Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Support
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in / Register
Toggle navigation
P
proview
Project overview
Project overview
Details
Activity
Releases
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Issues
0
Issues
0
List
Boards
Labels
Milestones
Merge Requests
0
Merge Requests
0
CI / CD
CI / CD
Pipelines
Jobs
Schedules
Analytics
Analytics
CI / CD
Repository
Value Stream
Wiki
Wiki
Snippets
Snippets
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Create a new issue
Jobs
Commits
Issue Boards
Open sidebar
Esteban Blanc
proview
Commits
d13ba328
Commit
d13ba328
authored
Dec 30, 2005
by
claes
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
Division of source tree and build tree in modules
parent
99ec0b4e
Changes
5
Show whitespace changes
Inline
Side-by-side
Showing
5 changed files
with
0 additions
and
1409 deletions
+0
-1409
src/lib/rt/src/os_linux/rt_io_m_ssab_aiup.c
src/lib/rt/src/os_linux/rt_io_m_ssab_aiup.c
+0
-279
src/lib/rt/src/os_linux/rt_io_m_ssab_aoup.c
src/lib/rt/src/os_linux/rt_io_m_ssab_aoup.c
+0
-298
src/lib/rt/src/os_linux/rt_io_m_ssab_co.c
src/lib/rt/src/os_linux/rt_io_m_ssab_co.c
+0
-381
src/lib/rt/src/os_linux/rt_io_m_ssab_di.c
src/lib/rt/src/os_linux/rt_io_m_ssab_di.c
+0
-209
src/lib/rt/src/os_linux/rt_io_m_ssab_do.c
src/lib/rt/src/os_linux/rt_io_m_ssab_do.c
+0
-242
No files found.
src/lib/rt/src/os_linux/rt_io_m_ssab_aiup.c
deleted
100644 → 0
View file @
99ec0b4e
/*
* Proview $Id: rt_io_m_ssab_aiup.c,v 1.3 2005-09-01 14:57:57 claes Exp $
* Copyright (C) 2005 SSAB Oxelsund AB.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation, either version 2 of
* the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with the program, if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* rt_io_m_ssab_ai.c -- io methods for ssab cards. */
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include "pwr.h"
#include "co_cdh.h"
#include "rt_gdh.h"
#include "rt_errh.h"
#include "pwr_baseclasses.h"
#include "pwr_basecomponentclasses.h"
#include "pwr_ssaboxclasses.h"
#include "rt_io_base.h"
#include "rt_io_msg.h"
#include "rt_io_ssab.h"
#include "rt_io_card_init.h"
#include "rt_io_card_close.h"
#include "rt_io_card_read.h"
#include "qbus_io.h"
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
#define IO_MAXCHAN 32
typedef
struct
{
unsigned
int
Address
;
int
Qbus_fp
;
int
ScanCount
[
IO_MAXCHAN
];
}
io_sLocal
;
typedef
struct
{
int
Qbus_fp
;
}
io_sRackLocal
;
static
pwr_tStatus
AiRangeToCoef
(
io_sChannel
*
chanp
)
{
pwr_sClass_ChanAi
*
cop
;
char
buf
[
120
];
pwr_tStatus
sts
;
pwr_tFloat32
PolyCoef1
;
pwr_tFloat32
PolyCoef0
;
cop
=
chanp
->
cop
;
if
(
cop
)
{
cop
->
CalculateNewCoef
=
0
;
/* Coef for RawValue to SignalValue conversion */
cop
->
SigValPolyCoef0
=
0
;
cop
->
SigValPolyCoef1
=
cop
->
ChannelSigValRangeHigh
/
30000
;
/* Coef for SignalValue to ActualValue conversion */
if
(
chanp
->
ChanClass
!=
pwr_cClass_ChanAit
&&
cop
->
SensorPolyType
==
1
)
{
if
(
cop
->
SensorSigValRangeHigh
!=
cop
->
SensorSigValRangeLow
)
{
PolyCoef1
=
(
cop
->
ActValRangeHigh
-
cop
->
ActValRangeLow
)
/
(
cop
->
SensorSigValRangeHigh
-
cop
->
SensorSigValRangeLow
);
PolyCoef0
=
cop
->
ActValRangeHigh
-
cop
->
SensorSigValRangeHigh
*
PolyCoef1
;
cop
->
SensorPolyCoef1
=
cop
->
SigValPolyCoef1
*
PolyCoef1
;
cop
->
SensorPolyCoef0
=
PolyCoef0
+
PolyCoef1
*
cop
->
SigValPolyCoef0
;
}
else
{
sts
=
gdh_AttrrefToName
(
&
chanp
->
ChanAref
,
buf
,
sizeof
(
buf
),
cdh_mName_volumeStrict
);
if
(
EVEN
(
sts
))
return
sts
;
errh_Error
(
"Invalid SigValueRange in Ai channel %s"
,
buf
);
return
IO__CHANRANGE
;
}
}
}
return
IO__SUCCESS
;
}
static
pwr_tStatus
IoCardInit
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
pwr_sClass_Ssab_BaseACard
*
op
;
io_sLocal
*
local
;
int
i
;
io_sChannel
*
chanp
;
op
=
(
pwr_sClass_Ssab_BaseACard
*
)
cp
->
op
;
local
=
calloc
(
1
,
sizeof
(
*
local
));
cp
->
Local
=
local
;
local
->
Address
=
op
->
RegAddress
;
local
->
Qbus_fp
=
((
io_sRackLocal
*
)(
rp
->
Local
))
->
Qbus_fp
;
errh_Info
(
"Init of ai card '%s'"
,
cp
->
Name
);
/* Caluclate polycoeff */
chanp
=
cp
->
chanlist
;
for
(
i
=
0
;
i
<
cp
->
ChanListSize
;
i
++
)
{
if
(
chanp
->
sop
)
AiRangeToCoef
(
chanp
);
chanp
++
;
}
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardClose
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
errh_Info
(
"IO closing ai card '%s'"
,
cp
->
Name
);
local
=
(
io_sLocal
*
)
cp
->
Local
;
free
(
(
char
*
)
local
);
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardRead
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
pwr_tInt16
data
=
0
;
pwr_sClass_Ssab_BaseACard
*
op
;
int
i
;
pwr_tFloat32
actvalue
;
io_sChannel
*
chanp
;
pwr_sClass_ChanAi
*
cop
;
pwr_sClass_Ai
*
sop
;
int
sts
;
qbus_io_read
rb
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
op
=
(
pwr_sClass_Ssab_BaseACard
*
)
cp
->
op
;
chanp
=
&
cp
->
chanlist
[
0
];
for
(
i
=
0
;
i
<
cp
->
ChanListSize
;
i
++
)
{
if
(
!
chanp
->
cop
||
!
chanp
->
sop
)
{
chanp
++
;
continue
;
}
cop
=
(
pwr_sClass_ChanAi
*
)
chanp
->
cop
;
sop
=
(
pwr_sClass_Ai
*
)
chanp
->
sop
;
if
(
cop
->
CalculateNewCoef
)
AiRangeToCoef
(
chanp
);
if
(
cop
->
ConversionOn
)
{
if
(
local
->
ScanCount
[
i
]
<=
1
)
{
#if defined(OS_ELN)
vaxc
$
establish
(
machfailread
);
#endif
rb
.
Address
=
local
->
Address
+
2
*
i
;
sts
=
read
(
local
->
Qbus_fp
,
&
rb
,
sizeof
(
rb
));
data
=
(
unsigned
short
)
rb
.
Data
;
if
(
sts
==
-
1
)
{
#if 0
/* Exceptionhandler was called */
if ( io_fatal_error)
{
/* Activate emergency break */
errh_Error( "Fatal read error, card '%s', IO is stopped", cp->Name);
ctx->Node->EmergBreakTrue = 1;
return IO__ERRDEVICE;
}
#endif
/* Increase error count and check error limits */
op
->
ErrorCount
++
;
if
(
op
->
ErrorCount
==
op
->
ErrorSoftLimit
)
errh_Error
(
"IO Error soft limit reached on card '%s'"
,
cp
->
Name
);
if
(
op
->
ErrorCount
>=
op
->
ErrorHardLimit
)
{
errh_Error
(
"IO Error hard limit reached on card '%s', IO stopped"
,
cp
->
Name
);
ctx
->
Node
->
EmergBreakTrue
=
1
;
return
IO__ERRDEVICE
;
}
chanp
++
;
continue
;
}
/* Convert rawvalue to sigvalue and actualvalue */
sop
->
RawValue
=
data
;
sop
->
SigValue
=
data
*
cop
->
SigValPolyCoef1
+
cop
->
SigValPolyCoef0
;
switch
(
chanp
->
ChanClass
)
{
case
pwr_cClass_ChanAi
:
io_ConvertAi
(
cop
,
data
,
&
actvalue
);
break
;
case
pwr_cClass_ChanAit
:
io_ConvertAit
(
(
pwr_sClass_ChanAit
*
)
cop
,
data
,
&
actvalue
);
break
;
}
/* Filter */
if
(
sop
->
FilterType
==
1
&&
sop
->
FilterAttribute
[
0
]
>
0
&&
sop
->
FilterAttribute
[
0
]
>
ctx
->
ScanTime
)
{
actvalue
=
*
(
pwr_tFloat32
*
)
chanp
->
vbp
+
ctx
->
ScanTime
/
sop
->
FilterAttribute
[
0
]
*
(
actvalue
-
*
(
pwr_tFloat32
*
)
chanp
->
vbp
);
}
*
(
pwr_tFloat32
*
)
chanp
->
vbp
=
actvalue
;
local
->
ScanCount
[
i
]
=
cop
->
ScanInterval
+
1
;
}
local
->
ScanCount
[
i
]
--
;
}
chanp
++
;
}
return
1
;
}
/*----------------------------------------------------------------------------*\
Every method to be exported to the workbench should be registred here.
\*----------------------------------------------------------------------------*/
pwr_dExport
pwr_BindIoMethods
(
Ssab_AiuP
)
=
{
pwr_BindIoMethod
(
IoCardInit
),
pwr_BindIoMethod
(
IoCardClose
),
pwr_BindIoMethod
(
IoCardRead
),
pwr_NullMethod
};
src/lib/rt/src/os_linux/rt_io_m_ssab_aoup.c
deleted
100644 → 0
View file @
99ec0b4e
/*
* Proview $Id: rt_io_m_ssab_aoup.c,v 1.3 2005-09-01 14:57:57 claes Exp $
* Copyright (C) 2005 SSAB Oxelsund AB.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation, either version 2 of
* the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with the program, if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* rt_io_m_ssab_aoup.c -- io methods for ssab cards. */
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include "pwr.h"
#include "rt_errh.h"
#include "co_cdh.h"
#include "rt_gdh.h"
#include "pwr_baseclasses.h"
#include "pwr_basecomponentclasses.h"
#include "pwr_ssaboxclasses.h"
#include "rt_io_base.h"
#include "rt_io_msg.h"
#include "rt_io_ssab.h"
#include "rt_io_card_init.h"
#include "rt_io_card_close.h"
#include "rt_io_card_write.h"
#include "qbus_io.h"
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
#define IO_MAXCHAN 8
typedef
struct
{
unsigned
int
Address
;
int
Qbus_fp
;
pwr_tFloat32
OldValue
[
IO_MAXCHAN
];
pwr_tBoolean
OldTestOn
[
IO_MAXCHAN
];
int
WriteFirst
;
}
io_sLocal
;
typedef
struct
{
int
Qbus_fp
;
}
io_sRackLocal
;
static
pwr_tStatus
AoRangeToCoef
(
io_sChannel
*
chanp
)
{
pwr_sClass_ChanAo
*
cop
;
char
buf
[
120
];
pwr_tStatus
sts
;
pwr_tFloat32
PolyCoef1
;
pwr_tFloat32
PolyCoef0
;
cop
=
chanp
->
cop
;
if
(
cop
)
{
cop
->
CalculateNewCoef
=
0
;
/* Coef for ActualValue to RawValue conversion */
if
(
cop
->
ActValRangeHigh
!=
cop
->
ActValRangeLow
)
{
cop
->
SigValPolyCoef1
=
(
cop
->
SensorSigValRangeHigh
-
cop
->
SensorSigValRangeLow
)
/
(
cop
->
ActValRangeHigh
-
cop
->
ActValRangeLow
);
cop
->
SigValPolyCoef0
=
cop
->
SensorSigValRangeHigh
-
cop
->
ActValRangeHigh
*
cop
->
SigValPolyCoef1
;
}
else
{
sts
=
gdh_AttrrefToName
(
&
chanp
->
ChanAref
,
buf
,
sizeof
(
buf
),
cdh_mName_volumeStrict
);
if
(
EVEN
(
sts
))
return
sts
;
errh_Error
(
"Invalid ActValueRange in Ao channel %s"
,
buf
);
return
IO__CHANRANGE
;
}
/* Coef for ActualValue to SignalValue conversion */
if
(
cop
->
ChannelSigValRangeHigh
!=
0
)
{
PolyCoef0
=
0
;
PolyCoef1
=
cop
->
RawValRangeHigh
/
cop
->
ChannelSigValRangeHigh
;
cop
->
OutPolyCoef1
=
cop
->
SigValPolyCoef1
*
PolyCoef1
;
cop
->
OutPolyCoef0
=
PolyCoef0
+
PolyCoef1
*
cop
->
SigValPolyCoef0
;
}
else
{
sts
=
gdh_AttrrefToName
(
&
chanp
->
ChanAref
,
buf
,
sizeof
(
buf
),
cdh_mName_volumeStrict
);
if
(
EVEN
(
sts
))
return
sts
;
errh_Error
(
"Invalid SigValueRange in Ao channel %s"
,
buf
);
return
IO__CHANRANGE
;
}
}
return
IO__SUCCESS
;
}
static
pwr_tStatus
IoCardInit
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
pwr_sClass_Ssab_BaseACard
*
op
;
io_sChannel
*
chanp
;
int
i
;
io_sLocal
*
local
;
op
=
(
pwr_sClass_Ssab_BaseACard
*
)
cp
->
op
;
local
=
calloc
(
1
,
sizeof
(
*
local
));
local
->
Address
=
op
->
RegAddress
;
local
->
Qbus_fp
=
((
io_sRackLocal
*
)(
rp
->
Local
))
->
Qbus_fp
;
errh_Info
(
"Init of ao card '%s'"
,
cp
->
Name
);
/* Write the first 50 loops */
local
->
WriteFirst
=
50
;
cp
->
Local
=
local
;
/* Caluclate polycoeff */
chanp
=
cp
->
chanlist
;
for
(
i
=
0
;
i
<
cp
->
ChanListSize
;
i
++
)
{
if
(
chanp
->
sop
)
AoRangeToCoef
(
chanp
);
chanp
++
;
}
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardClose
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
errh_Info
(
"IO closing ao card '%s'"
,
cp
->
Name
);
free
(
(
char
*
)
local
);
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardWrite
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
pwr_sClass_Ssab_BaseACard
*
op
;
int
i
;
io_sChannel
*
chanp
;
pwr_sClass_ChanAo
*
cop
;
pwr_sClass_Ao
*
sop
;
pwr_tFloat32
value
;
int
fixout
;
pwr_tUInt16
data
;
pwr_tFloat32
rawvalue
;
qbus_io_write
wb
;
int
sts
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
op
=
(
pwr_sClass_Ssab_BaseACard
*
)
cp
->
op
;
fixout
=
ctx
->
Node
->
EmergBreakTrue
&&
ctx
->
Node
->
EmergBreakSelect
==
FIXOUT
;
chanp
=
&
cp
->
chanlist
[
0
];
for
(
i
=
0
;
i
<
cp
->
ChanListSize
;
i
++
)
{
if
(
!
chanp
->
cop
||
!
chanp
->
sop
)
{
chanp
++
;
continue
;
}
cop
=
(
pwr_sClass_ChanAo
*
)
chanp
->
cop
;
sop
=
(
pwr_sClass_Ao
*
)
chanp
->
sop
;
if
(
*
(
pwr_tFloat32
*
)
chanp
->
vbp
!=
local
->
OldValue
[
i
]
||
local
->
WriteFirst
>
0
||
cop
->
CalculateNewCoef
||
fixout
||
cop
->
TestOn
||
local
->
OldTestOn
[
i
]
!=
cop
->
TestOn
)
{
if
(
fixout
)
value
=
cop
->
FixedOutValue
;
else
if
(
cop
->
TestOn
)
value
=
cop
->
TestValue
;
else
value
=
*
(
pwr_tFloat32
*
)
chanp
->
vbp
;
if
(
cop
->
CalculateNewCoef
)
AoRangeToCoef
(
chanp
);
/* Convert to rawvalue */
if
(
value
>
cop
->
ActValRangeHigh
)
value
=
cop
->
ActValRangeHigh
;
else
if
(
value
<
cop
->
ActValRangeLow
)
value
=
cop
->
ActValRangeLow
;
rawvalue
=
cop
->
OutPolyCoef1
*
value
+
cop
->
OutPolyCoef0
;
if
(
rawvalue
>
0
)
sop
->
RawValue
=
rawvalue
+
0
.
5
;
else
sop
->
RawValue
=
rawvalue
-
0
.
5
;
data
=
sop
->
RawValue
;
#if defined(OS_ELN)
vaxc
$
establish
(
machfailwrite
);
#endif
wb
.
Data
=
data
;
wb
.
Address
=
local
->
Address
+
2
*
i
;
sts
=
write
(
local
->
Qbus_fp
,
&
wb
,
sizeof
(
wb
));
if
(
sts
==
-
1
)
{
/* Exceptionhandler was called */
#if 0
if ( io_fatal_error)
{
/* Activate emergency break */
errh_Error( "Fatal write error, card '%s', IO is stopped", cp->Name);
ctx->Node->EmergBreakTrue = 1;
return IO__ERRDEVICE;
}
#endif
/* Increase error count and check error limits */
op
->
ErrorCount
++
;
if
(
op
->
ErrorCount
==
op
->
ErrorSoftLimit
)
errh_Error
(
"IO Error soft limit reached on card '%s'"
,
cp
->
Name
);
if
(
op
->
ErrorCount
>=
op
->
ErrorHardLimit
)
{
errh_Error
(
"IO Error hard limit reached on card '%s', IO stopped"
,
cp
->
Name
);
ctx
->
Node
->
EmergBreakTrue
=
1
;
return
IO__ERRDEVICE
;
}
chanp
++
;
continue
;
}
else
local
->
OldValue
[
i
]
=
value
;
}
local
->
OldTestOn
[
i
]
=
cop
->
TestOn
;
chanp
++
;
}
if
(
local
->
WriteFirst
)
local
->
WriteFirst
--
;
return
1
;
}
/*----------------------------------------------------------------------------*\
Every method to be exported to the workbench should be registred here.
\*----------------------------------------------------------------------------*/
pwr_dExport
pwr_BindIoMethods
(
Ssab_AouP
)
=
{
pwr_BindIoMethod
(
IoCardInit
),
pwr_BindIoMethod
(
IoCardClose
),
pwr_BindIoMethod
(
IoCardWrite
),
pwr_NullMethod
};
src/lib/rt/src/os_linux/rt_io_m_ssab_co.c
deleted
100644 → 0
View file @
99ec0b4e
/*
* Proview $Id: rt_io_m_ssab_co.c,v 1.3 2005-09-01 14:57:57 claes Exp $
* Copyright (C) 2005 SSAB Oxelsund AB.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation, either version 2 of
* the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with the program, if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* rt_io_m_ssab_co.c -- io methods for ssab cards. */
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include "pwr.h"
#include "rt_errh.h"
#include "pwr_baseclasses.h"
#include "pwr_basecomponentclasses.h"
#include "pwr_ssaboxclasses.h"
#include "rt_io_base.h"
#include "rt_io_msg.h"
#include "rt_io_ssab.h"
#include "rt_io_card_init.h"
#include "rt_io_card_close.h"
#include "rt_io_card_read.h"
#include "qbus_io.h"
#define IO_MAXCHAN 4
#define MIN16 -32767
#define MIN24 -8388607
#define MAXCO16 65536
#define MAXCO24 16777216
#define MAX24 8388607
#define MAX16 32767
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
typedef
struct
{
unsigned
int
Address
;
int
Qbus_fp
;
pwr_tInt32
OldValue
[
IO_MAXCHAN
];
int
FirstScan
[
IO_MAXCHAN
];
}
io_sLocal
;
typedef
struct
{
int
Qbus_fp
;
}
io_sRackLocal
;
static
pwr_tStatus
IoCardInit
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
pwr_tStatus
sts
;
pwr_sClass_Ssab_CO4uP
*
op
;
io_sLocal
*
local
;
int
i
;
pwr_tUInt16
wr_data
[
2
];
pwr_tUInt32
*
wr_data_p
;
qbus_io_write
wb
;
op
=
(
pwr_sClass_Ssab_CO4uP
*
)
cp
->
op
;
local
=
calloc
(
1
,
sizeof
(
*
local
));
for
(
i
=
0
;
i
<
IO_MAXCHAN
;
i
++
)
local
->
FirstScan
[
i
]
=
1
;
cp
->
Local
=
local
;
local
->
Address
=
op
->
RegAddress
;
local
->
Qbus_fp
=
((
io_sRackLocal
*
)(
rp
->
Local
))
->
Qbus_fp
;
errh_Info
(
"Init of co card '%s'"
,
cp
->
Name
);
/* Configure card */
for
(
i
=
0
;
i
<
op
->
MaxNoOfCounters
;
i
++
)
{
if
(
!
cp
->
chanlist
[
i
].
cop
||
!
cp
->
chanlist
[
i
].
sop
)
continue
;
wr_data_p
=
(
pwr_tUInt32
*
)
&
wr_data
;
*
wr_data_p
=
op
->
SyncRawValue
[
i
];
if
(
op
->
SpeedMeasurement
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
8
);
if
(
op
->
LengthMeasurement
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
10
);
if
(
op
->
MulCount
[
i
]
==
2
)
wr_data
[
1
]
|=
(
1
<<
11
);
if
(
op
->
DivCount
[
i
]
==
16
)
wr_data
[
1
]
|=
(
1
<<
9
);
if
(
op
->
NoOfBits
[
i
]
==
16
)
wr_data
[
1
]
|=
(
1
<<
12
);
if
(
op
->
CopWrRough
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
13
);
if
(
op
->
CopWrFine
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
14
);
if
(
op
->
LoadWrReg
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
15
);
wb
.
Address
=
local
->
Address
+
4
*
i
;
wb
.
Data
=
wr_data
[
0
];
sts
=
write
(
local
->
Qbus_fp
,
&
wb
,
sizeof
(
wb
));
if
(
sts
!=
-
1
)
{
wb
.
Address
+=
2
;
wb
.
Data
=
wr_data
[
1
];
sts
=
write
(
local
->
Qbus_fp
,
&
wb
,
sizeof
(
wb
));
}
if
(
sts
==
-
1
)
{
errh_Error
(
"IO init, Fatal write error, card '%s', IO i stopped"
,
cp
->
Name
);
return
IO__ERRDEVICE
;
}
if
(
op
->
LoadWrReg
[
i
]
==
1
)
{
*
(
pwr_tUInt32
*
)
cp
->
chanlist
[
i
].
vbp
=
op
->
SyncRawValue
[
i
];
*
(
pwr_tUInt32
*
)
cp
->
chanlist
[
i
].
abs_vbp
=
op
->
SyncRawValue
[
i
];
}
else
{
*
(
pwr_tUInt32
*
)
cp
->
chanlist
[
i
].
vbp
=
0
;
}
/* Data is written to device */
op
->
COWrFlag
[
i
]
=
0
;
}
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardClose
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
errh_Info
(
"IO closing co card '%s'"
,
cp
->
Name
);
free
(
(
char
*
)
local
);
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardRead
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
pwr_tUInt16
wr_data
[
2
];
pwr_tUInt16
re_data
[
2
];
pwr_tUInt32
*
wr_data_p
;
pwr_tUInt32
*
re_data_p
;
pwr_sClass_Ssab_CO4uP
*
op
;
pwr_tInt32
numofword
;
int
i
;
pwr_tInt16
co16_data
;
pwr_tInt32
newdiff
,
diff
,
co24_data
;
int
sts
,
sts1
,
sts2
;
qbus_io_read
rb
;
qbus_io_write
wb
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
op
=
(
pwr_sClass_Ssab_CO4uP
*
)
cp
->
op
;
for
(
i
=
0
;
i
<
op
->
MaxNoOfCounters
;
i
++
)
{
if
(
!
cp
->
chanlist
[
i
].
cop
||
!
cp
->
chanlist
[
i
].
sop
)
continue
;
if
(
op
->
ConvMask
&
(
1
<<
i
))
{
/* Conversion is on */
if
(
op
->
COWrFlag
[
i
])
{
/* New configuration of card */
wr_data_p
=
(
pwr_tUInt32
*
)
&
wr_data
;
*
wr_data_p
=
op
->
SyncRawValue
[
i
];
if
(
op
->
SpeedMeasurement
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
8
);
if
(
op
->
LengthMeasurement
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
10
);
if
(
op
->
MulCount
[
i
]
==
2
)
wr_data
[
1
]
|=
(
1
<<
11
);
if
(
op
->
DivCount
[
i
]
==
16
)
wr_data
[
1
]
|=
(
1
<<
9
);
if
(
op
->
NoOfBits
[
i
]
==
16
)
wr_data
[
1
]
|=
(
1
<<
12
);
if
(
op
->
CopWrRough
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
13
);
if
(
op
->
CopWrFine
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
14
);
if
(
op
->
LoadWrReg
[
i
]
==
1
)
wr_data
[
1
]
|=
(
1
<<
15
);
wb
.
Address
=
local
->
Address
+
4
*
i
;
wb
.
Data
=
wr_data
[
0
];
sts
=
write
(
local
->
Qbus_fp
,
&
wb
,
sizeof
(
wb
));
if
(
sts
!=
-
1
)
{
wb
.
Address
+=
2
;
wb
.
Data
=
wr_data
[
1
];
sts
=
write
(
local
->
Qbus_fp
,
&
wb
,
sizeof
(
wb
));
}
if
(
sts
==
-
1
)
{
errh_Error
(
"IO init, Fatal write error, card '%s', IO i stopped"
,
cp
->
Name
);
}
op
->
COWrFlag
[
i
]
=
0
;
}
if
(
op
->
NoOfBits
[
i
]
==
24
)
numofword
=
2
;
else
numofword
=
1
;
/* 16 bitscounter */
re_data_p
=
(
pwr_tUInt32
*
)
&
re_data
;
#if defined(OS_ELN)
vaxc
$
establish
(
machfailread_co
);
#endif
rb
.
Address
=
local
->
Address
+
4
*
i
;
sts1
=
read
(
local
->
Qbus_fp
,
&
rb
,
sizeof
(
rb
));
re_data
[
0
]
=
(
unsigned
short
)
rb
.
Data
;
if
(
numofword
==
2
)
{
rb
.
Address
+=
2
;
sts2
=
read
(
local
->
Qbus_fp
,
&
rb
,
sizeof
(
rb
));
re_data
[
1
]
=
(
unsigned
short
)
rb
.
Data
;
}
else
sts2
=
0
;
if
(
sts1
==
-
1
||
sts2
==
-
1
)
{
#if 0
if ( io_fatal_error)
{
/* Activate emergency break */
errh_Error( "Fatal read error, card '%s', IO i stopped", cp->Name);
ctx->Node->EmergBreakTrue = 1;
return IO__ERRDEVICE;
}
#endif
/* Increase error count and check error limits */
op
->
ErrorCount
++
;
if
(
op
->
ErrorCount
==
op
->
ErrorSoftLimit
)
errh_Error
(
"IO Error soft limit reached on card '%s'"
,
cp
->
Name
);
if
(
op
->
ErrorCount
>=
op
->
ErrorHardLimit
)
{
errh_Error
(
"IO Error hard limit reached on card '%s', IO stopped"
,
cp
->
Name
);
ctx
->
Node
->
EmergBreakTrue
=
1
;
return
IO__ERRDEVICE
;
}
continue
;
}
}
/* No faults detected calculate countervalue and store them */
if
(
numofword
==
1
)
/* 16 bits counter */
{
co16_data
=
re_data
[
0
];
/* If this is the first lap we dont have any correct saved
countvalues. Therefor we save the new value. */
if
(
local
->
FirstScan
[
i
])
local
->
OldValue
[
i
]
=
co16_data
;
/* Store the counter values into RTDB */
*
(
pwr_tUInt32
*
)
cp
->
chanlist
[
i
].
vbp
=
co16_data
;
/* Test if an abs-value should be calculated and stored */
if
(
op
->
COAbsFlag
[
i
]
==
TRUE
)
{
/* Calculate difference between two readings*/
diff
=
co16_data
-
local
->
OldValue
[
i
];
local
->
OldValue
[
i
]
=
co16_data
;
/* Store new value */
/* Check if the counter is passing zero or max,
and calculate if it is counting up or down */
if
(
diff
<
MIN16
)
/* Up count over maxlimit */
newdiff
=
MAXCO16
+
diff
;
else
if
(
diff
>
MAX16
)
newdiff
=
diff
-
MAXCO16
;
else
newdiff
=
diff
;
/* Store the counter abs-values into RTDB */
*
(
pwr_tUInt32
*
)
cp
->
chanlist
[
i
].
abs_vbp
+=
newdiff
;
}
}
else
if
(
numofword
==
2
)
/* 24 bits counter */
{
co24_data
=
*
re_data_p
;
/* If this is the first lap we dont have any correct saved
countvalues. Therefor we save the new value. */
if
(
local
->
FirstScan
[
i
])
local
->
OldValue
[
i
]
=
co24_data
;
/* Store the counter values into RTDB */
*
(
pwr_tUInt32
*
)
cp
->
chanlist
[
i
].
vbp
=
co24_data
;
/* Test if an abs-value should be calaulated and stored */
if
(
op
->
COAbsFlag
[
i
]
==
TRUE
)
{
/* Calculate difference between two readings */
diff
=
co24_data
-
local
->
OldValue
[
i
];
local
->
OldValue
[
i
]
=
co24_data
;
/* Store new value */
/* Check if the counter is passing zero or max,
and calculate if it is counting up or down */
if
(
diff
<
MIN24
)
/* Up count over maxlimit */
newdiff
=
MAXCO24
+
diff
;
else
if
(
diff
>
MAX24
)
newdiff
=
diff
-
MAXCO24
;
else
newdiff
=
diff
;
/* Store the counter abs-values into RTDB */
*
(
pwr_tUInt32
*
)
cp
->
chanlist
[
i
].
abs_vbp
+=
newdiff
;
}
}
local
->
FirstScan
[
i
]
=
0
;
}
return
1
;
}
/*----------------------------------------------------------------------------*\
Every method to be exported to the workbench should be registred here.
\*----------------------------------------------------------------------------*/
pwr_dExport
pwr_BindIoMethods
(
Ssab_Co
)
=
{
pwr_BindIoMethod
(
IoCardInit
),
pwr_BindIoMethod
(
IoCardClose
),
pwr_BindIoMethod
(
IoCardRead
),
pwr_NullMethod
};
src/lib/rt/src/os_linux/rt_io_m_ssab_di.c
deleted
100644 → 0
View file @
99ec0b4e
/*
* Proview $Id: rt_io_m_ssab_di.c,v 1.2 2005-09-01 14:57:57 claes Exp $
* Copyright (C) 2005 SSAB Oxelsund AB.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation, either version 2 of
* the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with the program, if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* rt_io_m_ssab_di.c -- io methods for ssab cards.
OS Linux
*/
#include <stdio.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include <string.h>
#include <stdlib.h>
#include "pwr.h"
#include "rt_errh.h"
#include "pwr_baseclasses.h"
#include "pwr_basecomponentclasses.h"
#include "pwr_ssaboxclasses.h"
#include "rt_io_base.h"
#include "rt_io_msg.h"
#include "rt_io_filter_di.h"
#include "rt_io_ssab.h"
#include "rt_io_card_init.h"
#include "rt_io_card_close.h"
#include "rt_io_card_read.h"
#include "qbus_io.h"
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
typedef
struct
{
unsigned
int
Address
[
2
];
int
Qbus_fp
;
struct
{
pwr_sClass_Di
*
sop
[
16
];
void
*
Data
[
16
];
pwr_tBoolean
Found
;
}
Filter
[
2
];
}
io_sLocal
;
typedef
struct
{
int
Qbus_fp
;
}
io_sRackLocal
;
static
pwr_tStatus
IoCardInit
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
pwr_sClass_Ssab_BaseDiCard
*
op
;
io_sLocal
*
local
;
int
i
,
j
;
op
=
(
pwr_sClass_Ssab_BaseDiCard
*
)
cp
->
op
;
local
=
calloc
(
1
,
sizeof
(
*
local
));
cp
->
Local
=
local
;
errh_Info
(
"Init of di card '%s'"
,
cp
->
Name
);
local
->
Address
[
0
]
=
op
->
RegAddress
;
local
->
Address
[
1
]
=
op
->
RegAddress
+
2
;
local
->
Qbus_fp
=
((
io_sRackLocal
*
)(
rp
->
Local
))
->
Qbus_fp
;
/* Init filter */
for
(
i
=
0
;
i
<
2
;
i
++
)
{
/* The filter handles one 16-bit word */
for
(
j
=
0
;
j
<
16
;
j
++
)
local
->
Filter
[
i
].
sop
[
j
]
=
cp
->
chanlist
[
i
*
16
+
j
].
sop
;
io_InitDiFilter
(
local
->
Filter
[
i
].
sop
,
&
local
->
Filter
[
i
].
Found
,
local
->
Filter
[
i
].
Data
,
ctx
->
ScanTime
);
}
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardClose
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
int
i
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
errh_Info
(
"IO closing di card '%s'"
,
cp
->
Name
);
/* Free filter data */
for
(
i
=
0
;
i
<
2
;
i
++
)
{
if
(
local
->
Filter
[
i
].
Found
)
io_CloseDiFilter
(
local
->
Filter
[
i
].
Data
);
}
free
(
(
char
*
)
local
);
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardRead
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
pwr_tUInt16
data
=
0
;
pwr_sClass_Ssab_BaseDiCard
*
op
;
pwr_tUInt16
invmask
;
pwr_tUInt16
convmask
;
int
i
;
int
sts
;
qbus_io_read
rb
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
op
=
(
pwr_sClass_Ssab_BaseDiCard
*
)
cp
->
op
;
for
(
i
=
0
;
i
<
2
;
i
++
)
{
if
(
i
==
0
)
{
convmask
=
op
->
ConvMask1
;
invmask
=
op
->
InvMask1
;
}
else
{
convmask
=
op
->
ConvMask2
;
invmask
=
op
->
InvMask2
;
if
(
!
convmask
)
break
;
if
(
op
->
MaxNoOfChannels
==
16
)
break
;
}
rb
.
Address
=
local
->
Address
[
i
];
sts
=
read
(
local
->
Qbus_fp
,
&
rb
,
sizeof
(
rb
));
data
=
(
unsigned
short
)
rb
.
Data
;
if
(
sts
==
-
1
)
{
/* Increase error count and check error limits */
op
->
ErrorCount
++
;
if
(
op
->
ErrorCount
==
op
->
ErrorSoftLimit
)
errh_Error
(
"IO Error soft limit reached on card '%s'"
,
cp
->
Name
);
if
(
op
->
ErrorCount
>=
op
->
ErrorHardLimit
)
{
errh_Error
(
"IO Error hard limit reached on card '%s', IO stopped"
,
cp
->
Name
);
ctx
->
Node
->
EmergBreakTrue
=
1
;
return
IO__ERRDEVICE
;
}
continue
;
}
/* Invert */
data
=
data
^
invmask
;
/* Filter ... */
if
(
local
->
Filter
[
i
].
Found
)
io_DiFilter
(
local
->
Filter
[
i
].
sop
,
&
data
,
local
->
Filter
[
i
].
Data
);
/* Move data to valuebase */
io_DiUnpackWord
(
cp
,
data
,
convmask
,
i
);
}
return
1
;
}
/*----------------------------------------------------------------------------*\
Every method to be exported to the workbench should be registred here.
\*----------------------------------------------------------------------------*/
pwr_dExport
pwr_BindIoMethods
(
Ssab_Di
)
=
{
pwr_BindIoMethod
(
IoCardInit
),
pwr_BindIoMethod
(
IoCardClose
),
pwr_BindIoMethod
(
IoCardRead
),
pwr_NullMethod
};
src/lib/rt/src/os_linux/rt_io_m_ssab_do.c
deleted
100644 → 0
View file @
99ec0b4e
/*
* Proview $Id: rt_io_m_ssab_do.c,v 1.2 2005-09-01 14:57:57 claes Exp $
* Copyright (C) 2005 SSAB Oxelsund AB.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation, either version 2 of
* the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with the program, if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* rt_io_m_ssab_do.c -- io methods for ssab cards.
OS Linux
*/
#include <stdio.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include <string.h>
#include <stdlib.h>
#include "pwr.h"
#include "rt_errh.h"
#include "pwr_baseclasses.h"
#include "pwr_basecomponentclasses.h"
#include "pwr_ssaboxclasses.h"
#include "rt_io_base.h"
#include "rt_io_msg.h"
#include "rt_io_filter_po.h"
#include "rt_io_ssab.h"
#include "rt_io_card_init.h"
#include "rt_io_card_close.h"
#include "rt_io_card_write.h"
#include "qbus_io.h"
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
typedef
struct
{
unsigned
int
Address
[
2
];
int
Qbus_fp
;
struct
{
pwr_sClass_Po
*
sop
[
16
];
void
*
Data
[
16
];
pwr_tBoolean
Found
;
}
Filter
[
2
];
}
io_sLocal
;
typedef
struct
{
int
Qbus_fp
;
}
io_sRackLocal
;
static
pwr_tStatus
IoCardInit
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
pwr_sClass_Ssab_BaseDoCard
*
op
;
io_sLocal
*
local
;
int
i
,
j
;
op
=
(
pwr_sClass_Ssab_BaseDoCard
*
)
cp
->
op
;
local
=
calloc
(
1
,
sizeof
(
*
local
));
cp
->
Local
=
local
;
errh_Info
(
"Init of do card '%s'"
,
cp
->
Name
);
local
->
Address
[
0
]
=
op
->
RegAddress
;
local
->
Address
[
1
]
=
op
->
RegAddress
+
2
;
local
->
Qbus_fp
=
((
io_sRackLocal
*
)(
rp
->
Local
))
->
Qbus_fp
;
/* Init filter for Po signals */
for
(
i
=
0
;
i
<
2
;
i
++
)
{
/* The filter handles one 16-bit word */
for
(
j
=
0
;
j
<
16
;
j
++
)
{
if
(
cp
->
chanlist
[
i
*
16
+
j
].
SigClass
==
pwr_cClass_Po
)
local
->
Filter
[
i
].
sop
[
j
]
=
cp
->
chanlist
[
i
*
16
+
j
].
sop
;
}
io_InitPoFilter
(
local
->
Filter
[
i
].
sop
,
&
local
->
Filter
[
i
].
Found
,
local
->
Filter
[
i
].
Data
,
ctx
->
ScanTime
);
}
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardClose
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
int
i
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
errh_Info
(
"IO closing do card '%s'"
,
cp
->
Name
);
/* Free filter data */
for
(
i
=
0
;
i
<
2
;
i
++
)
{
if
(
local
->
Filter
[
i
].
Found
)
io_ClosePoFilter
(
local
->
Filter
[
i
].
Data
);
}
free
(
(
char
*
)
local
);
return
1
;
}
/*----------------------------------------------------------------------------*\
\*----------------------------------------------------------------------------*/
static
pwr_tStatus
IoCardWrite
(
io_tCtx
ctx
,
io_sAgent
*
ap
,
io_sRack
*
rp
,
io_sCard
*
cp
)
{
io_sLocal
*
local
;
pwr_tUInt16
data
=
0
;
pwr_sClass_Ssab_BaseDoCard
*
op
;
pwr_tUInt16
invmask
;
pwr_tUInt16
testmask
;
pwr_tUInt16
testvalue
;
int
i
;
qbus_io_write
wb
;
int
sts
;
local
=
(
io_sLocal
*
)
cp
->
Local
;
op
=
(
pwr_sClass_Ssab_BaseDoCard
*
)
cp
->
op
;
#if defined(OS_ELN)
vaxc
$
establish
(
machfailwrite
);
#endif
for
(
i
=
0
;
i
<
2
;
i
++
)
{
if
(
ctx
->
Node
->
EmergBreakTrue
&&
ctx
->
Node
->
EmergBreakSelect
==
FIXOUT
)
{
if
(
i
==
0
)
data
=
op
->
FixedOutValue1
;
else
data
=
op
->
FixedOutValue2
;
}
else
io_DoPackWord
(
cp
,
&
data
,
i
);
if
(
i
==
0
)
{
testmask
=
op
->
TestMask1
;
invmask
=
op
->
InvMask1
;
}
else
{
testmask
=
op
->
TestMask2
;
invmask
=
op
->
InvMask2
;
if
(
op
->
MaxNoOfChannels
==
16
)
break
;
}
/* Invert */
data
=
data
^
invmask
;
/* Filter Po signals */
if
(
local
->
Filter
[
i
].
Found
)
io_PoFilter
(
local
->
Filter
[
i
].
sop
,
&
data
,
local
->
Filter
[
i
].
Data
);
/* Testvalues */
if
(
testmask
)
{
if
(
i
==
0
)
testvalue
=
op
->
TestValue1
;
else
testvalue
=
op
->
TestValue2
;
data
=
(
data
&
~
testmask
)
|
(
testmask
&
testvalue
);
}
wb
.
Data
=
data
;
wb
.
Address
=
local
->
Address
[
i
];
sts
=
write
(
local
->
Qbus_fp
,
&
wb
,
sizeof
(
wb
));
if
(
sts
==
-
1
)
{
#if 0
/* Exceptionhandler was called */
if ( io_fatal_error)
{
/* Activate emergency break */
errh_Error( "Fatal write error, card '%s', IO is stopped", cp->Name);
ctx->Node->EmergBreakTrue = 1;
return IO__ERRDEVICE;
}
#endif
/* Increase error count and check error limits */
op
->
ErrorCount
++
;
if
(
op
->
ErrorCount
==
op
->
ErrorSoftLimit
)
errh_Error
(
"IO Error soft limit reached on card '%s'"
,
cp
->
Name
);
if
(
op
->
ErrorCount
>=
op
->
ErrorHardLimit
)
{
errh_Error
(
"IO Error hard limit reached on card '%s', IO stopped"
,
cp
->
Name
);
ctx
->
Node
->
EmergBreakTrue
=
1
;
return
IO__ERRDEVICE
;
}
continue
;
}
}
return
1
;
}
/*----------------------------------------------------------------------------*\
Every method to be exported to the workbench should be registred here.
\*----------------------------------------------------------------------------*/
pwr_dExport
pwr_BindIoMethods
(
Ssab_Do
)
=
{
pwr_BindIoMethod
(
IoCardInit
),
pwr_BindIoMethod
(
IoCardClose
),
pwr_BindIoMethod
(
IoCardWrite
),
pwr_NullMethod
};
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment