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wine
wine-winehq
Commits
53268a54
Commit
53268a54
authored
May 16, 2002
by
Christian Costa
Committed by
Alexandre Julliard
May 16, 2002
Browse files
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Plain Diff
Added DMA and SoundBlaster emulation.
parent
a60d05b4
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Inline
Side-by-side
Showing
5 changed files
with
869 additions
and
1 deletion
+869
-1
Makefile.in
dlls/winedos/Makefile.in
+3
-1
dma.c
dlls/winedos/dma.c
+381
-0
dosexe.h
dlls/winedos/dosexe.h
+9
-0
ioports.c
dlls/winedos/ioports.c
+93
-0
soundblaster.c
dlls/winedos/soundblaster.c
+383
-0
No files found.
dlls/winedos/Makefile.in
View file @
53268a54
...
@@ -7,8 +7,9 @@ IMPORTS = user32 kernel32 ntdll
...
@@ -7,8 +7,9 @@ IMPORTS = user32 kernel32 ntdll
LDIMPORTS
=
user32.dll kernel32.dll ntdll.dll
LDIMPORTS
=
user32.dll kernel32.dll ntdll.dll
C_SRCS
=
\
C_SRCS
=
\
dosaspi.c
\
devices.c
\
devices.c
\
dma.c
\
dosaspi.c
\
dosvm.c
\
dosvm.c
\
int09.c
\
int09.c
\
int10.c
\
int10.c
\
...
@@ -23,6 +24,7 @@ C_SRCS = \
...
@@ -23,6 +24,7 @@ C_SRCS = \
int67.c
\
int67.c
\
ioports.c
\
ioports.c
\
module.c
\
module.c
\
soundblaster.c
\
vga.c
\
vga.c
\
xms.c
xms.c
...
...
dlls/winedos/dma.c
0 → 100644
View file @
53268a54
/*
* DMA Emulation
*
* Copyright 2002 Christian Costa
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#include "windef.h"
#include "dosexe.h"
#include "wine/debug.h"
WINE_DEFAULT_DEBUG_CHANNEL
(
dma
);
/* Internal registers of the 2 DMA chips wich control 8 DMA channels */
static
DWORD
DMA_BaseAddress
[
8
];
static
WORD
DMA_ByteCount
[
8
];
static
DWORD
DMA_CurrentBaseAddress
[
8
];
static
WORD
DMA_CurrentByteCount
[
8
];
static
BYTE
DMA_Command
[
8
];
static
BYTE
DMA_Mask
[
2
]
=
{
0x0F
,
0x0F
};
static
BYTE
DMA_Status
[
2
]
=
{
0x00
,
0x00
};
static
BOOL
DMA_Toggle
[
2
]
=
{
FALSE
,
FALSE
};
/*
* DMA_Transfer : Try to perform a transfer of reqlen elements (8 or 16 bits)
* on the specified channel and return the elements transferred
*/
int
DMA_Transfer
(
int
channel
,
int
reqlen
,
void
*
buffer
)
{
int
i
,
size
,
ret
=
0
;
int
opmode
,
increment
,
autoinit
,
trmode
,
dmachip
;
int
regmode
=
DMA_Command
[
channel
];
char
*
p
,
*
dmabuf
;
dmabuf
=
buffer
;
dmachip
=
(
channel
<
4
)
?
0
:
1
;
TRACE
(
"DMA_Command = %x reqlen=%d
\n
"
,
regmode
,
reqlen
);
/* Exit if channel is masked */
if
(
DMA_Mask
[
dmachip
]
&
(
1
<<
(
channel
&
3
)))
return
0
;
opmode
=
(
regmode
&
0xC0
)
>>
6
;
increment
=
!
(
regmode
&
0x20
);
autoinit
=
regmode
&
0x10
;
trmode
=
(
regmode
&
0x0C
)
>>
2
;
/* Transfer size : 8 bits for channels 0..3, 16 bits for channels 4..7 */
size
=
(
channel
<
4
)
?
1
:
2
;
/* Process operating mode */
switch
(
opmode
)
{
case
0
:
/* Request mode */
FIXME
(
"Request Mode - Not Implemented
\n
"
);
return
0
;
case
1
:
/* Single Mode */
break
;
case
2
:
/* Request mode */
FIXME
(
"Block Mode - Not Implemented
\n
"
);
return
0
;
case
3
:
/* Cascade Mode */
ERR
(
"Cascade Mode should not be used by regular apps
\n
"
);
return
0
;
}
/* Perform one the 4 transfer modes */
if
(
trmode
==
4
)
{
/* Illegal */
ERR
(
"DMA Transfer Type Illegal
\n
"
);
return
0
;
}
ret
=
min
(
DMA_CurrentByteCount
[
channel
],
reqlen
);
/* Update DMA registers */
DMA_CurrentByteCount
[
channel
]
-=
ret
;
if
(
increment
)
DMA_CurrentBaseAddress
[
channel
]
+=
ret
*
size
;
else
DMA_CurrentBaseAddress
[
channel
]
-=
ret
*
size
;
switch
(
trmode
)
{
case
0
:
/* Verification (no real transfer)*/
TRACE
(
"Verification DMA operation
\n
"
);
break
;
case
1
:
/* Write */
TRACE
(
"Perform Write transfer of %d bytes at %lx with count %x
\n
"
,
ret
,
DMA_CurrentBaseAddress
[
channel
],
DMA_CurrentByteCount
[
channel
]);
if
(
increment
)
memcpy
((
void
*
)
DMA_CurrentBaseAddress
[
channel
],
dmabuf
,
ret
*
size
);
else
for
(
i
=
0
,
p
=
(
char
*
)
DMA_CurrentBaseAddress
[
channel
];
i
<
ret
*
size
;
i
++
)
/* FIXME: possible endianness issue for 16 bits DMA */
*
(
p
-
i
)
=
dmabuf
[
i
];
break
;
case
2
:
/* Read */
TRACE
(
"Perform Read transfer of %d bytes at %lx with count %x
\n
"
,
ret
,
DMA_CurrentBaseAddress
[
channel
],
DMA_CurrentByteCount
[
channel
]);
if
(
increment
)
memcpy
(
dmabuf
,(
void
*
)
DMA_CurrentBaseAddress
[
channel
],
ret
*
size
);
else
for
(
i
=
0
,
p
=
(
char
*
)
DMA_CurrentBaseAddress
[
channel
];
i
<
ret
*
size
;
i
++
)
/* FIXME: possible endianness issue for 16 bits DMA */
dmabuf
[
i
]
=
*
(
p
-
i
);
break
;
}
/* Check for end of transfer */
if
(
DMA_CurrentByteCount
[
channel
]
==
0
)
{
TRACE
(
"DMA buffer empty
\n
"
);
/* Update status register of the DMA chip corresponding to the channel */
DMA_Status
[
dmachip
]
|=
1
<<
(
channel
&
0x3
);
/* Mark transfer as finished */
DMA_Status
[
dmachip
]
&=
~
(
1
<<
((
channel
&
0x3
)
+
4
));
/* Reset soft request if any */
if
(
autoinit
)
{
/* Reload Current* register to their initial values */
DMA_CurrentBaseAddress
[
channel
]
=
DMA_BaseAddress
[
channel
];
DMA_CurrentByteCount
[
channel
]
=
DMA_ByteCount
[
channel
];
}
}
return
ret
;
}
void
DMA_ioport_out
(
WORD
port
,
BYTE
val
)
{
int
channel
,
dmachip
;
switch
(
port
)
{
case
0x00
:
case
0x02
:
case
0x04
:
case
0x06
:
case
0xC0
:
case
0xC4
:
case
0xC8
:
case
0xCC
:
/* Base Address*/
channel
=
(
port
&
0xC0
)
?
((
port
-
0xC0
)
>>
2
)
:
(
port
>>
1
);
dmachip
=
(
channel
<
4
)
?
0
:
1
;
if
(
!
DMA_Toggle
[
dmachip
])
DMA_BaseAddress
[
channel
]
=
(
DMA_BaseAddress
[
channel
]
&
~
0xFF
)
|
(
val
&
0xFF
);
else
{
DMA_BaseAddress
[
channel
]
=
(
DMA_BaseAddress
[
channel
]
&
(
~
(
0xFF
<<
8
)))
|
((
val
&
0xFF
)
<<
8
);
DMA_CurrentBaseAddress
[
channel
]
=
DMA_BaseAddress
[
channel
];
TRACE
(
"Write Base Address = %lx
\n
"
,
DMA_BaseAddress
[
channel
]);
}
DMA_Toggle
[
dmachip
]
=
!
DMA_Toggle
[
dmachip
];
break
;
case
0x01
:
case
0x03
:
case
0x05
:
case
0x07
:
case
0xC2
:
case
0xC6
:
case
0xCA
:
case
0xCE
:
/* Count*/
channel
=
((
port
-
1
)
&
0xC0
)
?
(((
port
-
1
)
-
0xC0
)
>>
2
)
:
(
port
>>
1
);
dmachip
=
(
channel
<
4
)
?
0
:
1
;
if
(
!
DMA_Toggle
[
dmachip
])
DMA_ByteCount
[
channel
]
=
(
DMA_ByteCount
[
channel
]
&
~
0xFF
)
|
((
val
+
1
)
&
0xFF
);
else
{
DMA_ByteCount
[
channel
]
=
(
DMA_ByteCount
[
channel
]
&
(
~
(
0xFF
<<
8
)))
|
(((
val
+
1
)
&
0xFF
)
<<
8
);
DMA_CurrentByteCount
[
channel
]
=
DMA_ByteCount
[
channel
];
TRACE
(
"Write Count = %x.
\n
"
,
DMA_ByteCount
[
channel
]);
}
DMA_Toggle
[
dmachip
]
=
!
DMA_Toggle
[
dmachip
];
break
;
/* Low Page Base Address */
case
0x87
:
DMA_BaseAddress
[
0
]
=
(
DMA_BaseAddress
[
0
]
&
(
~
0xFF
<<
16
))
|
((
val
&
0xFF
)
<<
16
);
break
;
case
0x83
:
DMA_BaseAddress
[
1
]
=
(
DMA_BaseAddress
[
1
]
&
(
~
0xFF
<<
16
))
|
((
val
&
0xFF
)
<<
16
);
break
;
case
0x81
:
DMA_BaseAddress
[
2
]
=
(
DMA_BaseAddress
[
2
]
&
(
~
0xFF
<<
16
))
|
((
val
&
0xFF
)
<<
16
);
break
;
case
0x82
:
DMA_BaseAddress
[
3
]
=
(
DMA_BaseAddress
[
3
]
&
(
~
0xFF
<<
16
))
|
((
val
&
0xFF
)
<<
16
);
break
;
case
0x8B
:
DMA_BaseAddress
[
5
]
=
(
DMA_BaseAddress
[
5
]
&
(
~
0xFF
<<
16
))
|
((
val
&
0xFF
)
<<
16
);
break
;
case
0x89
:
DMA_BaseAddress
[
6
]
=
(
DMA_BaseAddress
[
6
]
&
(
~
0xFF
<<
16
))
|
((
val
&
0xFF
)
<<
16
);
break
;
case
0x8A
:
DMA_BaseAddress
[
7
]
=
(
DMA_BaseAddress
[
7
]
&
(
~
0xFF
<<
16
))
|
((
val
&
0xFF
)
<<
16
);
break
;
/* Low Page Base Address (only 4 lower bits are significant) */
case
0x487
:
DMA_BaseAddress
[
0
]
=
(
DMA_BaseAddress
[
0
]
&
(
~
0xFF
<<
24
))
|
((
val
&
0x0F
)
<<
24
);
break
;
case
0x483
:
DMA_BaseAddress
[
1
]
=
(
DMA_BaseAddress
[
1
]
&
(
~
0xFF
<<
24
))
|
((
val
&
0x0F
)
<<
24
);
break
;
case
0x481
:
DMA_BaseAddress
[
2
]
=
(
DMA_BaseAddress
[
2
]
&
(
~
0xFF
<<
24
))
|
((
val
&
0x0F
)
<<
24
);
break
;
case
0x482
:
DMA_BaseAddress
[
3
]
=
(
DMA_BaseAddress
[
3
]
&
(
~
0xFF
<<
24
))
|
((
val
&
0x0F
)
<<
24
);
break
;
case
0x48B
:
DMA_BaseAddress
[
5
]
=
(
DMA_BaseAddress
[
5
]
&
(
~
0xFF
<<
24
))
|
((
val
&
0x0F
)
<<
24
);
break
;
case
0x489
:
DMA_BaseAddress
[
6
]
=
(
DMA_BaseAddress
[
6
]
&
(
~
0xFF
<<
24
))
|
((
val
&
0x0F
)
<<
24
);
break
;
case
0x48A
:
DMA_BaseAddress
[
7
]
=
(
DMA_BaseAddress
[
7
]
&
(
~
0xFF
<<
24
))
|
((
val
&
0x0F
)
<<
24
);
break
;
case
0x08
:
case
0xD0
:
/* Command */
FIXME
(
"Write Command (%x) - Not Implemented
\n
"
,
val
);
break
;
case
0x0B
:
case
0xD6
:
/* Mode */
TRACE
(
"Write Mode (%x)
\n
"
,
val
);
DMA_Command
[((
port
==
0xD6
)
?
4
:
0
)
+
(
val
&
0x3
)]
=
val
;
switch
(
val
>>
6
)
{
case
0
:
/* Request mode */
FIXME
(
"Request Mode - Not Implemented
\n
"
);
break
;
case
1
:
/* Single Mode */
break
;
case
2
:
/* Block mode */
FIXME
(
"Block Mode - Not Implemented
\n
"
);
break
;
case
3
:
/* Cascade Mode */
ERR
(
"Cascade Mode should not be used by regular apps
\n
"
);
break
;
}
break
;
case
0x0A
:
case
0xD4
:
/* Write Single Mask Bit */
TRACE
(
"Write Single Mask Bit (%x)
\n
"
,
val
);
dmachip
=
(
port
==
0x0A
)
?
0
:
1
;
if
(
val
&
4
)
DMA_Mask
[
dmachip
]
|=
1
<<
(
val
&
3
);
else
DMA_Mask
[
dmachip
]
&=
~
(
1
<<
(
val
&
3
));
break
;
case
0x0F
:
case
0xDE
:
/* Write All Mask Bits (only 4 lower bits are significant */
FIXME
(
"Write All Mask Bits (%x)
\n
"
,
val
);
dmachip
=
(
port
==
0x0F
)
?
0
:
1
;
DMA_Mask
[
dmachip
]
=
val
&
0x0F
;
break
;
case
0x09
:
case
0xD2
:
/* Software DRQx Request */
FIXME
(
"Software DRQx Request (%x) - Not Implemented
\n
"
,
val
);
break
;
case
0x0C
:
case
0xD8
:
/* Reset DMA Pointer Flip-Flop */
TRACE
(
"Reset Flip-Flop
\n
"
);
DMA_Toggle
[
port
==
0xD8
]
=
FALSE
;
break
;
case
0x0D
:
case
0xDA
:
/* Master Reset */
TRACE
(
"Master Reset
\n
"
);
dmachip
=
(
port
==
0x0D
)
?
0
:
1
;
/* Reset DMA Pointer Flip-Flop */
DMA_Toggle
[
dmachip
]
=
FALSE
;
/* Mask all channels */
DMA_Mask
[
dmachip
]
=
0x0F
;
break
;
case
0x0E
:
case
0xDC
:
/* Reset Mask Register */
FIXME
(
"Reset Mask Register
\n
"
);
dmachip
=
(
port
==
0x0E
)
?
0
:
1
;
/* Unmask all channels */
DMA_Mask
[
dmachip
]
=
0x00
;
break
;
}
}
BYTE
DMA_ioport_in
(
WORD
port
)
{
int
channel
,
dmachip
;
BYTE
res
=
0
;
switch
(
port
)
{
case
0x00
:
case
0x02
:
case
0x04
:
case
0x06
:
case
0xC0
:
case
0xC4
:
case
0xC8
:
case
0xCC
:
/* Base Address*/
channel
=
(
port
&
0xC0
)
?
((
port
-
0xC0
)
>>
2
)
:
(
port
>>
1
);
dmachip
=
(
channel
<
4
)
?
0
:
1
;
if
(
!
DMA_Toggle
[
dmachip
])
res
=
DMA_CurrentBaseAddress
[
channel
]
&
0xFF
;
else
{
res
=
(
DMA_CurrentBaseAddress
[
channel
]
&
(
0xFF
<<
8
))
>>
8
;
TRACE
(
"Read Current Base Address = %lx
\n
"
,
DMA_CurrentBaseAddress
[
channel
]);
}
DMA_Toggle
[
dmachip
]
=
!
DMA_Toggle
[
dmachip
];
break
;
case
0x01
:
case
0x03
:
case
0x05
:
case
0x07
:
case
0xC2
:
case
0xC6
:
case
0xCA
:
case
0xCE
:
/* Count*/
channel
=
((
port
-
1
)
&
0xC0
)
?
(((
port
-
1
)
-
0xC0
)
>>
2
)
:
(
port
>>
1
);
dmachip
=
(
channel
<
4
)
?
0
:
1
;
if
(
!
DMA_Toggle
[
dmachip
])
res
=
DMA_CurrentByteCount
[
channel
]
&
0xFF
;
else
{
res
=
(
DMA_CurrentByteCount
[
channel
]
&
(
0xFF
<<
8
))
>>
8
;
TRACE
(
"Read Current Count = %x.
\n
"
,
DMA_CurrentByteCount
[
channel
]);
}
DMA_Toggle
[
dmachip
]
=
!
DMA_Toggle
[
dmachip
];
break
;
/* Low Page Base Address */
case
0x87
:
res
=
(
DMA_BaseAddress
[
0
]
&
(
0xFF
<<
16
))
>>
16
;
break
;
case
0x83
:
res
=
(
DMA_BaseAddress
[
1
]
&
(
0xFF
<<
16
))
>>
16
;
break
;
case
0x81
:
res
=
(
DMA_BaseAddress
[
2
]
&
(
0xFF
<<
16
))
>>
16
;
break
;
case
0x82
:
res
=
(
DMA_BaseAddress
[
3
]
&
(
0xFF
<<
16
))
>>
16
;
break
;
case
0x8B
:
res
=
(
DMA_BaseAddress
[
5
]
&
(
0xFF
<<
16
))
>>
16
;
break
;
case
0x89
:
res
=
(
DMA_BaseAddress
[
6
]
&
(
0xFF
<<
16
))
>>
16
;
break
;
case
0x8A
:
res
=
(
DMA_BaseAddress
[
7
]
&
(
0xFF
<<
16
))
>>
16
;
break
;
/* High Page Base Address */
case
0x487
:
res
=
(
DMA_BaseAddress
[
0
]
&
(
0xFF
<<
24
))
>>
24
;
break
;
case
0x483
:
res
=
(
DMA_BaseAddress
[
1
]
&
(
0xFF
<<
24
))
>>
24
;
break
;
case
0x481
:
res
=
(
DMA_BaseAddress
[
2
]
&
(
0xFF
<<
24
))
>>
24
;
break
;
case
0x482
:
res
=
(
DMA_BaseAddress
[
3
]
&
(
0xFF
<<
24
))
>>
24
;
break
;
case
0x48B
:
res
=
(
DMA_BaseAddress
[
5
]
&
(
0xFF
<<
24
))
>>
24
;
break
;
case
0x489
:
res
=
(
DMA_BaseAddress
[
6
]
&
(
0xFF
<<
24
))
>>
24
;
break
;
case
0x48A
:
res
=
(
DMA_BaseAddress
[
7
]
&
(
0xFF
<<
24
))
>>
24
;
break
;
case
0x08
:
case
0xD0
:
/* Status */
TRACE
(
"Status Register Read
\n
"
);
res
=
DMA_Status
[(
port
==
0x08
)
?
0
:
1
];
case
0x0D
:
case
0xDA
:
/* Temporary */
FIXME
(
"Temporary Register Read- Not Implemented
\n
"
);
break
;
}
return
res
;
}
dlls/winedos/dosexe.h
View file @
53268a54
...
@@ -72,6 +72,11 @@ extern int DOSDEV_Write(DWORD dev, DWORD buf, int buflen, int verify);
...
@@ -72,6 +72,11 @@ extern int DOSDEV_Write(DWORD dev, DWORD buf, int buflen, int verify);
extern
int
DOSDEV_IoctlRead
(
DWORD
dev
,
DWORD
buf
,
int
buflen
);
extern
int
DOSDEV_IoctlRead
(
DWORD
dev
,
DWORD
buf
,
int
buflen
);
extern
int
DOSDEV_IoctlWrite
(
DWORD
dev
,
DWORD
buf
,
int
buflen
);
extern
int
DOSDEV_IoctlWrite
(
DWORD
dev
,
DWORD
buf
,
int
buflen
);
/* dma.c */
extern
int
DMA_Transfer
(
int
channel
,
int
reqlength
,
void
*
buffer
);
extern
void
DMA_ioport_out
(
WORD
port
,
BYTE
val
);
extern
BYTE
DMA_ioport_in
(
WORD
port
);
/* int09.c */
/* int09.c */
extern
void
WINAPI
DOSVM_Int09Handler
(
CONTEXT86
*
);
extern
void
WINAPI
DOSVM_Int09Handler
(
CONTEXT86
*
);
extern
void
WINAPI
DOSVM_Int09SendScan
(
BYTE
scan
,
BYTE
ascii
);
extern
void
WINAPI
DOSVM_Int09SendScan
(
BYTE
scan
,
BYTE
ascii
);
...
@@ -113,6 +118,10 @@ extern void WINAPI DOSVM_Int33Console(MOUSE_EVENT_RECORD*);
...
@@ -113,6 +118,10 @@ extern void WINAPI DOSVM_Int33Console(MOUSE_EVENT_RECORD*);
extern
void
WINAPI
DOSVM_Int67Handler
(
CONTEXT86
*
);
extern
void
WINAPI
DOSVM_Int67Handler
(
CONTEXT86
*
);
extern
void
WINAPI
EMS_Ioctl_Handler
(
CONTEXT86
*
);
extern
void
WINAPI
EMS_Ioctl_Handler
(
CONTEXT86
*
);
/* soundblaster.c */
extern
void
SB_ioport_out
(
WORD
port
,
BYTE
val
);
extern
BYTE
SB_ioport_in
(
WORD
port
);
/* xms.c */
/* xms.c */
extern
void
WINAPI
XMS_Handler
(
CONTEXT86
*
);
extern
void
WINAPI
XMS_Handler
(
CONTEXT86
*
);
...
...
dlls/winedos/ioports.c
View file @
53268a54
...
@@ -36,10 +36,51 @@ BOOL WINAPI DOSVM_inport( int port, int size, DWORD *res )
...
@@ -36,10 +36,51 @@ BOOL WINAPI DOSVM_inport( int port, int size, DWORD *res )
case
0x60
:
case
0x60
:
*
res
=
DOSVM_Int09ReadScan
(
NULL
);
*
res
=
DOSVM_Int09ReadScan
(
NULL
);
break
;
break
;
case
0x22a
:
case
0x22c
:
case
0x22e
:
*
res
=
(
DWORD
)
SB_ioport_in
(
port
);
break
;
case
0x3ba
:
case
0x3ba
:
case
0x3da
:
case
0x3da
:
*
res
=
(
DWORD
)
VGA_ioport_in
(
port
);
*
res
=
(
DWORD
)
VGA_ioport_in
(
port
);
break
;
break
;
case
0x00
:
case
0x01
:
case
0x02
:
case
0x03
:
case
0x04
:
case
0x05
:
case
0x06
:
case
0x07
:
case
0xC0
:
case
0xC2
:
case
0xC4
:
case
0xC6
:
case
0xC8
:
case
0xCA
:
case
0xCC
:
case
0xCE
:
case
0x87
:
case
0x83
:
case
0x81
:
case
0x82
:
case
0x8B
:
case
0x89
:
case
0x8A
:
case
0x487
:
case
0x483
:
case
0x481
:
case
0x482
:
case
0x48B
:
case
0x489
:
case
0x48A
:
case
0x08
:
case
0xD0
:
case
0x0D
:
case
0xDA
:
*
res
=
(
DWORD
)
DMA_ioport_in
(
port
);
break
;
default:
default:
return
FALSE
;
/* not handled */
return
FALSE
;
/* not handled */
}
}
...
@@ -57,10 +98,62 @@ BOOL WINAPI DOSVM_outport( int port, int size, DWORD value )
...
@@ -57,10 +98,62 @@ BOOL WINAPI DOSVM_outport( int port, int size, DWORD value )
case
0x20
:
case
0x20
:
DOSVM_PIC_ioport_out
(
port
,
(
BYTE
)
value
);
DOSVM_PIC_ioport_out
(
port
,
(
BYTE
)
value
);
break
;
break
;
case
0x226
:
case
0x22c
:
SB_ioport_out
(
port
,
(
BYTE
)
value
);
break
;
case
0x3c8
:
case
0x3c8
:
case
0x3c9
:
case
0x3c9
:
VGA_ioport_out
(
port
,
(
BYTE
)
value
);
VGA_ioport_out
(
port
,
(
BYTE
)
value
);
break
;
break
;
case
0x00
:
case
0x01
:
case
0x02
:
case
0x03
:
case
0x04
:
case
0x05
:
case
0x06
:
case
0x07
:
case
0xC0
:
case
0xC2
:
case
0xC4
:
case
0xC6
:
case
0xC8
:
case
0xCA
:
case
0xCC
:
case
0xCE
:
case
0x87
:
case
0x83
:
case
0x81
:
case
0x82
:
case
0x8B
:
case
0x89
:
case
0x8A
:
case
0x487
:
case
0x483
:
case
0x481
:
case
0x482
:
case
0x48B
:
case
0x489
:
case
0x48A
:
case
0x08
:
case
0xD0
:
case
0x0B
:
case
0xD6
:
case
0x0A
:
case
0xD4
:
case
0x0F
:
case
0xDE
:
case
0x09
:
case
0xD2
:
case
0x0C
:
case
0xD8
:
case
0x0D
:
case
0xDA
:
case
0x0E
:
case
0xDC
:
DMA_ioport_out
(
port
,
(
BYTE
)
value
);
break
;
default:
default:
return
FALSE
;
/* not handled */
return
FALSE
;
/* not handled */
}
}
...
...
dlls/winedos/soundblaster.c
0 → 100644
View file @
53268a54
/*
* Soundblaster Emulation
*
* Copyright 2002 Christian Costa
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#include "windef.h"
#include "dosexe.h"
#include "wine/debug.h"
#include "dsound.h"
WINE_DEFAULT_DEBUG_CHANNEL
(
sblaster
);
/* Board Configuration */
/* FIXME: Should be in a config file */
#define SB_IRQ 5
#define SB_IRQ_PRI 11
#define SB_DMA 1
/* Soundblaster state */
static
int
SampleMode
;
/* Mono / Stereo */
static
int
SampleRate
;
static
int
SamplesCount
;
static
BYTE
DSP_Command
[
256
];
/* Store param numbers in bytes for each command */
static
BYTE
DSP_InBuffer
[
10
];
/* Store DSP command bytes parameters from host */
static
int
InSize
;
/* Nb of bytes in InBuffer */
static
BYTE
DSP_OutBuffer
[
10
];
/* Store DSP information bytes to host */
static
int
OutSize
;
/* Nb of bytes in InBuffer */
static
int
command
;
/* Current command */
static
int
end_sound_loop
=
0
;
static
int
dma_enable
=
0
;
/* The maximum size of a dma transfer can be 65536 */
#define DMATRFSIZE 1024
/* DMA can perform 8 or 16-bit transfer */
static
BYTE
dma_buffer
[
DMATRFSIZE
*
2
];
/* Direct Sound buffer config */
#define DSBUFLEN 4096
/* FIXME: Only this value seems to work */
/* Direct Sound playback stuff */
static
HMODULE
hmodule
;
typedef
HRESULT
(
WINAPI
*
fnDirectSoundCreate
)
(
LPGUID
,
LPDIRECTSOUND
*
,
LPUNKNOWN
);
fnDirectSoundCreate
lpDirectSoundCreate
;
static
LPDIRECTSOUND
lpdsound
;
static
LPDIRECTSOUNDBUFFER
lpdsbuf
;
static
DSBUFFERDESC
buf_desc
;
static
WAVEFORMATEX
wav_fmt
;
static
HANDLE
SB_Thread
;
static
UINT
buf_off
;
extern
HWND
vga_hwnd
;
/* SB_Poll performs DMA transfers and fills the Direct Sound Buffer */
static
DWORD
CALLBACK
SB_Poll
(
void
*
dummy
)
{
HRESULT
result
;
LPBYTE
lpbuf1
=
NULL
;
LPBYTE
lpbuf2
=
NULL
;
DWORD
dwsize1
=
0
;
DWORD
dwsize2
=
0
;
DWORD
dwbyteswritten1
=
0
;
DWORD
dwbyteswritten2
=
0
;
int
size
;
/* FIXME: this loop must be improved */
while
(
!
end_sound_loop
)
{
Sleep
(
10
);
if
(
dma_enable
)
{
size
=
DMA_Transfer
(
SB_DMA
,
min
(
DMATRFSIZE
,
SamplesCount
),
dma_buffer
);
}
else
continue
;
result
=
IDirectSoundBuffer_Lock
(
lpdsbuf
,
buf_off
,
size
,
&
lpbuf1
,
&
dwsize1
,
&
lpbuf2
,
&
dwsize2
,
0
);
if
(
result
!=
DS_OK
)
{
ERR
(
"Unable to lock sound buffer !
\n
"
);
continue
;
}
dwbyteswritten1
=
min
(
size
,
dwsize1
);
memcpy
(
lpbuf1
,
dma_buffer
,
dwbyteswritten1
);
if
(
size
>
dwsize1
)
{
dwbyteswritten2
=
min
(
size
-
dwbyteswritten1
,
dwsize2
);
memcpy
(
lpbuf2
,
dma_buffer
+
dwbyteswritten1
,
dwbyteswritten2
);
}
buf_off
=
(
buf_off
+
dwbyteswritten1
+
dwbyteswritten2
)
%
DSBUFLEN
;
result
=
IDirectSoundBuffer_Unlock
(
lpdsbuf
,
lpbuf1
,
dwbyteswritten1
,
lpbuf2
,
dwbyteswritten2
);
if
(
result
!=
DS_OK
)
ERR
(
"Unable to unlock sound buffer !
\n
"
);
SamplesCount
-=
size
;
if
(
!
SamplesCount
)
{
DOSVM_QueueEvent
(
SB_IRQ
,
SB_IRQ_PRI
,
NULL
,
NULL
);
dma_enable
=
0
;
}
}
return
0
;
}
BOOL
SB_Init
()
{
HRESULT
result
;
if
(
!
lpdsound
)
{
hmodule
=
LoadLibraryA
(
"dsound.dll"
);
if
(
!
hmodule
)
{
ERR
(
"Can't load dsound.dll !
\n
"
);
return
0
;
}
lpDirectSoundCreate
=
(
fnDirectSoundCreate
)
GetProcAddress
(
hmodule
,
"DirectSoundCreate"
);
if
(
!
lpDirectSoundCreate
)
{
/* CloseHandle(hmodule); */
ERR
(
"Can't find DirectSoundCreate function !
\n
"
);
return
0
;
}
result
=
(
*
lpDirectSoundCreate
)(
NULL
,
&
lpdsound
,
NULL
);
if
(
result
!=
DS_OK
)
{
ERR
(
"Unable to initialize Sound Subsystem err = %lx !
\n
"
,
result
);
return
0
;
}
/* FIXME: To uncomment when :
- SetCooperative level is correctly implemented
- an always valid and non changing handle to a windows (vga_hwnd) is available
(this surely needs some work in vga.c)
result = IDirectSound_SetCooperativeLevel(lpdsound,vga_hwnd,DSSCL_EXCLUSIVE|DSSCL_PRIORITY);
if (result != DS_OK) {
ERR("Can't set cooperative level !\n");
return 0;
}
*/
/* Default format */
wav_fmt
.
wFormatTag
=
WAVE_FORMAT_PCM
;
wav_fmt
.
nChannels
=
1
;
wav_fmt
.
nSamplesPerSec
=
22050
;
wav_fmt
.
nAvgBytesPerSec
=
22050
;
wav_fmt
.
nBlockAlign
=
1
;
wav_fmt
.
wBitsPerSample
=
8
;
wav_fmt
.
cbSize
=
0
;
memset
(
&
buf_desc
,
0
,
sizeof
(
DSBUFFERDESC
));
buf_desc
.
dwSize
=
sizeof
(
DSBUFFERDESC
);
buf_desc
.
dwBufferBytes
=
DSBUFLEN
;
buf_desc
.
lpwfxFormat
=
&
wav_fmt
;
result
=
IDirectSound_CreateSoundBuffer
(
lpdsound
,
&
buf_desc
,
&
lpdsbuf
,
NULL
);
if
(
result
!=
DS_OK
)
{
ERR
(
"Can't create sound buffer !
\n
"
);
return
0
;
}
result
=
IDirectSoundBuffer_Play
(
lpdsbuf
,
0
,
0
,
DSBPLAY_LOOPING
);
if
(
result
!=
DS_OK
)
{
ERR
(
"Can't start playing !
\n
"
);
return
0
;
}
buf_off
=
0
;
end_sound_loop
=
0
;
SB_Thread
=
CreateThread
(
NULL
,
0
,
SB_Poll
,
NULL
,
0
,
NULL
);
TRACE
(
"thread
\n
"
);
if
(
!
SB_Thread
)
{
ERR
(
"Can't create thread !
\n
"
);
return
0
;
}
}
return
1
;
}
void
SB_Reset
()
{
int
i
;
for
(
i
=
0
;
i
<
256
;
i
++
)
DSP_Command
[
i
]
=
0
;
/* Set Time Constant */
DSP_Command
[
0x40
]
=
1
;
/* Generate IRQ */
DSP_Command
[
0xF2
]
=
0
;
/* DMA DAC 8-bits */
DSP_Command
[
0x14
]
=
2
;
/* Generic DAC/ADC DMA (16-bit, 8-bit) */
for
(
i
=
0xB0
;
i
<=
0xCF
;
i
++
)
DSP_Command
[
i
]
=
3
;
/* DSP Indentification */
DSP_Command
[
0xE0
]
=
1
;
/* Clear command and input buffer */
command
=
-
1
;
InSize
=
0
;
/* Put a garbage value in the output buffer */
OutSize
=
1
;
if
(
SB_Init
())
/* All right, let's put the magic value for autodetection */
DSP_OutBuffer
[
0
]
=
0xaa
;
else
/* Something is wrong, put 0 to failed audetection */
DSP_OutBuffer
[
0
]
=
0x00
;
}
/* Find a standard sampling rate for DirectSound */
int
SB_StdSampleRate
(
int
SampleRate
)
{
if
(
SampleRate
>
((
44100
+
48000
)
/
2
))
return
48000
;
if
(
SampleRate
>
((
32000
+
44100
)
/
2
))
return
44100
;
if
(
SampleRate
>
((
24000
+
32000
)
/
2
))
return
32000
;
if
(
SampleRate
>
((
22050
+
24000
)
/
2
))
return
24000
;
if
(
SampleRate
>
((
16000
+
22050
)
/
2
))
return
22050
;
if
(
SampleRate
>
((
12000
+
16000
)
/
2
))
return
16000
;
if
(
SampleRate
>
((
11025
+
12000
)
/
2
))
return
12000
;
if
(
SampleRate
>
((
8000
+
11025
)
/
2
))
return
11025
;
return
8000
;
}
void
SB_ioport_out
(
WORD
port
,
BYTE
val
)
{
switch
(
port
)
{
/* DSP - Reset */
case
0x226
:
TRACE
(
"Resetting DSP.
\n
"
);
SB_Reset
();
break
;
/* DSP - Write Data or Command */
case
0x22c
:
TRACE
(
"val=%x
\n
"
,
val
);
if
(
command
==
-
1
)
{
/* Clear input buffer and set the current command */
command
=
val
;
InSize
=
0
;
}
if
(
InSize
!=
DSP_Command
[
command
])
/* Fill the input buffer the command parameters if any */
DSP_InBuffer
[
InSize
++
]
=
val
;
else
{
/* Process command */
switch
(
command
)
{
case
0x10
:
/* SB */
FIXME
(
"Direct DAC (8-bit) - Not Implemented
\n
"
);
break
;
case
0x14
:
/* SB */
SamplesCount
=
DSP_InBuffer
[
1
]
+
(
val
<<
8
)
+
1
;
TRACE
(
"DMA DAC (8-bit) for %x samples
\n
"
,
SamplesCount
);
dma_enable
=
1
;
break
;
case
0x20
:
FIXME
(
"Direct ADC (8-bit) - Not Implemented
\n
"
);
break
;
case
0x24
:
/* SB */
FIXME
(
"DMA ADC (8-bit) - Not Implemented
\n
"
);
break
;
case
0x40
:
/* SB */
SampleRate
=
1000000
/
(
256
-
val
);
TRACE
(
"Set Time Constant (%d <-> %d Hz => %d Hz)
\n
"
,
DSP_InBuffer
[
0
],
SampleRate
,
SB_StdSampleRate
(
SampleRate
));
SampleRate
=
SB_StdSampleRate
(
SampleRate
);
wav_fmt
.
nSamplesPerSec
=
SampleRate
;
wav_fmt
.
nAvgBytesPerSec
=
SampleRate
;
IDirectSoundBuffer_SetFormat
(
lpdsbuf
,
&
wav_fmt
);
break
;
/* case 0xBX/0xCX -> See below */
case
0xD0
:
/* SB */
TRACE
(
"Halt DMA operation (8-bit)
\n
"
);
dma_enable
=
0
;
break
;
case
0xD1
:
/* SB */
FIXME
(
"Enable Speaker - Not Implemented
\n
"
);
break
;
case
0xD3
:
/* SB */
FIXME
(
"Disable Speaker - Not Implemented
\n
"
);
break
;
case
0xD4
:
/* SB */
FIXME
(
"Continue DMA operation (8-bit) - Not Implemented
\n
"
);
break
;
case
0xD8
:
/* SB */
FIXME
(
"Speaker Status - Not Implemented
\n
"
);
break
;
case
0xE0
:
/* SB 2.0 */
TRACE
(
"DSP Identification
\n
"
);
DSP_OutBuffer
[
OutSize
++
]
=
~
val
;
break
;
case
0xE1
:
/* SB */
FIXME
(
"DSP Version - Not Implemented
\n
"
);
break
;
case
0xF2
:
/* SB */
TRACE
(
"IRQ Request (8-bit)
\n
"
);
DOSVM_QueueEvent
(
SB_IRQ
,
SB_IRQ_PRI
,
NULL
,
NULL
);
break
;
default:
if
(((
command
&
0xF0
)
==
0xB0
)
||
((
DSP_InBuffer
[
0
]
&
0xF0
)
==
0xC0
))
{
/* SB16 */
FIXME
(
"Generic DAC/ADC DMA (16-bit, 8-bit) - %d % d
\n
"
,
command
,
DSP_InBuffer
[
1
]);
if
(
command
&
0x02
)
FIXME
(
"Generic DAC/ADC fifo mode not supported
\n
"
);
if
(
command
&
0x04
)
FIXME
(
"Generic DAC/ADC autoinit dma mode not supported
\n
"
);
if
(
command
&
0x08
)
FIXME
(
"Generic DAC/ADC adc mode not supported
\n
"
);
switch
(
command
>>
4
)
{
case
0xB
:
FIXME
(
"Generic DAC/ADC 8-bit not supported
\n
"
);
SampleMode
=
0
;
break
;
case
0xC
:
FIXME
(
"Generic DAC/ADC 16-bit not supported
\n
"
);
SampleMode
=
1
;
break
;
default:
ERR
(
"Generic DAC/ADC resolution unknown
\n
"
);
break
;
}
if
(
DSP_InBuffer
[
1
]
&
0x010
)
FIXME
(
"Generic DAC/ADC signed sample mode not supported
\n
"
);
if
(
DSP_InBuffer
[
1
]
&
0x020
)
FIXME
(
"Generic DAC/ADC stereo mode not supported
\n
"
);
SamplesCount
=
DSP_InBuffer
[
2
]
+
(
val
<<
8
)
+
1
;
TRACE
(
"Generic DMA for %x samples
\n
"
,
SamplesCount
);
dma_enable
=
1
;
}
else
FIXME
(
"DSP command %x not supported
\n
"
,
val
);
}
/* Empty the input buffer and end the command */
InSize
=
0
;
command
=
-
1
;
}
}
}
BYTE
SB_ioport_in
(
WORD
port
)
{
BYTE
res
=
0
;
switch
(
port
)
{
/* DSP Read Data */
case
0x22a
:
/* Value in the read buffer */
if
(
OutSize
)
res
=
DSP_OutBuffer
[
--
OutSize
];
else
/* return the last byte */
res
=
DSP_OutBuffer
[
0
];
break
;
/* DSP - Write Buffer Status */
case
0x22c
:
/* DSP always ready for writing */
res
=
0x00
;
break
;
/* DSP - Data Available Status */
/* DSP - IRQ Acknowledge, 8-bit */
case
0x22e
:
/* DSP data availability check */
if
(
OutSize
)
res
=
0x80
;
else
res
=
0x00
;
break
;
}
return
res
;
}
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