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esp
mongoose
Commits
b5fdd48d
Commit
b5fdd48d
authored
Nov 24, 2013
by
Sergey Lyubka
Browse files
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Browse Files
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Email Patches
Plain Diff
Moved websocket functions into websocket.c
parent
f4f73a8d
Changes
3
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Showing
3 changed files
with
499 additions
and
805 deletions
+499
-805
Makefile
build/Makefile
+1
-1
mongoose.c
build/src/mongoose.c
+0
-307
mongoose.c
mongoose.c
+498
-497
No files found.
build/Makefile
View file @
b5fdd48d
...
@@ -30,7 +30,7 @@ SOURCES = src/internal.h src/util.c src/string.c src/parse_date.c \
...
@@ -30,7 +30,7 @@ SOURCES = src/internal.h src/util.c src/string.c src/parse_date.c \
src/options.c src/crypto.c src/auth.c src/win32.c src/unix.c
\
src/options.c src/crypto.c src/auth.c src/win32.c src/unix.c
\
src/mg_printf.c src/ssl.c src/http_client.c src/mime.c
\
src/mg_printf.c src/ssl.c src/http_client.c src/mime.c
\
src/directory.c src/log.c src/parse_http.c src/io.c src/cgi.c
\
src/directory.c src/log.c src/parse_http.c src/io.c src/cgi.c
\
src/upload.c src/mongoose.c src/lua.c
src/upload.c src/
websocket.c src/
mongoose.c src/lua.c
TINY_SOURCES
=
../mongoose.c main.c
TINY_SOURCES
=
../mongoose.c main.c
LUA_SOURCES
=
$(TINY_SOURCES)
lua_5.2.1.c
LUA_SOURCES
=
$(TINY_SOURCES)
lua_5.2.1.c
...
...
build/src/mongoose.c
View file @
b5fdd48d
...
@@ -647,313 +647,6 @@ static void handle_propfind(struct mg_connection *conn, const char *path,
...
@@ -647,313 +647,6 @@ static void handle_propfind(struct mg_connection *conn, const char *path,
conn
->
num_bytes_sent
+=
mg_printf
(
conn
,
"%s
\n
"
,
"</d:multistatus>"
);
conn
->
num_bytes_sent
+=
mg_printf
(
conn
,
"%s
\n
"
,
"</d:multistatus>"
);
}
}
#if defined(USE_WEBSOCKET)
// START OF SHA-1 code
// Copyright(c) By Steve Reid <steve@edmweb.com>
#define SHA1HANDSOFF
#if defined(__sun)
#include "solarisfixes.h"
#endif
union
char64long16
{
unsigned
char
c
[
64
];
uint32_t
l
[
16
];
};
#define rol(value, bits) (((value) << (bits)) | ((value) >> (32 - (bits))))
static
uint32_t
blk0
(
union
char64long16
*
block
,
int
i
)
{
// Forrest: SHA expect BIG_ENDIAN, swap if LITTLE_ENDIAN
if
(
!
is_big_endian
())
{
block
->
l
[
i
]
=
(
rol
(
block
->
l
[
i
],
24
)
&
0xFF00FF00
)
|
(
rol
(
block
->
l
[
i
],
8
)
&
0x00FF00FF
);
}
return
block
->
l
[
i
];
}
#define blk(i) (block->l[i&15] = rol(block->l[(i+13)&15]^block->l[(i+8)&15] \
^block->l[(i+2)&15]^block->l[i&15],1))
#define R0(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk0(block, i)+0x5A827999+rol(v,5);w=rol(w,30);
#define R1(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk(i)+0x5A827999+rol(v,5);w=rol(w,30);
#define R2(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0x6ED9EBA1+rol(v,5);w=rol(w,30);
#define R3(v,w,x,y,z,i) z+=(((w|x)&y)|(w&x))+blk(i)+0x8F1BBCDC+rol(v,5);w=rol(w,30);
#define R4(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0xCA62C1D6+rol(v,5);w=rol(w,30);
typedef
struct
{
uint32_t
state
[
5
];
uint32_t
count
[
2
];
unsigned
char
buffer
[
64
];
}
SHA1_CTX
;
static
void
SHA1Transform
(
uint32_t
state
[
5
],
const
unsigned
char
buffer
[
64
])
{
uint32_t
a
,
b
,
c
,
d
,
e
;
union
char64long16
block
[
1
];
memcpy
(
block
,
buffer
,
64
);
a
=
state
[
0
];
b
=
state
[
1
];
c
=
state
[
2
];
d
=
state
[
3
];
e
=
state
[
4
];
R0
(
a
,
b
,
c
,
d
,
e
,
0
);
R0
(
e
,
a
,
b
,
c
,
d
,
1
);
R0
(
d
,
e
,
a
,
b
,
c
,
2
);
R0
(
c
,
d
,
e
,
a
,
b
,
3
);
R0
(
b
,
c
,
d
,
e
,
a
,
4
);
R0
(
a
,
b
,
c
,
d
,
e
,
5
);
R0
(
e
,
a
,
b
,
c
,
d
,
6
);
R0
(
d
,
e
,
a
,
b
,
c
,
7
);
R0
(
c
,
d
,
e
,
a
,
b
,
8
);
R0
(
b
,
c
,
d
,
e
,
a
,
9
);
R0
(
a
,
b
,
c
,
d
,
e
,
10
);
R0
(
e
,
a
,
b
,
c
,
d
,
11
);
R0
(
d
,
e
,
a
,
b
,
c
,
12
);
R0
(
c
,
d
,
e
,
a
,
b
,
13
);
R0
(
b
,
c
,
d
,
e
,
a
,
14
);
R0
(
a
,
b
,
c
,
d
,
e
,
15
);
R1
(
e
,
a
,
b
,
c
,
d
,
16
);
R1
(
d
,
e
,
a
,
b
,
c
,
17
);
R1
(
c
,
d
,
e
,
a
,
b
,
18
);
R1
(
b
,
c
,
d
,
e
,
a
,
19
);
R2
(
a
,
b
,
c
,
d
,
e
,
20
);
R2
(
e
,
a
,
b
,
c
,
d
,
21
);
R2
(
d
,
e
,
a
,
b
,
c
,
22
);
R2
(
c
,
d
,
e
,
a
,
b
,
23
);
R2
(
b
,
c
,
d
,
e
,
a
,
24
);
R2
(
a
,
b
,
c
,
d
,
e
,
25
);
R2
(
e
,
a
,
b
,
c
,
d
,
26
);
R2
(
d
,
e
,
a
,
b
,
c
,
27
);
R2
(
c
,
d
,
e
,
a
,
b
,
28
);
R2
(
b
,
c
,
d
,
e
,
a
,
29
);
R2
(
a
,
b
,
c
,
d
,
e
,
30
);
R2
(
e
,
a
,
b
,
c
,
d
,
31
);
R2
(
d
,
e
,
a
,
b
,
c
,
32
);
R2
(
c
,
d
,
e
,
a
,
b
,
33
);
R2
(
b
,
c
,
d
,
e
,
a
,
34
);
R2
(
a
,
b
,
c
,
d
,
e
,
35
);
R2
(
e
,
a
,
b
,
c
,
d
,
36
);
R2
(
d
,
e
,
a
,
b
,
c
,
37
);
R2
(
c
,
d
,
e
,
a
,
b
,
38
);
R2
(
b
,
c
,
d
,
e
,
a
,
39
);
R3
(
a
,
b
,
c
,
d
,
e
,
40
);
R3
(
e
,
a
,
b
,
c
,
d
,
41
);
R3
(
d
,
e
,
a
,
b
,
c
,
42
);
R3
(
c
,
d
,
e
,
a
,
b
,
43
);
R3
(
b
,
c
,
d
,
e
,
a
,
44
);
R3
(
a
,
b
,
c
,
d
,
e
,
45
);
R3
(
e
,
a
,
b
,
c
,
d
,
46
);
R3
(
d
,
e
,
a
,
b
,
c
,
47
);
R3
(
c
,
d
,
e
,
a
,
b
,
48
);
R3
(
b
,
c
,
d
,
e
,
a
,
49
);
R3
(
a
,
b
,
c
,
d
,
e
,
50
);
R3
(
e
,
a
,
b
,
c
,
d
,
51
);
R3
(
d
,
e
,
a
,
b
,
c
,
52
);
R3
(
c
,
d
,
e
,
a
,
b
,
53
);
R3
(
b
,
c
,
d
,
e
,
a
,
54
);
R3
(
a
,
b
,
c
,
d
,
e
,
55
);
R3
(
e
,
a
,
b
,
c
,
d
,
56
);
R3
(
d
,
e
,
a
,
b
,
c
,
57
);
R3
(
c
,
d
,
e
,
a
,
b
,
58
);
R3
(
b
,
c
,
d
,
e
,
a
,
59
);
R4
(
a
,
b
,
c
,
d
,
e
,
60
);
R4
(
e
,
a
,
b
,
c
,
d
,
61
);
R4
(
d
,
e
,
a
,
b
,
c
,
62
);
R4
(
c
,
d
,
e
,
a
,
b
,
63
);
R4
(
b
,
c
,
d
,
e
,
a
,
64
);
R4
(
a
,
b
,
c
,
d
,
e
,
65
);
R4
(
e
,
a
,
b
,
c
,
d
,
66
);
R4
(
d
,
e
,
a
,
b
,
c
,
67
);
R4
(
c
,
d
,
e
,
a
,
b
,
68
);
R4
(
b
,
c
,
d
,
e
,
a
,
69
);
R4
(
a
,
b
,
c
,
d
,
e
,
70
);
R4
(
e
,
a
,
b
,
c
,
d
,
71
);
R4
(
d
,
e
,
a
,
b
,
c
,
72
);
R4
(
c
,
d
,
e
,
a
,
b
,
73
);
R4
(
b
,
c
,
d
,
e
,
a
,
74
);
R4
(
a
,
b
,
c
,
d
,
e
,
75
);
R4
(
e
,
a
,
b
,
c
,
d
,
76
);
R4
(
d
,
e
,
a
,
b
,
c
,
77
);
R4
(
c
,
d
,
e
,
a
,
b
,
78
);
R4
(
b
,
c
,
d
,
e
,
a
,
79
);
state
[
0
]
+=
a
;
state
[
1
]
+=
b
;
state
[
2
]
+=
c
;
state
[
3
]
+=
d
;
state
[
4
]
+=
e
;
a
=
b
=
c
=
d
=
e
=
0
;
memset
(
block
,
'\0'
,
sizeof
(
block
));
}
static
void
SHA1Init
(
SHA1_CTX
*
context
)
{
context
->
state
[
0
]
=
0x67452301
;
context
->
state
[
1
]
=
0xEFCDAB89
;
context
->
state
[
2
]
=
0x98BADCFE
;
context
->
state
[
3
]
=
0x10325476
;
context
->
state
[
4
]
=
0xC3D2E1F0
;
context
->
count
[
0
]
=
context
->
count
[
1
]
=
0
;
}
static
void
SHA1Update
(
SHA1_CTX
*
context
,
const
unsigned
char
*
data
,
uint32_t
len
)
{
uint32_t
i
,
j
;
j
=
context
->
count
[
0
];
if
((
context
->
count
[
0
]
+=
len
<<
3
)
<
j
)
context
->
count
[
1
]
++
;
context
->
count
[
1
]
+=
(
len
>>
29
);
j
=
(
j
>>
3
)
&
63
;
if
((
j
+
len
)
>
63
)
{
memcpy
(
&
context
->
buffer
[
j
],
data
,
(
i
=
64
-
j
));
SHA1Transform
(
context
->
state
,
context
->
buffer
);
for
(
;
i
+
63
<
len
;
i
+=
64
)
{
SHA1Transform
(
context
->
state
,
&
data
[
i
]);
}
j
=
0
;
}
else
i
=
0
;
memcpy
(
&
context
->
buffer
[
j
],
&
data
[
i
],
len
-
i
);
}
static
void
SHA1Final
(
unsigned
char
digest
[
20
],
SHA1_CTX
*
context
)
{
unsigned
i
;
unsigned
char
finalcount
[
8
],
c
;
for
(
i
=
0
;
i
<
8
;
i
++
)
{
finalcount
[
i
]
=
(
unsigned
char
)((
context
->
count
[(
i
>=
4
?
0
:
1
)]
>>
((
3
-
(
i
&
3
))
*
8
)
)
&
255
);
}
c
=
0200
;
SHA1Update
(
context
,
&
c
,
1
);
while
((
context
->
count
[
0
]
&
504
)
!=
448
)
{
c
=
0000
;
SHA1Update
(
context
,
&
c
,
1
);
}
SHA1Update
(
context
,
finalcount
,
8
);
for
(
i
=
0
;
i
<
20
;
i
++
)
{
digest
[
i
]
=
(
unsigned
char
)
((
context
->
state
[
i
>>
2
]
>>
((
3
-
(
i
&
3
))
*
8
)
)
&
255
);
}
memset
(
context
,
'\0'
,
sizeof
(
*
context
));
memset
(
&
finalcount
,
'\0'
,
sizeof
(
finalcount
));
}
// END OF SHA1 CODE
static
void
base64_encode
(
const
unsigned
char
*
src
,
int
src_len
,
char
*
dst
)
{
static
const
char
*
b64
=
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
;
int
i
,
j
,
a
,
b
,
c
;
for
(
i
=
j
=
0
;
i
<
src_len
;
i
+=
3
)
{
a
=
src
[
i
];
b
=
i
+
1
>=
src_len
?
0
:
src
[
i
+
1
];
c
=
i
+
2
>=
src_len
?
0
:
src
[
i
+
2
];
dst
[
j
++
]
=
b64
[
a
>>
2
];
dst
[
j
++
]
=
b64
[((
a
&
3
)
<<
4
)
|
(
b
>>
4
)];
if
(
i
+
1
<
src_len
)
{
dst
[
j
++
]
=
b64
[(
b
&
15
)
<<
2
|
(
c
>>
6
)];
}
if
(
i
+
2
<
src_len
)
{
dst
[
j
++
]
=
b64
[
c
&
63
];
}
}
while
(
j
%
4
!=
0
)
{
dst
[
j
++
]
=
'='
;
}
dst
[
j
++
]
=
'\0'
;
}
void
mg_websocket_handshake
(
struct
mg_connection
*
conn
)
{
static
const
char
*
magic
=
"258EAFA5-E914-47DA-95CA-C5AB0DC85B11"
;
char
buf
[
100
],
sha
[
20
],
b64_sha
[
sizeof
(
sha
)
*
2
];
SHA1_CTX
sha_ctx
;
mg_snprintf
(
buf
,
sizeof
(
buf
),
"%s%s"
,
mg_get_header
(
conn
,
"Sec-WebSocket-Key"
),
magic
);
SHA1Init
(
&
sha_ctx
);
SHA1Update
(
&
sha_ctx
,
(
unsigned
char
*
)
buf
,
strlen
(
buf
));
SHA1Final
((
unsigned
char
*
)
sha
,
&
sha_ctx
);
base64_encode
((
unsigned
char
*
)
sha
,
sizeof
(
sha
),
b64_sha
);
mg_printf
(
conn
,
"%s%s%s"
,
"HTTP/1.1 101 Switching Protocols
\r\n
"
"Upgrade: websocket
\r\n
"
"Connection: Upgrade
\r\n
"
"Sec-WebSocket-Accept: "
,
b64_sha
,
"
\r\n\r\n
"
);
}
int
mg_websocket_read
(
struct
mg_connection
*
conn
,
int
*
bits
,
char
**
data
)
{
// Pointer to the beginning of the portion of the incoming websocket message
// queue. The original websocket upgrade request is never removed,
// so the queue begins after it.
unsigned
char
*
buf
=
(
unsigned
char
*
)
conn
->
buf
+
conn
->
request_len
;
int
n
,
stop
=
0
;
size_t
i
,
len
,
mask_len
,
data_len
,
header_len
,
body_len
;
char
mask
[
4
];
assert
(
conn
->
content_len
==
0
);
// Loop continuously, reading messages from the socket, invoking the callback,
// and waiting repeatedly until an error occurs.
while
(
!
stop
)
{
header_len
=
0
;
// body_len is the length of the entire queue in bytes
// len is the length of the current message
// data_len is the length of the current message's data payload
// header_len is the length of the current message's header
if
((
body_len
=
conn
->
data_len
-
conn
->
request_len
)
>=
2
)
{
len
=
buf
[
1
]
&
127
;
mask_len
=
buf
[
1
]
&
128
?
4
:
0
;
if
(
len
<
126
&&
body_len
>=
mask_len
)
{
data_len
=
len
;
header_len
=
2
+
mask_len
;
}
else
if
(
len
==
126
&&
body_len
>=
4
+
mask_len
)
{
header_len
=
4
+
mask_len
;
data_len
=
((((
int
)
buf
[
2
])
<<
8
)
+
buf
[
3
]);
}
else
if
(
body_len
>=
10
+
mask_len
)
{
header_len
=
10
+
mask_len
;
data_len
=
(((
uint64_t
)
htonl
(
*
(
uint32_t
*
)
&
buf
[
2
]))
<<
32
)
+
htonl
(
*
(
uint32_t
*
)
&
buf
[
6
]);
}
}
// Data layout is as follows:
// conn->buf buf
// v v frame1 | frame2
// |---------------------|----------------|--------------|-------
// | |<--header_len-->|<--data_len-->|
// |<-conn->request_len->|<-----body_len----------->|
// |<-------------------conn->data_len------------->|
if
(
header_len
>
0
)
{
// Allocate space to hold websocket payload
if
((
*
data
=
malloc
(
data_len
))
==
NULL
)
{
// Allocation failed, exit the loop and then close the connection
// TODO: notify user about the failure
data_len
=
0
;
break
;
}
// Save mask and bits, otherwise it may be clobbered by memmove below
*
bits
=
buf
[
0
];
memcpy
(
mask
,
buf
+
header_len
-
mask_len
,
mask_len
);
// Read frame payload into the allocated buffer.
assert
(
body_len
>=
header_len
);
if
(
data_len
+
header_len
>
body_len
)
{
len
=
body_len
-
header_len
;
memcpy
(
*
data
,
buf
+
header_len
,
len
);
// TODO: handle pull error
pull_all
(
NULL
,
conn
,
*
data
+
len
,
data_len
-
len
);
conn
->
data_len
=
conn
->
request_len
;
}
else
{
len
=
data_len
+
header_len
;
memcpy
(
*
data
,
buf
+
header_len
,
data_len
);
memmove
(
buf
,
buf
+
len
,
body_len
-
len
);
conn
->
data_len
-=
len
;
}
// Apply mask if necessary
if
(
mask_len
>
0
)
{
for
(
i
=
0
;
i
<
data_len
;
i
++
)
{
(
*
data
)[
i
]
^=
mask
[
i
%
4
];
}
}
return
data_len
;
}
else
{
// Buffering websocket request
if
((
n
=
pull
(
NULL
,
conn
,
conn
->
buf
+
conn
->
data_len
,
conn
->
buf_size
-
conn
->
data_len
))
<=
0
)
{
break
;
}
conn
->
data_len
+=
n
;
}
}
return
0
;
}
int
mg_websocket_write
(
struct
mg_connection
*
conn
,
int
opcode
,
const
char
*
data
,
size_t
data_len
)
{
unsigned
char
*
copy
;
size_t
copy_len
=
0
;
int
retval
=
-
1
;
if
((
copy
=
(
unsigned
char
*
)
malloc
(
data_len
+
10
))
==
NULL
)
{
return
-
1
;
}
copy
[
0
]
=
0x80
+
(
opcode
&
0x0f
);
// Frame format: http://tools.ietf.org/html/rfc6455#section-5.2
if
(
data_len
<
126
)
{
// Inline 7-bit length field
copy
[
1
]
=
data_len
;
memcpy
(
copy
+
2
,
data
,
data_len
);
copy_len
=
2
+
data_len
;
}
else
if
(
data_len
<=
0xFFFF
)
{
// 16-bit length field
copy
[
1
]
=
126
;
*
(
uint16_t
*
)
(
copy
+
2
)
=
htons
(
data_len
);
memcpy
(
copy
+
4
,
data
,
data_len
);
copy_len
=
4
+
data_len
;
}
else
{
// 64-bit length field
copy
[
1
]
=
127
;
*
(
uint32_t
*
)
(
copy
+
2
)
=
htonl
((
uint64_t
)
data_len
>>
32
);
*
(
uint32_t
*
)
(
copy
+
6
)
=
htonl
(
data_len
&
0xffffffff
);
memcpy
(
copy
+
10
,
data
,
data_len
);
copy_len
=
10
+
data_len
;
}
// Not thread safe
if
(
copy_len
>
0
)
{
retval
=
mg_write
(
conn
,
copy
,
copy_len
);
}
free
(
copy
);
return
retval
;
}
#endif // !USE_WEBSOCKET
static
int
isbyte
(
int
n
)
{
static
int
isbyte
(
int
n
)
{
return
n
>=
0
&&
n
<=
255
;
return
n
>=
0
&&
n
<=
255
;
}
}
...
...
mongoose.c
View file @
b5fdd48d
...
@@ -3541,247 +3541,555 @@ FILE *mg_upload(struct mg_connection *conn, const char *destination_dir,
...
@@ -3541,247 +3541,555 @@ FILE *mg_upload(struct mg_connection *conn, const char *destination_dir,
static
int
call_user
(
int
type
,
struct
mg_connection
*
conn
,
void
*
p
)
{
#if defined(USE_WEBSOCKET)
if
(
conn
!=
NULL
&&
conn
->
ctx
!=
NULL
)
{
conn
->
event
.
user_data
=
conn
->
ctx
->
user_data
;
conn
->
event
.
type
=
type
;
conn
->
event
.
event_param
=
p
;
conn
->
event
.
request_info
=
&
conn
->
request_info
;
conn
->
event
.
conn
=
conn
;
}
return
conn
==
NULL
||
conn
->
ctx
==
NULL
||
conn
->
ctx
->
event_handler
==
NULL
?
0
:
conn
->
ctx
->
event_handler
(
&
conn
->
event
);
}
static
FILE
*
mg_fopen
(
const
char
*
path
,
const
char
*
mode
)
{
// START OF SHA-1 code
#ifdef _WIN32
// Copyright(c) By Steve Reid <steve@edmweb.com>
wchar_t
wbuf
[
PATH_MAX
],
wmode
[
20
];
#define SHA1HANDSOFF
to_unicode
(
path
,
wbuf
,
ARRAY_SIZE
(
wbuf
));
#if defined(__sun)
MultiByteToWideChar
(
CP_UTF8
,
0
,
mode
,
-
1
,
wmode
,
ARRAY_SIZE
(
wmode
));
#include "solarisfixes.h"
return
_wfopen
(
wbuf
,
wmode
);
#else
return
fopen
(
path
,
mode
);
#endif
#endif
}
// Print error message to the opened error log stream.
union
char64long16
{
unsigned
char
c
[
64
];
uint32_t
l
[
16
];
};
static
void
cry
(
struct
mg_connection
*
conn
,
const
char
*
fmt
,
...)
{
char
buf
[
MG_BUF_LEN
],
src_addr
[
IP_ADDR_STR_LEN
];
va_list
ap
;
FILE
*
fp
;
time_t
timestamp
;
va_start
(
ap
,
fmt
);
#define rol(value, bits) (((value) << (bits)) | ((value) >> (32 - (bits))))
(
void
)
vsnprintf
(
buf
,
sizeof
(
buf
),
fmt
,
ap
);
va_end
(
ap
);
// Do not lock when getting the callback value, here and below.
static
uint32_t
blk0
(
union
char64long16
*
block
,
int
i
)
{
// I suppose this is fine, since function cannot disappear in the
// Forrest: SHA expect BIG_ENDIAN, swap if LITTLE_ENDIAN
// same way string option can.
if
(
!
is_big_endian
())
{
if
(
call_user
(
MG_EVENT_LOG
,
conn
,
buf
)
==
0
)
{
block
->
l
[
i
]
=
(
rol
(
block
->
l
[
i
],
24
)
&
0xFF00FF00
)
|
fp
=
conn
->
ctx
==
NULL
||
conn
->
ctx
->
config
[
ERROR_LOG_FILE
]
==
NULL
?
NULL
:
(
rol
(
block
->
l
[
i
],
8
)
&
0x00FF00FF
);
fopen
(
conn
->
ctx
->
config
[
ERROR_LOG_FILE
],
"a+"
);
}
return
block
->
l
[
i
];
}
if
(
fp
!=
NULL
)
{
#define blk(i) (block->l[i&15] = rol(block->l[(i+13)&15]^block->l[(i+8)&15] \
flockfile
(
fp
);
^block->l[(i+2)&15]^block->l[i&15],1))
timestamp
=
time
(
NULL
);
#define R0(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk0(block, i)+0x5A827999+rol(v,5);w=rol(w,30);
#define R1(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk(i)+0x5A827999+rol(v,5);w=rol(w,30);
#define R2(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0x6ED9EBA1+rol(v,5);w=rol(w,30);
#define R3(v,w,x,y,z,i) z+=(((w|x)&y)|(w&x))+blk(i)+0x8F1BBCDC+rol(v,5);w=rol(w,30);
#define R4(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0xCA62C1D6+rol(v,5);w=rol(w,30);
sockaddr_to_string
(
src_addr
,
sizeof
(
src_addr
),
&
conn
->
client
.
rsa
);
typedef
struct
{
fprintf
(
fp
,
"[%010lu] [error] [client %s] "
,
(
unsigned
long
)
timestamp
,
uint32_t
state
[
5
];
src_addr
);
uint32_t
count
[
2
];
unsigned
char
buffer
[
64
];
}
SHA1_CTX
;
if
(
conn
->
request_info
.
request_method
!=
NULL
)
{
static
void
SHA1Transform
(
uint32_t
state
[
5
],
const
unsigned
char
buffer
[
64
])
{
fprintf
(
fp
,
"%s %s: "
,
conn
->
request_info
.
request_method
,
uint32_t
a
,
b
,
c
,
d
,
e
;
conn
->
request_info
.
uri
);
union
char64long16
block
[
1
];
}
fprintf
(
fp
,
"%s"
,
buf
);
memcpy
(
block
,
buffer
,
64
);
fputc
(
'\n'
,
fp
);
a
=
state
[
0
];
funlockfile
(
fp
);
b
=
state
[
1
];
fclose
(
fp
);
c
=
state
[
2
];
}
d
=
state
[
3
];
}
e
=
state
[
4
];
R0
(
a
,
b
,
c
,
d
,
e
,
0
);
R0
(
e
,
a
,
b
,
c
,
d
,
1
);
R0
(
d
,
e
,
a
,
b
,
c
,
2
);
R0
(
c
,
d
,
e
,
a
,
b
,
3
);
R0
(
b
,
c
,
d
,
e
,
a
,
4
);
R0
(
a
,
b
,
c
,
d
,
e
,
5
);
R0
(
e
,
a
,
b
,
c
,
d
,
6
);
R0
(
d
,
e
,
a
,
b
,
c
,
7
);
R0
(
c
,
d
,
e
,
a
,
b
,
8
);
R0
(
b
,
c
,
d
,
e
,
a
,
9
);
R0
(
a
,
b
,
c
,
d
,
e
,
10
);
R0
(
e
,
a
,
b
,
c
,
d
,
11
);
R0
(
d
,
e
,
a
,
b
,
c
,
12
);
R0
(
c
,
d
,
e
,
a
,
b
,
13
);
R0
(
b
,
c
,
d
,
e
,
a
,
14
);
R0
(
a
,
b
,
c
,
d
,
e
,
15
);
R1
(
e
,
a
,
b
,
c
,
d
,
16
);
R1
(
d
,
e
,
a
,
b
,
c
,
17
);
R1
(
c
,
d
,
e
,
a
,
b
,
18
);
R1
(
b
,
c
,
d
,
e
,
a
,
19
);
R2
(
a
,
b
,
c
,
d
,
e
,
20
);
R2
(
e
,
a
,
b
,
c
,
d
,
21
);
R2
(
d
,
e
,
a
,
b
,
c
,
22
);
R2
(
c
,
d
,
e
,
a
,
b
,
23
);
R2
(
b
,
c
,
d
,
e
,
a
,
24
);
R2
(
a
,
b
,
c
,
d
,
e
,
25
);
R2
(
e
,
a
,
b
,
c
,
d
,
26
);
R2
(
d
,
e
,
a
,
b
,
c
,
27
);
R2
(
c
,
d
,
e
,
a
,
b
,
28
);
R2
(
b
,
c
,
d
,
e
,
a
,
29
);
R2
(
a
,
b
,
c
,
d
,
e
,
30
);
R2
(
e
,
a
,
b
,
c
,
d
,
31
);
R2
(
d
,
e
,
a
,
b
,
c
,
32
);
R2
(
c
,
d
,
e
,
a
,
b
,
33
);
R2
(
b
,
c
,
d
,
e
,
a
,
34
);
R2
(
a
,
b
,
c
,
d
,
e
,
35
);
R2
(
e
,
a
,
b
,
c
,
d
,
36
);
R2
(
d
,
e
,
a
,
b
,
c
,
37
);
R2
(
c
,
d
,
e
,
a
,
b
,
38
);
R2
(
b
,
c
,
d
,
e
,
a
,
39
);
R3
(
a
,
b
,
c
,
d
,
e
,
40
);
R3
(
e
,
a
,
b
,
c
,
d
,
41
);
R3
(
d
,
e
,
a
,
b
,
c
,
42
);
R3
(
c
,
d
,
e
,
a
,
b
,
43
);
R3
(
b
,
c
,
d
,
e
,
a
,
44
);
R3
(
a
,
b
,
c
,
d
,
e
,
45
);
R3
(
e
,
a
,
b
,
c
,
d
,
46
);
R3
(
d
,
e
,
a
,
b
,
c
,
47
);
R3
(
c
,
d
,
e
,
a
,
b
,
48
);
R3
(
b
,
c
,
d
,
e
,
a
,
49
);
R3
(
a
,
b
,
c
,
d
,
e
,
50
);
R3
(
e
,
a
,
b
,
c
,
d
,
51
);
R3
(
d
,
e
,
a
,
b
,
c
,
52
);
R3
(
c
,
d
,
e
,
a
,
b
,
53
);
R3
(
b
,
c
,
d
,
e
,
a
,
54
);
R3
(
a
,
b
,
c
,
d
,
e
,
55
);
R3
(
e
,
a
,
b
,
c
,
d
,
56
);
R3
(
d
,
e
,
a
,
b
,
c
,
57
);
R3
(
c
,
d
,
e
,
a
,
b
,
58
);
R3
(
b
,
c
,
d
,
e
,
a
,
59
);
R4
(
a
,
b
,
c
,
d
,
e
,
60
);
R4
(
e
,
a
,
b
,
c
,
d
,
61
);
R4
(
d
,
e
,
a
,
b
,
c
,
62
);
R4
(
c
,
d
,
e
,
a
,
b
,
63
);
R4
(
b
,
c
,
d
,
e
,
a
,
64
);
R4
(
a
,
b
,
c
,
d
,
e
,
65
);
R4
(
e
,
a
,
b
,
c
,
d
,
66
);
R4
(
d
,
e
,
a
,
b
,
c
,
67
);
R4
(
c
,
d
,
e
,
a
,
b
,
68
);
R4
(
b
,
c
,
d
,
e
,
a
,
69
);
R4
(
a
,
b
,
c
,
d
,
e
,
70
);
R4
(
e
,
a
,
b
,
c
,
d
,
71
);
R4
(
d
,
e
,
a
,
b
,
c
,
72
);
R4
(
c
,
d
,
e
,
a
,
b
,
73
);
R4
(
b
,
c
,
d
,
e
,
a
,
74
);
R4
(
a
,
b
,
c
,
d
,
e
,
75
);
R4
(
e
,
a
,
b
,
c
,
d
,
76
);
R4
(
d
,
e
,
a
,
b
,
c
,
77
);
R4
(
c
,
d
,
e
,
a
,
b
,
78
);
R4
(
b
,
c
,
d
,
e
,
a
,
79
);
state
[
0
]
+=
a
;
state
[
1
]
+=
b
;
state
[
2
]
+=
c
;
state
[
3
]
+=
d
;
state
[
4
]
+=
e
;
a
=
b
=
c
=
d
=
e
=
0
;
memset
(
block
,
'\0'
,
sizeof
(
block
));
}
}
const
char
*
mg_version
(
void
)
{
static
void
SHA1Init
(
SHA1_CTX
*
context
)
{
return
MONGOOSE_VERSION
;
context
->
state
[
0
]
=
0x67452301
;
context
->
state
[
1
]
=
0xEFCDAB89
;
context
->
state
[
2
]
=
0x98BADCFE
;
context
->
state
[
3
]
=
0x10325476
;
context
->
state
[
4
]
=
0xC3D2E1F0
;
context
->
count
[
0
]
=
context
->
count
[
1
]
=
0
;
}
}
// HTTP 1.1 assumes keep alive if "Connection:" header is not set
static
void
SHA1Update
(
SHA1_CTX
*
context
,
const
unsigned
char
*
data
,
// This function must tolerate situations when connection info is not
uint32_t
len
)
{
// set up, for example if request parsing failed.
uint32_t
i
,
j
;
static
int
should_keep_alive
(
const
struct
mg_connection
*
conn
)
{
const
char
*
http_version
=
conn
->
request_info
.
http_version
;
const
char
*
header
=
mg_get_header
(
conn
,
"Connection"
);
if
(
conn
->
must_close
||
conn
->
status_code
==
401
||
mg_strcasecmp
(
conn
->
ctx
->
config
[
ENABLE_KEEP_ALIVE
],
"yes"
)
!=
0
||
(
header
!=
NULL
&&
mg_strcasecmp
(
header
,
"keep-alive"
)
!=
0
)
||
(
header
==
NULL
&&
http_version
&&
strcmp
(
http_version
,
"1.1"
)))
{
return
0
;
}
return
1
;
}
static
const
char
*
suggest_connection_header
(
const
struct
mg_connection
*
conn
)
{
j
=
context
->
count
[
0
];
return
should_keep_alive
(
conn
)
?
"keep-alive"
:
"close"
;
if
((
context
->
count
[
0
]
+=
len
<<
3
)
<
j
)
context
->
count
[
1
]
++
;
context
->
count
[
1
]
+=
(
len
>>
29
);
j
=
(
j
>>
3
)
&
63
;
if
((
j
+
len
)
>
63
)
{
memcpy
(
&
context
->
buffer
[
j
],
data
,
(
i
=
64
-
j
));
SHA1Transform
(
context
->
state
,
context
->
buffer
);
for
(
;
i
+
63
<
len
;
i
+=
64
)
{
SHA1Transform
(
context
->
state
,
&
data
[
i
]);
}
j
=
0
;
}
else
i
=
0
;
memcpy
(
&
context
->
buffer
[
j
],
&
data
[
i
],
len
-
i
);
}
}
static
void
send_http_error
(
struct
mg_connection
*
conn
,
int
status
,
static
void
SHA1Final
(
unsigned
char
digest
[
20
],
SHA1_CTX
*
context
)
{
const
char
*
reason
,
const
char
*
fmt
,
...)
{
unsigned
i
;
char
buf
[
MG_BUF_LEN
];
unsigned
char
finalcount
[
8
],
c
;
va_list
ap
;
int
len
=
0
;
conn
->
status_code
=
status
;
buf
[
0
]
=
'\0'
;
// Errors 1xx, 204 and 304 MUST NOT send a body
if
(
status
>
199
&&
status
!=
204
&&
status
!=
304
)
{
len
=
mg_snprintf
(
buf
,
sizeof
(
buf
),
"Error %d: %s"
,
status
,
reason
);
buf
[
len
++
]
=
'\n'
;
va_start
(
ap
,
fmt
);
for
(
i
=
0
;
i
<
8
;
i
++
)
{
len
+=
mg_vsnprintf
(
buf
+
len
,
sizeof
(
buf
)
-
len
,
fmt
,
ap
);
finalcount
[
i
]
=
(
unsigned
char
)((
context
->
count
[(
i
>=
4
?
0
:
1
)]
va_end
(
ap
);
>>
((
3
-
(
i
&
3
))
*
8
)
)
&
255
);
}
}
DEBUG_TRACE
((
"[%s]"
,
buf
));
c
=
0200
;
SHA1Update
(
context
,
&
c
,
1
);
if
(
call_user
(
MG_HTTP_ERROR
,
conn
,
(
void
*
)
(
long
)
status
)
==
0
)
{
while
((
context
->
count
[
0
]
&
504
)
!=
448
)
{
mg_printf
(
conn
,
"HTTP/1.1 %d %s
\r\n
"
c
=
0000
;
"Content-Length: %d
\r\n
"
SHA1Update
(
context
,
&
c
,
1
);
"Connection: %s
\r\n\r\n
"
,
status
,
reason
,
len
,
}
suggest_connection_header
(
conn
));
SHA1Update
(
context
,
finalcount
,
8
);
conn
->
num_bytes_sent
+=
mg_printf
(
conn
,
"%s"
,
buf
);
for
(
i
=
0
;
i
<
20
;
i
++
)
{
digest
[
i
]
=
(
unsigned
char
)
((
context
->
state
[
i
>>
2
]
>>
((
3
-
(
i
&
3
))
*
8
)
)
&
255
);
}
}
memset
(
context
,
'\0'
,
sizeof
(
*
context
));
memset
(
&
finalcount
,
'\0'
,
sizeof
(
finalcount
));
}
}
// END OF SHA1 CODE
// Return 1 if real file has been found, 0 otherwise
static
void
base64_encode
(
const
unsigned
char
*
src
,
int
src_len
,
char
*
dst
)
{
static
int
convert_uri_to_file_name
(
struct
mg_connection
*
conn
,
char
*
buf
,
static
const
char
*
b64
=
size_t
buf_len
,
struct
file
*
filep
)
{
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
;
struct
vec
a
,
b
;
int
i
,
j
,
a
,
b
,
c
;
const
char
*
rewrite
,
*
uri
=
conn
->
request_info
.
uri
,
*
root
=
conn
->
ctx
->
config
[
DOCUMENT_ROOT
];
char
*
p
;
int
match_len
;
char
gz_path
[
PATH_MAX
];
char
const
*
accept_encoding
;
// No filesystem access
if
(
root
==
NULL
)
{
return
0
;
}
// Using buf_len - 1 because memmove() for PATH_INFO may shift part
for
(
i
=
j
=
0
;
i
<
src_len
;
i
+=
3
)
{
// of the path one byte on the right.
a
=
src
[
i
];
// If document_root is NULL, leave the file empty.
b
=
i
+
1
>=
src_len
?
0
:
src
[
i
+
1
];
mg_snprintf
(
buf
,
buf_len
-
1
,
"%s%s"
,
root
,
uri
)
;
c
=
i
+
2
>=
src_len
?
0
:
src
[
i
+
2
]
;
rewrite
=
conn
->
ctx
->
config
[
REWRITE
];
dst
[
j
++
]
=
b64
[
a
>>
2
];
while
((
rewrite
=
next_option
(
rewrite
,
&
a
,
&
b
))
!=
NULL
)
{
dst
[
j
++
]
=
b64
[((
a
&
3
)
<<
4
)
|
(
b
>>
4
)];
if
((
match_len
=
match_prefix
(
a
.
ptr
,
a
.
len
,
uri
))
>
0
)
{
if
(
i
+
1
<
src_len
)
{
mg_snprintf
(
buf
,
buf_len
-
1
,
"%.*s%s"
,
(
int
)
b
.
len
,
b
.
ptr
,
dst
[
j
++
]
=
b64
[(
b
&
15
)
<<
2
|
(
c
>>
6
)];
uri
+
match_len
);
}
break
;
if
(
i
+
2
<
src_len
)
{
dst
[
j
++
]
=
b64
[
c
&
63
];
}
}
}
}
while
(
j
%
4
!=
0
)
{
if
(
mg_stat
(
buf
,
filep
))
{
dst
[
j
++
]
=
'='
;
return
1
;
}
}
dst
[
j
++
]
=
'\0'
;
}
// if we can't find the actual file, look for the file
void
mg_websocket_handshake
(
struct
mg_connection
*
conn
)
{
// with the same name but a .gz extension. If we find it,
static
const
char
*
magic
=
"258EAFA5-E914-47DA-95CA-C5AB0DC85B11"
;
// use that and set the gzipped flag in the file struct
char
buf
[
100
],
sha
[
20
],
b64_sha
[
sizeof
(
sha
)
*
2
];
// to indicate that the response need to have the content-
SHA1_CTX
sha_ctx
;
// encoding: gzip header
// we can only do this if the browser declares support
mg_snprintf
(
buf
,
sizeof
(
buf
),
"%s%s"
,
if
((
accept_encoding
=
mg_get_header
(
conn
,
"Accept-Encoding"
))
!=
NULL
)
{
mg_get_header
(
conn
,
"Sec-WebSocket-Key"
),
magic
);
if
(
strstr
(
accept_encoding
,
"gzip"
)
!=
NULL
)
{
SHA1Init
(
&
sha_ctx
);
snprintf
(
gz_path
,
sizeof
(
gz_path
),
"%s.gz"
,
buf
);
SHA1Update
(
&
sha_ctx
,
(
unsigned
char
*
)
buf
,
strlen
(
buf
));
if
(
mg_stat
(
gz_path
,
filep
))
{
SHA1Final
((
unsigned
char
*
)
sha
,
&
sha_ctx
);
filep
->
gzipped
=
1
;
base64_encode
((
unsigned
char
*
)
sha
,
sizeof
(
sha
),
b64_sha
);
return
1
;
mg_printf
(
conn
,
"%s%s%s"
,
"HTTP/1.1 101 Switching Protocols
\r\n
"
"Upgrade: websocket
\r\n
"
"Connection: Upgrade
\r\n
"
"Sec-WebSocket-Accept: "
,
b64_sha
,
"
\r\n\r\n
"
);
}
int
mg_websocket_read
(
struct
mg_connection
*
conn
,
int
*
bits
,
char
**
data
)
{
// Pointer to the beginning of the portion of the incoming websocket message
// queue. The original websocket upgrade request is never removed,
// so the queue begins after it.
unsigned
char
*
buf
=
(
unsigned
char
*
)
conn
->
buf
+
conn
->
request_len
;
int
n
,
stop
=
0
;
size_t
i
,
len
,
mask_len
,
data_len
,
header_len
,
body_len
;
char
mask
[
4
];
assert
(
conn
->
content_len
==
0
);
// Loop continuously, reading messages from the socket, invoking the callback,
// and waiting repeatedly until an error occurs.
while
(
!
stop
)
{
header_len
=
0
;
// body_len is the length of the entire queue in bytes
// len is the length of the current message
// data_len is the length of the current message's data payload
// header_len is the length of the current message's header
if
((
body_len
=
conn
->
data_len
-
conn
->
request_len
)
>=
2
)
{
len
=
buf
[
1
]
&
127
;
mask_len
=
buf
[
1
]
&
128
?
4
:
0
;
if
(
len
<
126
&&
body_len
>=
mask_len
)
{
data_len
=
len
;
header_len
=
2
+
mask_len
;
}
else
if
(
len
==
126
&&
body_len
>=
4
+
mask_len
)
{
header_len
=
4
+
mask_len
;
data_len
=
((((
int
)
buf
[
2
])
<<
8
)
+
buf
[
3
]);
}
else
if
(
body_len
>=
10
+
mask_len
)
{
header_len
=
10
+
mask_len
;
data_len
=
(((
uint64_t
)
htonl
(
*
(
uint32_t
*
)
&
buf
[
2
]))
<<
32
)
+
htonl
(
*
(
uint32_t
*
)
&
buf
[
6
]);
}
}
}
}
}
// Support PATH_INFO for CGI scripts.
// Data layout is as follows:
for
(
p
=
buf
+
strlen
(
root
==
NULL
?
""
:
root
);
*
p
!=
'\0'
;
p
++
)
{
// conn->buf buf
if
(
*
p
==
'/'
)
{
// v v frame1 | frame2
*
p
=
'\0'
;
// |---------------------|----------------|--------------|-------
if
(
match_prefix
(
conn
->
ctx
->
config
[
CGI_EXTENSIONS
],
// | |<--header_len-->|<--data_len-->|
strlen
(
conn
->
ctx
->
config
[
CGI_EXTENSIONS
]),
buf
)
>
0
&&
// |<-conn->request_len->|<-----body_len----------->|
mg_stat
(
buf
,
filep
))
{
// |<-------------------conn->data_len------------->|
// Shift PATH_INFO block one character right, e.g.
// "/x.cgi/foo/bar\x00" => "/x.cgi\x00/foo/bar\x00"
if
(
header_len
>
0
)
{
// conn->path_info is pointing to the local variable "path" declared
// Allocate space to hold websocket payload
// in handle_request(), so PATH_INFO is not valid after
if
((
*
data
=
malloc
(
data_len
))
==
NULL
)
{
// handle_request returns.
// Allocation failed, exit the loop and then close the connection
conn
->
path_info
=
p
+
1
;
// TODO: notify user about the failure
memmove
(
p
+
2
,
p
+
1
,
strlen
(
p
+
1
)
+
1
);
// +1 is for trailing \0
data_len
=
0
;
p
[
1
]
=
'/'
;
break
;
return
1
;
}
// Save mask and bits, otherwise it may be clobbered by memmove below
*
bits
=
buf
[
0
];
memcpy
(
mask
,
buf
+
header_len
-
mask_len
,
mask_len
);
// Read frame payload into the allocated buffer.
assert
(
body_len
>=
header_len
);
if
(
data_len
+
header_len
>
body_len
)
{
len
=
body_len
-
header_len
;
memcpy
(
*
data
,
buf
+
header_len
,
len
);
// TODO: handle pull error
pull_all
(
NULL
,
conn
,
*
data
+
len
,
data_len
-
len
);
conn
->
data_len
=
conn
->
request_len
;
}
else
{
}
else
{
*
p
=
'/'
;
len
=
data_len
+
header_len
;
memcpy
(
*
data
,
buf
+
header_len
,
data_len
);
memmove
(
buf
,
buf
+
len
,
body_len
-
len
);
conn
->
data_len
-=
len
;
}
// Apply mask if necessary
if
(
mask_len
>
0
)
{
for
(
i
=
0
;
i
<
data_len
;
i
++
)
{
(
*
data
)[
i
]
^=
mask
[
i
%
4
];
}
}
return
data_len
;
}
else
{
// Buffering websocket request
if
((
n
=
pull
(
NULL
,
conn
,
conn
->
buf
+
conn
->
data_len
,
conn
->
buf_size
-
conn
->
data_len
))
<=
0
)
{
break
;
}
}
conn
->
data_len
+=
n
;
}
}
}
}
return
0
;
return
0
;
}
}
static
void
gmt_time_string
(
char
*
buf
,
size_t
buf_len
,
time_t
*
t
)
{
int
mg_websocket_write
(
struct
mg_connection
*
conn
,
int
opcode
,
strftime
(
buf
,
buf_len
,
"%a, %d %b %Y %H:%M:%S GMT"
,
gmtime
(
t
));
const
char
*
data
,
size_t
data_len
)
{
unsigned
char
*
copy
;
size_t
copy_len
=
0
;
int
retval
=
-
1
;
if
((
copy
=
(
unsigned
char
*
)
malloc
(
data_len
+
10
))
==
NULL
)
{
return
-
1
;
}
copy
[
0
]
=
0x80
+
(
opcode
&
0x0f
);
// Frame format: http://tools.ietf.org/html/rfc6455#section-5.2
if
(
data_len
<
126
)
{
// Inline 7-bit length field
copy
[
1
]
=
data_len
;
memcpy
(
copy
+
2
,
data
,
data_len
);
copy_len
=
2
+
data_len
;
}
else
if
(
data_len
<=
0xFFFF
)
{
// 16-bit length field
copy
[
1
]
=
126
;
*
(
uint16_t
*
)
(
copy
+
2
)
=
htons
(
data_len
);
memcpy
(
copy
+
4
,
data
,
data_len
);
copy_len
=
4
+
data_len
;
}
else
{
// 64-bit length field
copy
[
1
]
=
127
;
*
(
uint32_t
*
)
(
copy
+
2
)
=
htonl
((
uint64_t
)
data_len
>>
32
);
*
(
uint32_t
*
)
(
copy
+
6
)
=
htonl
(
data_len
&
0xffffffff
);
memcpy
(
copy
+
10
,
data
,
data_len
);
copy_len
=
10
+
data_len
;
}
// Not thread safe
if
(
copy_len
>
0
)
{
retval
=
mg_write
(
conn
,
copy
,
copy_len
);
}
free
(
copy
);
return
retval
;
}
}
#endif // !USE_WEBSOCKET
static
void
construct_etag
(
char
*
buf
,
size_t
buf_len
,
const
struct
file
*
filep
)
{
static
int
call_user
(
int
type
,
struct
mg_connection
*
conn
,
void
*
p
)
{
snprintf
(
buf
,
buf_len
,
"
\"
%lx.%"
INT64_FMT
"
\"
"
,
if
(
conn
!=
NULL
&&
conn
->
ctx
!=
NULL
)
{
(
unsigned
long
)
filep
->
modification_time
,
filep
->
size
);
conn
->
event
.
user_data
=
conn
->
ctx
->
user_data
;
conn
->
event
.
type
=
type
;
conn
->
event
.
event_param
=
p
;
conn
->
event
.
request_info
=
&
conn
->
request_info
;
conn
->
event
.
conn
=
conn
;
}
return
conn
==
NULL
||
conn
->
ctx
==
NULL
||
conn
->
ctx
->
event_handler
==
NULL
?
0
:
conn
->
ctx
->
event_handler
(
&
conn
->
event
);
}
}
static
void
fclose_on_exec
(
FILE
*
fp
)
{
static
FILE
*
mg_fopen
(
const
char
*
path
,
const
char
*
mode
)
{
if
(
fp
!=
NULL
)
{
#ifdef _WIN32
#ifndef _WIN32
wchar_t
wbuf
[
PATH_MAX
],
wmode
[
20
];
fcntl
(
fileno
(
fp
),
F_SETFD
,
FD_CLOEXEC
);
to_unicode
(
path
,
wbuf
,
ARRAY_SIZE
(
wbuf
));
MultiByteToWideChar
(
CP_UTF8
,
0
,
mode
,
-
1
,
wmode
,
ARRAY_SIZE
(
wmode
));
return
_wfopen
(
wbuf
,
wmode
);
#else
return
fopen
(
path
,
mode
);
#endif
#endif
}
}
}
static
void
handle_file_request
(
struct
mg_connection
*
conn
,
const
char
*
path
,
// Print error message to the opened error log stream.
struct
file
*
filep
)
{
static
void
cry
(
struct
mg_connection
*
conn
,
const
char
*
fmt
,
...)
{
char
date
[
64
],
lm
[
64
],
etag
[
64
],
range
[
64
];
char
buf
[
MG_BUF_LEN
],
src_addr
[
IP_ADDR_STR_LEN
];
const
char
*
msg
=
"OK"
,
*
hdr
;
va_list
ap
;
time_t
curtime
=
time
(
NULL
);
int64_t
cl
,
r1
,
r2
;
struct
vec
mime_vec
;
int
n
;
char
gz_path
[
PATH_MAX
];
char
const
*
encoding
=
""
;
FILE
*
fp
;
FILE
*
fp
;
time_t
timestamp
;
get_mime_type
(
conn
->
ctx
,
path
,
&
mime_vec
);
va_start
(
ap
,
fmt
);
cl
=
filep
->
size
;
(
void
)
vsnprintf
(
buf
,
sizeof
(
buf
),
fmt
,
ap
);
conn
->
status_code
=
200
;
va_end
(
ap
);
range
[
0
]
=
'\0'
;
// if this file is in fact a pre-gzipped file, rewrite its filename
// Do not lock when getting the callback value, here and below.
// it's important to rewrite the filename after resolving
// I suppose this is fine, since function cannot disappear in the
// the mime type from it, to preserve the actual file's type
// same way string option can.
if
(
filep
->
gzipped
)
{
if
(
call_user
(
MG_EVENT_LOG
,
conn
,
buf
)
==
0
)
{
snprintf
(
gz_path
,
sizeof
(
gz_path
),
"%s.gz"
,
path
);
fp
=
conn
->
ctx
==
NULL
||
conn
->
ctx
->
config
[
ERROR_LOG_FILE
]
==
NULL
?
NULL
:
path
=
gz_path
;
fopen
(
conn
->
ctx
->
config
[
ERROR_LOG_FILE
],
"a+"
);
encoding
=
"Content-Encoding: gzip
\r\n
"
;
}
if
((
fp
=
mg_fopen
(
path
,
"rb"
))
==
NULL
)
{
if
(
fp
!=
NULL
)
{
send_http_error
(
conn
,
500
,
http_500_error
,
flockfile
(
fp
);
"fopen(%s): %s"
,
path
,
strerror
(
ERRNO
));
timestamp
=
time
(
NULL
);
return
;
sockaddr_to_string
(
src_addr
,
sizeof
(
src_addr
),
&
conn
->
client
.
rsa
);
fprintf
(
fp
,
"[%010lu] [error] [client %s] "
,
(
unsigned
long
)
timestamp
,
src_addr
);
if
(
conn
->
request_info
.
request_method
!=
NULL
)
{
fprintf
(
fp
,
"%s %s: "
,
conn
->
request_info
.
request_method
,
conn
->
request_info
.
uri
);
}
fprintf
(
fp
,
"%s"
,
buf
);
fputc
(
'\n'
,
fp
);
funlockfile
(
fp
);
fclose
(
fp
);
}
}
}
}
fclose_on_exec
(
fp
);
const
char
*
mg_version
(
void
)
{
return
MONGOOSE_VERSION
;
}
// HTTP 1.1 assumes keep alive if "Connection:" header is not set
// This function must tolerate situations when connection info is not
// set up, for example if request parsing failed.
static
int
should_keep_alive
(
const
struct
mg_connection
*
conn
)
{
const
char
*
http_version
=
conn
->
request_info
.
http_version
;
const
char
*
header
=
mg_get_header
(
conn
,
"Connection"
);
if
(
conn
->
must_close
||
conn
->
status_code
==
401
||
mg_strcasecmp
(
conn
->
ctx
->
config
[
ENABLE_KEEP_ALIVE
],
"yes"
)
!=
0
||
(
header
!=
NULL
&&
mg_strcasecmp
(
header
,
"keep-alive"
)
!=
0
)
||
(
header
==
NULL
&&
http_version
&&
strcmp
(
http_version
,
"1.1"
)))
{
return
0
;
}
return
1
;
}
static
const
char
*
suggest_connection_header
(
const
struct
mg_connection
*
conn
)
{
return
should_keep_alive
(
conn
)
?
"keep-alive"
:
"close"
;
}
static
void
send_http_error
(
struct
mg_connection
*
conn
,
int
status
,
const
char
*
reason
,
const
char
*
fmt
,
...)
{
char
buf
[
MG_BUF_LEN
];
va_list
ap
;
int
len
=
0
;
conn
->
status_code
=
status
;
buf
[
0
]
=
'\0'
;
// Errors 1xx, 204 and 304 MUST NOT send a body
if
(
status
>
199
&&
status
!=
204
&&
status
!=
304
)
{
len
=
mg_snprintf
(
buf
,
sizeof
(
buf
),
"Error %d: %s"
,
status
,
reason
);
buf
[
len
++
]
=
'\n'
;
va_start
(
ap
,
fmt
);
len
+=
mg_vsnprintf
(
buf
+
len
,
sizeof
(
buf
)
-
len
,
fmt
,
ap
);
va_end
(
ap
);
}
DEBUG_TRACE
((
"[%s]"
,
buf
));
if
(
call_user
(
MG_HTTP_ERROR
,
conn
,
(
void
*
)
(
long
)
status
)
==
0
)
{
mg_printf
(
conn
,
"HTTP/1.1 %d %s
\r\n
"
"Content-Length: %d
\r\n
"
"Connection: %s
\r\n\r\n
"
,
status
,
reason
,
len
,
suggest_connection_header
(
conn
));
conn
->
num_bytes_sent
+=
mg_printf
(
conn
,
"%s"
,
buf
);
}
}
// Return 1 if real file has been found, 0 otherwise
static
int
convert_uri_to_file_name
(
struct
mg_connection
*
conn
,
char
*
buf
,
size_t
buf_len
,
struct
file
*
filep
)
{
struct
vec
a
,
b
;
const
char
*
rewrite
,
*
uri
=
conn
->
request_info
.
uri
,
*
root
=
conn
->
ctx
->
config
[
DOCUMENT_ROOT
];
char
*
p
;
int
match_len
;
char
gz_path
[
PATH_MAX
];
char
const
*
accept_encoding
;
// No filesystem access
if
(
root
==
NULL
)
{
return
0
;
}
// Using buf_len - 1 because memmove() for PATH_INFO may shift part
// of the path one byte on the right.
// If document_root is NULL, leave the file empty.
mg_snprintf
(
buf
,
buf_len
-
1
,
"%s%s"
,
root
,
uri
);
rewrite
=
conn
->
ctx
->
config
[
REWRITE
];
while
((
rewrite
=
next_option
(
rewrite
,
&
a
,
&
b
))
!=
NULL
)
{
if
((
match_len
=
match_prefix
(
a
.
ptr
,
a
.
len
,
uri
))
>
0
)
{
mg_snprintf
(
buf
,
buf_len
-
1
,
"%.*s%s"
,
(
int
)
b
.
len
,
b
.
ptr
,
uri
+
match_len
);
break
;
}
}
if
(
mg_stat
(
buf
,
filep
))
{
return
1
;
}
// if we can't find the actual file, look for the file
// with the same name but a .gz extension. If we find it,
// use that and set the gzipped flag in the file struct
// to indicate that the response need to have the content-
// encoding: gzip header
// we can only do this if the browser declares support
if
((
accept_encoding
=
mg_get_header
(
conn
,
"Accept-Encoding"
))
!=
NULL
)
{
if
(
strstr
(
accept_encoding
,
"gzip"
)
!=
NULL
)
{
snprintf
(
gz_path
,
sizeof
(
gz_path
),
"%s.gz"
,
buf
);
if
(
mg_stat
(
gz_path
,
filep
))
{
filep
->
gzipped
=
1
;
return
1
;
}
}
}
// Support PATH_INFO for CGI scripts.
for
(
p
=
buf
+
strlen
(
root
==
NULL
?
""
:
root
);
*
p
!=
'\0'
;
p
++
)
{
if
(
*
p
==
'/'
)
{
*
p
=
'\0'
;
if
(
match_prefix
(
conn
->
ctx
->
config
[
CGI_EXTENSIONS
],
strlen
(
conn
->
ctx
->
config
[
CGI_EXTENSIONS
]),
buf
)
>
0
&&
mg_stat
(
buf
,
filep
))
{
// Shift PATH_INFO block one character right, e.g.
// "/x.cgi/foo/bar\x00" => "/x.cgi\x00/foo/bar\x00"
// conn->path_info is pointing to the local variable "path" declared
// in handle_request(), so PATH_INFO is not valid after
// handle_request returns.
conn
->
path_info
=
p
+
1
;
memmove
(
p
+
2
,
p
+
1
,
strlen
(
p
+
1
)
+
1
);
// +1 is for trailing \0
p
[
1
]
=
'/'
;
return
1
;
}
else
{
*
p
=
'/'
;
}
}
}
return
0
;
}
static
void
gmt_time_string
(
char
*
buf
,
size_t
buf_len
,
time_t
*
t
)
{
strftime
(
buf
,
buf_len
,
"%a, %d %b %Y %H:%M:%S GMT"
,
gmtime
(
t
));
}
static
void
construct_etag
(
char
*
buf
,
size_t
buf_len
,
const
struct
file
*
filep
)
{
snprintf
(
buf
,
buf_len
,
"
\"
%lx.%"
INT64_FMT
"
\"
"
,
(
unsigned
long
)
filep
->
modification_time
,
filep
->
size
);
}
static
void
fclose_on_exec
(
FILE
*
fp
)
{
if
(
fp
!=
NULL
)
{
#ifndef _WIN32
fcntl
(
fileno
(
fp
),
F_SETFD
,
FD_CLOEXEC
);
#endif
}
}
static
void
handle_file_request
(
struct
mg_connection
*
conn
,
const
char
*
path
,
struct
file
*
filep
)
{
char
date
[
64
],
lm
[
64
],
etag
[
64
],
range
[
64
];
const
char
*
msg
=
"OK"
,
*
hdr
;
time_t
curtime
=
time
(
NULL
);
int64_t
cl
,
r1
,
r2
;
struct
vec
mime_vec
;
int
n
;
char
gz_path
[
PATH_MAX
];
char
const
*
encoding
=
""
;
FILE
*
fp
;
get_mime_type
(
conn
->
ctx
,
path
,
&
mime_vec
);
cl
=
filep
->
size
;
conn
->
status_code
=
200
;
range
[
0
]
=
'\0'
;
// if this file is in fact a pre-gzipped file, rewrite its filename
// it's important to rewrite the filename after resolving
// the mime type from it, to preserve the actual file's type
if
(
filep
->
gzipped
)
{
snprintf
(
gz_path
,
sizeof
(
gz_path
),
"%s.gz"
,
path
);
path
=
gz_path
;
encoding
=
"Content-Encoding: gzip
\r\n
"
;
}
if
((
fp
=
mg_fopen
(
path
,
"rb"
))
==
NULL
)
{
send_http_error
(
conn
,
500
,
http_500_error
,
"fopen(%s): %s"
,
path
,
strerror
(
ERRNO
));
return
;
}
fclose_on_exec
(
fp
);
// If Range: header specified, act accordingly
// If Range: header specified, act accordingly
r1
=
r2
=
0
;
r1
=
r2
=
0
;
...
@@ -4188,313 +4496,6 @@ static void handle_propfind(struct mg_connection *conn, const char *path,
...
@@ -4188,313 +4496,6 @@ static void handle_propfind(struct mg_connection *conn, const char *path,
conn
->
num_bytes_sent
+=
mg_printf
(
conn
,
"%s
\n
"
,
"</d:multistatus>"
);
conn
->
num_bytes_sent
+=
mg_printf
(
conn
,
"%s
\n
"
,
"</d:multistatus>"
);
}
}
#if defined(USE_WEBSOCKET)
// START OF SHA-1 code
// Copyright(c) By Steve Reid <steve@edmweb.com>
#define SHA1HANDSOFF
#if defined(__sun)
#include "solarisfixes.h"
#endif
union
char64long16
{
unsigned
char
c
[
64
];
uint32_t
l
[
16
];
};
#define rol(value, bits) (((value) << (bits)) | ((value) >> (32 - (bits))))
static
uint32_t
blk0
(
union
char64long16
*
block
,
int
i
)
{
// Forrest: SHA expect BIG_ENDIAN, swap if LITTLE_ENDIAN
if
(
!
is_big_endian
())
{
block
->
l
[
i
]
=
(
rol
(
block
->
l
[
i
],
24
)
&
0xFF00FF00
)
|
(
rol
(
block
->
l
[
i
],
8
)
&
0x00FF00FF
);
}
return
block
->
l
[
i
];
}
#define blk(i) (block->l[i&15] = rol(block->l[(i+13)&15]^block->l[(i+8)&15] \
^block->l[(i+2)&15]^block->l[i&15],1))
#define R0(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk0(block, i)+0x5A827999+rol(v,5);w=rol(w,30);
#define R1(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk(i)+0x5A827999+rol(v,5);w=rol(w,30);
#define R2(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0x6ED9EBA1+rol(v,5);w=rol(w,30);
#define R3(v,w,x,y,z,i) z+=(((w|x)&y)|(w&x))+blk(i)+0x8F1BBCDC+rol(v,5);w=rol(w,30);
#define R4(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0xCA62C1D6+rol(v,5);w=rol(w,30);
typedef
struct
{
uint32_t
state
[
5
];
uint32_t
count
[
2
];
unsigned
char
buffer
[
64
];
}
SHA1_CTX
;
static
void
SHA1Transform
(
uint32_t
state
[
5
],
const
unsigned
char
buffer
[
64
])
{
uint32_t
a
,
b
,
c
,
d
,
e
;
union
char64long16
block
[
1
];
memcpy
(
block
,
buffer
,
64
);
a
=
state
[
0
];
b
=
state
[
1
];
c
=
state
[
2
];
d
=
state
[
3
];
e
=
state
[
4
];
R0
(
a
,
b
,
c
,
d
,
e
,
0
);
R0
(
e
,
a
,
b
,
c
,
d
,
1
);
R0
(
d
,
e
,
a
,
b
,
c
,
2
);
R0
(
c
,
d
,
e
,
a
,
b
,
3
);
R0
(
b
,
c
,
d
,
e
,
a
,
4
);
R0
(
a
,
b
,
c
,
d
,
e
,
5
);
R0
(
e
,
a
,
b
,
c
,
d
,
6
);
R0
(
d
,
e
,
a
,
b
,
c
,
7
);
R0
(
c
,
d
,
e
,
a
,
b
,
8
);
R0
(
b
,
c
,
d
,
e
,
a
,
9
);
R0
(
a
,
b
,
c
,
d
,
e
,
10
);
R0
(
e
,
a
,
b
,
c
,
d
,
11
);
R0
(
d
,
e
,
a
,
b
,
c
,
12
);
R0
(
c
,
d
,
e
,
a
,
b
,
13
);
R0
(
b
,
c
,
d
,
e
,
a
,
14
);
R0
(
a
,
b
,
c
,
d
,
e
,
15
);
R1
(
e
,
a
,
b
,
c
,
d
,
16
);
R1
(
d
,
e
,
a
,
b
,
c
,
17
);
R1
(
c
,
d
,
e
,
a
,
b
,
18
);
R1
(
b
,
c
,
d
,
e
,
a
,
19
);
R2
(
a
,
b
,
c
,
d
,
e
,
20
);
R2
(
e
,
a
,
b
,
c
,
d
,
21
);
R2
(
d
,
e
,
a
,
b
,
c
,
22
);
R2
(
c
,
d
,
e
,
a
,
b
,
23
);
R2
(
b
,
c
,
d
,
e
,
a
,
24
);
R2
(
a
,
b
,
c
,
d
,
e
,
25
);
R2
(
e
,
a
,
b
,
c
,
d
,
26
);
R2
(
d
,
e
,
a
,
b
,
c
,
27
);
R2
(
c
,
d
,
e
,
a
,
b
,
28
);
R2
(
b
,
c
,
d
,
e
,
a
,
29
);
R2
(
a
,
b
,
c
,
d
,
e
,
30
);
R2
(
e
,
a
,
b
,
c
,
d
,
31
);
R2
(
d
,
e
,
a
,
b
,
c
,
32
);
R2
(
c
,
d
,
e
,
a
,
b
,
33
);
R2
(
b
,
c
,
d
,
e
,
a
,
34
);
R2
(
a
,
b
,
c
,
d
,
e
,
35
);
R2
(
e
,
a
,
b
,
c
,
d
,
36
);
R2
(
d
,
e
,
a
,
b
,
c
,
37
);
R2
(
c
,
d
,
e
,
a
,
b
,
38
);
R2
(
b
,
c
,
d
,
e
,
a
,
39
);
R3
(
a
,
b
,
c
,
d
,
e
,
40
);
R3
(
e
,
a
,
b
,
c
,
d
,
41
);
R3
(
d
,
e
,
a
,
b
,
c
,
42
);
R3
(
c
,
d
,
e
,
a
,
b
,
43
);
R3
(
b
,
c
,
d
,
e
,
a
,
44
);
R3
(
a
,
b
,
c
,
d
,
e
,
45
);
R3
(
e
,
a
,
b
,
c
,
d
,
46
);
R3
(
d
,
e
,
a
,
b
,
c
,
47
);
R3
(
c
,
d
,
e
,
a
,
b
,
48
);
R3
(
b
,
c
,
d
,
e
,
a
,
49
);
R3
(
a
,
b
,
c
,
d
,
e
,
50
);
R3
(
e
,
a
,
b
,
c
,
d
,
51
);
R3
(
d
,
e
,
a
,
b
,
c
,
52
);
R3
(
c
,
d
,
e
,
a
,
b
,
53
);
R3
(
b
,
c
,
d
,
e
,
a
,
54
);
R3
(
a
,
b
,
c
,
d
,
e
,
55
);
R3
(
e
,
a
,
b
,
c
,
d
,
56
);
R3
(
d
,
e
,
a
,
b
,
c
,
57
);
R3
(
c
,
d
,
e
,
a
,
b
,
58
);
R3
(
b
,
c
,
d
,
e
,
a
,
59
);
R4
(
a
,
b
,
c
,
d
,
e
,
60
);
R4
(
e
,
a
,
b
,
c
,
d
,
61
);
R4
(
d
,
e
,
a
,
b
,
c
,
62
);
R4
(
c
,
d
,
e
,
a
,
b
,
63
);
R4
(
b
,
c
,
d
,
e
,
a
,
64
);
R4
(
a
,
b
,
c
,
d
,
e
,
65
);
R4
(
e
,
a
,
b
,
c
,
d
,
66
);
R4
(
d
,
e
,
a
,
b
,
c
,
67
);
R4
(
c
,
d
,
e
,
a
,
b
,
68
);
R4
(
b
,
c
,
d
,
e
,
a
,
69
);
R4
(
a
,
b
,
c
,
d
,
e
,
70
);
R4
(
e
,
a
,
b
,
c
,
d
,
71
);
R4
(
d
,
e
,
a
,
b
,
c
,
72
);
R4
(
c
,
d
,
e
,
a
,
b
,
73
);
R4
(
b
,
c
,
d
,
e
,
a
,
74
);
R4
(
a
,
b
,
c
,
d
,
e
,
75
);
R4
(
e
,
a
,
b
,
c
,
d
,
76
);
R4
(
d
,
e
,
a
,
b
,
c
,
77
);
R4
(
c
,
d
,
e
,
a
,
b
,
78
);
R4
(
b
,
c
,
d
,
e
,
a
,
79
);
state
[
0
]
+=
a
;
state
[
1
]
+=
b
;
state
[
2
]
+=
c
;
state
[
3
]
+=
d
;
state
[
4
]
+=
e
;
a
=
b
=
c
=
d
=
e
=
0
;
memset
(
block
,
'\0'
,
sizeof
(
block
));
}
static
void
SHA1Init
(
SHA1_CTX
*
context
)
{
context
->
state
[
0
]
=
0x67452301
;
context
->
state
[
1
]
=
0xEFCDAB89
;
context
->
state
[
2
]
=
0x98BADCFE
;
context
->
state
[
3
]
=
0x10325476
;
context
->
state
[
4
]
=
0xC3D2E1F0
;
context
->
count
[
0
]
=
context
->
count
[
1
]
=
0
;
}
static
void
SHA1Update
(
SHA1_CTX
*
context
,
const
unsigned
char
*
data
,
uint32_t
len
)
{
uint32_t
i
,
j
;
j
=
context
->
count
[
0
];
if
((
context
->
count
[
0
]
+=
len
<<
3
)
<
j
)
context
->
count
[
1
]
++
;
context
->
count
[
1
]
+=
(
len
>>
29
);
j
=
(
j
>>
3
)
&
63
;
if
((
j
+
len
)
>
63
)
{
memcpy
(
&
context
->
buffer
[
j
],
data
,
(
i
=
64
-
j
));
SHA1Transform
(
context
->
state
,
context
->
buffer
);
for
(
;
i
+
63
<
len
;
i
+=
64
)
{
SHA1Transform
(
context
->
state
,
&
data
[
i
]);
}
j
=
0
;
}
else
i
=
0
;
memcpy
(
&
context
->
buffer
[
j
],
&
data
[
i
],
len
-
i
);
}
static
void
SHA1Final
(
unsigned
char
digest
[
20
],
SHA1_CTX
*
context
)
{
unsigned
i
;
unsigned
char
finalcount
[
8
],
c
;
for
(
i
=
0
;
i
<
8
;
i
++
)
{
finalcount
[
i
]
=
(
unsigned
char
)((
context
->
count
[(
i
>=
4
?
0
:
1
)]
>>
((
3
-
(
i
&
3
))
*
8
)
)
&
255
);
}
c
=
0200
;
SHA1Update
(
context
,
&
c
,
1
);
while
((
context
->
count
[
0
]
&
504
)
!=
448
)
{
c
=
0000
;
SHA1Update
(
context
,
&
c
,
1
);
}
SHA1Update
(
context
,
finalcount
,
8
);
for
(
i
=
0
;
i
<
20
;
i
++
)
{
digest
[
i
]
=
(
unsigned
char
)
((
context
->
state
[
i
>>
2
]
>>
((
3
-
(
i
&
3
))
*
8
)
)
&
255
);
}
memset
(
context
,
'\0'
,
sizeof
(
*
context
));
memset
(
&
finalcount
,
'\0'
,
sizeof
(
finalcount
));
}
// END OF SHA1 CODE
static
void
base64_encode
(
const
unsigned
char
*
src
,
int
src_len
,
char
*
dst
)
{
static
const
char
*
b64
=
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
;
int
i
,
j
,
a
,
b
,
c
;
for
(
i
=
j
=
0
;
i
<
src_len
;
i
+=
3
)
{
a
=
src
[
i
];
b
=
i
+
1
>=
src_len
?
0
:
src
[
i
+
1
];
c
=
i
+
2
>=
src_len
?
0
:
src
[
i
+
2
];
dst
[
j
++
]
=
b64
[
a
>>
2
];
dst
[
j
++
]
=
b64
[((
a
&
3
)
<<
4
)
|
(
b
>>
4
)];
if
(
i
+
1
<
src_len
)
{
dst
[
j
++
]
=
b64
[(
b
&
15
)
<<
2
|
(
c
>>
6
)];
}
if
(
i
+
2
<
src_len
)
{
dst
[
j
++
]
=
b64
[
c
&
63
];
}
}
while
(
j
%
4
!=
0
)
{
dst
[
j
++
]
=
'='
;
}
dst
[
j
++
]
=
'\0'
;
}
void
mg_websocket_handshake
(
struct
mg_connection
*
conn
)
{
static
const
char
*
magic
=
"258EAFA5-E914-47DA-95CA-C5AB0DC85B11"
;
char
buf
[
100
],
sha
[
20
],
b64_sha
[
sizeof
(
sha
)
*
2
];
SHA1_CTX
sha_ctx
;
mg_snprintf
(
buf
,
sizeof
(
buf
),
"%s%s"
,
mg_get_header
(
conn
,
"Sec-WebSocket-Key"
),
magic
);
SHA1Init
(
&
sha_ctx
);
SHA1Update
(
&
sha_ctx
,
(
unsigned
char
*
)
buf
,
strlen
(
buf
));
SHA1Final
((
unsigned
char
*
)
sha
,
&
sha_ctx
);
base64_encode
((
unsigned
char
*
)
sha
,
sizeof
(
sha
),
b64_sha
);
mg_printf
(
conn
,
"%s%s%s"
,
"HTTP/1.1 101 Switching Protocols
\r\n
"
"Upgrade: websocket
\r\n
"
"Connection: Upgrade
\r\n
"
"Sec-WebSocket-Accept: "
,
b64_sha
,
"
\r\n\r\n
"
);
}
int
mg_websocket_read
(
struct
mg_connection
*
conn
,
int
*
bits
,
char
**
data
)
{
// Pointer to the beginning of the portion of the incoming websocket message
// queue. The original websocket upgrade request is never removed,
// so the queue begins after it.
unsigned
char
*
buf
=
(
unsigned
char
*
)
conn
->
buf
+
conn
->
request_len
;
int
n
,
stop
=
0
;
size_t
i
,
len
,
mask_len
,
data_len
,
header_len
,
body_len
;
char
mask
[
4
];
assert
(
conn
->
content_len
==
0
);
// Loop continuously, reading messages from the socket, invoking the callback,
// and waiting repeatedly until an error occurs.
while
(
!
stop
)
{
header_len
=
0
;
// body_len is the length of the entire queue in bytes
// len is the length of the current message
// data_len is the length of the current message's data payload
// header_len is the length of the current message's header
if
((
body_len
=
conn
->
data_len
-
conn
->
request_len
)
>=
2
)
{
len
=
buf
[
1
]
&
127
;
mask_len
=
buf
[
1
]
&
128
?
4
:
0
;
if
(
len
<
126
&&
body_len
>=
mask_len
)
{
data_len
=
len
;
header_len
=
2
+
mask_len
;
}
else
if
(
len
==
126
&&
body_len
>=
4
+
mask_len
)
{
header_len
=
4
+
mask_len
;
data_len
=
((((
int
)
buf
[
2
])
<<
8
)
+
buf
[
3
]);
}
else
if
(
body_len
>=
10
+
mask_len
)
{
header_len
=
10
+
mask_len
;
data_len
=
(((
uint64_t
)
htonl
(
*
(
uint32_t
*
)
&
buf
[
2
]))
<<
32
)
+
htonl
(
*
(
uint32_t
*
)
&
buf
[
6
]);
}
}
// Data layout is as follows:
// conn->buf buf
// v v frame1 | frame2
// |---------------------|----------------|--------------|-------
// | |<--header_len-->|<--data_len-->|
// |<-conn->request_len->|<-----body_len----------->|
// |<-------------------conn->data_len------------->|
if
(
header_len
>
0
)
{
// Allocate space to hold websocket payload
if
((
*
data
=
malloc
(
data_len
))
==
NULL
)
{
// Allocation failed, exit the loop and then close the connection
// TODO: notify user about the failure
data_len
=
0
;
break
;
}
// Save mask and bits, otherwise it may be clobbered by memmove below
*
bits
=
buf
[
0
];
memcpy
(
mask
,
buf
+
header_len
-
mask_len
,
mask_len
);
// Read frame payload into the allocated buffer.
assert
(
body_len
>=
header_len
);
if
(
data_len
+
header_len
>
body_len
)
{
len
=
body_len
-
header_len
;
memcpy
(
*
data
,
buf
+
header_len
,
len
);
// TODO: handle pull error
pull_all
(
NULL
,
conn
,
*
data
+
len
,
data_len
-
len
);
conn
->
data_len
=
conn
->
request_len
;
}
else
{
len
=
data_len
+
header_len
;
memcpy
(
*
data
,
buf
+
header_len
,
data_len
);
memmove
(
buf
,
buf
+
len
,
body_len
-
len
);
conn
->
data_len
-=
len
;
}
// Apply mask if necessary
if
(
mask_len
>
0
)
{
for
(
i
=
0
;
i
<
data_len
;
i
++
)
{
(
*
data
)[
i
]
^=
mask
[
i
%
4
];
}
}
return
data_len
;
}
else
{
// Buffering websocket request
if
((
n
=
pull
(
NULL
,
conn
,
conn
->
buf
+
conn
->
data_len
,
conn
->
buf_size
-
conn
->
data_len
))
<=
0
)
{
break
;
}
conn
->
data_len
+=
n
;
}
}
return
0
;
}
int
mg_websocket_write
(
struct
mg_connection
*
conn
,
int
opcode
,
const
char
*
data
,
size_t
data_len
)
{
unsigned
char
*
copy
;
size_t
copy_len
=
0
;
int
retval
=
-
1
;
if
((
copy
=
(
unsigned
char
*
)
malloc
(
data_len
+
10
))
==
NULL
)
{
return
-
1
;
}
copy
[
0
]
=
0x80
+
(
opcode
&
0x0f
);
// Frame format: http://tools.ietf.org/html/rfc6455#section-5.2
if
(
data_len
<
126
)
{
// Inline 7-bit length field
copy
[
1
]
=
data_len
;
memcpy
(
copy
+
2
,
data
,
data_len
);
copy_len
=
2
+
data_len
;
}
else
if
(
data_len
<=
0xFFFF
)
{
// 16-bit length field
copy
[
1
]
=
126
;
*
(
uint16_t
*
)
(
copy
+
2
)
=
htons
(
data_len
);
memcpy
(
copy
+
4
,
data
,
data_len
);
copy_len
=
4
+
data_len
;
}
else
{
// 64-bit length field
copy
[
1
]
=
127
;
*
(
uint32_t
*
)
(
copy
+
2
)
=
htonl
((
uint64_t
)
data_len
>>
32
);
*
(
uint32_t
*
)
(
copy
+
6
)
=
htonl
(
data_len
&
0xffffffff
);
memcpy
(
copy
+
10
,
data
,
data_len
);
copy_len
=
10
+
data_len
;
}
// Not thread safe
if
(
copy_len
>
0
)
{
retval
=
mg_write
(
conn
,
copy
,
copy_len
);
}
free
(
copy
);
return
retval
;
}
#endif // !USE_WEBSOCKET
static
int
isbyte
(
int
n
)
{
static
int
isbyte
(
int
n
)
{
return
n
>=
0
&&
n
<=
255
;
return
n
>=
0
&&
n
<=
255
;
}
}
...
...
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