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1 /* Unaligned memory access functionality.
2    Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2008 Red Hat, Inc.
3    Written by Ulrich Drepper <drepper@redhat.com>, 2001.
4 
5    Red Hat elfutils is free software; you can redistribute it and/or modify
6    it under the terms of the GNU General Public License as published by the
7    Free Software Foundation; version 2 of the License.
8 
9    Red Hat elfutils is distributed in the hope that it will be useful, but
10    WITHOUT ANY WARRANTY; without even the implied warranty of
11    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
12    General Public License for more details.
13 
14    You should have received a copy of the GNU General Public License along
15    with Red Hat elfutils; if not, write to the Free Software Foundation,
16    Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301 USA.
17 
18    Red Hat elfutils is an included package of the Open Invention Network.
19    An included package of the Open Invention Network is a package for which
20    Open Invention Network licensees cross-license their patents.  No patent
21    license is granted, either expressly or impliedly, by designation as an
22    included package.  Should you wish to participate in the Open Invention
23    Network licensing program, please visit www.openinventionnetwork.com
24    <http://www.openinventionnetwork.com>.  */
25 
26 #ifndef _MEMORY_ACCESS_H
27 #define _MEMORY_ACCESS_H 1
28 
29 #include <byteswap.h>
30 #include <endian.h>
31 #include <limits.h>
32 #include <stdint.h>
33 
34 
35 /* When loading this file we require the macro MACHINE_ENCODING to be
36    defined to signal the endianness of the architecture which is
37    defined.  */
38 #ifndef MACHINE_ENCODING
39 # error "MACHINE_ENCODING needs to be defined"
40 #endif
41 #if MACHINE_ENCODING != __BIG_ENDIAN && MACHINE_ENCODING != __LITTLE_ENDIAN
42 # error "MACHINE_ENCODING must signal either big or little endian"
43 #endif
44 
45 
46 /* We use simple memory access functions in case the hardware allows it.
47    The caller has to make sure we don't have alias problems.  */
48 #if ALLOW_UNALIGNED
49 
50 # define read_2ubyte_unaligned(Addr) \
51   (unlikely (MACHINE_ENCODING != __BYTE_ORDER)				      \
52    ? bswap_16 (*((const uint16_t *) (Addr)))				      \
53    : *((const uint16_t *) (Addr)))
54 # define read_2sbyte_unaligned(Addr) \
55   (unlikely (MACHINE_ENCODING != __BYTE_ORDER)				      \
56    ? (int16_t) bswap_16 (*((const int16_t *) (Addr)))			      \
57    : *((const int16_t *) (Addr)))
58 
59 # define read_4ubyte_unaligned_noncvt(Addr) \
60    *((const uint32_t *) (Addr))
61 # define read_4ubyte_unaligned(Addr) \
62   (unlikely (MACHINE_ENCODING != __BYTE_ORDER)				      \
63    ? bswap_32 (*((const uint32_t *) (Addr)))				      \
64    : *((const uint32_t *) (Addr)))
65 # define read_4sbyte_unaligned(Addr) \
66   (unlikely (MACHINE_ENCODING != __BYTE_ORDER)				      \
67    ? (int32_t) bswap_32 (*((const int32_t *) (Addr)))			      \
68    : *((const int32_t *) (Addr)))
69 
70 # define read_8ubyte_unaligned(Addr) \
71   (unlikely (MACHINE_ENCODING != __BYTE_ORDER)				      \
72    ? bswap_64 (*((const uint64_t *) (Addr)))				      \
73    : *((const uint64_t *) (Addr)))
74 # define read_8sbyte_unaligned(Addr) \
75   (unlikely (MACHINE_ENCODING != __BYTE_ORDER)				      \
76    ? (int64_t) bswap_64 (*((const int64_t *) (Addr)))			      \
77    : *((const int64_t *) (Addr)))
78 
79 #else
80 
81 union unaligned
82   {
83     void *p;
84     uint16_t u2;
85     uint32_t u4;
86     uint64_t u8;
87     int16_t s2;
88     int32_t s4;
89     int64_t s8;
90   } __attribute__ ((packed));
91 
92 static inline uint16_t
read_2ubyte_unaligned(const void * p)93 read_2ubyte_unaligned (const void *p)
94 {
95   const union unaligned *up = p;
96   if (MACHINE_ENCODING != __BYTE_ORDER)
97     return bswap_16 (up->u2);
98   return up->u2;
99 }
100 static inline int16_t
read_2sbyte_unaligned(const void * p)101 read_2sbyte_unaligned (const void *p)
102 {
103   const union unaligned *up = p;
104   if (MACHINE_ENCODING != __BYTE_ORDER)
105     return (int16_t) bswap_16 (up->u2);
106   return up->s2;
107 }
108 
109 static inline uint32_t
read_4ubyte_unaligned_noncvt(const void * p)110 read_4ubyte_unaligned_noncvt (const void *p)
111 {
112   const union unaligned *up = p;
113   return up->u4;
114 }
115 static inline uint32_t
read_4ubyte_unaligned(const void * p)116 read_4ubyte_unaligned (const void *p)
117 {
118   const union unaligned *up = p;
119   if (MACHINE_ENCODING != __BYTE_ORDER)
120     return bswap_32 (up->u4);
121   return up->u4;
122 }
123 static inline int32_t
read_4sbyte_unaligned(const void * p)124 read_4sbyte_unaligned (const void *p)
125 {
126   const union unaligned *up = p;
127   if (MACHINE_ENCODING != __BYTE_ORDER)
128     return (int32_t) bswap_32 (up->u4);
129   return up->s4;
130 }
131 
132 static inline uint64_t
read_8ubyte_unaligned(const void * p)133 read_8ubyte_unaligned (const void *p)
134 {
135   const union unaligned *up = p;
136   if (MACHINE_ENCODING != __BYTE_ORDER)
137     return bswap_64 (up->u8);
138   return up->u8;
139 }
140 static inline int64_t
read_8sbyte_unaligned(const void * p)141 read_8sbyte_unaligned (const void *p)
142 {
143   const union unaligned *up = p;
144   if (MACHINE_ENCODING != __BYTE_ORDER)
145     return (int64_t) bswap_64 (up->u8);
146   return up->s8;
147 }
148 
149 #endif	/* allow unaligned */
150 
151 
152 #define read_2ubyte_unaligned_inc(Addr) \
153   ({ uint16_t t_ = read_2ubyte_unaligned (Addr);			      \
154      Addr = (__typeof (Addr)) (((uintptr_t) (Addr)) + 2);		      \
155      t_; })
156 #define read_2sbyte_unaligned_inc(Addr) \
157   ({ int16_t t_ = read_2sbyte_unaligned (Addr);				      \
158      Addr = (__typeof (Addr)) (((uintptr_t) (Addr)) + 2);		      \
159      t_; })
160 
161 #define read_4ubyte_unaligned_inc(Addr) \
162   ({ uint32_t t_ = read_4ubyte_unaligned (Addr);			      \
163      Addr = (__typeof (Addr)) (((uintptr_t) (Addr)) + 4);		      \
164      t_; })
165 #define read_4sbyte_unaligned_inc(Addr) \
166   ({ int32_t t_ = read_4sbyte_unaligned (Addr);				      \
167      Addr = (__typeof (Addr)) (((uintptr_t) (Addr)) + 4);		      \
168      t_; })
169 
170 #define read_8ubyte_unaligned_inc(Addr) \
171   ({ uint64_t t_ = read_8ubyte_unaligned (Addr);			      \
172      Addr = (__typeof (Addr)) (((uintptr_t) (Addr)) + 8);		      \
173      t_; })
174 #define read_8sbyte_unaligned_inc(Addr) \
175   ({ int64_t t_ = read_8sbyte_unaligned (Addr);				      \
176      Addr = (__typeof (Addr)) (((uintptr_t) (Addr)) + 8);		      \
177      t_; })
178 
179 #endif	/* memory-access.h */
180