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rasky
libvncserver
Commits
669b4c86
Commit
669b4c86
authored
May 23, 2005
by
dscho
Browse files
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Plain Diff
make zlib and tight handling thread safe (static -> rfbClient)
parent
dc1094f0
Changes
5
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Showing
5 changed files
with
226 additions
and
214 deletions
+226
-214
rfbproto.c
libvncclient/rfbproto.c
+0
-129
tight.c
libvncclient/tight.c
+151
-63
vncviewer.c
libvncclient/vncviewer.c
+9
-0
zlib.c
libvncclient/zlib.c
+22
-22
rfbclient.h
rfb/rfbclient.h
+44
-0
No files found.
libvncclient/rfbproto.c
View file @
669b4c86
...
...
@@ -166,48 +166,6 @@ static void JpegSetSrcManager(j_decompress_ptr cinfo, uint8_t *compressedData,
#endif
#endif
/* The zlib encoding requires expansion/decompression/deflation of the
compressed data in the "buffer" above into another, result buffer.
However, the size of the result buffer can be determined precisely
based on the bitsPerPixel, height and width of the rectangle. We
allocate this buffer one time to be the full size of the buffer. */
#ifdef LIBVNCSERVER_HAVE_LIBZ
static
int
raw_buffer_size
=
-
1
;
static
char
*
raw_buffer
;
static
z_stream
decompStream
;
static
rfbBool
decompStreamInited
=
FALSE
;
#endif
#ifdef LIBVNCSERVER_HAVE_LIBJPEG
/*
* Variables for the ``tight'' encoding implementation.
*/
/* Separate buffer for compressed data. */
/* TODO: threading issues */
#define ZLIB_BUFFER_SIZE 30000
static
char
zlib_buffer
[
ZLIB_BUFFER_SIZE
];
/* Four independent compression streams for zlib library. */
static
z_stream
zlibStream
[
4
];
static
rfbBool
zlibStreamActive
[
4
]
=
{
FALSE
,
FALSE
,
FALSE
,
FALSE
};
/* Filter stuff. Should be initialized by filter initialization code. */
static
rfbBool
cutZeros
;
static
int
rectWidth
,
rectColors
;
static
char
tightPalette
[
256
*
4
];
static
uint8_t
tightPrevRow
[
2048
*
3
*
sizeof
(
uint16_t
)];
/* JPEG decoder state. */
static
rfbBool
jpegError
;
#endif
/*
* ConnectToRFBServer.
*/
...
...
@@ -1060,93 +1018,6 @@ PrintPixelFormat(rfbPixelFormat *format)
}
}
#ifdef LIBVNCSERVER_HAVE_LIBJPEG
static
long
ReadCompactLen
(
rfbClient
*
client
)
{
long
len
;
uint8_t
b
;
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
b
,
1
))
return
-
1
;
len
=
(
int
)
b
&
0x7F
;
if
(
b
&
0x80
)
{
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
b
,
1
))
return
-
1
;
len
|=
((
int
)
b
&
0x7F
)
<<
7
;
if
(
b
&
0x80
)
{
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
b
,
1
))
return
-
1
;
len
|=
((
int
)
b
&
0xFF
)
<<
14
;
}
}
return
len
;
}
/*
* JPEG source manager functions for JPEG decompression in Tight decoder.
*/
static
struct
jpeg_source_mgr
jpegSrcManager
;
static
JOCTET
*
jpegBufferPtr
;
static
size_t
jpegBufferLen
;
static
void
JpegInitSource
(
j_decompress_ptr
cinfo
)
{
jpegError
=
FALSE
;
}
static
boolean
JpegFillInputBuffer
(
j_decompress_ptr
cinfo
)
{
jpegError
=
TRUE
;
jpegSrcManager
.
bytes_in_buffer
=
jpegBufferLen
;
jpegSrcManager
.
next_input_byte
=
(
JOCTET
*
)
jpegBufferPtr
;
return
TRUE
;
}
static
void
JpegSkipInputData
(
j_decompress_ptr
cinfo
,
long
num_bytes
)
{
if
(
num_bytes
<
0
||
num_bytes
>
jpegSrcManager
.
bytes_in_buffer
)
{
jpegError
=
TRUE
;
jpegSrcManager
.
bytes_in_buffer
=
jpegBufferLen
;
jpegSrcManager
.
next_input_byte
=
(
JOCTET
*
)
jpegBufferPtr
;
}
else
{
jpegSrcManager
.
next_input_byte
+=
(
size_t
)
num_bytes
;
jpegSrcManager
.
bytes_in_buffer
-=
(
size_t
)
num_bytes
;
}
}
static
void
JpegTermSource
(
j_decompress_ptr
cinfo
)
{
/* No work necessary here. */
}
static
void
JpegSetSrcManager
(
j_decompress_ptr
cinfo
,
uint8_t
*
compressedData
,
int
compressedLen
)
{
jpegBufferPtr
=
(
JOCTET
*
)
compressedData
;
jpegBufferLen
=
(
size_t
)
compressedLen
;
jpegSrcManager
.
init_source
=
JpegInitSource
;
jpegSrcManager
.
fill_input_buffer
=
JpegFillInputBuffer
;
jpegSrcManager
.
skip_input_data
=
JpegSkipInputData
;
jpegSrcManager
.
resync_to_restart
=
jpeg_resync_to_restart
;
jpegSrcManager
.
term_source
=
JpegTermSource
;
jpegSrcManager
.
next_input_byte
=
jpegBufferPtr
;
jpegSrcManager
.
bytes_in_buffer
=
jpegBufferLen
;
cinfo
->
src
=
&
jpegSrcManager
;
}
#endif
/* avoid name clashes with LibVNCServer */
#define rfbEncryptBytes rfbClientEncryptBytes
...
...
libvncclient/tight.c
View file @
669b4c86
...
...
@@ -104,11 +104,11 @@ HandleTightBPP (rfbClient* client, int rx, int ry, int rw, int rh)
/* Flush zlib streams if we are told by the server to do so. */
for
(
stream_id
=
0
;
stream_id
<
4
;
stream_id
++
)
{
if
((
comp_ctl
&
1
)
&&
zlibStreamActive
[
stream_id
])
{
if
(
inflateEnd
(
&
zlibStream
[
stream_id
])
!=
Z_OK
&&
zlibStream
[
stream_id
].
msg
!=
NULL
)
rfbClientLog
(
"inflateEnd: %s
\n
"
,
zlibStream
[
stream_id
].
msg
);
zlibStreamActive
[
stream_id
]
=
FALSE
;
if
((
comp_ctl
&
1
)
&&
client
->
zlibStreamActive
[
stream_id
])
{
if
(
inflateEnd
(
&
client
->
zlibStream
[
stream_id
])
!=
Z_OK
&&
client
->
zlibStream
[
stream_id
].
msg
!=
NULL
)
rfbClientLog
(
"inflateEnd: %s
\n
"
,
client
->
zlibStream
[
stream_id
].
msg
);
client
->
zlibStreamActive
[
stream_id
]
=
FALSE
;
}
comp_ctl
>>=
1
;
}
...
...
@@ -211,8 +211,8 @@ HandleTightBPP (rfbClient* client, int rx, int ry, int rw, int rh)
/* Now let's initialize compression stream if needed. */
stream_id
=
comp_ctl
&
0x03
;
zs
=
&
zlibStream
[
stream_id
];
if
(
!
zlibStreamActive
[
stream_id
])
{
zs
=
&
client
->
zlibStream
[
stream_id
];
if
(
!
client
->
zlibStreamActive
[
stream_id
])
{
zs
->
zalloc
=
Z_NULL
;
zs
->
zfree
=
Z_NULL
;
zs
->
opaque
=
Z_NULL
;
...
...
@@ -222,7 +222,7 @@ HandleTightBPP (rfbClient* client, int rx, int ry, int rw, int rh)
rfbClientLog
(
"InflateInit error: %s.
\n
"
,
zs
->
msg
);
return
FALSE
;
}
zlibStreamActive
[
stream_id
]
=
TRUE
;
client
->
zlibStreamActive
[
stream_id
]
=
TRUE
;
}
/* Read, decode and draw actual pixel data in a loop. */
...
...
@@ -244,12 +244,12 @@ HandleTightBPP (rfbClient* client, int rx, int ry, int rw, int rh)
else
portionLen
=
compressedLen
;
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
zlib_buffer
,
portionLen
))
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
client
->
zlib_buffer
,
portionLen
))
return
FALSE
;
compressedLen
-=
portionLen
;
zs
->
next_in
=
(
Bytef
*
)
zlib_buffer
;
zs
->
next_in
=
(
Bytef
*
)
client
->
zlib_buffer
;
zs
->
avail_in
=
portionLen
;
do
{
...
...
@@ -308,15 +308,15 @@ HandleTightBPP (rfbClient* client, int rx, int ry, int rw, int rh)
static
int
InitFilterCopyBPP
(
rfbClient
*
client
,
int
rw
,
int
rh
)
{
rectWidth
=
rw
;
client
->
rectWidth
=
rw
;
#if BPP == 32
if
(
client
->
format
.
depth
==
24
&&
client
->
format
.
redMax
==
0xFF
&&
client
->
format
.
greenMax
==
0xFF
&&
client
->
format
.
blueMax
==
0xFF
)
{
cutZeros
=
TRUE
;
c
lient
->
c
utZeros
=
TRUE
;
return
24
;
}
else
{
cutZeros
=
FALSE
;
c
lient
->
c
utZeros
=
FALSE
;
}
#endif
...
...
@@ -330,20 +330,20 @@ FilterCopyBPP (rfbClient* client, int numRows, CARDBPP *dst)
#if BPP == 32
int
x
,
y
;
if
(
cutZeros
)
{
if
(
c
lient
->
c
utZeros
)
{
for
(
y
=
0
;
y
<
numRows
;
y
++
)
{
for
(
x
=
0
;
x
<
rectWidth
;
x
++
)
{
dst
[
y
*
rectWidth
+
x
]
=
RGB24_TO_PIXEL32
(
client
->
buffer
[(
y
*
rectWidth
+
x
)
*
3
],
client
->
buffer
[(
y
*
rectWidth
+
x
)
*
3
+
1
],
client
->
buffer
[(
y
*
rectWidth
+
x
)
*
3
+
2
]);
for
(
x
=
0
;
x
<
client
->
rectWidth
;
x
++
)
{
dst
[
y
*
client
->
rectWidth
+
x
]
=
RGB24_TO_PIXEL32
(
client
->
buffer
[(
y
*
client
->
rectWidth
+
x
)
*
3
],
client
->
buffer
[(
y
*
client
->
rectWidth
+
x
)
*
3
+
1
],
client
->
buffer
[(
y
*
client
->
rectWidth
+
x
)
*
3
+
2
]);
}
}
return
;
}
#endif
memcpy
(
dst
,
client
->
buffer
,
numRows
*
rectWidth
*
(
BPP
/
8
));
memcpy
(
dst
,
client
->
buffer
,
numRows
*
client
->
rectWidth
*
(
BPP
/
8
));
}
static
int
...
...
@@ -352,10 +352,10 @@ InitFilterGradientBPP (rfbClient* client, int rw, int rh)
int
bits
;
bits
=
InitFilterCopyBPP
(
client
,
rw
,
rh
);
if
(
cutZeros
)
memset
(
tightPrevRow
,
0
,
rw
*
3
);
if
(
c
lient
->
c
utZeros
)
memset
(
client
->
tightPrevRow
,
0
,
rw
*
3
);
else
memset
(
tightPrevRow
,
0
,
rw
*
3
*
sizeof
(
uint16_t
));
memset
(
client
->
tightPrevRow
,
0
,
rw
*
3
*
sizeof
(
uint16_t
));
return
bits
;
}
...
...
@@ -374,28 +374,28 @@ FilterGradient24 (rfbClient* client, int numRows, uint32_t *dst)
/* First pixel in a row */
for
(
c
=
0
;
c
<
3
;
c
++
)
{
pix
[
c
]
=
tightPrevRow
[
c
]
+
client
->
buffer
[
y
*
rectWidth
*
3
+
c
];
pix
[
c
]
=
client
->
tightPrevRow
[
c
]
+
client
->
buffer
[
y
*
client
->
rectWidth
*
3
+
c
];
thisRow
[
c
]
=
pix
[
c
];
}
dst
[
y
*
rectWidth
]
=
RGB24_TO_PIXEL32
(
pix
[
0
],
pix
[
1
],
pix
[
2
]);
dst
[
y
*
client
->
rectWidth
]
=
RGB24_TO_PIXEL32
(
pix
[
0
],
pix
[
1
],
pix
[
2
]);
/* Remaining pixels of a row */
for
(
x
=
1
;
x
<
rectWidth
;
x
++
)
{
for
(
x
=
1
;
x
<
client
->
rectWidth
;
x
++
)
{
for
(
c
=
0
;
c
<
3
;
c
++
)
{
est
[
c
]
=
(
int
)
tightPrevRow
[
x
*
3
+
c
]
+
(
int
)
pix
[
c
]
-
(
int
)
tightPrevRow
[(
x
-
1
)
*
3
+
c
];
est
[
c
]
=
(
int
)
client
->
tightPrevRow
[
x
*
3
+
c
]
+
(
int
)
pix
[
c
]
-
(
int
)
client
->
tightPrevRow
[(
x
-
1
)
*
3
+
c
];
if
(
est
[
c
]
>
0xFF
)
{
est
[
c
]
=
0xFF
;
}
else
if
(
est
[
c
]
<
0x00
)
{
est
[
c
]
=
0x00
;
}
pix
[
c
]
=
(
uint8_t
)
est
[
c
]
+
client
->
buffer
[(
y
*
rectWidth
+
x
)
*
3
+
c
];
pix
[
c
]
=
(
uint8_t
)
est
[
c
]
+
client
->
buffer
[(
y
*
client
->
rectWidth
+
x
)
*
3
+
c
];
thisRow
[
x
*
3
+
c
]
=
pix
[
c
];
}
dst
[
y
*
rectWidth
+
x
]
=
RGB24_TO_PIXEL32
(
pix
[
0
],
pix
[
1
],
pix
[
2
]);
dst
[
y
*
client
->
rectWidth
+
x
]
=
RGB24_TO_PIXEL32
(
pix
[
0
],
pix
[
1
],
pix
[
2
]);
}
memcpy
(
tightPrevRow
,
thisRow
,
rectWidth
*
3
);
memcpy
(
client
->
tightPrevRow
,
thisRow
,
client
->
rectWidth
*
3
);
}
}
...
...
@@ -406,7 +406,7 @@ FilterGradientBPP (rfbClient* client, int numRows, CARDBPP *dst)
{
int
x
,
y
,
c
;
CARDBPP
*
src
=
(
CARDBPP
*
)
client
->
buffer
;
uint16_t
*
thatRow
=
(
uint16_t
*
)
tightPrevRow
;
uint16_t
*
thatRow
=
(
uint16_t
*
)
client
->
tightPrevRow
;
uint16_t
thisRow
[
2048
*
3
];
uint16_t
pix
[
3
];
uint16_t
max
[
3
];
...
...
@@ -414,7 +414,7 @@ FilterGradientBPP (rfbClient* client, int numRows, CARDBPP *dst)
int
est
[
3
];
#if BPP == 32
if
(
cutZeros
)
{
if
(
c
lient
->
c
utZeros
)
{
FilterGradient24
(
client
,
numRows
,
dst
);
return
;
}
...
...
@@ -432,13 +432,13 @@ FilterGradientBPP (rfbClient* client, int numRows, CARDBPP *dst)
/* First pixel in a row */
for
(
c
=
0
;
c
<
3
;
c
++
)
{
pix
[
c
]
=
(
uint16_t
)(((
src
[
y
*
rectWidth
]
>>
shift
[
c
])
+
thatRow
[
c
])
&
max
[
c
]);
pix
[
c
]
=
(
uint16_t
)(((
src
[
y
*
client
->
rectWidth
]
>>
shift
[
c
])
+
thatRow
[
c
])
&
max
[
c
]);
thisRow
[
c
]
=
pix
[
c
];
}
dst
[
y
*
rectWidth
]
=
RGB_TO_PIXEL
(
BPP
,
pix
[
0
],
pix
[
1
],
pix
[
2
]);
dst
[
y
*
client
->
rectWidth
]
=
RGB_TO_PIXEL
(
BPP
,
pix
[
0
],
pix
[
1
],
pix
[
2
]);
/* Remaining pixels of a row */
for
(
x
=
1
;
x
<
rectWidth
;
x
++
)
{
for
(
x
=
1
;
x
<
client
->
rectWidth
;
x
++
)
{
for
(
c
=
0
;
c
<
3
;
c
++
)
{
est
[
c
]
=
(
int
)
thatRow
[
x
*
3
+
c
]
+
(
int
)
pix
[
c
]
-
(
int
)
thatRow
[(
x
-
1
)
*
3
+
c
];
if
(
est
[
c
]
>
(
int
)
max
[
c
])
{
...
...
@@ -446,12 +446,12 @@ FilterGradientBPP (rfbClient* client, int numRows, CARDBPP *dst)
}
else
if
(
est
[
c
]
<
0
)
{
est
[
c
]
=
0
;
}
pix
[
c
]
=
(
uint16_t
)(((
src
[
y
*
rectWidth
+
x
]
>>
shift
[
c
])
+
est
[
c
])
&
max
[
c
]);
pix
[
c
]
=
(
uint16_t
)(((
src
[
y
*
client
->
rectWidth
+
x
]
>>
shift
[
c
])
+
est
[
c
])
&
max
[
c
]);
thisRow
[
x
*
3
+
c
]
=
pix
[
c
];
}
dst
[
y
*
rectWidth
+
x
]
=
RGB_TO_PIXEL
(
BPP
,
pix
[
0
],
pix
[
1
],
pix
[
2
]);
dst
[
y
*
client
->
rectWidth
+
x
]
=
RGB_TO_PIXEL
(
BPP
,
pix
[
0
],
pix
[
1
],
pix
[
2
]);
}
memcpy
(
thatRow
,
thisRow
,
rectWidth
*
3
*
sizeof
(
uint16_t
));
memcpy
(
thatRow
,
thisRow
,
client
->
rectWidth
*
3
*
sizeof
(
uint16_t
));
}
}
...
...
@@ -461,36 +461,36 @@ InitFilterPaletteBPP (rfbClient* client, int rw, int rh)
uint8_t
numColors
;
#if BPP == 32
int
i
;
CARDBPP
*
palette
=
(
CARDBPP
*
)
tightPalette
;
CARDBPP
*
palette
=
(
CARDBPP
*
)
client
->
tightPalette
;
#endif
rectWidth
=
rw
;
client
->
rectWidth
=
rw
;
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
numColors
,
1
))
return
0
;
rectColors
=
(
int
)
numColors
;
if
(
++
rectColors
<
2
)
client
->
rectColors
=
(
int
)
numColors
;
if
(
++
client
->
rectColors
<
2
)
return
0
;
#if BPP == 32
if
(
client
->
format
.
depth
==
24
&&
client
->
format
.
redMax
==
0xFF
&&
client
->
format
.
greenMax
==
0xFF
&&
client
->
format
.
blueMax
==
0xFF
)
{
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
tightPalette
,
rectColors
*
3
))
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
client
->
tightPalette
,
client
->
rectColors
*
3
))
return
0
;
for
(
i
=
rectColors
-
1
;
i
>=
0
;
i
--
)
{
palette
[
i
]
=
RGB24_TO_PIXEL32
(
tightPalette
[
i
*
3
],
tightPalette
[
i
*
3
+
1
],
tightPalette
[
i
*
3
+
2
]);
for
(
i
=
client
->
rectColors
-
1
;
i
>=
0
;
i
--
)
{
palette
[
i
]
=
RGB24_TO_PIXEL32
(
client
->
tightPalette
[
i
*
3
],
client
->
tightPalette
[
i
*
3
+
1
],
client
->
tightPalette
[
i
*
3
+
2
]);
}
return
(
rectColors
==
2
)
?
1
:
8
;
return
(
client
->
rectColors
==
2
)
?
1
:
8
;
}
#endif
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
tightPalette
,
rectColors
*
(
BPP
/
8
)))
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
client
->
tightPalette
,
client
->
rectColors
*
(
BPP
/
8
)))
return
0
;
return
(
rectColors
==
2
)
?
1
:
8
;
return
(
client
->
rectColors
==
2
)
?
1
:
8
;
}
static
void
...
...
@@ -498,23 +498,23 @@ FilterPaletteBPP (rfbClient* client, int numRows, CARDBPP *dst)
{
int
x
,
y
,
b
,
w
;
uint8_t
*
src
=
(
uint8_t
*
)
client
->
buffer
;
CARDBPP
*
palette
=
(
CARDBPP
*
)
tightPalette
;
CARDBPP
*
palette
=
(
CARDBPP
*
)
client
->
tightPalette
;
if
(
rectColors
==
2
)
{
w
=
(
rectWidth
+
7
)
/
8
;
if
(
client
->
rectColors
==
2
)
{
w
=
(
client
->
rectWidth
+
7
)
/
8
;
for
(
y
=
0
;
y
<
numRows
;
y
++
)
{
for
(
x
=
0
;
x
<
rectWidth
/
8
;
x
++
)
{
for
(
x
=
0
;
x
<
client
->
rectWidth
/
8
;
x
++
)
{
for
(
b
=
7
;
b
>=
0
;
b
--
)
dst
[
y
*
rectWidth
+
x
*
8
+
7
-
b
]
=
palette
[
src
[
y
*
w
+
x
]
>>
b
&
1
];
dst
[
y
*
client
->
rectWidth
+
x
*
8
+
7
-
b
]
=
palette
[
src
[
y
*
w
+
x
]
>>
b
&
1
];
}
for
(
b
=
7
;
b
>=
8
-
rectWidth
%
8
;
b
--
)
{
dst
[
y
*
rectWidth
+
x
*
8
+
7
-
b
]
=
palette
[
src
[
y
*
w
+
x
]
>>
b
&
1
];
for
(
b
=
7
;
b
>=
8
-
client
->
rectWidth
%
8
;
b
--
)
{
dst
[
y
*
client
->
rectWidth
+
x
*
8
+
7
-
b
]
=
palette
[
src
[
y
*
w
+
x
]
>>
b
&
1
];
}
}
}
else
{
for
(
y
=
0
;
y
<
numRows
;
y
++
)
for
(
x
=
0
;
x
<
rectWidth
;
x
++
)
dst
[
y
*
rectWidth
+
x
]
=
palette
[(
int
)
src
[
y
*
rectWidth
+
x
]];
for
(
x
=
0
;
x
<
client
->
rectWidth
;
x
++
)
dst
[
y
*
client
->
rectWidth
+
x
]
=
palette
[(
int
)
src
[
y
*
client
->
rectWidth
+
x
]];
}
}
...
...
@@ -563,6 +563,7 @@ DecompressJpegRectBPP(rfbClient* client, int x, int y, int w, int h)
}
cinfo
.
err
=
jpeg_std_error
(
&
jerr
);
cinfo
.
client_data
=
client
;
jpeg_create_decompress
(
&
cinfo
);
JpegSetSrcManager
(
&
cinfo
,
compressedData
,
compressedLen
);
...
...
@@ -583,7 +584,7 @@ DecompressJpegRectBPP(rfbClient* client, int x, int y, int w, int h)
dy
=
0
;
while
(
cinfo
.
output_scanline
<
cinfo
.
output_height
)
{
jpeg_read_scanlines
(
&
cinfo
,
rowPointer
,
1
);
if
(
jpegError
)
{
if
(
client
->
jpegError
)
{
break
;
}
pixelPtr
=
(
CARDBPP
*
)
&
client
->
buffer
[
RFB_BUFFER_SIZE
/
2
];
...
...
@@ -595,13 +596,100 @@ DecompressJpegRectBPP(rfbClient* client, int x, int y, int w, int h)
dy
++
;
}
if
(
!
jpegError
)
if
(
!
client
->
jpegError
)
jpeg_finish_decompress
(
&
cinfo
);
jpeg_destroy_decompress
(
&
cinfo
);
free
(
compressedData
);
return
!
jpegError
;
return
!
client
->
jpegError
;
}
#else
static
long
ReadCompactLen
(
rfbClient
*
client
)
{
long
len
;
uint8_t
b
;
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
b
,
1
))
return
-
1
;
len
=
(
int
)
b
&
0x7F
;
if
(
b
&
0x80
)
{
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
b
,
1
))
return
-
1
;
len
|=
((
int
)
b
&
0x7F
)
<<
7
;
if
(
b
&
0x80
)
{
if
(
!
ReadFromRFBServer
(
client
,
(
char
*
)
&
b
,
1
))
return
-
1
;
len
|=
((
int
)
b
&
0xFF
)
<<
14
;
}
}
return
len
;
}
/*
* JPEG source manager functions for JPEG decompression in Tight decoder.
*/
static
void
JpegInitSource
(
j_decompress_ptr
cinfo
)
{
rfbClient
*
client
=
(
rfbClient
*
)
cinfo
->
client_data
;
client
->
jpegError
=
FALSE
;
client
->
jpegSrcManager
=
malloc
(
sizeof
(
struct
jpeg_source_mgr
));
}
static
boolean
JpegFillInputBuffer
(
j_decompress_ptr
cinfo
)
{
rfbClient
*
client
=
(
rfbClient
*
)
cinfo
->
client_data
;
client
->
jpegError
=
TRUE
;
client
->
jpegSrcManager
->
bytes_in_buffer
=
client
->
jpegBufferLen
;
client
->
jpegSrcManager
->
next_input_byte
=
(
JOCTET
*
)
client
->
jpegBufferPtr
;
return
TRUE
;
}
static
void
JpegSkipInputData
(
j_decompress_ptr
cinfo
,
long
num_bytes
)
{
rfbClient
*
client
=
(
rfbClient
*
)
cinfo
->
client_data
;
if
(
num_bytes
<
0
||
num_bytes
>
client
->
jpegSrcManager
->
bytes_in_buffer
)
{
client
->
jpegError
=
TRUE
;
client
->
jpegSrcManager
->
bytes_in_buffer
=
client
->
jpegBufferLen
;
client
->
jpegSrcManager
->
next_input_byte
=
(
JOCTET
*
)
client
->
jpegBufferPtr
;
}
else
{
client
->
jpegSrcManager
->
next_input_byte
+=
(
size_t
)
num_bytes
;
client
->
jpegSrcManager
->
bytes_in_buffer
-=
(
size_t
)
num_bytes
;
}
}
static
void
JpegTermSource
(
j_decompress_ptr
cinfo
)
{
/* nothing to do here. */
}
static
void
JpegSetSrcManager
(
j_decompress_ptr
cinfo
,
uint8_t
*
compressedData
,
int
compressedLen
)
{
rfbClient
*
client
=
(
rfbClient
*
)
cinfo
->
client_data
;
client
->
jpegBufferPtr
=
compressedData
;
client
->
jpegBufferLen
=
(
size_t
)
compressedLen
;
client
->
jpegSrcManager
->
init_source
=
JpegInitSource
;
client
->
jpegSrcManager
->
fill_input_buffer
=
JpegFillInputBuffer
;
client
->
jpegSrcManager
->
skip_input_data
=
JpegSkipInputData
;
client
->
jpegSrcManager
->
resync_to_restart
=
jpeg_resync_to_restart
;
client
->
jpegSrcManager
->
term_source
=
JpegTermSource
;
client
->
jpegSrcManager
->
next_input_byte
=
(
JOCTET
*
)
client
->
jpegBufferPtr
;
client
->
jpegSrcManager
->
bytes_in_buffer
=
client
->
jpegBufferLen
;
cinfo
->
src
=
client
->
jpegSrcManager
;
}
#endif
...
...
libvncclient/vncviewer.c
View file @
669b4c86
...
...
@@ -154,6 +154,15 @@ rfbClient* rfbGetClient(int bitsPerSample,int samplesPerPixel,
client
->
bufoutptr
=
client
->
buf
;
client
->
buffered
=
0
;
#ifdef LIBVNCSERVER_HAVE_LIBZ
client
->
raw_buffer_size
=
-
1
;
client
->
decompStreamInited
=
FALSE
;
#endif
#ifdef LIBVNCSERVER_HAVE_LIBJPEG
memset
(
client
->
zlibStreamActive
,
0
,
sizeof
(
rfbBool
)
*
4
);
#endif
client
->
HandleCursorPos
=
DummyPoint
;
client
->
SoftCursorLockArea
=
DummyRect
;
client
->
SoftCursorUnlockScreen
=
Dummy
;
...
...
libvncclient/zlib.c
View file @
669b4c86
...
...
@@ -46,16 +46,16 @@ HandleZlibBPP (rfbClient* client, int rx, int ry, int rw, int rh)
* buffer, this buffer allocation should only happen once, on the
* first update.
*/
if
(
raw_buffer_size
<
((
rw
*
rh
)
*
(
BPP
/
8
)))
{
if
(
client
->
raw_buffer_size
<
((
rw
*
rh
)
*
(
BPP
/
8
)))
{
if
(
raw_buffer
!=
NULL
)
{
if
(
client
->
raw_buffer
!=
NULL
)
{
free
(
raw_buffer
);
free
(
client
->
raw_buffer
);
}
raw_buffer_size
=
((
rw
*
rh
)
*
(
BPP
/
8
));
raw_buffer
=
(
char
*
)
malloc
(
raw_buffer_size
);
client
->
raw_buffer_size
=
((
rw
*
rh
)
*
(
BPP
/
8
));
client
->
raw_buffer
=
(
char
*
)
malloc
(
client
->
raw_buffer_size
);
}
...
...
@@ -65,26 +65,26 @@ HandleZlibBPP (rfbClient* client, int rx, int ry, int rw, int rh)
remaining
=
rfbClientSwap32IfLE
(
hdr
.
nBytes
);
/* Need to initialize the decompressor state. */
decompStream
.
next_in
=
(
Bytef
*
)
client
->
buffer
;
decompStream
.
avail_in
=
0
;
decompStream
.
next_out
=
(
Bytef
*
)
raw_buffer
;
decompStream
.
avail_out
=
raw_buffer_size
;
decompStream
.
data_type
=
Z_BINARY
;
client
->
decompStream
.
next_in
=
(
Bytef
*
)
client
->
buffer
;
client
->
decompStream
.
avail_in
=
0
;
client
->
decompStream
.
next_out
=
(
Bytef
*
)
client
->
raw_buffer
;
client
->
decompStream
.
avail_out
=
client
->
raw_buffer_size
;
client
->
decompStream
.
data_type
=
Z_BINARY
;
/* Initialize the decompression stream structures on the first invocation. */
if
(
decompStreamInited
==
FALSE
)
{
if
(
client
->
decompStreamInited
==
FALSE
)
{
inflateResult
=
inflateInit
(
&
decompStream
);
inflateResult
=
inflateInit
(
&
client
->
decompStream
);
if
(
inflateResult
!=
Z_OK
)
{
rfbClientLog
(
"inflateInit returned error: %d, msg: %s
\n
"
,
inflateResult
,
decompStream
.
msg
);
client
->
decompStream
.
msg
);
return
FALSE
;
}
decompStreamInited
=
TRUE
;
client
->
decompStreamInited
=
TRUE
;
}
...
...
@@ -107,11 +107,11 @@ HandleZlibBPP (rfbClient* client, int rx, int ry, int rw, int rh)
if
(
!
ReadFromRFBServer
(
client
,
client
->
buffer
,
toRead
))
return
FALSE
;
decompStream
.
next_in
=
(
Bytef
*
)
client
->
buffer
;
decompStream
.
avail_in
=
toRead
;
client
->
decompStream
.
next_in
=
(
Bytef
*
)
client
->
buffer
;
client
->
decompStream
.
avail_in
=
toRead
;
/* Need to uncompress buffer full. */
inflateResult
=
inflate
(
&
decompStream
,
Z_SYNC_FLUSH
);
inflateResult
=
inflate
(
&
client
->
decompStream
,
Z_SYNC_FLUSH
);
/* We never supply a dictionary for compression. */
if
(
inflateResult
==
Z_NEED_DICT
)
{
...
...
@@ -122,15 +122,15 @@ HandleZlibBPP (rfbClient* client, int rx, int ry, int rw, int rh)
rfbClientLog
(
"zlib inflate returned error: %d, msg: %s
\n
"
,
inflateResult
,
decompStream
.
msg
);
client
->
decompStream
.
msg
);
return
FALSE
;
}
/* Result buffer allocated to be at least large enough. We should
* never run out of space!
*/
if
((
decompStream
.
avail_in
>
0
)
&&
(
decompStream
.
avail_out
<=
0
))
{
if
((
client
->
decompStream
.
avail_in
>
0
)
&&
(
client
->
decompStream
.
avail_out
<=
0
))
{
rfbClientLog
(
"zlib inflate ran out of space!
\n
"
);
return
FALSE
;
}
...
...
@@ -142,14 +142,14 @@ HandleZlibBPP (rfbClient* client, int rx, int ry, int rw, int rh)
if
(
inflateResult
==
Z_OK
)
{
/* Put the uncompressed contents of the update on the screen. */
CopyRectangle
(
client
,
raw_buffer
,
rx
,
ry
,
rw
,
rh
);
CopyRectangle
(
client
,
client
->
raw_buffer
,
rx
,
ry
,
rw
,
rh
);
}
else
{
rfbClientLog
(
"zlib inflate returned error: %d, msg: %s
\n
"
,
inflateResult
,
decompStream
.
msg
);
client
->
decompStream
.
msg
);
return
FALSE
;
}
...
...
rfb/rfbclient.h
View file @
669b4c86
...
...
@@ -132,6 +132,50 @@ typedef struct _rfbClient {
char
*
bufoutptr
;
int
buffered
;
/* The zlib encoding requires expansion/decompression/deflation of the
compressed data in the "buffer" above into another, result buffer.
However, the size of the result buffer can be determined precisely
based on the bitsPerPixel, height and width of the rectangle. We
allocate this buffer one time to be the full size of the buffer. */
#ifdef LIBVNCSERVER_HAVE_LIBZ
int
raw_buffer_size
;
char
*
raw_buffer
;
z_stream
decompStream
;
rfbBool
decompStreamInited
;
#endif
#ifdef LIBVNCSERVER_HAVE_LIBJPEG
/*
* Variables for the ``tight'' encoding implementation.
*/
/* Separate buffer for compressed data. */
#define ZLIB_BUFFER_SIZE 30000
char
zlib_buffer
[
ZLIB_BUFFER_SIZE
];
/* Four independent compression streams for zlib library. */
z_stream
zlibStream
[
4
];
rfbBool
zlibStreamActive
[
4
];
/* Filter stuff. Should be initialized by filter initialization code. */
rfbBool
cutZeros
;
int
rectWidth
,
rectColors
;
char
tightPalette
[
256
*
4
];
uint8_t
tightPrevRow
[
2048
*
3
*
sizeof
(
uint16_t
)];
/* JPEG decoder state. */
rfbBool
jpegError
;
struct
jpeg_source_mgr
*
jpegSrcManager
;
void
*
jpegBufferPtr
;
size_t
jpegBufferLen
;
#endif
/* cursor.c */
uint8_t
*
rcSource
,
*
rcMask
;
...
...
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