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/* SPDX-License-Identifier: bzip2-1.0.6 */
/*
   This file is part of MemCheck, a heavyweight Valgrind tool for
   detecting memory errors.

   Copyright (C) 2000-2017 Julian Seward.  All rights reserved.
 */

#ifndef __MEMCHECK_H
#define __MEMCHECK_H


/* This file is for inclusion into client (your!) code.

   You can use these macros to manipulate and query memory permissions
   inside your own programs.

   See comment near the top of valgrind.h on how to use them.
*/

#include "valgrind.h"

/* !! ABIWARNING !! ABIWARNING !! ABIWARNING !! ABIWARNING !! 
   This enum comprises an ABI exported by Valgrind to programs
   which use client requests.  DO NOT CHANGE THE ORDER OF THESE
   ENTRIES, NOR DELETE ANY -- add new ones at the end. */
typedef
   enum { 
      VG_USERREQ__MAKE_MEM_NOACCESS = VG_USERREQ_TOOL_BASE('M','C'),
      VG_USERREQ__MAKE_MEM_UNDEFINED,
      VG_USERREQ__MAKE_MEM_DEFINED,
      VG_USERREQ__DISCARD,
      VG_USERREQ__CHECK_MEM_IS_ADDRESSABLE,
      VG_USERREQ__CHECK_MEM_IS_DEFINED,
      VG_USERREQ__DO_LEAK_CHECK,
      VG_USERREQ__COUNT_LEAKS,

      VG_USERREQ__GET_VBITS,
      VG_USERREQ__SET_VBITS,

      VG_USERREQ__CREATE_BLOCK,

      VG_USERREQ__MAKE_MEM_DEFINED_IF_ADDRESSABLE,

      /* Not next to VG_USERREQ__COUNT_LEAKS because it was added later. */
      VG_USERREQ__COUNT_LEAK_BLOCKS,

      VG_USERREQ__ENABLE_ADDR_ERROR_REPORTING_IN_RANGE,
      VG_USERREQ__DISABLE_ADDR_ERROR_REPORTING_IN_RANGE,

      /* This is just for memcheck's internal use - don't use it */
      _VG_USERREQ__MEMCHECK_RECORD_OVERLAP_ERROR 
         = VG_USERREQ_TOOL_BASE('M','C') + 256
   } Vg_MemCheckClientRequest;



/* Client-code macros to manipulate the state of memory. */

/* Mark memory at _qzz_addr as unaddressable for _qzz_len bytes. */
#define VALGRIND_MAKE_MEM_NOACCESS(_qzz_addr,_qzz_len)           \
    VALGRIND_DO_CLIENT_REQUEST_STMT(                             \
                            VG_USERREQ__MAKE_MEM_NOACCESS,       \
                            (_qzz_addr), (_qzz_len), 0, 0, 0)
      
/* Similarly, mark memory at _qzz_addr as addressable but undefined
   for _qzz_len bytes. */
#define VALGRIND_MAKE_MEM_UNDEFINED(_qzz_addr,_qzz_len)          \
    VALGRIND_DO_CLIENT_REQUEST_STMT(                             \
                            VG_USERREQ__MAKE_MEM_UNDEFINED,      \
                            (_qzz_addr), (_qzz_len), 0, 0, 0)

/* Similarly, mark memory at _qzz_addr as addressable and defined
   for _qzz_len bytes. */
#define VALGRIND_MAKE_MEM_DEFINED(_qzz_addr,_qzz_len)            \
    VALGRIND_DO_CLIENT_REQUEST_STMT(                             \
                            VG_USERREQ__MAKE_MEM_DEFINED,        \
                            (_qzz_addr), (_qzz_len), 0, 0, 0)

/* Similar to VALGRIND_MAKE_MEM_DEFINED except that addressability is
   not altered: bytes which are addressable are marked as defined,
   but those which are not addressable are left unchanged. */
#define VALGRIND_MAKE_MEM_DEFINED_IF_ADDRESSABLE(_qzz_addr,_qzz_len)     \
    VALGRIND_DO_CLIENT_REQUEST_STMT(                                     \
                            VG_USERREQ__MAKE_MEM_DEFINED_IF_ADDRESSABLE, \
                            (_qzz_addr), (_qzz_len), 0, 0, 0)

/* Create a block-description handle.  The description is an ascii
   string which is included in any messages pertaining to addresses
   within the specified memory range.  Has no other effect on the
   properties of the memory range. */
#define VALGRIND_CREATE_BLOCK(_qzz_addr,_qzz_len, _qzz_desc)	   \
    VALGRIND_DO_CLIENT_REQUEST_STMT(                               \
                            VG_USERREQ__CREATE_BLOCK,              \
                            (_qzz_addr), (_qzz_len), (_qzz_desc),  \
                            0, 0)

/* Discard a block-description-handle. Returns 1 for an
   invalid handle, 0 for a valid handle. */
#define VALGRIND_DISCARD(_qzz_blkindex)                          \
    VALGRIND_DO_CLIENT_REQUEST_EXPR(0 /* default return */,      \
                            VG_USERREQ__DISCARD,                 \
                            0, (_qzz_blkindex), 0, 0, 0)


/* Client-code macros to check the state of memory. */

/* Check that memory at _qzz_addr is addressable for _qzz_len bytes.
   If suitable addressibility is not established, Valgrind prints an
   error message and returns the address of the first offending byte.
   Otherwise it returns zero. */
#define VALGRIND_CHECK_MEM_IS_ADDRESSABLE(_qzz_addr,_qzz_len)      \
    VALGRIND_DO_CLIENT_REQUEST_EXPR(0,                             \
                            VG_USERREQ__CHECK_MEM_IS_ADDRESSABLE,  \
                            (_qzz_addr), (_qzz_len), 0, 0, 0)

/* Check that memory at _qzz_addr is addressable and defined for
   _qzz_len bytes.  If suitable addressibility and definedness are not
   established, Valgrind prints an error message and returns the
   address of the first offending byte.  Otherwise it returns zero. */
#define VALGRIND_CHECK_MEM_IS_DEFINED(_qzz_addr,_qzz_len)        \
    VALGRIND_DO_CLIENT_REQUEST_EXPR(0,                           \
                            VG_USERREQ__CHECK_MEM_IS_DEFINED,    \
                            (_qzz_addr), (_qzz_len), 0, 0, 0)

/* Use this macro to force the definedness and addressibility of an
   lvalue to be checked.  If suitable addressibility and definedness
   are not established, Valgrind prints an error message and returns
   the address of the first offending byte.  Otherwise it returns
   zero. */
#define VALGRIND_CHECK_VALUE_IS_DEFINED(__lvalue)                \
   VALGRIND_CHECK_MEM_IS_DEFINED(                                \
      (volatile unsigned char *)&(__lvalue),                     \
                      (unsigned long)(sizeof (__lvalue)))


/* Do a full memory leak check (like --leak-check=full) mid-execution. */
#define VALGRIND_DO_LEAK_CHECK                                   \
    VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__DO_LEAK_CHECK,   \
                                    0, 0, 0, 0, 0)

/* Same as VALGRIND_DO_LEAK_CHECK but only showing the entries for
   which there was an increase in leaked bytes or leaked nr of blocks
   since the previous leak search. */
#define VALGRIND_DO_ADDED_LEAK_CHECK                            \
    VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__DO_LEAK_CHECK,  \
                                    0, 1, 0, 0, 0)

/* Same as VALGRIND_DO_ADDED_LEAK_CHECK but showing entries with
   increased or decreased leaked bytes/blocks since previous leak
   search. */
#define VALGRIND_DO_CHANGED_LEAK_CHECK                          \
    VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__DO_LEAK_CHECK,  \
                                    0, 2, 0, 0, 0)

/* Do a summary memory leak check (like --leak-check=summary) mid-execution. */
#define VALGRIND_DO_QUICK_LEAK_CHECK                             \
    VALGRIND_DO_CLIENT_REQUEST_STMT(VG_USERREQ__DO_LEAK_CHECK,   \
                                    1, 0, 0, 0, 0)

/* Return number of leaked, dubious, reachable and suppressed bytes found by
   all previous leak checks.  They must be lvalues.  */
#define VALGRIND_COUNT_LEAKS(leaked, dubious, reachable, suppressed)     \
   /* For safety on 64-bit platforms we assign the results to private
      unsigned long variables, then assign these to the lvalues the user
      specified, which works no matter what type 'leaked', 'dubious', etc
      are.  We also initialise '_qzz_leaked', etc because
      VG_USERREQ__COUNT_LEAKS doesn't mark the values returned as
      defined. */                                                        \
   {                                                                     \
    unsigned long _qzz_leaked    = 0, _qzz_dubious    = 0;               \
    unsigned long _qzz_reachable = 0, _qzz_suppressed = 0;               \
    VALGRIND_DO_CLIENT_REQUEST_STMT(                                     \
                               VG_USERREQ__COUNT_LEAKS,                  \
                               &_qzz_leaked, &_qzz_dubious,              \
                               &_qzz_reachable, &_qzz_suppressed, 0);    \
    leaked     = _qzz_leaked;                                            \
    dubious    = _qzz_dubious;                                           \
    reachable  = _qzz_reachable;                                         \
    suppressed = _qzz_suppressed;                                        \
   }

/* Return number of leaked, dubious, reachable and suppressed bytes found by
   all previous leak checks.  They must be lvalues.  */
#define VALGRIND_COUNT_LEAK_BLOCKS(leaked, dubious, reachable, suppressed) \
   /* For safety on 64-bit platforms we assign the results to private
      unsigned long variables, then assign these to the lvalues the user
      specified, which works no matter what type 'leaked', 'dubious', etc
      are.  We also initialise '_qzz_leaked', etc because
      VG_USERREQ__COUNT_LEAKS doesn't mark the values returned as
      defined. */                                                        \
   {                                                                     \
    unsigned long _qzz_leaked    = 0, _qzz_dubious    = 0;               \
    unsigned long _qzz_reachable = 0, _qzz_suppressed = 0;               \
    VALGRIND_DO_CLIENT_REQUEST_STMT(                                     \
                               VG_USERREQ__COUNT_LEAK_BLOCKS,            \
                               &_qzz_leaked, &_qzz_dubious,              \
                               &_qzz_reachable, &_qzz_suppressed, 0);    \
    leaked     = _qzz_leaked;                                            \
    dubious    = _qzz_dubious;                                           \
    reachable  = _qzz_reachable;                                         \
    suppressed = _qzz_suppressed;                                        \
   }


/* Get the validity data for addresses [zza..zza+zznbytes-1] and copy it
   into the provided zzvbits array.  Return values:
      0   if not running on valgrind
      1   success
      2   [previously indicated unaligned arrays;  these are now allowed]
      3   if any parts of zzsrc/zzvbits are not addressable.
   The metadata is not copied in cases 0, 2 or 3 so it should be
   impossible to segfault your system by using this call.
*/
#define VALGRIND_GET_VBITS(zza,zzvbits,zznbytes)                \
    (unsigned)VALGRIND_DO_CLIENT_REQUEST_EXPR(0,                \
                                    VG_USERREQ__GET_VBITS,      \
                                    (const char*)(zza),         \
                                    (char*)(zzvbits),           \
                                    (zznbytes), 0, 0)

/* Set the validity data for addresses [zza..zza+zznbytes-1], copying it
   from the provided zzvbits array.  Return values:
      0   if not running on valgrind
      1   success
      2   [previously indicated unaligned arrays;  these are now allowed]
      3   if any parts of zza/zzvbits are not addressable.
   The metadata is not copied in cases 0, 2 or 3 so it should be
   impossible to segfault your system by using this call.
*/
#define VALGRIND_SET_VBITS(zza,zzvbits,zznbytes)                \
    (unsigned)VALGRIND_DO_CLIENT_REQUEST_EXPR(0,                \
                                    VG_USERREQ__SET_VBITS,      \
                                    (const char*)(zza),         \
                                    (const char*)(zzvbits),     \
                                    (zznbytes), 0, 0 )

/* Disable and re-enable reporting of addressing errors in the
   specified address range. */
#define VALGRIND_DISABLE_ADDR_ERROR_REPORTING_IN_RANGE(_qzz_addr,_qzz_len) \
    VALGRIND_DO_CLIENT_REQUEST_EXPR(0 /* default return */,    \
       VG_USERREQ__DISABLE_ADDR_ERROR_REPORTING_IN_RANGE,      \
       (_qzz_addr), (_qzz_len), 0, 0, 0)

#define VALGRIND_ENABLE_ADDR_ERROR_REPORTING_IN_RANGE(_qzz_addr,_qzz_len) \
    VALGRIND_DO_CLIENT_REQUEST_EXPR(0 /* default return */,    \
       VG_USERREQ__ENABLE_ADDR_ERROR_REPORTING_IN_RANGE,       \
       (_qzz_addr), (_qzz_len), 0, 0, 0)

#endif