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      1 
      2 /*--------------------------------------------------------------------*/
      3 /*--- Misc simple stuff lacking a better home.              misc.c ---*/
      4 /*--------------------------------------------------------------------*/
      5 
      6 /*
      7    This file is part of Valgrind, a dynamic binary instrumentation
      8    framework.
      9 
     10    Copyright (C) 2008-2012 OpenWorks LLP
     11       info (at) open-works.co.uk
     12 
     13    This program is free software; you can redistribute it and/or
     14    modify it under the terms of the GNU General Public License as
     15    published by the Free Software Foundation; either version 2 of the
     16    License, or (at your option) any later version.
     17 
     18    This program is distributed in the hope that it will be useful, but
     19    WITHOUT ANY WARRANTY; without even the implied warranty of
     20    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
     21    General Public License for more details.
     22 
     23    You should have received a copy of the GNU General Public License
     24    along with this program; if not, write to the Free Software
     25    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
     26    02111-1307, USA.
     27 
     28    The GNU General Public License is contained in the file COPYING.
     29 
     30    Neither the names of the U.S. Department of Energy nor the
     31    University of California nor the names of its contributors may be
     32    used to endorse or promote products derived from this software
     33    without prior written permission.
     34 */
     35 
     36 #include "pub_core_basics.h"
     37 #include "pub_core_libcbase.h"
     38 #include "pub_core_libcassert.h"
     39 #include "pub_core_mallocfree.h"
     40 #include "pub_core_xarray.h"
     41 
     42 #include "priv_misc.h"            /* self */
     43 
     44 
     45 void* ML_(dinfo_zalloc) ( HChar* cc, SizeT szB ) {
     46    void* v;
     47    vg_assert(szB > 0);
     48    v = VG_(arena_malloc)( VG_AR_DINFO, cc, szB );
     49    vg_assert(v);
     50    VG_(memset)(v, 0, szB);
     51    return v;
     52 }
     53 
     54 void ML_(dinfo_free) ( void* v ) {
     55    VG_(arena_free)( VG_AR_DINFO, v );
     56 }
     57 
     58 UChar* ML_(dinfo_strdup) ( HChar* cc, const UChar* str ) {
     59    return VG_(arena_strdup)( VG_AR_DINFO, cc, str );
     60 }
     61 
     62 UChar* ML_(dinfo_memdup) ( HChar* cc, UChar* str, SizeT nStr ) {
     63    UChar* dst = VG_(arena_malloc)( VG_AR_DINFO, cc, nStr );
     64    tl_assert(dst);
     65    VG_(memcpy)(dst, str, nStr);
     66    return dst;
     67 }
     68 
     69 static inline Bool host_is_little_endian ( void ) {
     70    UInt x = 0x76543210;
     71    UChar* p = (UChar*)(&x);
     72    return toBool(*p == 0x10);
     73 }
     74 
     75 Short ML_(read_Short)( UChar* data ) {
     76    Short r = 0;
     77    if (host_is_little_endian()) {
     78       r = data[0]
     79           | ( ((UInt)data[1]) << 8 );
     80    } else {
     81       r = data[1]
     82           | ( ((UInt)data[0]) << 8 );
     83    }
     84    return r;
     85 }
     86 
     87 Int ML_(read_Int) ( UChar* data ) {
     88    Int r = 0;
     89    if (host_is_little_endian()) {
     90       r = data[0]
     91           | ( ((UInt)data[1]) << 8 )
     92           | ( ((UInt)data[2]) << 16 )
     93           | ( ((UInt)data[3]) << 24 );
     94    } else {
     95       r = data[3]
     96           | ( ((UInt)data[2]) << 8 )
     97           | ( ((UInt)data[1]) << 16 )
     98           | ( ((UInt)data[0]) << 24 );
     99    }
    100    return r;
    101 }
    102 
    103 Long ML_(read_Long) ( UChar* data ) {
    104    Long r = 0;
    105    if (host_is_little_endian()) {
    106       r = data[0]
    107           | ( ((ULong)data[1]) << 8 )
    108           | ( ((ULong)data[2]) << 16 )
    109           | ( ((ULong)data[3]) << 24 )
    110           | ( ((ULong)data[4]) << 32 )
    111           | ( ((ULong)data[5]) << 40 )
    112           | ( ((ULong)data[6]) << 48 )
    113           | ( ((ULong)data[7]) << 56 );
    114    } else {
    115       r = data[7]
    116           | ( ((ULong)data[6]) << 8 )
    117           | ( ((ULong)data[5]) << 16 )
    118           | ( ((ULong)data[4]) << 24 )
    119           | ( ((ULong)data[3]) << 32 )
    120           | ( ((ULong)data[2]) << 40 )
    121           | ( ((ULong)data[1]) << 48 )
    122           | ( ((ULong)data[0]) << 56 );
    123    }
    124    return r;
    125 }
    126 
    127 UShort ML_(read_UShort) ( UChar* data ) {
    128    UInt r = 0;
    129    if (host_is_little_endian()) {
    130       r = data[0]
    131           | ( ((UInt)data[1]) << 8 );
    132    } else {
    133       r = data[1]
    134           | ( ((UInt)data[0]) << 8 );
    135    }
    136    return r;
    137 }
    138 
    139 UChar *ML_(write_UShort) ( UChar* ptr, UShort val ) {
    140    if (host_is_little_endian()) {
    141       ptr[0] = val & 0xff;
    142       ptr[1] = ( val >> 8 ) & 0xff;
    143    } else {
    144       ptr[0] = ( val >> 8 ) & 0xff;
    145       ptr[1] = val & 0xff;
    146    }
    147    return ptr + sizeof(UShort);
    148 }
    149 
    150 UWord ML_(read_UWord) ( UChar* data ) {
    151    if (sizeof(UWord) == sizeof(UInt)) {
    152       return ML_(read_UInt)(data);
    153    } else if  (sizeof(UWord) == sizeof(ULong)) {
    154       return ML_(read_ULong)(data);
    155    } else {
    156       vg_assert(0);
    157    }
    158 }
    159 
    160 UInt ML_(read_UInt) ( UChar* data ) {
    161    UInt r = 0;
    162    if (host_is_little_endian()) {
    163       r = data[0]
    164           | ( ((UInt)data[1]) << 8 )
    165           | ( ((UInt)data[2]) << 16 )
    166           | ( ((UInt)data[3]) << 24 );
    167    } else {
    168       r = data[3]
    169           | ( ((UInt)data[2]) << 8 )
    170           | ( ((UInt)data[1]) << 16 )
    171           | ( ((UInt)data[0]) << 24 );
    172    }
    173    return r;
    174 }
    175 
    176 UChar* ML_(write_UInt) ( UChar* ptr, UInt val ) {
    177    if (host_is_little_endian()) {
    178       ptr[0] = val & 0xff;
    179       ptr[1] = ( val >> 8 ) & 0xff;
    180       ptr[2] = ( val >> 16 ) & 0xff;
    181       ptr[3] = ( val >> 24 ) & 0xff;
    182    } else {
    183       ptr[0] = ( val >> 24 ) & 0xff;
    184       ptr[1] = ( val >> 16 ) & 0xff;
    185       ptr[2] = ( val >> 8 ) & 0xff;
    186       ptr[3] = val & 0xff;
    187    }
    188    return ptr + sizeof(UInt);
    189 }
    190 
    191 ULong ML_(read_ULong) ( UChar* data ) {
    192    ULong r = 0;
    193    if (host_is_little_endian()) {
    194       r = data[0]
    195        | ( ((ULong)data[1]) << 8 )
    196        | ( ((ULong)data[2]) << 16 )
    197        | ( ((ULong)data[3]) << 24 )
    198        | ( ((ULong)data[4]) << 32 )
    199        | ( ((ULong)data[5]) << 40 )
    200        | ( ((ULong)data[6]) << 48 )
    201        | ( ((ULong)data[7]) << 56 );
    202    } else {
    203       r = data[7]
    204        | ( ((ULong)data[6]) << 8 )
    205        | ( ((ULong)data[5]) << 16 )
    206        | ( ((ULong)data[4]) << 24 )
    207        | ( ((ULong)data[3]) << 32 )
    208        | ( ((ULong)data[2]) << 40 )
    209        | ( ((ULong)data[1]) << 48 )
    210        | ( ((ULong)data[0]) << 56 );
    211    }
    212    return r;
    213 }
    214 
    215 UChar* ML_(write_ULong) ( UChar* ptr, ULong val ) {
    216    if (host_is_little_endian()) {
    217       ptr[0] = val & 0xff;
    218       ptr[1] = ( val >> 8 ) & 0xff;
    219       ptr[2] = ( val >> 16 ) & 0xff;
    220       ptr[3] = ( val >> 24 ) & 0xff;
    221       ptr[4] = ( val >> 32 ) & 0xff;
    222       ptr[5] = ( val >> 40 ) & 0xff;
    223       ptr[6] = ( val >> 48 ) & 0xff;
    224       ptr[7] = ( val >> 56 ) & 0xff;
    225    } else {
    226       ptr[0] = ( val >> 56 ) & 0xff;
    227       ptr[1] = ( val >> 48 ) & 0xff;
    228       ptr[2] = ( val >> 40 ) & 0xff;
    229       ptr[3] = ( val >> 32 ) & 0xff;
    230       ptr[4] = ( val >> 24 ) & 0xff;
    231       ptr[5] = ( val >> 16 ) & 0xff;
    232       ptr[6] = ( val >> 8 ) & 0xff;
    233       ptr[7] = val & 0xff;
    234    }
    235    return ptr + sizeof(ULong);
    236 }
    237 
    238 UChar ML_(read_UChar) ( UChar* data ) {
    239    return data[0];
    240 }
    241 
    242 UChar* ML_(write_UChar) ( UChar* ptr, UChar val ) {
    243    ptr[0] = val;
    244    return ptr + sizeof(UChar);
    245 }
    246 
    247 Addr ML_(read_Addr) ( UChar* data ) {
    248    if (sizeof(Addr) == sizeof(UInt)) {
    249       return ML_(read_UInt)(data);
    250    } else if  (sizeof(Addr) == sizeof(ULong)) {
    251       return ML_(read_ULong)(data);
    252    } else {
    253       vg_assert(0);
    254    }
    255 }
    256 
    257 UChar* ML_(write_Addr) ( UChar* ptr, Addr val ) {
    258    if (sizeof(Addr) == sizeof(UInt)) {
    259       return ML_(write_UInt)(ptr, val);
    260    } else if  (sizeof(Addr) == sizeof(ULong)) {
    261       return ML_(write_ULong)(ptr, val);
    262    } else {
    263       vg_assert(0);
    264    }
    265 }
    266 
    267 
    268 /*--------------------------------------------------------------------*/
    269 /*--- end                                                   misc.c ---*/
    270 /*--------------------------------------------------------------------*/
    271