX_TRYLOCK 0x300D
#define VG_USERREQ__PTHREAD_MUTEX_UNLOCK 0x300E
#define VG_USERREQ__PTHREAD_COND_WAIT 0x300F
#define VG_USERREQ__PTHREAD_COND_TIMEDWAIT 0x3010
#define VG_USERREQ__PTHREAD_COND_SIGNAL 0x3011
#define VG_USERREQ__PTHREAD_COND_BROADCAST 0x3012
#define VG_USERREQ__PTHREAD_KEY_CREATE 0x3013
#define VG_USERREQ__PTHREAD_KEY_DELETE 0x3014
#define VG_USERREQ__PTHREAD_SETSPECIFIC_PTR 0x3015
#define VG_USERREQ__PTHREAD_GETSPECIFIC_PTR 0x3016
#define VG_USERREQ__READ_MILLISECOND_TIMER 0x3017
#define VG_USERREQ__PTHREAD_SIGMASK 0x3018
#define VG_USERREQ__SIGWAIT 0x3019
#define VG_USERREQ__PTHREAD_KILL 0x301A
#define VG_USERREQ__PTHREAD_YIELD 0x301B
#define VG_USERREQ__PTHREAD_KEY_VALIDATE 0x301C
#define VG_USERREQ__CLEANUP_PUSH 0x3020
#define VG_USERREQ__CLEANUP_POP 0x3021
#define VG_USERREQ__GET_KEY_D_AND_S 0x3022
#define VG_USERREQ__NUKE_OTHER_THREADS 0x3023
/* Ask how many signal handler returns have happened to this
thread. */
#define VG_USERREQ__GET_N_SIGS_RETURNED 0x3024
/* Get/set entries for a thread's pthread_atfork stack. */
#define VG_USERREQ__SET_FHSTACK_USED 0x3025
#define VG_USERREQ__GET_FHSTACK_USED 0x3026
#define VG_USERREQ__SET_FHSTACK_ENTRY 0x3027
#define VG_USERREQ__GET_FHSTACK_ENTRY 0x3028
/* Denote the finish of VG_(__libc_freeres_wrapper). */
#define VG_USERREQ__LIBC_FREERES_DONE 0x3029
/* Cosmetic ... */
#define VG_USERREQ__GET_PTHREAD_TRACE_LEVEL 0x3101
/* Log a pthread error from client-space. Cosmetic. */
#define VG_USERREQ__PTHREAD_ERROR 0x3102
/*
In vg_constants.h:
#define VG_USERREQ__SIGNAL_RETURNS 0x4001
*/
/* The scheduler does need to know the address of it so it can be
called at program exit. */
extern void VG_(__libc_freeres_wrapper)( void );
/* ---------------------------------------------------------------------
Constants pertaining to the simulated CPU state, VG_(baseBlock),
which need to go here to avoid ugly circularities.
------------------------------------------------------------------ */
/* ... and in words ... */
#define VG_SIZE_OF_FPUSTATE_W (8*2 + 1)
#define VG_SIZE_OF_FPUSTATE (4 * VG_SIZE_OF_FPUSTATE_W)
/* ---------------------------------------------------------------------
Exports of vg_scheduler.c
------------------------------------------------------------------ */
/* ThreadIds are simply indices into the vg_threads[] array. */
typedef
UInt
ThreadId;
/* Special magic value for an invalid ThreadId. It corresponds to
LinuxThreads using zero as the initial value for
pthread_mutex_t.__m_owner and pthread_cond_t.__c_waiting. */
#define VG_INVALID_THREADID ((ThreadId)(0))
typedef
enum {
VgTs_Empty, /* this slot is not in use */
VgTs_Runnable, /* waiting to be scheduled */
VgTs_WaitJoiner, /* waiting for someone to do join on me */
VgTs_WaitJoinee, /* waiting for the thread I did join on */
VgTs_WaitFD, /* waiting for I/O completion on a fd */
VgTs_WaitMX, /* waiting on a mutex */
VgTs_WaitCV, /* waiting on a condition variable */
VgTs_WaitSIG, /* waiting due to sigwait() */
VgTs_Sleeping /* sleeping for a while */
}
ThreadStatus;
/* An entry in a threads's cleanup stack. */
typedef
struct {
void (*fn)(void*);
void* arg;
}
CleanupEntry;
/* An entry in a thread's fork-handler stack. */
typedef
struct {
void (*prepare)(void);
void (*parent)(void);
void (*child)(void);
}
ForkHandlerEntry;
typedef
struct {
/* ThreadId == 0 (and hence vg_threads[0]) is NEVER USED.
The thread identity is simply the index in vg_threads[].
ThreadId == 1 is the root thread and has the special property
that we don't try and allocate or deallocate its stack. For
convenience of generating error message, we also put the
ThreadId in this tid field, but be aware that it should
ALWAYS == the index in vg_threads[]. */
ThreadId tid;
/* Current scheduling status.
Complications: whenever this is set to VgTs_WaitMX, you
should also set .m_edx to whatever the required return value
is for pthread_mutex_lock / pthread_cond_timedwait for when
the mutex finally gets unblocked. */
ThreadStatus status;
/* When .status == WaitMX, points to the mutex I am waiting for.
When .status == WaitCV, points to the mutex associated with
the condition variable indicated by the .associated_cv field.
In all other cases, should be NULL. */
void* /* pthread_mutex_t* */ associated_mx;
/* When .status == WaitCV, points to the condition variable I am
waiting for. In all other cases, should be NULL. */
void* /* pthread_cond_t* */ associated_cv;
/* If VgTs_Sleeping, this is when we should wake up, measured in
milliseconds as supplied by VG_(read_millisecond_counter).
If VgTs_WaitCV, this indicates the time at which
pthread_cond_timedwait should wake up. If == 0xFFFFFFFF,
this means infinitely far in the future, viz,
pthread_cond_wait. */
UInt awaken_at;
/* If VgTs_WaitJoiner, return value, as generated by joinees. */
void* joinee_retval;
/* If VgTs_WaitJoinee, place to copy the return value to, and
the identity of the thread we're waiting for. */
void** joiner_thread_return;
ThreadId joiner_jee_tid;
/* Whether or not detached. */
Bool detached;
/* Cancelability state and type. */
Bool cancel_st; /* False==PTH_CANCEL_DISABLE; True==.._ENABLE */
Bool cancel_ty; /* False==PTH_CANC_ASYNCH; True==..._DEFERRED */
/* Pointer to fn to call to do cancellation. Indicates whether
or not cancellation is pending. If NULL, not pending. Else
should be &thread_exit_wrapper(), indicating that
cancallation is pending. */
void (*cancel_pend)(void*);
/* The cleanup stack. */
Int custack_used;
CleanupEntry custack[VG_N_CLEANUPSTACK];
/* A pointer to the thread's-specific-data. This is handled
almost entirely from vg_libpthread.c. We just provide hooks
to get and set this ptr. This is either NULL, indicating the
thread has read/written none of its specifics so far, OR
points to a void*[VG_N_THREAD_KEYS], allocated and
deallocated in vg_libpthread.c. */
void** specifics_ptr;
/* This thread's blocked-signals mask. Semantics is that for a
signal to be delivered to this thread, the signal must not be
blocked by either the process-wide signal mask nor by this
one. So, if this thread is prepared to handle any signal that
the process as a whole is prepared to handle, this mask should
be made empty -- and that it is its default, starting
state. */
vki_ksigset_t sig_mask;
/* When not VgTs_WaitSIG, has no meaning. When VgTs_WaitSIG,
is the set of signals for which we are sigwait()ing. */
vki_ksigset_t sigs_waited_for;
/* Counts the number of times a signal handler for this thread
has returned. This makes it easy to implement pause(), by
polling this value, of course interspersed with nanosleeps,
and waiting till it changes. */
UInt n_signals_returned;
/* Stacks. When a thread slot is freed, we don't deallocate its
stack; we just leave it lying around for the next use of the
slot. If the next use of the slot requires a larger stack,
only then is the old one deallocated and a new one
allocated.
For the main thread (threadid == 0), this mechanism doesn't
apply. We don't know the size of the stack since we didn't
allocate it, and furthermore we never reallocate it. */
/* The allocated size of this thread's stack (permanently zero
if this is ThreadId == 0, since we didn't allocate its stack) */
UInt stack_size;
/* Address of the lowest word in this thread's stack. NULL means
not allocated yet.
*/
Addr stack_base;
/* Address of the highest legitimate word in this stack. This is
used for error messages only -- not critical for execution
correctness. Is is set for all stacks, specifically including
ThreadId == 0 (the main thread). */
Addr stack_highest_word;
/* Saved machine context. */
VexGuestX86State vex;
UInt sh_eax;
UInt sh_ebx;
UInt sh_ecx;
UInt sh_edx;
UInt sh_esi;
UInt sh_edi;
UInt sh_ebp;
UInt sh_esp;
UInt sh_eflags;
}
ThreadState;
/* The thread table. */
extern ThreadState VG_(threads)[VG_N_THREADS];
/* Check that tid is in range and denotes a non-Empty thread. */
extern Bool VG_(is_valid_tid) ( ThreadId tid );
/* Check that tid is in range. */
extern Bool VG_(is_valid_or_empty_tid) ( ThreadId tid );
/* Copy the specified thread's state into VG_(baseBlock) in
preparation for running it. */
extern void VG_(load_thread_state)( ThreadId );
/* Save the specified thread's state back in VG_(baseBlock), and fill
VG_(baseBlock) with junk, for sanity-check reasons. */
extern void VG_(save_thread_state)( ThreadId );
/* And for the currently running one, if valid. */
extern ThreadState* VG_(get_current_thread_state) ( void );
/* Similarly ... */
extern ThreadId VG_(get_current_tid) ( void );
/* Which thread is this address in the stack of, if any? Used for
error message generation. */
extern ThreadId VG_(identify_stack_addr)( Addr a );
/* Nuke all threads except tid. */
extern void VG_(nuke_all_threads_except) ( ThreadId me );
/* Return codes from the scheduler. */
typedef
enum {
VgSrc_Deadlock, /* no runnable threads and no prospect of any
even if we wait for a long time */
VgSrc_ExitSyscall, /* client called exit(). This is the normal
route out. */
VgSrc_BbsDone /* In a debugging run, the specified number of
bbs has been completed. */
}
VgSchedReturnCode;
/* The scheduler. */
extern VgSchedReturnCode VG_(scheduler) ( void );
extern void VG_(scheduler_init) ( void );
extern void VG_(pp_sched_status) ( void );
/* vg_oursignalhandler() might longjmp(). Here's the jmp_buf. */
extern jmp_buf VG_(scheduler_jmpbuf);
/* This says whether scheduler_jmpbuf is actually valid. Needed so
that our signal handler doesn't longjmp when the buffer isn't
actually valid. */
extern Bool VG_(scheduler_jmpbuf_valid);
/* ... and if so, here's the signal which caused it to do so. */
extern Int VG_(longjmpd_on_signal);
/* Possible places where the main stack might be based. We check that
the initial stack, which we can't move, is allocated here.
VG_(scheduler_init) checks this. Andrea Archelangi's 2.4 kernels
have been rumoured to start stacks at 0x80000000, so that too is
considered. It seems systems with longer uptimes tend to to use
stacks which start at 0x40000000 sometimes. JRS 2002-Aug-21: I
also have reports of stacks starting at 0xE0000000.*/
#define VG_STARTUP_STACK_BASE_1 (Addr)0xC0000000
#define VG_STARTUP_STACK_BASE_2 (Addr)0x80000000
#define VG_STARTUP_STACK_BASE_3 (Addr)0x40000000
#define VG_STARTUP_STACK_BASE_4 (Addr)0xE0000000
#define VG_STARTUP_STACK_SMALLERTHAN 0x100000 /* 1024k */
#define VG_STACK_MATCHES_BASE(zzstack, zzbase) \
( \
((zzstack) & ((zzbase) - VG_STARTUP_STACK_SMALLERTHAN)) \
== \
((zzbase) - VG_STARTUP_STACK_SMALLERTHAN) \
)
/* The red-zone size which we put at the bottom (highest address) of
thread stacks, for paranoia reasons. This can be arbitrary, and
doesn't really need to be set at compile time. */
#define VG_AR_CLIENT_STACKBASE_REDZONE_SZW 4
#define VG_AR_CLIENT_STACKBASE_REDZONE_SZB \
(VG_AR_CLIENT_STACKBASE_REDZONE_SZW * VKI_BYTES_PER_WORD)
/* Write a value to the client's %EDX (request return value register)
and set the shadow to indicate it is defined. */
#define SET_EDX(zztid, zzval) \
do { VG_(threads)[zztid].vex.guest_EDX = (zzval); \
VG_(threads)[zztid].sh_edx = VGM_WORD_VALID; \
} while (0)
#define SET_EAX(zztid, zzval) \
do { VG_(threads)[zztid].vex.guest_EAX = (zzval); \
VG_(threads)[zztid].sh_eax = VGM_WORD_VALID; \
} while (0)
/* ---------------------------------------------------------------------
Exports of vg_signals.c
------------------------------------------------------------------ */
extern void VG_(sigstartup_actions) ( void );
extern Bool VG_(deliver_signals) ( void );
extern void VG_(unblock_host_signal) ( Int sigNo );
extern void VG_(handle_SCSS_change) ( Bool force_update );
/* Fake system calls for signal handling. */
extern void VG_(do__NR_sigaltstack) ( ThreadId tid );
extern void VG_(do__NR_sigaction) ( ThreadId tid );
extern void VG_(do__NR_sigprocmask) ( ThreadId tid,
Int how,
vki_ksigset_t* set,
vki_ksigset_t* oldset );
extern void VG_(do_pthread_sigmask_SCSS_upd) ( ThreadId tid,
Int how,
vki_ksigset_t* set,
vki_ksigset_t* oldset );
extern void VG_(send_signal_to_thread) ( ThreadId thread,
Int signo );
extern void VG_(do_sigpending) ( ThreadId tid, vki_ksigset_t* set );
/* Modify the current thread's state once we have detected it is
returning from a signal handler. */
extern Bool VG_(signal_returns) ( ThreadId );
/* Handy utilities to block/restore all host signals. */
extern void VG_(block_all_host_signals)
( /* OUT */ vki_ksigset_t* saved_mask );
extern void VG_(restore_all_host_signals)
( /* IN */ vki_ksigset_t* saved_mask );
/* ---------------------------------------------------------------------
Exports of vg_mylibc.c
------------------------------------------------------------------ */
#if !defined(NULL)
# define NULL ((void*)0)
#endif
extern void VG_(exit)( Int status )
__attribute__ ((__noreturn__));
extern void VG_(printf) ( const char *format, ... );
/* too noisy ... __attribute__ ((format (printf, 1, 2))) ; */
extern void VG_(sprintf) ( Char* buf, Char *format, ... );
extern void VG_(vprintf) ( void(*send)(Char),
const Char *format, va_list vargs );
extern Bool VG_(isspace) ( Char c );
extern Bool VG_(isdigit) ( Char c );
extern Int VG_(strlen) ( const Char* str );
extern Long VG_(atoll) ( Char* str );
extern Long VG_(atoll36) ( Char* str );
extern Char* VG_(strcat) ( Char* dest, const Char* src );
extern Char* VG_(strncat) ( Char* dest, const Char* src, Int n );
extern Char* VG_(strpbrk) ( const Char* s, const Char* accept );
extern Char* VG_(strcpy) ( Char* dest, const Char* src );
extern Int VG_(strcmp) ( const Char* s1, const Char* s2 );
extern Int VG_(strcmp_ws) ( const Char* s1, const Char* s2 );
extern Int VG_(strncmp) ( const Char* s1, const Char* s2, Int nmax );
extern Int VG_(strncmp_ws) ( const Char* s1, const Char* s2, Int nmax );
extern Char* VG_(strstr) ( const Char* haystack, Char* needle );
extern Char* VG_(strchr) ( const Char* s, Char c );
extern Char* VG_(strdup) ( ArenaId aid, const Char* s);
extern Char* VG_(getenv) ( Char* name );
extern Int VG_(getpid) ( void );
extern void VG_(start_rdtsc_calibration) ( void );
extern void VG_(end_rdtsc_calibration) ( void );
extern UInt VG_(read_millisecond_timer) ( void );
extern Char VG_(toupper) ( Char c );
extern void VG_(strncpy_safely) ( Char* dest, const Char* src, Int ndest );
extern Char* VG_(strncpy) ( Char* dest, const Char* src, Int ndest );
extern Bool VG_(stringMatch) ( Char* pat, Char* str );
#define VG__STRING(__str) #__str
/* Asserts are permanently enabled. Hurrah! */
#define vg_assert(expr) \
((void) ((expr) ? 0 : \
(VG_(assert_fail) (VG__STRING(expr), \
__FILE__, __LINE__, \
__PRETTY_FUNCTION__), 0)))
extern void VG_(assert_fail) ( Char* expr, Char* file,
Int line, Char* fn )
__attribute__ ((__noreturn__));
/* Reading and writing files. */
extern Int VG_(open_read) ( Char* pathname );
extern Int VG_(open_write) ( Char* pathname );
extern Int VG_(create_and_write) ( Char* pathname );
extern void VG_(close) ( Int fd );
extern Int VG_(read) ( Int fd, void* buf, Int count);
extern Int VG_(write) ( Int fd, void* buf, Int count);
extern Int VG_(stat) ( Char* file_name, struct vki_stat* buf );
extern Int VG_(fcntl) ( Int fd, Int cmd, Int arg );
extern Int VG_(select)( Int n,
vki_fd_set* readfds,
vki_fd_set* writefds,
vki_fd_set* exceptfds,
struct vki_timeval * timeout );
extern Int VG_(nanosleep)( const struct vki_timespec *req,
struct vki_timespec *rem );
/* mmap-ery ... */
extern void* VG_(mmap)( void* start, UInt length,
UInt prot, UInt flags, UInt fd, UInt offset );
extern Int VG_(munmap)( void* start, Int length );
extern void* VG_(brk) ( void* end_data_segment );
/* Print a (panic) message, and abort. */
extern void VG_(panic) ( Char* str )
__attribute__ ((__noreturn__));
/* Get memory by anonymous mmap. */
extern void* VG_(get_memory_from_mmap) ( Int nBytes, Char* who );
/* Crude stand-in for the glibc system() call. */
extern Int VG_(system) ( Char* cmd );
/* Signal stuff. Note that these use the vk_ (kernel) structure
definitions, which are different in places from those that glibc
defines. Since we're operating right at the kernel interface,
glibc's view of the world is entirely irrelevant. */
/* --- Signal set ops --- */
extern Int VG_(ksigfillset)( vki_ksigset_t* set );
extern Int VG_(ksigemptyset)( vki_ksigset_t* set );
extern Bool VG_(kisfullsigset)( vki_ksigset_t* set );
extern Bool VG_(kisemptysigset)( vki_ksigset_t* set );
extern Int VG_(ksigaddset)( vki_ksigset_t* set, Int signum );
extern Int VG_(ksigdelset)( vki_ksigset_t* set, Int signum );
extern Int VG_(ksigismember) ( vki_ksigset_t* set, Int signum );
extern void VG_(ksigaddset_from_set)( vki_ksigset_t* dst,
vki_ksigset_t* src );
extern void VG_(ksigdelset_from_set)( vki_ksigset_t* dst,
vki_ksigset_t* src );
/* --- Mess with the kernel's sig state --- */
extern Int VG_(ksigprocmask)( Int how, const vki_ksigset_t* set,
vki_ksigset_t* oldset );
extern Int VG_(ksigaction) ( Int signum,
const vki_ksigaction* act,
vki_ksigaction* oldact );
extern Int VG_(ksignal)(Int signum, void (*sighandler)(Int));
extern Int VG_(ksigaltstack)( const vki_kstack_t* ss, vki_kstack_t* oss );
extern Int VG_(kill)( Int pid, Int signo );
extern Int VG_(sigpending) ( vki_ksigset_t* set );
/* ---------------------------------------------------------------------
Definitions for the JITter (vg_translate.c, vg_to_ucode.c,
vg_from_ucode.c).
------------------------------------------------------------------ */
/* Tags which describe what operands are. */
typedef
enum { TempReg=0, ArchReg=1, RealReg=2,
SpillNo=3, Literal=4, Lit16=5,
NoValue=6 }
Tag;
/* Microinstruction opcodes. */
typedef
enum {
NOP,
GET,
PUT,
LOAD,
STORE,
MOV,
CMOV, /* Used for cmpxchg and cmov */
WIDEN,
JMP,
/* Read/write the %EFLAGS register into a TempReg. */
GETF, PUTF,
ADD, ADC, AND, OR, XOR, SUB, SBB,
SHL, SHR, SAR, ROL, ROR, RCL, RCR,
NOT, NEG, INC, DEC, BSWAP,
CC2VAL,
/* Not strictly needed, but useful for making better
translations of address calculations. */
LEA1, /* reg2 := const + reg1 */
LEA2, /* reg3 := const + reg1 + reg2 * 1,2,4 or 8 */
/* not for translating x86 calls -- only to call helpers */
CALLM_S, CALLM_E, /* Mark start and end of push/pop sequences
for CALLM. */
PUSH, POP, CLEAR, /* Add/remove/zap args for helpers. */
CALLM, /* call to a machine-code helper */
/* Hack for translating string (REP-) insns. Jump to literal if
TempReg/RealReg is zero. */
JIFZ,
/* FPU ops which read/write mem or don't touch mem at all. */
FPU_R,
FPU_W,
FPU,
/* Advance the simulated %eip by some small (< 128) number. */
INCEIP,
/* uinstrs which are not needed for mere translation of x86 code,
only for instrumentation of it. */
LOADV,
STOREV,
GETV,
PUTV,
TESTV,
SETV,
/* Get/set the v-bit (and it is only one bit) for the simulated
%eflags register. */
GETVF,
PUTVF,
/* Do a unary or binary tag op. Only for post-instrumented
code. For TAG1, first and only arg is a TempReg, and is both
arg and result reg. For TAG2, first arg is src, second is
dst, in the normal way; both are TempRegs. In both cases,
3rd arg is a RiCHelper with a Lit16 tag. This indicates
which tag op to do. */
TAG1,
TAG2
}
Opcode;
/* Condition codes, observing the Intel encoding. CondAlways is an
extra. */
typedef
enum {
CondO = 0, /* overflow */
CondNO = 1, /* no overflow */
CondB = 2, /* below */
CondNB = 3, /* not below */
CondZ = 4, /* zero */
CondNZ = 5, /* not zero */
CondBE = 6, /* below or equal */
CondNBE = 7, /* not below or equal */
CondS = 8, /* negative */
ConsNS = 9, /* not negative */
CondP = 10, /* parity even */
CondNP = 11, /* not parity even */
CondL = 12, /* jump less */
CondNL = 13, /* not less */
CondLE = 14, /* less or equal */
CondNLE = 15, /* not less or equal */
CondAlways = 16 /* Jump always */
}
Condcode;
/* Descriptions of additional properties of *unconditional* jumps. */
typedef
enum {
JmpBoring=0, /* boring unconditional jump */
JmpCall=1, /* jump due to an x86 call insn */
JmpRet=2, /* jump due to an x86 ret insn */
JmpSyscall=3, /* do a system call, then jump */
JmpClientReq=4 /* do a client request, then jump */
}
JmpKind;
/* Flags. User-level code can only read/write O(verflow), S(ign),
Z(ero), A(ux-carry), C(arry), P(arity), and may also write
D(irection). That's a total of 7 flags. A FlagSet is a bitset,
thusly:
76543210
DOSZACP
and bit 7 must always be zero since it is unused.
*/
typedef UChar FlagSet;
#define FlagD (1<<6)
#define FlagO (1<<5)
#define FlagS (1<<4)
#define FlagZ (1<<3)
#define FlagA (1<<2)
#define FlagC (1<<1)
#define FlagP (1<<0)
#define FlagsOSZACP (FlagO | FlagS | FlagZ | FlagA | FlagC | FlagP)
#define FlagsOSZAP (FlagO | FlagS | FlagZ | FlagA | FlagP)
#define FlagsOSZCP (FlagO | FlagS | FlagZ | FlagC | FlagP)
#define FlagsOSACP (FlagO | FlagS | FlagA | FlagC | FlagP)
#define FlagsSZACP ( FlagS | FlagZ | FlagA | FlagC | FlagP)
#define FlagsSZAP ( FlagS | FlagZ | FlagA | FlagP)
#define FlagsZCP ( FlagZ | FlagC | FlagP)
#define FlagsOC (FlagO | FlagC )
#define FlagsAC ( FlagA | FlagC )
#define FlagsALL (FlagsOSZACP | FlagD)
#define FlagsEmpty (FlagSet)0
#define VG_IS_FLAG_SUBSET(set1,set2) \
(( ((FlagSet)set1) & ((FlagSet)set2) ) == ((FlagSet)set1) )
#define VG_UNION_FLAG_SETS(set1,set2) \
( ((FlagSet)set1) | ((FlagSet)set2) )
/* A Micro (u)-instruction. */
typedef
struct {
/* word 1 */
UInt lit32; /* 32-bit literal */
/* word 2 */
UShort val1; /* first operand */
UShort val2; /* second operand */
/* word 3 */
UShort val3; /* third operand */
UChar opcode; /* opcode */
UChar size; /* data transfer size */
/* word 4 */
FlagSet flags_r; /* :: FlagSet */
FlagSet flags_w; /* :: FlagSet */
UChar tag1:4; /* first operand tag */
UChar tag2:4; /* second operand tag */
UChar tag3:4; /* third operand tag */
UChar extra4b:4; /* Spare field, used by WIDEN for src
-size, and by LEA2 for scale
(1,2,4 or 8), and by unconditional JMPs for
orig x86 instr size if --cachesim=yes */
/* word 5 */
UChar cond; /* condition, for jumps */
Bool smc_check:1; /* do a smc test, if writes memory. */
Bool signed_widen:1; /* signed or unsigned WIDEN ? */
JmpKind jmpkind:3; /* additional properties of unconditional JMP */
}
UInstr;
/* Expandable arrays of uinstrs. */
typedef
struct {
Int used;
Int size;
UInstr* instrs;
Int nextTemp;
}
UCodeBlock;
/* Refer to `the last instruction stuffed in', including as an
lvalue. */
#define LAST_UINSTR(cb) (cb)->instrs[(cb)->used-1]
/* An invalid temporary number :-) */
#define INVALID_TEMPREG 999999999
/* ---------------------------------------------------------------------
Exports of vg_demangle.c
------------------------------------------------------------------ */
extern void VG_(demangle) ( Char* orig, Char* result, Int result_size );
/* ---------------------------------------------------------------------
Exports of vg_from_ucode.c
------------------------------------------------------------------ */
extern UChar* VG_(emit_code) ( UCodeBlock* cb, Int* nbytes );
/* ---------------------------------------------------------------------
Exports of vg_to_ucode.c
------------------------------------------------------------------ */
extern Int VG_(disBB) ( UCodeBlock* cb, Addr eip0 );
extern Char* VG_(nameOfIntReg) ( Int size, Int reg );
extern Char VG_(nameOfIntSize) ( Int size );
extern UInt VG_(extend_s_8to32) ( UInt x );
extern Int VG_(getNewTemp) ( UCodeBlock* cb );
extern Int VG_(getNewShadow) ( UCodeBlock* cb );
#define SHADOW(tempreg) ((tempreg)+1)
/* ---------------------------------------------------------------------
Exports of vg_translate.c
------------------------------------------------------------------ */
extern void VG_(translate) ( ThreadState* tst,
Addr orig_addr,
UInt* orig_size,
Addr* trans_addr,
UInt* trans_size );
extern void VG_(emptyUInstr) ( UInstr* u );
extern void VG_(newUInstr0) ( UCodeBlock* cb, Opcode opcode, Int sz );
extern void VG_(newUInstr1) ( UCodeBlock* cb, Opcode opcode, Int sz,
Tag tag1, UInt val1 );
extern void VG_(newUInstr2) ( UCodeBlock* cb, Opcode opcode, Int sz,
Tag tag1, UInt val1,
Tag tag2, UInt val2 );
extern void VG_(newUInstr3) ( UCodeBlock* cb, Opcode opcode, Int sz,
Tag tag1, UInt val1,
Tag tag2, UInt val2,
Tag tag3, UInt val3 );
extern void VG_(setFlagRW) ( UInstr* u,
FlagSet fr, FlagSet fw );
extern void VG_(setLiteralField) ( UCodeBlock* cb, UInt lit32 );
extern Bool VG_(anyFlagUse) ( UInstr* u );
extern void VG_(ppUInstr) ( Int instrNo, UInstr* u );
extern void VG_(ppUCodeBlock) ( UCodeBlock* cb, Char* title );
extern UCodeBlock* VG_(allocCodeBlock) ( void );
extern void VG_(freeCodeBlock) ( UCodeBlock* cb );
extern void VG_(copyUInstr) ( UCodeBlock* cb, UInstr* instr );
extern Char* VG_(nameCondcode) ( Condcode cond );
extern Bool VG_(saneUInstr) ( Bool beforeRA, UInstr* u );
extern Bool VG_(saneUCodeBlock) ( UCodeBlock* cb );
extern Char* VG_(nameUOpcode) ( Bool upper, Opcode opc );
extern Int VG_(rankToRealRegNo) ( Int rank );
extern void* VG_(jitmalloc) ( Int nbytes );
extern void VG_(jitfree) ( void* ptr );
/* ---------------------------------------------------------------------
Exports of vg_execontext.c.
------------------------------------------------------------------ */
/* Records the PC and a bit of the call chain. The first 4 %eip
values are used in comparisons do remove duplicate errors, and for
comparing against suppression specifications. The rest are purely
informational (but often important). */
typedef
struct _ExeContextRec {
struct _ExeContextRec * next;
/* The size of this array is VG_(clo_backtrace_size); at least
2, at most VG_DEEPEST_BACKTRACE. [0] is the current %eip,
[1] is its caller, [2] is the caller of [1], etc. */
Addr eips[0];
}
ExeContext;
/* Initialise the ExeContext storage mechanism. */
extern void VG_(init_ExeContext_storage) ( void );
/* Print stats (informational only). */
extern void VG_(show_ExeContext_stats) ( void );
/* Take a snapshot of the client's stack. Search our collection of
ExeContexts to see if we already have it, and if not, allocate a
new one. Either way, return a pointer to the context. */
extern ExeContext* VG_(get_ExeContext) ( Bool skip_top_frame,
Addr eip, Addr ebp );
/* Print an ExeContext. */
extern void VG_(pp_ExeContext) ( ExeContext* );
/* Compare two ExeContexts, just comparing the top two callers. */
extern Bool VG_(eq_ExeContext_top2) ( ExeContext* e1, ExeContext* e2 );
/* Compare two ExeContexts, just comparing the top four callers. */
extern Bool VG_(eq_ExeContext_top4) ( ExeContext* e1, ExeContext* e2 );
/* Compare two ExeContexts, comparing all callers. */
extern Bool VG_(eq_ExeContext_all) ( ExeContext* e1, ExeContext* e2 );
/* ---------------------------------------------------------------------
Exports of vg_errcontext.c.
------------------------------------------------------------------ */
extern void VG_(load_suppressions) ( void );
extern void VG_(show_all_errors) ( void );
extern void VG_(record_value_error) ( Int size );
extern void VG_(record_free_error) ( ThreadState* tst, Addr a );
extern void VG_(record_freemismatch_error) ( ThreadState* tst, Addr a );
extern void VG_(record_address_error) ( Addr a, Int size,
Bool isWrite );
extern void VG_(record_jump_error) ( ThreadState* tst, Addr a );
extern void VG_(record_param_err) ( ThreadState* tst,
Addr a,
Bool isWriteLack,
Char* msg );
extern void VG_(record_user_err) ( ThreadState* tst,
Addr a, Bool isWriteLack );
extern void VG_(record_pthread_err) ( ThreadId tid, Char* msg );
/* The classification of a faulting address. */
typedef
enum { Undescribed, /* as-yet unclassified */
Stack,
Unknown, /* classification yielded nothing useful */
Freed, Mallocd,
UserG, UserS }
AddrKind;
/* Records info about a faulting address. */
typedef
struct {
/* ALL */
AddrKind akind;
/* Freed, Mallocd */
Int blksize;
/* Freed, Mallocd */
Int rwoffset;
/* Freed, Mallocd */
ExeContext* lastchange;
/* Stack */
ThreadId stack_tid;
/* True if is just-below %esp -- could be a gcc bug. */
Bool maybe_gcc;
}
AddrInfo;
/* ---------------------------------------------------------------------
Exports of vg_clientperms.c
------------------------------------------------------------------ */
extern Bool VG_(client_perm_maybe_describe)( Addr a, AddrInfo* ai );
extern UInt VG_(handle_client_request) ( ThreadState* tst, UInt* arg_block );
extern void VG_(delete_client_stack_blocks_following_ESP_change) ( void );
extern void VG_(show_client_block_stats) ( void );
/* ---------------------------------------------------------------------
Exports of vg_procselfmaps.c
------------------------------------------------------------------ */
extern
void VG_(read_procselfmaps) (
void (*record_mapping)( Addr, UInt, Char, Char, Char, UInt, UChar* )
);
/* ---------------------------------------------------------------------
Exports of vg_symtab2.c
------------------------------------------------------------------ */
/* We assume the executable is loaded here ... can't really find
out. There is a hacky sanity check in vg_init_memory_audit()
which should trip up most stupidities.
*/
#define VG_ASSUMED_EXE_BASE (Addr)0x8048000
extern void VG_(read_symbols) ( void );
extern void VG_(mini_stack_dump) ( ExeContext* ec );
extern void VG_(what_obj_and_fun_is_this)
( Addr a,
Char* obj_buf, Int n_obj_buf,
Char* fun_buf, Int n_fun_buf );
extern Bool VG_(what_line_is_this) ( Addr a,
UChar* filename, Int n_filename,
UInt* lineno );
extern Bool VG_(what_fn_is_this) ( Bool no_demangle, Addr a,
Char* fn_name, Int n_fn_name);
extern Bool VG_(is_munmap_exe) ( Addr start, UInt length );
extern void VG_(symtab_notify_munmap) ( Addr start, UInt length );
/* ---------------------------------------------------------------------
Exports of vg_clientmalloc.c
------------------------------------------------------------------ */
typedef
enum {
Vg_AllocMalloc = 0,
Vg_AllocNew = 1,
Vg_AllocNewVec = 2
}
VgAllocKind;
/* Description of a malloc'd chunk. */
typedef
struct _ShadowChunk {
struct _ShadowChunk* next;
ExeContext* where; /* where malloc'd/free'd */
UInt size : 30; /* size requested. */
VgAllocKind allockind : 2; /* which wrapper did the allocation */
Addr data; /* ptr to actual block. */
}
ShadowChunk;
extern void VG_(clientmalloc_done) ( void );
extern void VG_(describe_addr) ( Addr a, AddrInfo* ai );
extern ShadowChunk** VG_(get_malloc_shadows) ( /*OUT*/ UInt* n_shadows );
/* These are called from the scheduler, when it intercepts a user
request. */
extern void* VG_(client_malloc) ( ThreadState* tst,
UInt size, VgAllocKind kind );
extern void* VG_(client_memalign) ( ThreadState* tst,
UInt align, UInt size );
extern void VG_(client_free) ( ThreadState* tst,
void* ptrV, VgAllocKind kind );
extern void* VG_(client_calloc) ( ThreadState* tst,
UInt nmemb, UInt size1 );
extern void* VG_(client_realloc) ( ThreadState* tst,
void* ptrV, UInt size_new );
/* ---------------------------------------------------------------------
Exports of vg_main.c
------------------------------------------------------------------ */
/* A structure used as an intermediary when passing the simulated
CPU's state to some assembly fragments, particularly system calls.
Stuff is copied from baseBlock to here, the assembly magic runs,
and then the inverse copy is done. */
extern UInt VG_(m_state_static) [8 /* int regs, in Intel order */
+ 1 /* %eflags */
+ 1 /* %eip */
+ (108/4) /* real FPU state */
];
/* Handy fns for doing the copy back and forth. */
extern void VG_(copy_baseBlock_to_m_state_static) ( void );
extern void VG_(copy_m_state_static_to_baseBlock) ( void );
/* Called when some unhandleable client behaviour is detected.
Prints a msg and aborts. */
extern void VG_(unimplemented) ( Char* msg );
extern void VG_(nvidia_moan) ( void );
/* The stack on which Valgrind runs. We can't use the same stack as the
simulatee -- that's an important design decision. */
extern UInt VG_(stack)[10000];
/* Similarly, we have to ask for signals to be delivered on an
alternative stack, since it is possible, although unlikely, that
we'll have to run client code from inside the Valgrind-installed
signal handler. If this happens it will be done by
vg_deliver_signal_immediately(). */
extern UInt VG_(sigstack)[10000];
/* Holds client's %esp at the point we gained control. From this the
client's argc, argv and envp are deduced. */
extern Addr VG_(esp_at_startup);
extern Int VG_(client_argc);
extern Char** VG_(client_argv);
extern Char** VG_(client_envp);
/* Remove valgrind.so from a LD_PRELOAD=... string so child processes
don't get traced into. Also mess up $libdir/valgrind so that our
libpthread.so disappears from view. */
void VG_(mash_LD_PRELOAD_and_LD_LIBRARY_PATH) ( Char* ld_preload_str,
Char* ld_library_path_str );
/* Something of a function looking for a home ... start up GDB. This
is called from VG_(swizzle_esp_then_start_GDB) and so runs on the
*client's* stack. This is necessary to give GDB the illusion that
the client program really was running on the real cpu. */
extern void VG_(start_GDB_whilst_on_client_stack) ( void );
/* Spew out vast amounts of junk during JITting? */
extern Bool VG_(disassemble);
/* 64-bit counter for the number of basic blocks done. */
extern ULong VG_(bbs_done);
/* 64-bit counter for the number of bbs to go before a debug exit. */
extern ULong VG_(bbs_to_go);
/* Counts downwards in vg_run_innerloop. */
extern UInt VG_(dispatch_ctr);
/* Is the client running on the simulated CPU or the real one? */
extern Bool VG_(running_on_simd_CPU); /* Initially False */
/* The current LRU epoch. */
extern UInt VG_(current_epoch);
/* This is the ThreadId of the last thread the scheduler ran. */
extern ThreadId VG_(last_run_tid);
/* This is the argument to __NR_exit() supplied by the first thread to
call that syscall. We eventually pass that to __NR_exit() for
real. */
extern UInt VG_(exitcode);
/* --- Counters, for informational purposes only. --- */
/* Number of lookups which miss the fast tt helper. */
extern UInt VG_(tt_fast_misses);
/* Counts for LRU informational messages. */
/* Number and total o/t size of new translations this epoch. */
extern UInt VG_(this_epoch_in_count);
extern UInt VG_(this_epoch_in_osize);
extern UInt VG_(this_epoch_in_tsize);
/* Number and total o/t size of discarded translations this epoch. */
extern UInt VG_(this_epoch_out_count);
extern UInt VG_(this_epoch_out_osize);
extern UInt VG_(this_epoch_out_tsize);
/* Number and total o/t size of translations overall. */
extern UInt VG_(overall_in_count);
extern UInt VG_(overall_in_osize);
extern UInt VG_(overall_in_tsize);
/* Number and total o/t size of discards overall. */
extern UInt VG_(overall_out_count);
extern UInt VG_(overall_out_osize);
extern UInt VG_(overall_out_tsize);
/* The number of LRU-clearings of TT/TC. */
extern UInt VG_(number_of_lrus);
/* Counts pertaining to the register allocator. */
/* total number of uinstrs input to reg-alloc */
extern UInt VG_(uinstrs_prealloc);
/* total number of uinstrs added due to spill code */
extern UInt VG_(uinstrs_spill);
/* number of bbs requiring spill code */
extern UInt VG_(translations_needing_spill);
/* total of register ranks over all translations */
extern UInt VG_(total_reg_rank);
/* Counts pertaining to internal sanity checking. */
extern UInt VG_(sanity_fast_count);
extern UInt VG_(sanity_slow_count);
/* Counts pertaining to the scheduler. */
extern UInt VG_(num_scheduling_events_MINOR);
extern UInt VG_(num_scheduling_events_MAJOR);
/* ---------------------------------------------------------------------
Exports of vg_memory.c
------------------------------------------------------------------ */
extern void VGM_(init_memory_audit) ( void );
extern Addr VGM_(curr_dataseg_end);
extern void VG_(show_reg_tags) ( void );
extern void VG_(detect_memory_leaks) ( void );
extern void VG_(done_prof_mem) ( void );
/* Set permissions for an address range. Not speed-critical. */
extern void VGM_(make_noaccess) ( Addr a, UInt len );
extern void VGM_(make_writable) ( Addr a, UInt len );
extern void VGM_(make_readable) ( Addr a, UInt len );
/* Use with care! (read: use for shmat only) */
extern void VGM_(make_readwritable) ( Addr a, UInt len );
extern void VGM_(copy_address_range_perms) ( Addr src, Addr dst,
UInt len );
/* Check permissions for an address range. Not speed-critical. */
extern Bool VGM_(check_writable) ( Addr a, UInt len, Addr* bad_addr );
extern Bool VGM_(check_readable) ( Addr a, UInt len, Addr* bad_addr );
extern Bool VGM_(check_readable_asciiz) ( Addr a, Addr* bad_addr );
/* Sanity checks which may be done at any time. The scheduler decides
when. */
extern void VG_(do_sanity_checks) ( Bool force_expensive );
/* Very cheap ... */
extern Bool VG_(first_and_last_secondaries_look_plausible) ( void );
/* These functions are called from generated code. */
extern void VG_(helperc_STOREV4) ( UInt, Addr );
extern void VG_(helperc_STOREV2) ( UInt, Addr );
extern void VG_(helperc_STOREV1) ( UInt, Addr );
extern UInt VG_(helperc_LOADV1) ( Addr );
extern UInt VG_(helperc_LOADV2) ( Addr );
extern UInt VG_(helperc_LOADV4) ( Addr );
extern void VGM_(handle_esp_assignment) ( Addr new_espA );
extern void VGM_(fpu_write_check) ( Addr addr, Int size );
extern void VGM_(fpu_read_check) ( Addr addr, Int size );
/* Safely (avoiding SIGSEGV / SIGBUS) scan the entire valid address
space and pass the addresses and values of all addressible,
defined, aligned words to notify_word. This is the basis for the
leak detector. Returns the number of calls made to notify_word. */
UInt VG_(scan_all_valid_memory) ( void (*notify_word)( Addr, UInt ) );
/* Is this address within some small distance below %ESP? Used only
for the --workaround-gcc296-bugs kludge. */
extern Bool VG_(is_just_below_ESP)( Addr esp, Addr aa );
/* Nasty kludgery to deal with applications which switch stacks,
like netscape. */
#define VG_PLAUSIBLE_STACK_SIZE 8000000
/* Needed by the pthreads implementation. */
#define VGM_WORD_VALID 0
#define VGM_WORD_INVALID 0xFFFFFFFF
/* ---------------------------------------------------------------------
Exports of vg_syscall_mem.c
------------------------------------------------------------------ */
extern void VG_(perform_assumed_nonblocking_syscall) ( ThreadId tid );
extern void VG_(check_known_blocking_syscall) ( ThreadId tid,
Int syscallno,
Int* /*IN*/ res );
extern Bool VG_(is_kerror) ( Int res );
#define KERNEL_DO_SYSCALL(thread_id, result_lvalue) \
VG_(load_thread_state)(thread_id); \
VG_(copy_baseBlock_to_m_state_static)(); \
VG_(do_syscall)(); \
VG_(copy_m_state_static_to_baseBlock)(); \
VG_(save_thread_state)(thread_id); \
VG_(threads)[thread_id].sh_eax = VGM_WORD_VALID; \
result_lvalue = VG_(threads)[thread_id].vex.guest_EAX;
/* ---------------------------------------------------------------------
Exports of vg_transtab.c
------------------------------------------------------------------ */
/* An entry in the translation table (TT). */
typedef
struct {
/* +0 */ Addr orig_addr;
/* +4 */ Addr trans_addr;
/* +8 */ UInt mru_epoch;
/* +12 */ UShort orig_size;
/* +14 */ UShort trans_size;
}
TTEntry;
/* The number of basic blocks in an epoch (one age-step). */
#define VG_BBS_PER_EPOCH 20000
extern void VG_(get_tt_tc_used) ( UInt* tt_used, UInt* tc_used );
extern void VG_(maybe_do_lru_pass) ( void );
extern void VG_(flush_transtab) ( void );
extern Addr VG_(copy_to_transcache) ( Addr trans_addr, Int trans_size );
extern void VG_(add_to_trans_tab) ( TTEntry* tte );
extern void VG_(invalidate_translations) ( Addr start, UInt range );
extern void VG_(init_tt_tc) ( void );
extern void VG_(sanity_check_tc_tt) ( void );
extern Addr VG_(search_transtab) ( Addr original_addr );
extern void VG_(invalidate_tt_fast)( void );
/* ---------------------------------------------------------------------
Exports of vg_vtagops.c
------------------------------------------------------------------ */
/* Lists the names of value-tag operations used in instrumented
code. These are the third argument to TAG1 and TAG2 uinsns. */
typedef
enum {
/* Unary. */
VgT_PCast40, VgT_PCast20, VgT_PCast10,
VgT_PCast01, VgT_PCast02, VgT_PCast04,
VgT_PCast14, VgT_PCast12, VgT_PCast11,
VgT_Left4, VgT_Left2, VgT_Left1,
VgT_SWiden14, VgT_SWiden24, VgT_SWiden12,
VgT_ZWiden14, VgT_ZWiden24, VgT_ZWiden12,
/* Binary; 1st is rd; 2nd is rd+wr */
VgT_UifU4, VgT_UifU2, VgT_UifU1, VgT_UifU0,
VgT_DifD4, VgT_DifD2, VgT_DifD1,
VgT_ImproveAND4_TQ, VgT_ImproveAND2_TQ, VgT_ImproveAND1_TQ,
VgT_ImproveOR4_TQ, VgT_ImproveOR2_TQ, VgT_ImproveOR1_TQ,
VgT_DebugFn
}
VgTagOp;
extern Char* VG_(nameOfTagOp) ( VgTagOp );
extern UInt VG_(DebugFn) ( UInt a1, UInt a2 );
/* ---------------------------------------------------------------------
Exports of vg_syscall.S
------------------------------------------------------------------ */
extern void VG_(do_syscall) ( void );
/* ---------------------------------------------------------------------
Exports of vg_startup.S
------------------------------------------------------------------ */
extern void VG_(switch_to_real_CPU) ( void );
extern void VG_(swizzle_esp_then_start_GDB) ( Addr m_eip_at_error,
Addr m_esp_at_error,
Addr m_ebp_at_error );
/* ---------------------------------------------------------------------
Exports of vg_dispatch.S
------------------------------------------------------------------ */
/* Run a thread for a (very short) while, until some event happens
which means we need to defer to the scheduler. */
extern UInt VG_(run_innerloop) ( void );
/* ---------------------------------------------------------------------
Exports of vg_helpers.S
------------------------------------------------------------------ */
/* Mul, div, etc, -- we don't codegen these directly. */
extern void VG_(helper_idiv_64_32);
extern void VG_(helper_div_64_32);
extern void VG_(helper_idiv_32_16);
extern void VG_(helper_div_32_16);
extern void VG_(helper_idiv_16_8);
extern void VG_(helper_div_16_8);
extern void VG_(helper_imul_32_64);
extern void VG_(helper_mul_32_64);
extern void VG_(helper_imul_16_32);
extern void VG_(helper_mul_16_32);
extern void VG_(helper_imul_8_16);
extern void VG_(helper_mul_8_16);
extern void VG_(helper_CLD);
extern void VG_(helper_STD);
extern void VG_(helper_get_dirflag);
extern void VG_(helper_CLC);
extern void VG_(helper_STC);
extern void VG_(helper_shldl);
extern void VG_(helper_shldw);
extern void VG_(helper_shrdl);
extern void VG_(helper_shrdw);
extern void VG_(helper_RDTSC);
extern void VG_(helper_CPUID);
extern void VG_(helper_bsf);
extern void VG_(helper_bsr);
extern void VG_(helper_fstsw_AX);
extern void VG_(helper_SAHF);
extern void VG_(helper_DAS);
extern void VG_(helper_DAA);
extern void VG_(helper_value_check4_fail);
extern void VG_(helper_value_check2_fail);
extern void VG_(helper_value_check1_fail);
extern void VG_(helper_value_check0_fail);
/* NOT A FUNCTION; this is a bogus RETURN ADDRESS. */
extern void VG_(signalreturn_bogusRA)( void );
/* ---------------------------------------------------------------------
Exports of vg_cachesim.c
------------------------------------------------------------------ */
extern Int VG_(log2) ( Int x );
extern UCodeBlock* VG_(cachesim_instrument) ( UCodeBlock* cb_in,
Addr orig_addr );
typedef struct _iCC iCC;
typedef struct _idCC idCC;
typedef struct _iddCC iddCC;
extern void VG_(init_cachesim) ( void );
extern void VG_(do_cachesim_results)( Int client_argc, Char** client_argv );
extern void VG_(log_1I_0D_cache_access)( iCC* cc );
extern void VG_(log_0I_1D_cache_access)( idCC* cc, Addr data_addr );
extern void VG_(log_1I_1D_cache_access)( idCC* cc, Addr data_addr );
extern void VG_(log_0I_2D_cache_access)( iddCC* cc, Addr data_addr1,
Addr data_addr2 );
extern void VG_(log_1I_2D_cache_access)( iddCC* cc, Addr data_addr1,
Addr data_addr2 );
extern void VG_(cachesim_notify_discard) ( TTEntry* tte );
/* ---------------------------------------------------------------------
The state of the simulated CPU.
------------------------------------------------------------------ */
/* This is the Intel register encoding. */
#define R_EAX 0
#define R_ECX 1
#define R_EDX 2
#define R_EBX 3
#define R_ESP 4
#define R_EBP 5
#define R_ESI 6
#define R_EDI 7
#define R_AL (0+R_EAX)
#define R_CL (0+R_ECX)
#define R_DL (0+R_EDX)
#define R_BL (0+R_EBX)
#define R_AH (4+R_EAX)
#define R_CH (4+R_ECX)
#define R_DH (4+R_EDX)
#define R_BH (4+R_EBX)
/* ---------------------------------------------------------------------
Offsets into baseBlock for everything which needs to referred to
from generated code. The order of these decls does not imply
what the order of the actual offsets is. The latter is important
and is set up in vg_main.c.
------------------------------------------------------------------ */
/* An array of words. In generated code, %ebp always points to the
start of this array. Useful stuff, like the simulated CPU state,
and the addresses of helper functions, can then be found by
indexing off %ebp. The following declares variables which, at
startup time, are given values denoting offsets into baseBlock.
These offsets are in *words* from the start of baseBlock. */
#define VG_BASEBLOCK_WORDS 200
extern UInt VG_(baseBlock)[VG_BASEBLOCK_WORDS];
/* -----------------------------------------------------
Read-write parts of baseBlock.
-------------------------------------------------- */
/* State of the simulated CPU. */
extern Int VGOFF_(m_vex);
extern Int VGOFF_(m_eipS);
/* Reg-alloc spill area (VG_MAX_SPILLSLOTS words long). */
extern Int VGOFF_(spillslots);
/* Records the valid bits for the 8 integer regs & flags reg. */
extern Int VGOFF_(sh_eax);
extern Int VGOFF_(sh_ecx);
extern Int VGOFF_(sh_edx);
extern Int VGOFF_(sh_ebx);
extern Int VGOFF_(sh_esp);
extern Int VGOFF_(sh_ebp);
extern Int VGOFF_(sh_esi);
extern Int VGOFF_(sh_edi);
extern Int VGOFF_(sh_eflags);
/* -----------------------------------------------------
Read-only parts of baseBlock.
-------------------------------------------------- */
/* Offsets of addresses of helper functions. A "helper" function is
one which is called from generated code. */
extern Int VGOFF_(helper_idiv_64_32);
extern Int VGOFF_(helper_div_64_32);
extern Int VGOFF_(helper_idiv_32_16);
extern Int VGOFF_(helper_div_32_16);
extern Int VGOFF_(helper_idiv_16_8);
extern Int VGOFF_(helper_div_16_8);
extern Int VGOFF_(helper_imul_32_64);
extern Int VGOFF_(helper_mul_32_64);
extern Int VGOFF_(helper_imul_16_32);
extern Int VGOFF_(helper_mul_16_32);
extern Int VGOFF_(helper_imul_8_16);
extern Int VGOFF_(helper_mul_8_16);
extern Int VGOFF_(helper_CLD);
extern Int VGOFF_(helper_STD);
extern Int VGOFF_(helper_get_dirflag);
extern Int VGOFF_(helper_CLC);
extern Int VGOFF_(helper_STC);
extern Int VGOFF_(helper_shldl);
extern Int VGOFF_(helper_shldw);
extern Int VGOFF_(helper_shrdl);
extern Int VGOFF_(helper_shrdw);
extern Int VGOFF_(helper_RDTSC);
extern Int VGOFF_(helper_CPUID);
extern Int VGOFF_(helper_bsf);
extern Int VGOFF_(helper_bsr);
extern Int VGOFF_(helper_fstsw_AX);
extern Int VGOFF_(helper_SAHF);
extern Int VGOFF_(helper_DAS);
extern Int VGOFF_(helper_DAA);
extern Int VGOFF_(helper_value_check4_fail);
extern Int VGOFF_(helper_value_check2_fail);
extern Int VGOFF_(helper_value_check1_fail);
extern Int VGOFF_(helper_value_check0_fail);
extern Int VGOFF_(helperc_STOREV4); /* :: UInt -> Addr -> void */
extern Int VGOFF_(helperc_STOREV2); /* :: UInt -> Addr -> void */
extern Int VGOFF_(helperc_STOREV1); /* :: UInt -> Addr -> void */
extern Int VGOFF_(helperc_LOADV4); /* :: Addr -> UInt -> void */
extern Int VGOFF_(helperc_LOADV2); /* :: Addr -> UInt -> void */
extern Int VGOFF_(helperc_LOADV1); /* :: Addr -> UInt -> void */
extern Int VGOFF_(handle_esp_assignment); /* :: Addr -> void */
extern Int VGOFF_(fpu_write_check); /* :: Addr -> Int -> void */
extern Int VGOFF_(fpu_read_check); /* :: Addr -> Int -> void */
extern Int VGOFF_(log_1I_0D_cache_access);
extern Int VGOFF_(log_0I_1D_cache_access);
extern Int VGOFF_(log_1I_1D_cache_access);
extern Int VGOFF_(log_0I_2D_cache_access);
extern Int VGOFF_(log_1I_2D_cache_access);
#endif /* ndef __VG_INCLUDE_H */
/* ---------------------------------------------------------------------
Finally - autoconf-generated settings
------------------------------------------------------------------ */
#include "config.h"
/*--------------------------------------------------------------------*/
/*--- end vg_include.h ---*/
/*--------------------------------------------------------------------*/