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Martin Manchev
osie
Commits
76d6da7c
Commit
76d6da7c
authored
Mar 16, 2022
by
Ivan Tyagov
Browse files
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Separate OPC-UA's wrapper code for MOD-IO to a new file.
parent
3bab7efa
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coupler/opc-ua-server/mod_io_opc_ua.h
coupler/opc-ua-server/mod_io_opc_ua.h
+815
-0
coupler/opc-ua-server/server.c
coupler/opc-ua-server/server.c
+2
-812
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coupler/opc-ua-server/mod_io_opc_ua.h
0 → 100644
View file @
76d6da7c
/*
* OPC-UA code representation of MOD-IOs connected to a Lime2
*/
void
addIntegerVariableNode
(
UA_Server
*
server
,
char
*
node_id
,
char
*
node_description
)
{
UA_Int32
myInteger
=
0
;
UA_NodeId
parentNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_OBJECTSFOLDER
);
UA_NodeId
parentReferenceNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_ORGANIZES
);
UA_VariableAttributes
attr0
=
UA_VariableAttributes_default
;
UA_Variant_setScalar
(
&
attr0
.
value
,
&
myInteger
,
&
UA_TYPES
[
UA_TYPES_INT32
]);
attr0
.
description
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
displayName
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
dataType
=
UA_TYPES
[
UA_TYPES_INT32
].
typeId
;
attr0
.
accessLevel
=
UA_ACCESSLEVELMASK_READ
|
UA_ACCESSLEVELMASK_WRITE
;
UA_NodeId
myIntegerNodeId0
=
UA_NODEID_STRING
(
1
,
node_id
);
UA_QualifiedName
myIntegerName0
=
UA_QUALIFIEDNAME
(
1
,
node_description
);
UA_Server_addVariableNode
(
server
,
myIntegerNodeId0
,
parentNodeId
,
parentReferenceNodeId
,
myIntegerName0
,
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_BASEDATAVARIABLETYPE
),
attr0
,
NULL
,
NULL
);
}
void
addUIntegerVariableReadNode
(
UA_Server
*
server
,
char
*
node_id
,
char
*
node_description
)
{
UA_UInt32
myInteger
=
0
;
UA_NodeId
parentNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_OBJECTSFOLDER
);
UA_NodeId
parentReferenceNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_ORGANIZES
);
UA_VariableAttributes
attr0
=
UA_VariableAttributes_default
;
UA_Variant_setScalar
(
&
attr0
.
value
,
&
myInteger
,
&
UA_TYPES
[
UA_TYPES_UINT32
]);
attr0
.
description
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
displayName
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
dataType
=
UA_TYPES
[
UA_TYPES_UINT32
].
typeId
;
attr0
.
accessLevel
=
UA_ACCESSLEVELMASK_READ
;
UA_NodeId
myIntegerNodeId0
=
UA_NODEID_STRING
(
1
,
node_id
);
UA_QualifiedName
myIntegerName0
=
UA_QUALIFIEDNAME
(
1
,
node_description
);
UA_Server_addVariableNode
(
server
,
myIntegerNodeId0
,
parentNodeId
,
parentReferenceNodeId
,
myIntegerName0
,
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_BASEDATAVARIABLETYPE
),
attr0
,
NULL
,
NULL
);
}
void
addBooleanVariableReadNode
(
UA_Server
*
server
,
char
*
node_id
,
char
*
node_description
)
{
UA_Boolean
myBoolean
=
false
;
UA_NodeId
parentNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_OBJECTSFOLDER
);
UA_NodeId
parentReferenceNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_ORGANIZES
);
UA_VariableAttributes
attr0
=
UA_VariableAttributes_default
;
UA_Variant_setScalar
(
&
attr0
.
value
,
&
myBoolean
,
&
UA_TYPES
[
UA_TYPES_BOOLEAN
]);
attr0
.
description
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
displayName
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
dataType
=
UA_TYPES
[
UA_TYPES_BOOLEAN
].
typeId
;
attr0
.
accessLevel
=
UA_ACCESSLEVELMASK_READ
;
UA_NodeId
myIntegerNodeId0
=
UA_NODEID_STRING
(
1
,
node_id
);
UA_QualifiedName
myIntegerName0
=
UA_QUALIFIEDNAME
(
1
,
node_description
);
UA_Server_addVariableNode
(
server
,
myIntegerNodeId0
,
parentNodeId
,
parentReferenceNodeId
,
myIntegerName0
,
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_BASEDATAVARIABLETYPE
),
attr0
,
NULL
,
NULL
);
}
static
void
addVariable
(
UA_Server
*
server
)
{
/*
* Create all variables representing MOD-IO's relays
*/
int
length
=
getI2CSlaveListLength
();
if
(
length
>=
1
)
{
// IC2-0
addIntegerVariableNode
(
server
,
"i2c0.relay0"
,
"I2C0 / Relay 0"
);
addIntegerVariableNode
(
server
,
"i2c0.relay1"
,
"I2C0 / Relay 1"
);
addIntegerVariableNode
(
server
,
"i2c0.relay2"
,
"I2C0 / Relay 2"
);
addIntegerVariableNode
(
server
,
"i2c0.relay3"
,
"I2C0 / Relay 3"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in0"
,
"I2C0 / Digital Input 0"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in1"
,
"I2C0 / Digital Input 1"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in2"
,
"I2C0 / Digital Input 2"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in3"
,
"I2C0 / Digital Input 3"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain0"
,
"I2C0 / Analog Input 0"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain1"
,
"I2C0 / Analog Input 1"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain2"
,
"I2C0 / Analog Input 2"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain3"
,
"I2C0 / Analog Input 3"
);
}
if
(
length
>=
2
)
{
// IC2-1
addIntegerVariableNode
(
server
,
"i2c1.relay0"
,
"I2C1 / Relay 0"
);
addIntegerVariableNode
(
server
,
"i2c1.relay1"
,
"I2C1 / Relay 1"
);
addIntegerVariableNode
(
server
,
"i2c1.relay2"
,
"I2C1 / Relay 2"
);
addIntegerVariableNode
(
server
,
"i2c1.relay3"
,
"I2C1 / Relay 3"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in0"
,
"I2C1 / Digital Input 0"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in1"
,
"I2C1 / Digital Input 1"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in2"
,
"I2C1 / Digital Input 2"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in3"
,
"I2C1 / Digital Input 3"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain0"
,
"I2C1 / Analog Input 0"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain1"
,
"I2C1 / Analog Input 1"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain2"
,
"I2C1 / Analog Input 2"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain3"
,
"I2C1 / Analog Input 3"
);
}
}
/* Connect to variables to physical relays
*
*/
static
void
beforeReadTime
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
}
static
void
beforeReadTimeI2C0Ain0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x30
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0Ain1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x31
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0Ain2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x32
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0Ain3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x33
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x30
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x31
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x32
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x33
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0In0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
0
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C0In1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
1
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C0In2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
2
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C0In3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
3
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
0
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
1
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
2
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
3
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
afterWriteTime
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
// nothing to do as not yet needed.
}
// XXX: having afterWriteTime{0..3} is not needed and maybe with introspection of context we can
// write only one callback function
static
void
afterWriteTimeI2C0_0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
0
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
0
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C0_1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
1
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
1
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C0_2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
2
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
2
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C0_3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
3
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
3
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
// I2C1
static
void
afterWriteTimeI2C1_0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
0
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
0
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C1_1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
1
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
1
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C1_2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
2
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
2
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C1_3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
3
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
3
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
addValueCallbackToCurrentTimeVariable
(
UA_Server
*
server
)
{
int
length
=
getI2CSlaveListLength
();
// I2C0
// relay 0
UA_NodeId
currentNodeId0
=
UA_NODEID_STRING
(
1
,
"i2c0.relay0"
);
UA_ValueCallback
callback0
;
callback0
.
onRead
=
beforeReadTime
;
callback0
.
onWrite
=
afterWriteTimeI2C0_0
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId0
,
callback0
);
// relay 1
UA_NodeId
currentNodeId1
=
UA_NODEID_STRING
(
1
,
"i2c0.relay1"
);
UA_ValueCallback
callback1
;
callback1
.
onRead
=
beforeReadTime
;
callback1
.
onWrite
=
afterWriteTimeI2C0_1
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId1
,
callback1
);
// relay 2
UA_NodeId
currentNodeId2
=
UA_NODEID_STRING
(
1
,
"i2c0.relay2"
);
UA_ValueCallback
callback2
;
callback2
.
onRead
=
beforeReadTime
;
callback2
.
onWrite
=
afterWriteTimeI2C0_2
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId2
,
callback2
);
// relay 3
UA_NodeId
currentNodeId3
=
UA_NODEID_STRING
(
1
,
"i2c0.relay3"
);
UA_ValueCallback
callback3
;
callback3
.
onRead
=
beforeReadTime
;
callback3
.
onWrite
=
afterWriteTimeI2C0_3
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId3
,
callback3
);
// Digital input 0
UA_NodeId
currentNodeId4
=
UA_NODEID_STRING
(
1
,
"i2c0.in0"
);
UA_ValueCallback
callback4
;
callback4
.
onRead
=
beforeReadTimeI2C0In0
;
callback4
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId4
,
callback4
);
// Digital input 1
UA_NodeId
currentNodeId5
=
UA_NODEID_STRING
(
1
,
"i2c0.in1"
);
UA_ValueCallback
callback5
;
callback5
.
onRead
=
beforeReadTimeI2C0In1
;
callback5
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId5
,
callback5
);
// Digital input 2
UA_NodeId
currentNodeId6
=
UA_NODEID_STRING
(
1
,
"i2c0.in2"
);
UA_ValueCallback
callback6
;
callback6
.
onRead
=
beforeReadTimeI2C0In2
;
callback6
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId6
,
callback6
);
// Digital input 3
UA_NodeId
currentNodeId7
=
UA_NODEID_STRING
(
1
,
"i2c0.in3"
);
UA_ValueCallback
callback7
;
callback7
.
onRead
=
beforeReadTimeI2C0In3
;
callback7
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId7
,
callback7
);
// Analog input 0
UA_NodeId
currentNodeId8
=
UA_NODEID_STRING
(
1
,
"i2c0.ain0"
);
UA_ValueCallback
callback8
;
callback8
.
onRead
=
beforeReadTimeI2C0Ain0
;
callback8
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId8
,
callback8
);
// Analog input 1
UA_NodeId
currentNodeId9
=
UA_NODEID_STRING
(
1
,
"i2c0.ain1"
);
UA_ValueCallback
callback9
;
callback9
.
onRead
=
beforeReadTimeI2C0Ain1
;
callback9
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId9
,
callback9
);
// Analog input 2
UA_NodeId
currentNodeId10
=
UA_NODEID_STRING
(
1
,
"i2c0.ain2"
);
UA_ValueCallback
callback10
;
callback10
.
onRead
=
beforeReadTimeI2C0Ain2
;
callback10
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId10
,
callback10
);
// Analog input 3
UA_NodeId
currentNodeId11
=
UA_NODEID_STRING
(
1
,
"i2c0.ain3"
);
UA_ValueCallback
callback11
;
callback11
.
onRead
=
beforeReadTimeI2C0Ain3
;
callback11
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId11
,
callback11
);
if
(
length
>
1
)
{
// I2C1
// relay 0
UA_NodeId
currentNodeId12
=
UA_NODEID_STRING
(
1
,
"i2c1.relay0"
);
UA_ValueCallback
callback12
;
callback12
.
onRead
=
beforeReadTime
;
callback12
.
onWrite
=
afterWriteTimeI2C1_0
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId12
,
callback12
);
// relay 1
UA_NodeId
currentNodeId13
=
UA_NODEID_STRING
(
1
,
"i2c1.relay1"
);
UA_ValueCallback
callback13
;
callback13
.
onRead
=
beforeReadTime
;
callback13
.
onWrite
=
afterWriteTimeI2C1_1
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId13
,
callback13
);
// relay 2
UA_NodeId
currentNodeId14
=
UA_NODEID_STRING
(
1
,
"i2c1.relay2"
);
UA_ValueCallback
callback14
;
callback14
.
onRead
=
beforeReadTime
;
callback14
.
onWrite
=
afterWriteTimeI2C1_2
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId14
,
callback14
);
// relay 2
UA_NodeId
currentNodeId15
=
UA_NODEID_STRING
(
1
,
"i2c1.relay3"
);
UA_ValueCallback
callback15
;
callback15
.
onRead
=
beforeReadTime
;
callback15
.
onWrite
=
afterWriteTimeI2C1_3
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId15
,
callback15
);
// Digital input 0
UA_NodeId
currentNodeId16
=
UA_NODEID_STRING
(
1
,
"i2c1.in0"
);
UA_ValueCallback
callback16
;
callback16
.
onRead
=
beforeReadTimeI2C1In0
;
callback16
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId16
,
callback16
);
// Digital input 1
UA_NodeId
currentNodeId17
=
UA_NODEID_STRING
(
1
,
"i2c1.in1"
);
UA_ValueCallback
callback17
;
callback17
.
onRead
=
beforeReadTimeI2C1In1
;
callback17
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId17
,
callback17
);
// Digital input 2
UA_NodeId
currentNodeId18
=
UA_NODEID_STRING
(
1
,
"i2c1.in2"
);
UA_ValueCallback
callback18
;
callback18
.
onRead
=
beforeReadTimeI2C1In2
;
callback18
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId18
,
callback18
);
// Digital input 3
UA_NodeId
currentNodeId19
=
UA_NODEID_STRING
(
1
,
"i2c1.in3"
);
UA_ValueCallback
callback19
;
callback19
.
onRead
=
beforeReadTimeI2C1In3
;
callback19
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId19
,
callback19
);
// Analog input 0
UA_NodeId
currentNodeId20
=
UA_NODEID_STRING
(
1
,
"i2c1.ain0"
);
UA_ValueCallback
callback20
;
callback20
.
onRead
=
beforeReadTimeI2C1Ain0
;
callback20
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId20
,
callback20
);
// Analog input 1
UA_NodeId
currentNodeId21
=
UA_NODEID_STRING
(
1
,
"i2c1.ain1"
);
UA_ValueCallback
callback21
;
callback21
.
onRead
=
beforeReadTimeI2C1Ain1
;
callback21
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId21
,
callback21
);
// Analog input 2
UA_NodeId
currentNodeId22
=
UA_NODEID_STRING
(
1
,
"i2c1.ain2"
);
UA_ValueCallback
callback22
;
callback22
.
onRead
=
beforeReadTimeI2C1Ain2
;
callback22
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId22
,
callback22
);
// Analog input 3
UA_NodeId
currentNodeId23
=
UA_NODEID_STRING
(
1
,
"i2c1.ain3"
);
UA_ValueCallback
callback23
;
callback23
.
onRead
=
beforeReadTimeI2C1Ain3
;
callback23
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId23
,
callback23
);
}
}
coupler/opc-ua-server/server.c
View file @
76d6da7c
...
...
@@ -25,6 +25,8 @@
#include <string.h>
#include "common.h"
#include "mod_io_i2c.h"
#include "mod_io_opc_ua.h"
// The default port of OPC-UA server
const
int
DEFAULT_OPC_UA_PORT
=
4840
;
...
...
@@ -99,818 +101,6 @@ static error_t parse_opt(int key, char *arg, struct argp_state *state)
static
struct
argp
argp
=
{
options
,
parse_opt
,
args_doc
,
doc
,
0
,
0
,
0
};
void
addIntegerVariableNode
(
UA_Server
*
server
,
char
*
node_id
,
char
*
node_description
)
{
UA_Int32
myInteger
=
0
;
UA_NodeId
parentNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_OBJECTSFOLDER
);
UA_NodeId
parentReferenceNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_ORGANIZES
);
UA_VariableAttributes
attr0
=
UA_VariableAttributes_default
;
UA_Variant_setScalar
(
&
attr0
.
value
,
&
myInteger
,
&
UA_TYPES
[
UA_TYPES_INT32
]);
attr0
.
description
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
displayName
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
dataType
=
UA_TYPES
[
UA_TYPES_INT32
].
typeId
;
attr0
.
accessLevel
=
UA_ACCESSLEVELMASK_READ
|
UA_ACCESSLEVELMASK_WRITE
;
UA_NodeId
myIntegerNodeId0
=
UA_NODEID_STRING
(
1
,
node_id
);
UA_QualifiedName
myIntegerName0
=
UA_QUALIFIEDNAME
(
1
,
node_description
);
UA_Server_addVariableNode
(
server
,
myIntegerNodeId0
,
parentNodeId
,
parentReferenceNodeId
,
myIntegerName0
,
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_BASEDATAVARIABLETYPE
),
attr0
,
NULL
,
NULL
);
}
void
addUIntegerVariableReadNode
(
UA_Server
*
server
,
char
*
node_id
,
char
*
node_description
)
{
UA_UInt32
myInteger
=
0
;
UA_NodeId
parentNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_OBJECTSFOLDER
);
UA_NodeId
parentReferenceNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_ORGANIZES
);
UA_VariableAttributes
attr0
=
UA_VariableAttributes_default
;
UA_Variant_setScalar
(
&
attr0
.
value
,
&
myInteger
,
&
UA_TYPES
[
UA_TYPES_UINT32
]);
attr0
.
description
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
displayName
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
dataType
=
UA_TYPES
[
UA_TYPES_UINT32
].
typeId
;
attr0
.
accessLevel
=
UA_ACCESSLEVELMASK_READ
;
UA_NodeId
myIntegerNodeId0
=
UA_NODEID_STRING
(
1
,
node_id
);
UA_QualifiedName
myIntegerName0
=
UA_QUALIFIEDNAME
(
1
,
node_description
);
UA_Server_addVariableNode
(
server
,
myIntegerNodeId0
,
parentNodeId
,
parentReferenceNodeId
,
myIntegerName0
,
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_BASEDATAVARIABLETYPE
),
attr0
,
NULL
,
NULL
);
}
void
addBooleanVariableReadNode
(
UA_Server
*
server
,
char
*
node_id
,
char
*
node_description
)
{
UA_Boolean
myBoolean
=
false
;
UA_NodeId
parentNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_OBJECTSFOLDER
);
UA_NodeId
parentReferenceNodeId
=
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_ORGANIZES
);
UA_VariableAttributes
attr0
=
UA_VariableAttributes_default
;
UA_Variant_setScalar
(
&
attr0
.
value
,
&
myBoolean
,
&
UA_TYPES
[
UA_TYPES_BOOLEAN
]);
attr0
.
description
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
displayName
=
UA_LOCALIZEDTEXT
(
"en-US"
,
node_description
);
attr0
.
dataType
=
UA_TYPES
[
UA_TYPES_BOOLEAN
].
typeId
;
attr0
.
accessLevel
=
UA_ACCESSLEVELMASK_READ
;
UA_NodeId
myIntegerNodeId0
=
UA_NODEID_STRING
(
1
,
node_id
);
UA_QualifiedName
myIntegerName0
=
UA_QUALIFIEDNAME
(
1
,
node_description
);
UA_Server_addVariableNode
(
server
,
myIntegerNodeId0
,
parentNodeId
,
parentReferenceNodeId
,
myIntegerName0
,
UA_NODEID_NUMERIC
(
0
,
UA_NS0ID_BASEDATAVARIABLETYPE
),
attr0
,
NULL
,
NULL
);
}
static
void
addVariable
(
UA_Server
*
server
)
{
/*
* Create all variables representing MOD-IO's relays
*/
int
length
=
getI2CSlaveListLength
();
if
(
length
>=
1
)
{
// IC2-0
addIntegerVariableNode
(
server
,
"i2c0.relay0"
,
"I2C0 / Relay 0"
);
addIntegerVariableNode
(
server
,
"i2c0.relay1"
,
"I2C0 / Relay 1"
);
addIntegerVariableNode
(
server
,
"i2c0.relay2"
,
"I2C0 / Relay 2"
);
addIntegerVariableNode
(
server
,
"i2c0.relay3"
,
"I2C0 / Relay 3"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in0"
,
"I2C0 / Digital Input 0"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in1"
,
"I2C0 / Digital Input 1"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in2"
,
"I2C0 / Digital Input 2"
);
addBooleanVariableReadNode
(
server
,
"i2c0.in3"
,
"I2C0 / Digital Input 3"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain0"
,
"I2C0 / Analog Input 0"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain1"
,
"I2C0 / Analog Input 1"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain2"
,
"I2C0 / Analog Input 2"
);
addUIntegerVariableReadNode
(
server
,
"i2c0.ain3"
,
"I2C0 / Analog Input 3"
);
}
if
(
length
>=
2
)
{
// IC2-1
addIntegerVariableNode
(
server
,
"i2c1.relay0"
,
"I2C1 / Relay 0"
);
addIntegerVariableNode
(
server
,
"i2c1.relay1"
,
"I2C1 / Relay 1"
);
addIntegerVariableNode
(
server
,
"i2c1.relay2"
,
"I2C1 / Relay 2"
);
addIntegerVariableNode
(
server
,
"i2c1.relay3"
,
"I2C1 / Relay 3"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in0"
,
"I2C1 / Digital Input 0"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in1"
,
"I2C1 / Digital Input 1"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in2"
,
"I2C1 / Digital Input 2"
);
addBooleanVariableReadNode
(
server
,
"i2c1.in3"
,
"I2C1 / Digital Input 3"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain0"
,
"I2C1 / Analog Input 0"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain1"
,
"I2C1 / Analog Input 1"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain2"
,
"I2C1 / Analog Input 2"
);
addUIntegerVariableReadNode
(
server
,
"i2c1.ain3"
,
"I2C1 / Analog Input 3"
);
}
}
/* Connect to variables to physical relays
*
*/
static
void
beforeReadTime
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
}
static
void
beforeReadTimeI2C0Ain0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x30
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0Ain1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x31
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0Ain2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x32
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0Ain3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x33
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x30
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x31
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x32
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C1Ain3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
int
*
data_input
=
0
;
uint8_t
read_addr
=
0x33
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getAnalogInputStateAIN
(
addr
,
&
data_input
,
read_addr
);
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_UINT32
])
{
*
(
UA_UInt32
*
)
data
->
value
.
data
=
*
data_input
;
}
}
}
static
void
beforeReadTimeI2C0In0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
0
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C0In1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
1
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C0In2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
2
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C0In3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
3
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
0
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
1
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
2
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
beforeReadTimeI2C1In3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeid
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
char
*
data_input
=
0
;
if
(
!
I2C_VIRTUAL_MODE
)
{
getDigitalInputState
(
addr
,
&
data_input
);
if
((
*
data_input
)
&
(
1UL
<<
3
))
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
true
;
}
}
else
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_BOOLEAN
])
{
*
(
UA_Boolean
*
)
data
->
value
.
data
=
false
;
}
}
}
}
static
void
afterWriteTime
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
// nothing to do as not yet needed.
}
// XXX: having afterWriteTime{0..3} is not needed and maybe with introspection of context we can
// write only one callback function
static
void
afterWriteTimeI2C0_0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
0
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
0
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C0_1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
1
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
1
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C0_2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
2
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
2
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C0_3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
0
];
if
(
hrValue
>
0
)
{
I2C_0_RELAYS_STATE
|=
1UL
<<
3
;
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
else
{
I2C_0_RELAYS_STATE
&=
~
(
1UL
<<
3
);
setRelayState
(
I2C_0_RELAYS_STATE
,
addr
);
}
}
}
// I2C1
static
void
afterWriteTimeI2C1_0
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
0
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
0
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C1_1
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
1
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
1
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C1_2
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
2
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
2
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
afterWriteTimeI2C1_3
(
UA_Server
*
server
,
const
UA_NodeId
*
sessionId
,
void
*
sessionContext
,
const
UA_NodeId
*
nodeId
,
void
*
nodeContext
,
const
UA_NumericRange
*
range
,
const
UA_DataValue
*
data
)
{
if
(
data
->
value
.
type
==
&
UA_TYPES
[
UA_TYPES_INT32
])
{
UA_Int32
hrValue
=
*
(
UA_Int32
*
)
data
->
value
.
data
;
int
addr
=
I2C_SLAVE_ADDR_LIST
[
1
];
if
(
hrValue
>
0
)
{
I2C_1_RELAYS_STATE
|=
1UL
<<
3
;
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
else
{
I2C_1_RELAYS_STATE
&=
~
(
1UL
<<
3
);
setRelayState
(
I2C_1_RELAYS_STATE
,
addr
);
}
}
}
static
void
addValueCallbackToCurrentTimeVariable
(
UA_Server
*
server
)
{
int
length
=
getI2CSlaveListLength
();
// I2C0
// relay 0
UA_NodeId
currentNodeId0
=
UA_NODEID_STRING
(
1
,
"i2c0.relay0"
);
UA_ValueCallback
callback0
;
callback0
.
onRead
=
beforeReadTime
;
callback0
.
onWrite
=
afterWriteTimeI2C0_0
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId0
,
callback0
);
// relay 1
UA_NodeId
currentNodeId1
=
UA_NODEID_STRING
(
1
,
"i2c0.relay1"
);
UA_ValueCallback
callback1
;
callback1
.
onRead
=
beforeReadTime
;
callback1
.
onWrite
=
afterWriteTimeI2C0_1
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId1
,
callback1
);
// relay 2
UA_NodeId
currentNodeId2
=
UA_NODEID_STRING
(
1
,
"i2c0.relay2"
);
UA_ValueCallback
callback2
;
callback2
.
onRead
=
beforeReadTime
;
callback2
.
onWrite
=
afterWriteTimeI2C0_2
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId2
,
callback2
);
// relay 3
UA_NodeId
currentNodeId3
=
UA_NODEID_STRING
(
1
,
"i2c0.relay3"
);
UA_ValueCallback
callback3
;
callback3
.
onRead
=
beforeReadTime
;
callback3
.
onWrite
=
afterWriteTimeI2C0_3
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId3
,
callback3
);
// Digital input 0
UA_NodeId
currentNodeId4
=
UA_NODEID_STRING
(
1
,
"i2c0.in0"
);
UA_ValueCallback
callback4
;
callback4
.
onRead
=
beforeReadTimeI2C0In0
;
callback4
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId4
,
callback4
);
// Digital input 1
UA_NodeId
currentNodeId5
=
UA_NODEID_STRING
(
1
,
"i2c0.in1"
);
UA_ValueCallback
callback5
;
callback5
.
onRead
=
beforeReadTimeI2C0In1
;
callback5
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId5
,
callback5
);
// Digital input 2
UA_NodeId
currentNodeId6
=
UA_NODEID_STRING
(
1
,
"i2c0.in2"
);
UA_ValueCallback
callback6
;
callback6
.
onRead
=
beforeReadTimeI2C0In2
;
callback6
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId6
,
callback6
);
// Digital input 3
UA_NodeId
currentNodeId7
=
UA_NODEID_STRING
(
1
,
"i2c0.in3"
);
UA_ValueCallback
callback7
;
callback7
.
onRead
=
beforeReadTimeI2C0In3
;
callback7
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId7
,
callback7
);
// Analog input 0
UA_NodeId
currentNodeId8
=
UA_NODEID_STRING
(
1
,
"i2c0.ain0"
);
UA_ValueCallback
callback8
;
callback8
.
onRead
=
beforeReadTimeI2C0Ain0
;
callback8
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId8
,
callback8
);
// Analog input 1
UA_NodeId
currentNodeId9
=
UA_NODEID_STRING
(
1
,
"i2c0.ain1"
);
UA_ValueCallback
callback9
;
callback9
.
onRead
=
beforeReadTimeI2C0Ain1
;
callback9
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId9
,
callback9
);
// Analog input 2
UA_NodeId
currentNodeId10
=
UA_NODEID_STRING
(
1
,
"i2c0.ain2"
);
UA_ValueCallback
callback10
;
callback10
.
onRead
=
beforeReadTimeI2C0Ain2
;
callback10
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId10
,
callback10
);
// Analog input 3
UA_NodeId
currentNodeId11
=
UA_NODEID_STRING
(
1
,
"i2c0.ain3"
);
UA_ValueCallback
callback11
;
callback11
.
onRead
=
beforeReadTimeI2C0Ain3
;
callback11
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId11
,
callback11
);
if
(
length
>
1
)
{
// I2C1
// relay 0
UA_NodeId
currentNodeId12
=
UA_NODEID_STRING
(
1
,
"i2c1.relay0"
);
UA_ValueCallback
callback12
;
callback12
.
onRead
=
beforeReadTime
;
callback12
.
onWrite
=
afterWriteTimeI2C1_0
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId12
,
callback12
);
// relay 1
UA_NodeId
currentNodeId13
=
UA_NODEID_STRING
(
1
,
"i2c1.relay1"
);
UA_ValueCallback
callback13
;
callback13
.
onRead
=
beforeReadTime
;
callback13
.
onWrite
=
afterWriteTimeI2C1_1
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId13
,
callback13
);
// relay 2
UA_NodeId
currentNodeId14
=
UA_NODEID_STRING
(
1
,
"i2c1.relay2"
);
UA_ValueCallback
callback14
;
callback14
.
onRead
=
beforeReadTime
;
callback14
.
onWrite
=
afterWriteTimeI2C1_2
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId14
,
callback14
);
// relay 2
UA_NodeId
currentNodeId15
=
UA_NODEID_STRING
(
1
,
"i2c1.relay3"
);
UA_ValueCallback
callback15
;
callback15
.
onRead
=
beforeReadTime
;
callback15
.
onWrite
=
afterWriteTimeI2C1_3
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId15
,
callback15
);
// Digital input 0
UA_NodeId
currentNodeId16
=
UA_NODEID_STRING
(
1
,
"i2c1.in0"
);
UA_ValueCallback
callback16
;
callback16
.
onRead
=
beforeReadTimeI2C1In0
;
callback16
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId16
,
callback16
);
// Digital input 1
UA_NodeId
currentNodeId17
=
UA_NODEID_STRING
(
1
,
"i2c1.in1"
);
UA_ValueCallback
callback17
;
callback17
.
onRead
=
beforeReadTimeI2C1In1
;
callback17
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId17
,
callback17
);
// Digital input 2
UA_NodeId
currentNodeId18
=
UA_NODEID_STRING
(
1
,
"i2c1.in2"
);
UA_ValueCallback
callback18
;
callback18
.
onRead
=
beforeReadTimeI2C1In2
;
callback18
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId18
,
callback18
);
// Digital input 3
UA_NodeId
currentNodeId19
=
UA_NODEID_STRING
(
1
,
"i2c1.in3"
);
UA_ValueCallback
callback19
;
callback19
.
onRead
=
beforeReadTimeI2C1In3
;
callback19
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId19
,
callback19
);
// Analog input 0
UA_NodeId
currentNodeId20
=
UA_NODEID_STRING
(
1
,
"i2c1.ain0"
);
UA_ValueCallback
callback20
;
callback20
.
onRead
=
beforeReadTimeI2C1Ain0
;
callback20
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId20
,
callback20
);
// Analog input 1
UA_NodeId
currentNodeId21
=
UA_NODEID_STRING
(
1
,
"i2c1.ain1"
);
UA_ValueCallback
callback21
;
callback21
.
onRead
=
beforeReadTimeI2C1Ain1
;
callback21
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId21
,
callback21
);
// Analog input 2
UA_NodeId
currentNodeId22
=
UA_NODEID_STRING
(
1
,
"i2c1.ain2"
);
UA_ValueCallback
callback22
;
callback22
.
onRead
=
beforeReadTimeI2C1Ain2
;
callback22
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId22
,
callback22
);
// Analog input 3
UA_NodeId
currentNodeId23
=
UA_NODEID_STRING
(
1
,
"i2c1.ain3"
);
UA_ValueCallback
callback23
;
callback23
.
onRead
=
beforeReadTimeI2C1Ain3
;
callback23
.
onWrite
=
afterWriteTime
;
UA_Server_setVariableNode_valueCallback
(
server
,
currentNodeId23
,
callback23
);
}
}
void
safeShutdownI2CSlaveList
()
{
/*
...
...
Write
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