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libavutil
hash.c
Go to the documentation of this file.
1
/*
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* Copyright (C) 2013 Reimar Döffinger <Reimar.Doeffinger@gmx.de>
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*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
13
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14
* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
18
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include <stdint.h>
21
#include "
hash.h
"
22
23
#include "
adler32.h
"
24
#include "
crc.h
"
25
#include "
md5.h
"
26
#include "
murmur3.h
"
27
#include "
ripemd.h
"
28
#include "
sha.h
"
29
#include "
sha512.h
"
30
31
#include "
avstring.h
"
32
#include "
base64.h
"
33
#include "
error.h
"
34
#include "
intreadwrite.h
"
35
#include "
mem.h
"
36
37
enum
hashtype
{
38
MD5
,
39
MURMUR3
,
40
RIPEMD128
,
41
RIPEMD160
,
42
RIPEMD256
,
43
RIPEMD320
,
44
SHA160
,
45
SHA224
,
46
SHA256
,
47
SHA512_224
,
48
SHA512_256
,
49
SHA384
,
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SHA512
,
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CRC32
,
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ADLER32
,
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NUM_HASHES
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};
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56
typedef
struct
AVHashContext
{
57
void
*
ctx
;
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enum
hashtype
type
;
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const
AVCRC
*
crctab
;
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uint32_t
crc
;
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}
AVHashContext
;
62
63
struct
{
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const
char
*
name
;
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int
size
;
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}
hashdesc
[] = {
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[
MD5
] = {
"MD5"
, 16},
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[
MURMUR3
] = {
"murmur3"
, 16},
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[
RIPEMD128
] = {
"RIPEMD128"
, 16},
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[
RIPEMD160
] = {
"RIPEMD160"
, 20},
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[
RIPEMD256
] = {
"RIPEMD256"
, 32},
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[
RIPEMD320
] = {
"RIPEMD320"
, 40},
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[
SHA160
] = {
"SHA160"
, 20},
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[
SHA224
] = {
"SHA224"
, 28},
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[
SHA256
] = {
"SHA256"
, 32},
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[
SHA512_224
] = {
"SHA512/224"
, 28},
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[
SHA512_256
] = {
"SHA512/256"
, 32},
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[
SHA384
] = {
"SHA384"
, 48},
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[
SHA512
] = {
"SHA512"
, 64},
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[
CRC32
] = {
"CRC32"
, 4},
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[
ADLER32
] = {
"adler32"
, 4},
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};
83
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const
char
*
av_hash_names
(
int
i)
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{
86
if
(i < 0 || i >=
NUM_HASHES
)
return
NULL;
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return
hashdesc
[i].name;
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}
89
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const
char
*
av_hash_get_name
(
const
AVHashContext
*ctx)
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{
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return
hashdesc
[ctx->
type
].name;
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}
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int
av_hash_get_size
(
const
AVHashContext
*ctx)
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{
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return
hashdesc
[ctx->
type
].size;
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}
99
100
int
av_hash_alloc
(
AVHashContext
**ctx,
const
char
*
name
)
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{
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AVHashContext
*res;
103
int
i;
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*ctx = NULL;
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for
(i = 0; i <
NUM_HASHES
; i++)
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if
(
av_strcasecmp
(name,
hashdesc
[i].name) == 0)
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break
;
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if
(i >= NUM_HASHES)
return
AVERROR
(EINVAL);
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res =
av_mallocz
(
sizeof
(*res));
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if
(!res)
return
AVERROR
(ENOMEM);
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res->
type
= i;
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switch
(i) {
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case
MD5
: res->
ctx
=
av_md5_alloc
();
break
;
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case
MURMUR3
: res->
ctx
=
av_murmur3_alloc
();
break
;
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case
RIPEMD128
:
116
case
RIPEMD160
:
117
case
RIPEMD256
:
118
case
RIPEMD320
: res->
ctx
=
av_ripemd_alloc
();
break
;
119
case
SHA160
:
120
case
SHA224
:
121
case
SHA256
: res->
ctx
=
av_sha_alloc
();
break
;
122
case
SHA512_224
:
123
case
SHA512_256
:
124
case
SHA384
:
125
case
SHA512
: res->
ctx
=
av_sha512_alloc
();
break
;
126
case
CRC32
: res->
crctab
=
av_crc_get_table
(
AV_CRC_32_IEEE_LE
);
break
;
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case
ADLER32
:
break
;
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}
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if
(i !=
ADLER32
&& i !=
CRC32
&& !res->
ctx
) {
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av_free
(res);
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return
AVERROR
(ENOMEM);
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}
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*ctx = res;
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return
0;
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}
136
137
void
av_hash_init
(
AVHashContext
*ctx)
138
{
139
switch
(ctx->
type
) {
140
case
MD5
:
av_md5_init
(ctx->
ctx
);
break
;
141
case
MURMUR3
:
av_murmur3_init
(ctx->
ctx
);
break
;
142
case
RIPEMD128
:
av_ripemd_init
(ctx->
ctx
, 128);
break
;
143
case
RIPEMD160
:
av_ripemd_init
(ctx->
ctx
, 160);
break
;
144
case
RIPEMD256
:
av_ripemd_init
(ctx->
ctx
, 256);
break
;
145
case
RIPEMD320
:
av_ripemd_init
(ctx->
ctx
, 320);
break
;
146
case
SHA160
:
av_sha_init
(ctx->
ctx
, 160);
break
;
147
case
SHA224
:
av_sha_init
(ctx->
ctx
, 224);
break
;
148
case
SHA256
:
av_sha_init
(ctx->
ctx
, 256);
break
;
149
case
SHA512_224
:
av_sha512_init
(ctx->
ctx
, 224);
break
;
150
case
SHA512_256
:
av_sha512_init
(ctx->
ctx
, 256);
break
;
151
case
SHA384
:
av_sha512_init
(ctx->
ctx
, 384);
break
;
152
case
SHA512
:
av_sha512_init
(ctx->
ctx
, 512);
break
;
153
case
CRC32
: ctx->
crc
= UINT32_MAX;
break
;
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case
ADLER32
: ctx->
crc
= 1;
break
;
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}
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}
157
158
void
av_hash_update
(
AVHashContext
*ctx,
const
uint8_t
*
src
,
int
len
)
159
{
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switch
(ctx->
type
) {
161
case
MD5
:
av_md5_update
(ctx->
ctx
, src, len);
break
;
162
case
MURMUR3
:
av_murmur3_update
(ctx->
ctx
, src, len);
break
;
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case
RIPEMD128
:
164
case
RIPEMD160
:
165
case
RIPEMD256
:
166
case
RIPEMD320
:
av_ripemd_update
(ctx->
ctx
, src, len);
break
;
167
case
SHA160
:
168
case
SHA224
:
169
case
SHA256
:
av_sha_update
(ctx->
ctx
, src, len);
break
;
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case
SHA512_224
:
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case
SHA512_256
:
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case
SHA384
:
173
case
SHA512
:
av_sha512_update
(ctx->
ctx
, src, len);
break
;
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case
CRC32
: ctx->
crc
=
av_crc
(ctx->
crctab
, ctx->
crc
, src, len);
break
;
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case
ADLER32
: ctx->
crc
=
av_adler32_update
(ctx->
crc
, src, len);
break
;
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}
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}
178
179
void
av_hash_final
(
AVHashContext
*ctx,
uint8_t
*dst)
180
{
181
switch
(ctx->
type
) {
182
case
MD5
:
av_md5_final
(ctx->
ctx
, dst);
break
;
183
case
MURMUR3
:
av_murmur3_final
(ctx->
ctx
, dst);
break
;
184
case
RIPEMD128
:
185
case
RIPEMD160
:
186
case
RIPEMD256
:
187
case
RIPEMD320
:
av_ripemd_final
(ctx->
ctx
, dst);
break
;
188
case
SHA160
:
189
case
SHA224
:
190
case
SHA256
:
av_sha_final
(ctx->
ctx
, dst);
break
;
191
case
SHA512_224
:
192
case
SHA512_256
:
193
case
SHA384
:
194
case
SHA512
:
av_sha512_final
(ctx->
ctx
, dst);
break
;
195
case
CRC32
:
AV_WB32
(dst, ctx->
crc
^ UINT32_MAX);
break
;
196
case
ADLER32
:
AV_WB32
(dst, ctx->
crc
);
break
;
197
}
198
}
199
200
void
av_hash_final_bin
(
struct
AVHashContext
*ctx,
uint8_t
*dst,
int
size
)
201
{
202
uint8_t
buf
[
AV_HASH_MAX_SIZE
];
203
unsigned
rsize =
av_hash_get_size
(ctx);
204
205
av_hash_final
(ctx, buf);
206
memcpy(dst, buf,
FFMIN
(size, rsize));
207
if
(size > rsize)
208
memset(dst + rsize, 0, size - rsize);
209
}
210
211
void
av_hash_final_hex
(
struct
AVHashContext
*ctx,
uint8_t
*dst,
int
size
)
212
{
213
uint8_t
buf
[
AV_HASH_MAX_SIZE
];
214
unsigned
rsize =
av_hash_get_size
(ctx), i;
215
216
av_hash_final
(ctx, buf);
217
for
(i = 0; i <
FFMIN
(rsize, size / 2); i++)
218
snprintf
(dst + i * 2, size - i * 2,
"%02x"
, buf[i]);
219
}
220
221
void
av_hash_final_b64
(
struct
AVHashContext
*ctx,
uint8_t
*dst,
int
size
)
222
{
223
uint8_t
buf
[
AV_HASH_MAX_SIZE
], b64[
AV_BASE64_SIZE
(
AV_HASH_MAX_SIZE
)];
224
unsigned
rsize =
av_hash_get_size
(ctx), osize;
225
226
av_hash_final
(ctx, buf);
227
av_base64_encode
(b64,
sizeof
(b64), buf, rsize);
228
osize =
AV_BASE64_SIZE
(rsize);
229
memcpy(dst, b64,
FFMIN
(osize, size));
230
if
(size < osize)
231
dst[size - 1] = 0;
232
}
233
234
void
av_hash_freep
(
AVHashContext
**ctx)
235
{
236
if
(*ctx)
237
av_freep
(&(*ctx)->ctx);
238
av_freep
(ctx);
239
}
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