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- added server side example for the substitution service

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pull/71/head
Michael Zillgith 7 years ago
parent 77c4d3ae03
commit 2e160d6279
8 changed files with 1677 additions and 0 deletions
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1
examples/CMakeLists.txt
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@ -11,6 +11,7 @@ add_subdirectory(server_example_61400_25)
add_subdirectory(server_example_setting_groups)
add_subdirectory(server_example_logging)
add_subdirectory(server_example_files)
add_subdirectory(server_example_substitution)
add_subdirectory(iec61850_client_example1)
add_subdirectory(iec61850_client_example2)

1
examples/Makefile
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@ -20,6 +20,7 @@ EXAMPLE_DIRS += server_example_threadless
EXAMPLE_DIRS += server_example_setting_groups
EXAMPLE_DIRS += server_example_logging
EXAMPLE_DIRS += server_example_files
EXAMPLE_DIRS += server_example_substitution
EXAMPLE_DIRS += goose_subscriber
EXAMPLE_DIRS += goose_publisher
EXAMPLE_DIRS += sv_subscriber

21
examples/server_example_substitution/CMakeLists.txt
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@ -0,0 +1,21 @@
include_directories(
.
)
set(server_example_SRCS
server_example_substitution.c
static_model.c
)
IF(WIN32)
set_source_files_properties(${server_example_SRCS}
PROPERTIES LANGUAGE CXX)
ENDIF(WIN32)
add_executable(server_example_substitution
${server_example_SRCS}
)
target_link_libraries(server_example_substitution
iec61850
)

30
examples/server_example_substitution/Makefile
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@ -0,0 +1,30 @@
LIBIEC_HOME=../..
PROJECT_BINARY_NAME = server_example_substitution
PROJECT_SOURCES = server_example_substitution.c
PROJECT_SOURCES += static_model.c
PROJECT_ICD_FILE = substitution_example.icd
include $(LIBIEC_HOME)/make/target_system.mk
include $(LIBIEC_HOME)/make/stack_includes.mk
all: $(PROJECT_BINARY_NAME)
include $(LIBIEC_HOME)/make/common_targets.mk
LDLIBS += -lm
CP = cp
model: $(PROJECT_ICD_FILE)
java -jar $(LIBIEC_HOME)/tools/model_generator/genmodel.jar $(PROJECT_ICD_FILE)
$(PROJECT_BINARY_NAME): $(PROJECT_SOURCES) $(LIB_NAME)
$(CC) $(CFLAGS) $(LDFLAGS) -o $(PROJECT_BINARY_NAME) $(PROJECT_SOURCES) $(INCLUDES) $(LIB_NAME) $(LDLIBS)
clean:
rm -f $(PROJECT_BINARY_NAME)

220
examples/server_example_substitution/server_example_substitution.c
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@ -0,0 +1,220 @@
/*
* server_example_substitution.c
*
* - How to use the IEC 61850 substitution service
* - Two data objects can be substituted:
* -- GGIO1.AnIn1
* -- GGIO1.Ind1
*/
#include "iec61850_server.h"
#include "hal_thread.h"
#include <signal.h>
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#include "static_model.h"
/* import IEC 61850 device model created from SCL-File */
extern IedModel iedModel;
static int running = 0;
static IedServer iedServer = NULL;
static bool subsAnIn1 = false;
static bool subsInd1 = false;
void
sigint_handler(int signalId)
{
running = 0;
}
static void
connectionHandler (IedServer self, ClientConnection connection, bool connected, void* parameter)
{
if (connected)
printf("Connection opened\n");
else
printf("Connection closed\n");
}
static MmsDataAccessError
writeAccessHandler (DataAttribute* dataAttribute, MmsValue* value, ClientConnection connection, void* parameter)
{
if (dataAttribute == IEDMODEL_LD1_GGIO1_AnIn1_subEna) {
printf("Received GGIO1.AnIn1.subEna: %i\n", MmsValue_getBoolean(value));
if (MmsValue_getBoolean(value)) {
subsAnIn1 = true;
/* Update values with substituted values */
Quality quality =
Quality_fromMmsValue(IedServer_getAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_subQ));
Quality_setFlag(&quality, QUALITY_SOURCE_SUBSTITUTED);
IedServer_updateQuality(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_q, quality);
IedServer_updateAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_mag_f,
IedServer_getAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_subMag_f));
}
else {
subsAnIn1 = false;
}
}
else if (dataAttribute == IEDMODEL_LD1_GGIO1_AnIn1_subMag_f) {
if (subsAnIn1) {
IedServer_updateAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_mag_f, value);
}
}
else if (dataAttribute == IEDMODEL_LD1_GGIO1_AnIn1_subQ) {
if (subsAnIn1) {
Quality quality = Quality_fromMmsValue(value);
Quality_setFlag(&quality, QUALITY_SOURCE_SUBSTITUTED);
IedServer_updateQuality(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_q, quality);
}
}
else if (dataAttribute == IEDMODEL_LD1_GGIO1_Ind1_subEna) {
printf("Received GGIO1.Ind1.subEna: %i\n", MmsValue_getBoolean(value));
if (MmsValue_getBoolean(value)) {
subsInd1 = true;
/* Update values with substituted values */
Quality quality =
Quality_fromMmsValue(IedServer_getAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_Ind1_subQ));
Quality_setFlag(&quality, QUALITY_SOURCE_SUBSTITUTED);
IedServer_updateQuality(iedServer, IEDMODEL_LD1_GGIO1_Ind1_q, quality);
IedServer_updateAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_Ind1_stVal,
IedServer_getAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_Ind1_subVal));
}
else {
subsInd1 = false;
}
}
else if (dataAttribute == IEDMODEL_LD1_GGIO1_Ind1_subVal) {
if (subsInd1) {
IedServer_updateAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_Ind1_stVal, value);
}
}
else if (dataAttribute == IEDMODEL_LD1_GGIO1_Ind1_subQ) {
if (subsInd1) {
Quality quality = Quality_fromMmsValue(value);
Quality_setFlag(&quality, QUALITY_SOURCE_SUBSTITUTED);
IedServer_updateQuality(iedServer, IEDMODEL_LD1_GGIO1_Ind1_q, quality);
}
}
return DATA_ACCESS_ERROR_SUCCESS;
}
int
main(int argc, char** argv)
{
printf("Using libIEC61850 version %s\n", LibIEC61850_getVersionString());
/* Create a new IEC 61850 server instance */
iedServer = IedServer_create(&iedModel);
IedServer_setConnectionIndicationHandler(iedServer, (IedConnectionIndicationHandler) connectionHandler, NULL);
/* Install write callback handler for substitution variables */
IedServer_handleWriteAccess(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_subEna, writeAccessHandler, NULL);
IedServer_handleWriteAccess(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_subMag_f, writeAccessHandler, NULL);
IedServer_handleWriteAccess(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_subQ, writeAccessHandler, NULL);
IedServer_handleWriteAccess(iedServer, IEDMODEL_LD1_GGIO1_Ind1_subEna, writeAccessHandler, NULL);
IedServer_handleWriteAccess(iedServer, IEDMODEL_LD1_GGIO1_Ind1_subVal, writeAccessHandler, NULL);
IedServer_handleWriteAccess(iedServer, IEDMODEL_LD1_GGIO1_Ind1_subQ, writeAccessHandler, NULL);
/* MMS server will be instructed to start listening for client connections. */
IedServer_start(iedServer, 102);
if (!IedServer_isRunning(iedServer)) {
printf("Starting server failed! Exit.\n");
IedServer_destroy(iedServer);
exit(-1);
}
running = 1;
signal(SIGINT, sigint_handler);
float t = 0.f;
bool ind1 = true;
while (running) {
uint64_t timestamp = Hal_getTimeInMs();
t += 0.1f;
float an1 = sinf(t);
if (ind1)
ind1 = false;
else
ind1 = true;
Timestamp iecTimestamp;
Timestamp_clearFlags(&iecTimestamp);
Timestamp_setTimeInMilliseconds(&iecTimestamp, timestamp);
Timestamp_setLeapSecondKnown(&iecTimestamp, true);
/* toggle clock-not-synchronized flag in timestamp */
if (((int) t % 2) == 0)
Timestamp_setClockNotSynchronized(&iecTimestamp, true);
IedServer_lockDataModel(iedServer);
if (subsAnIn1 == false) {
IedServer_updateTimestampAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_t, &iecTimestamp);
IedServer_updateQuality(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_q, QUALITY_VALIDITY_GOOD);
IedServer_updateFloatAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_AnIn1_mag_f, an1);
}
if (subsInd1 == false) {
IedServer_updateTimestampAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_Ind1_t, &iecTimestamp);
IedServer_updateQuality(iedServer, IEDMODEL_LD1_GGIO1_Ind1_q, QUALITY_VALIDITY_GOOD);
IedServer_updateBooleanAttributeValue(iedServer, IEDMODEL_LD1_GGIO1_Ind1_stVal, ind1);
}
IedServer_unlockDataModel(iedServer);
Thread_sleep(100);
}
/* stop MMS server - close TCP server socket and all client sockets */
IedServer_stop(iedServer);
/* Cleanup - free all resources */
IedServer_destroy(iedServer);
} /* main() */

998
examples/server_example_substitution/static_model.c
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@ -0,0 +1,998 @@
/*
* static_model.c
*
* automatically generated from substitution_example.icd
*/
#include "static_model.h"
static void initializeValues();
LogicalDevice iedModel_LD1 = {
LogicalDeviceModelType,
"LD1",
(ModelNode*) &iedModel,
NULL,
(ModelNode*) &iedModel_LD1_LLN0
};
LogicalNode iedModel_LD1_LLN0 = {
LogicalNodeModelType,
"LLN0",
(ModelNode*) &iedModel_LD1,
(ModelNode*) &iedModel_LD1_LPHD1,
(ModelNode*) &iedModel_LD1_LLN0_Beh,
};
DataObject iedModel_LD1_LLN0_Beh = {
DataObjectModelType,
"Beh",
(ModelNode*) &iedModel_LD1_LLN0,
NULL,
(ModelNode*) &iedModel_LD1_LLN0_Beh_stVal,
0
};
DataAttribute iedModel_LD1_LLN0_Beh_stVal = {
DataAttributeModelType,
"stVal",
(ModelNode*) &iedModel_LD1_LLN0_Beh,
(ModelNode*) &iedModel_LD1_LLN0_Beh_q,
NULL,
0,
IEC61850_FC_ST,
IEC61850_ENUMERATED,
0,
NULL,
0};
DataAttribute iedModel_LD1_LLN0_Beh_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_LLN0_Beh,
(ModelNode*) &iedModel_LD1_LLN0_Beh_t,
NULL,
0,
IEC61850_FC_ST,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_LLN0_Beh_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_LLN0_Beh,
NULL,
NULL,
0,
IEC61850_FC_ST,
IEC61850_TIMESTAMP,
0,
NULL,
0};
LogicalNode iedModel_LD1_LPHD1 = {
LogicalNodeModelType,
"LPHD1",
(ModelNode*) &iedModel_LD1,
(ModelNode*) &iedModel_LD1_MMDC1,
(ModelNode*) &iedModel_LD1_LPHD1_PhyNam,
};
DataObject iedModel_LD1_LPHD1_PhyNam = {
DataObjectModelType,
"PhyNam",
(ModelNode*) &iedModel_LD1_LPHD1,
(ModelNode*) &iedModel_LD1_LPHD1_PhyHealth,
(ModelNode*) &iedModel_LD1_LPHD1_PhyNam_vendor,
0
};
DataAttribute iedModel_LD1_LPHD1_PhyNam_vendor = {
DataAttributeModelType,
"vendor",
(ModelNode*) &iedModel_LD1_LPHD1_PhyNam,
NULL,
NULL,
0,
IEC61850_FC_DC,
IEC61850_VISIBLE_STRING_255,
0,
NULL,
0};
DataObject iedModel_LD1_LPHD1_PhyHealth = {
DataObjectModelType,
"PhyHealth",
(ModelNode*) &iedModel_LD1_LPHD1,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
(ModelNode*) &iedModel_LD1_LPHD1_PhyHealth_stVal,
0
};
DataAttribute iedModel_LD1_LPHD1_PhyHealth_stVal = {
DataAttributeModelType,
"stVal",
(ModelNode*) &iedModel_LD1_LPHD1_PhyHealth,
(ModelNode*) &iedModel_LD1_LPHD1_PhyHealth_q,
NULL,
0,
IEC61850_FC_ST,
IEC61850_ENUMERATED,
0,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_PhyHealth_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_LPHD1_PhyHealth,
(ModelNode*) &iedModel_LD1_LPHD1_PhyHealth_t,
NULL,
0,
IEC61850_FC_ST,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_PhyHealth_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_LPHD1_PhyHealth,
NULL,
NULL,
0,
IEC61850_FC_ST,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataObject iedModel_LD1_LPHD1_Proxy = {
DataObjectModelType,
"Proxy",
(ModelNode*) &iedModel_LD1_LPHD1,
NULL,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy_stVal,
0
};
DataAttribute iedModel_LD1_LPHD1_Proxy_stVal = {
DataAttributeModelType,
"stVal",
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy_q,
NULL,
0,
IEC61850_FC_ST,
IEC61850_BOOLEAN,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_Proxy_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy_t,
NULL,
0,
IEC61850_FC_ST,
IEC61850_QUALITY,
0 + TRG_OPT_QUALITY_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_Proxy_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy_subEna,
NULL,
0,
IEC61850_FC_ST,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_Proxy_subEna = {
DataAttributeModelType,
"subEna",
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy_subVal,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_Proxy_subVal = {
DataAttributeModelType,
"subVal",
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy_subQ,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_Proxy_subQ = {
DataAttributeModelType,
"subQ",
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
(ModelNode*) &iedModel_LD1_LPHD1_Proxy_subID,
NULL,
0,
IEC61850_FC_SV,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_LPHD1_Proxy_subID = {
DataAttributeModelType,
"subID",
(ModelNode*) &iedModel_LD1_LPHD1_Proxy,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_VISIBLE_STRING_64,
0,
NULL,
0};
LogicalNode iedModel_LD1_MMDC1 = {
LogicalNodeModelType,
"MMDC1",
(ModelNode*) &iedModel_LD1,
(ModelNode*) &iedModel_LD1_GGIO1,
(ModelNode*) &iedModel_LD1_MMDC1_Beh,
};
DataObject iedModel_LD1_MMDC1_Beh = {
DataObjectModelType,
"Beh",
(ModelNode*) &iedModel_LD1_MMDC1,
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
(ModelNode*) &iedModel_LD1_MMDC1_Beh_stVal,
0
};
DataAttribute iedModel_LD1_MMDC1_Beh_stVal = {
DataAttributeModelType,
"stVal",
(ModelNode*) &iedModel_LD1_MMDC1_Beh,
(ModelNode*) &iedModel_LD1_MMDC1_Beh_q,
NULL,
0,
IEC61850_FC_ST,
IEC61850_ENUMERATED,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Beh_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_MMDC1_Beh,
(ModelNode*) &iedModel_LD1_MMDC1_Beh_t,
NULL,
0,
IEC61850_FC_ST,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Beh_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_MMDC1_Beh,
NULL,
NULL,
0,
IEC61850_FC_ST,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataObject iedModel_LD1_MMDC1_Watt = {
DataObjectModelType,
"Watt",
(ModelNode*) &iedModel_LD1_MMDC1,
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_mag,
0
};
DataAttribute iedModel_LD1_MMDC1_Watt_mag = {
DataAttributeModelType,
"mag",
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_q,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_mag_f,
0,
IEC61850_FC_MX,
IEC61850_CONSTRUCTED,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_mag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_MMDC1_Watt_mag,
NULL,
NULL,
0,
IEC61850_FC_MX,
IEC61850_FLOAT32,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_t,
NULL,
0,
IEC61850_FC_MX,
IEC61850_QUALITY,
0 + TRG_OPT_QUALITY_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_subEna,
NULL,
0,
IEC61850_FC_MX,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_subEna = {
DataAttributeModelType,
"subEna",
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_subMag,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_subMag = {
DataAttributeModelType,
"subMag",
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_subQ,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_subMag_f,
0,
IEC61850_FC_SV,
IEC61850_CONSTRUCTED,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_subMag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_MMDC1_Watt_subMag,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_FLOAT32,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_subQ = {
DataAttributeModelType,
"subQ",
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
(ModelNode*) &iedModel_LD1_MMDC1_Watt_subID,
NULL,
0,
IEC61850_FC_SV,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Watt_subID = {
DataAttributeModelType,
"subID",
(ModelNode*) &iedModel_LD1_MMDC1_Watt,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_VISIBLE_STRING_64,
0,
NULL,
0};
DataObject iedModel_LD1_MMDC1_Amp = {
DataObjectModelType,
"Amp",
(ModelNode*) &iedModel_LD1_MMDC1,
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_mag,
0
};
DataAttribute iedModel_LD1_MMDC1_Amp_mag = {
DataAttributeModelType,
"mag",
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_q,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_mag_f,
0,
IEC61850_FC_MX,
IEC61850_CONSTRUCTED,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_mag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_MMDC1_Amp_mag,
NULL,
NULL,
0,
IEC61850_FC_MX,
IEC61850_FLOAT32,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_t,
NULL,
0,
IEC61850_FC_MX,
IEC61850_QUALITY,
0 + TRG_OPT_QUALITY_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_subEna,
NULL,
0,
IEC61850_FC_MX,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_subEna = {
DataAttributeModelType,
"subEna",
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_subMag,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_subMag = {
DataAttributeModelType,
"subMag",
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_subQ,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_subMag_f,
0,
IEC61850_FC_SV,
IEC61850_CONSTRUCTED,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_subMag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_MMDC1_Amp_subMag,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_FLOAT32,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_subQ = {
DataAttributeModelType,
"subQ",
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
(ModelNode*) &iedModel_LD1_MMDC1_Amp_subID,
NULL,
0,
IEC61850_FC_SV,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Amp_subID = {
DataAttributeModelType,
"subID",
(ModelNode*) &iedModel_LD1_MMDC1_Amp,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_VISIBLE_STRING_64,
0,
NULL,
0};
DataObject iedModel_LD1_MMDC1_Vol = {
DataObjectModelType,
"Vol",
(ModelNode*) &iedModel_LD1_MMDC1,
NULL,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_mag,
0
};
DataAttribute iedModel_LD1_MMDC1_Vol_mag = {
DataAttributeModelType,
"mag",
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_q,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_mag_f,
0,
IEC61850_FC_MX,
IEC61850_CONSTRUCTED,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_mag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_MMDC1_Vol_mag,
NULL,
NULL,
0,
IEC61850_FC_MX,
IEC61850_FLOAT32,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_t,
NULL,
0,
IEC61850_FC_MX,
IEC61850_QUALITY,
0 + TRG_OPT_QUALITY_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_subEna,
NULL,
0,
IEC61850_FC_MX,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_subEna = {
DataAttributeModelType,
"subEna",
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_subMag,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_subMag = {
DataAttributeModelType,
"subMag",
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_subQ,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_subMag_f,
0,
IEC61850_FC_SV,
IEC61850_CONSTRUCTED,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_subMag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_MMDC1_Vol_subMag,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_FLOAT32,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_subQ = {
DataAttributeModelType,
"subQ",
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
(ModelNode*) &iedModel_LD1_MMDC1_Vol_subID,
NULL,
0,
IEC61850_FC_SV,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_MMDC1_Vol_subID = {
DataAttributeModelType,
"subID",
(ModelNode*) &iedModel_LD1_MMDC1_Vol,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_VISIBLE_STRING_64,
0,
NULL,
0};
LogicalNode iedModel_LD1_GGIO1 = {
LogicalNodeModelType,
"GGIO1",
(ModelNode*) &iedModel_LD1,
NULL,
(ModelNode*) &iedModel_LD1_GGIO1_Beh,
};
DataObject iedModel_LD1_GGIO1_Beh = {
DataObjectModelType,
"Beh",
(ModelNode*) &iedModel_LD1_GGIO1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
(ModelNode*) &iedModel_LD1_GGIO1_Beh_stVal,
0
};
DataAttribute iedModel_LD1_GGIO1_Beh_stVal = {
DataAttributeModelType,
"stVal",
(ModelNode*) &iedModel_LD1_GGIO1_Beh,
(ModelNode*) &iedModel_LD1_GGIO1_Beh_q,
NULL,
0,
IEC61850_FC_ST,
IEC61850_ENUMERATED,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Beh_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_GGIO1_Beh,
(ModelNode*) &iedModel_LD1_GGIO1_Beh_t,
NULL,
0,
IEC61850_FC_ST,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Beh_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_GGIO1_Beh,
NULL,
NULL,
0,
IEC61850_FC_ST,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataObject iedModel_LD1_GGIO1_Ind1 = {
DataObjectModelType,
"Ind1",
(ModelNode*) &iedModel_LD1_GGIO1,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1_stVal,
0
};
DataAttribute iedModel_LD1_GGIO1_Ind1_stVal = {
DataAttributeModelType,
"stVal",
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1_q,
NULL,
0,
IEC61850_FC_ST,
IEC61850_BOOLEAN,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Ind1_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1_t,
NULL,
0,
IEC61850_FC_ST,
IEC61850_QUALITY,
0 + TRG_OPT_QUALITY_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Ind1_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1_subEna,
NULL,
0,
IEC61850_FC_ST,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Ind1_subEna = {
DataAttributeModelType,
"subEna",
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1_subVal,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Ind1_subVal = {
DataAttributeModelType,
"subVal",
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1_subQ,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Ind1_subQ = {
DataAttributeModelType,
"subQ",
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
(ModelNode*) &iedModel_LD1_GGIO1_Ind1_subID,
NULL,
0,
IEC61850_FC_SV,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_Ind1_subID = {
DataAttributeModelType,
"subID",
(ModelNode*) &iedModel_LD1_GGIO1_Ind1,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_VISIBLE_STRING_64,
0,
NULL,
0};
DataObject iedModel_LD1_GGIO1_AnIn1 = {
DataObjectModelType,
"AnIn1",
(ModelNode*) &iedModel_LD1_GGIO1,
NULL,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_mag,
0
};
DataAttribute iedModel_LD1_GGIO1_AnIn1_mag = {
DataAttributeModelType,
"mag",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_q,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_mag_f,
0,
IEC61850_FC_MX,
IEC61850_CONSTRUCTED,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_mag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_mag,
NULL,
NULL,
0,
IEC61850_FC_MX,
IEC61850_FLOAT32,
0 + TRG_OPT_DATA_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_q = {
DataAttributeModelType,
"q",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_t,
NULL,
0,
IEC61850_FC_MX,
IEC61850_QUALITY,
0 + TRG_OPT_QUALITY_CHANGED,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_t = {
DataAttributeModelType,
"t",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_subEna,
NULL,
0,
IEC61850_FC_MX,
IEC61850_TIMESTAMP,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_subEna = {
DataAttributeModelType,
"subEna",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_subMag,
NULL,
0,
IEC61850_FC_SV,
IEC61850_BOOLEAN,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_subMag = {
DataAttributeModelType,
"subMag",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_subQ,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_subMag_f,
0,
IEC61850_FC_SV,
IEC61850_CONSTRUCTED,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_subMag_f = {
DataAttributeModelType,
"f",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_subMag,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_FLOAT32,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_subQ = {
DataAttributeModelType,
"subQ",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1_subID,
NULL,
0,
IEC61850_FC_SV,
IEC61850_QUALITY,
0,
NULL,
0};
DataAttribute iedModel_LD1_GGIO1_AnIn1_subID = {
DataAttributeModelType,
"subID",
(ModelNode*) &iedModel_LD1_GGIO1_AnIn1,
NULL,
NULL,
0,
IEC61850_FC_SV,
IEC61850_VISIBLE_STRING_64,
0,
NULL,
0};
extern ReportControlBlock iedModel_LD1_LLN0_report0;
extern ReportControlBlock iedModel_LD1_LLN0_report1;
ReportControlBlock iedModel_LD1_LLN0_report0 = {&iedModel_LD1_LLN0, "urcb01", "13e08c78", false, "", 1, 23, 247, 3000, 5000, &iedModel_LD1_LLN0_report1};
ReportControlBlock iedModel_LD1_LLN0_report1 = {&iedModel_LD1_LLN0, "urcb02", "13e08c78", false, "", 1, 23, 247, 3000, 5000, NULL};
IedModel iedModel = {
"IED1",
&iedModel_LD1,
NULL,
&iedModel_LD1_LLN0_report0,
NULL,
NULL,
NULL,
NULL,
NULL,
initializeValues
};
static void
initializeValues()
{
}

177
examples/server_example_substitution/static_model.h
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/*
* static_model.h
*
* automatically generated from substitution_example.icd
*/
#ifndef STATIC_MODEL_H_
#define STATIC_MODEL_H_
#include <stdlib.h>
#include "iec61850_model.h"
extern IedModel iedModel;
extern LogicalDevice iedModel_LD1;
extern LogicalNode iedModel_LD1_LLN0;
extern DataObject iedModel_LD1_LLN0_Beh;
extern DataAttribute iedModel_LD1_LLN0_Beh_stVal;
extern DataAttribute iedModel_LD1_LLN0_Beh_q;
extern DataAttribute iedModel_LD1_LLN0_Beh_t;
extern LogicalNode iedModel_LD1_LPHD1;
extern DataObject iedModel_LD1_LPHD1_PhyNam;
extern DataAttribute iedModel_LD1_LPHD1_PhyNam_vendor;
extern DataObject iedModel_LD1_LPHD1_PhyHealth;
extern DataAttribute iedModel_LD1_LPHD1_PhyHealth_stVal;
extern DataAttribute iedModel_LD1_LPHD1_PhyHealth_q;
extern DataAttribute iedModel_LD1_LPHD1_PhyHealth_t;
extern DataObject iedModel_LD1_LPHD1_Proxy;
extern DataAttribute iedModel_LD1_LPHD1_Proxy_stVal;
extern DataAttribute iedModel_LD1_LPHD1_Proxy_q;
extern DataAttribute iedModel_LD1_LPHD1_Proxy_t;
extern DataAttribute iedModel_LD1_LPHD1_Proxy_subEna;
extern DataAttribute iedModel_LD1_LPHD1_Proxy_subVal;
extern DataAttribute iedModel_LD1_LPHD1_Proxy_subQ;
extern DataAttribute iedModel_LD1_LPHD1_Proxy_subID;
extern LogicalNode iedModel_LD1_MMDC1;
extern DataObject iedModel_LD1_MMDC1_Beh;
extern DataAttribute iedModel_LD1_MMDC1_Beh_stVal;
extern DataAttribute iedModel_LD1_MMDC1_Beh_q;
extern DataAttribute iedModel_LD1_MMDC1_Beh_t;
extern DataObject iedModel_LD1_MMDC1_Watt;
extern DataAttribute iedModel_LD1_MMDC1_Watt_mag;
extern DataAttribute iedModel_LD1_MMDC1_Watt_mag_f;
extern DataAttribute iedModel_LD1_MMDC1_Watt_q;
extern DataAttribute iedModel_LD1_MMDC1_Watt_t;
extern DataAttribute iedModel_LD1_MMDC1_Watt_subEna;
extern DataAttribute iedModel_LD1_MMDC1_Watt_subMag;
extern DataAttribute iedModel_LD1_MMDC1_Watt_subMag_f;
extern DataAttribute iedModel_LD1_MMDC1_Watt_subQ;
extern DataAttribute iedModel_LD1_MMDC1_Watt_subID;
extern DataObject iedModel_LD1_MMDC1_Amp;
extern DataAttribute iedModel_LD1_MMDC1_Amp_mag;
extern DataAttribute iedModel_LD1_MMDC1_Amp_mag_f;
extern DataAttribute iedModel_LD1_MMDC1_Amp_q;
extern DataAttribute iedModel_LD1_MMDC1_Amp_t;
extern DataAttribute iedModel_LD1_MMDC1_Amp_subEna;
extern DataAttribute iedModel_LD1_MMDC1_Amp_subMag;
extern DataAttribute iedModel_LD1_MMDC1_Amp_subMag_f;
extern DataAttribute iedModel_LD1_MMDC1_Amp_subQ;
extern DataAttribute iedModel_LD1_MMDC1_Amp_subID;
extern DataObject iedModel_LD1_MMDC1_Vol;
extern DataAttribute iedModel_LD1_MMDC1_Vol_mag;
extern DataAttribute iedModel_LD1_MMDC1_Vol_mag_f;
extern DataAttribute iedModel_LD1_MMDC1_Vol_q;
extern DataAttribute iedModel_LD1_MMDC1_Vol_t;
extern DataAttribute iedModel_LD1_MMDC1_Vol_subEna;
extern DataAttribute iedModel_LD1_MMDC1_Vol_subMag;
extern DataAttribute iedModel_LD1_MMDC1_Vol_subMag_f;
extern DataAttribute iedModel_LD1_MMDC1_Vol_subQ;
extern DataAttribute iedModel_LD1_MMDC1_Vol_subID;
extern LogicalNode iedModel_LD1_GGIO1;
extern DataObject iedModel_LD1_GGIO1_Beh;
extern DataAttribute iedModel_LD1_GGIO1_Beh_stVal;
extern DataAttribute iedModel_LD1_GGIO1_Beh_q;
extern DataAttribute iedModel_LD1_GGIO1_Beh_t;
extern DataObject iedModel_LD1_GGIO1_Ind1;
extern DataAttribute iedModel_LD1_GGIO1_Ind1_stVal;
extern DataAttribute iedModel_LD1_GGIO1_Ind1_q;
extern DataAttribute iedModel_LD1_GGIO1_Ind1_t;
extern DataAttribute iedModel_LD1_GGIO1_Ind1_subEna;
extern DataAttribute iedModel_LD1_GGIO1_Ind1_subVal;
extern DataAttribute iedModel_LD1_GGIO1_Ind1_subQ;
extern DataAttribute iedModel_LD1_GGIO1_Ind1_subID;
extern DataObject iedModel_LD1_GGIO1_AnIn1;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_mag;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_mag_f;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_q;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_t;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_subEna;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_subMag;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_subMag_f;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_subQ;
extern DataAttribute iedModel_LD1_GGIO1_AnIn1_subID;
#define IEDMODEL_LD1 (&iedModel_LD1)
#define IEDMODEL_LD1_LLN0 (&iedModel_LD1_LLN0)
#define IEDMODEL_LD1_LLN0_Beh (&iedModel_LD1_LLN0_Beh)
#define IEDMODEL_LD1_LLN0_Beh_stVal (&iedModel_LD1_LLN0_Beh_stVal)
#define IEDMODEL_LD1_LLN0_Beh_q (&iedModel_LD1_LLN0_Beh_q)
#define IEDMODEL_LD1_LLN0_Beh_t (&iedModel_LD1_LLN0_Beh_t)
#define IEDMODEL_LD1_LPHD1 (&iedModel_LD1_LPHD1)
#define IEDMODEL_LD1_LPHD1_PhyNam (&iedModel_LD1_LPHD1_PhyNam)
#define IEDMODEL_LD1_LPHD1_PhyNam_vendor (&iedModel_LD1_LPHD1_PhyNam_vendor)
#define IEDMODEL_LD1_LPHD1_PhyHealth (&iedModel_LD1_LPHD1_PhyHealth)
#define IEDMODEL_LD1_LPHD1_PhyHealth_stVal (&iedModel_LD1_LPHD1_PhyHealth_stVal)
#define IEDMODEL_LD1_LPHD1_PhyHealth_q (&iedModel_LD1_LPHD1_PhyHealth_q)
#define IEDMODEL_LD1_LPHD1_PhyHealth_t (&iedModel_LD1_LPHD1_PhyHealth_t)
#define IEDMODEL_LD1_LPHD1_Proxy (&iedModel_LD1_LPHD1_Proxy)
#define IEDMODEL_LD1_LPHD1_Proxy_stVal (&iedModel_LD1_LPHD1_Proxy_stVal)
#define IEDMODEL_LD1_LPHD1_Proxy_q (&iedModel_LD1_LPHD1_Proxy_q)
#define IEDMODEL_LD1_LPHD1_Proxy_t (&iedModel_LD1_LPHD1_Proxy_t)
#define IEDMODEL_LD1_LPHD1_Proxy_subEna (&iedModel_LD1_LPHD1_Proxy_subEna)
#define IEDMODEL_LD1_LPHD1_Proxy_subVal (&iedModel_LD1_LPHD1_Proxy_subVal)
#define IEDMODEL_LD1_LPHD1_Proxy_subQ (&iedModel_LD1_LPHD1_Proxy_subQ)
#define IEDMODEL_LD1_LPHD1_Proxy_subID (&iedModel_LD1_LPHD1_Proxy_subID)
#define IEDMODEL_LD1_MMDC1 (&iedModel_LD1_MMDC1)
#define IEDMODEL_LD1_MMDC1_Beh (&iedModel_LD1_MMDC1_Beh)
#define IEDMODEL_LD1_MMDC1_Beh_stVal (&iedModel_LD1_MMDC1_Beh_stVal)
#define IEDMODEL_LD1_MMDC1_Beh_q (&iedModel_LD1_MMDC1_Beh_q)
#define IEDMODEL_LD1_MMDC1_Beh_t (&iedModel_LD1_MMDC1_Beh_t)
#define IEDMODEL_LD1_MMDC1_Watt (&iedModel_LD1_MMDC1_Watt)
#define IEDMODEL_LD1_MMDC1_Watt_mag (&iedModel_LD1_MMDC1_Watt_mag)
#define IEDMODEL_LD1_MMDC1_Watt_mag_f (&iedModel_LD1_MMDC1_Watt_mag_f)
#define IEDMODEL_LD1_MMDC1_Watt_q (&iedModel_LD1_MMDC1_Watt_q)
#define IEDMODEL_LD1_MMDC1_Watt_t (&iedModel_LD1_MMDC1_Watt_t)
#define IEDMODEL_LD1_MMDC1_Watt_subEna (&iedModel_LD1_MMDC1_Watt_subEna)
#define IEDMODEL_LD1_MMDC1_Watt_subMag (&iedModel_LD1_MMDC1_Watt_subMag)
#define IEDMODEL_LD1_MMDC1_Watt_subMag_f (&iedModel_LD1_MMDC1_Watt_subMag_f)
#define IEDMODEL_LD1_MMDC1_Watt_subQ (&iedModel_LD1_MMDC1_Watt_subQ)
#define IEDMODEL_LD1_MMDC1_Watt_subID (&iedModel_LD1_MMDC1_Watt_subID)
#define IEDMODEL_LD1_MMDC1_Amp (&iedModel_LD1_MMDC1_Amp)
#define IEDMODEL_LD1_MMDC1_Amp_mag (&iedModel_LD1_MMDC1_Amp_mag)
#define IEDMODEL_LD1_MMDC1_Amp_mag_f (&iedModel_LD1_MMDC1_Amp_mag_f)
#define IEDMODEL_LD1_MMDC1_Amp_q (&iedModel_LD1_MMDC1_Amp_q)
#define IEDMODEL_LD1_MMDC1_Amp_t (&iedModel_LD1_MMDC1_Amp_t)
#define IEDMODEL_LD1_MMDC1_Amp_subEna (&iedModel_LD1_MMDC1_Amp_subEna)
#define IEDMODEL_LD1_MMDC1_Amp_subMag (&iedModel_LD1_MMDC1_Amp_subMag)
#define IEDMODEL_LD1_MMDC1_Amp_subMag_f (&iedModel_LD1_MMDC1_Amp_subMag_f)
#define IEDMODEL_LD1_MMDC1_Amp_subQ (&iedModel_LD1_MMDC1_Amp_subQ)
#define IEDMODEL_LD1_MMDC1_Amp_subID (&iedModel_LD1_MMDC1_Amp_subID)
#define IEDMODEL_LD1_MMDC1_Vol (&iedModel_LD1_MMDC1_Vol)
#define IEDMODEL_LD1_MMDC1_Vol_mag (&iedModel_LD1_MMDC1_Vol_mag)
#define IEDMODEL_LD1_MMDC1_Vol_mag_f (&iedModel_LD1_MMDC1_Vol_mag_f)
#define IEDMODEL_LD1_MMDC1_Vol_q (&iedModel_LD1_MMDC1_Vol_q)
#define IEDMODEL_LD1_MMDC1_Vol_t (&iedModel_LD1_MMDC1_Vol_t)
#define IEDMODEL_LD1_MMDC1_Vol_subEna (&iedModel_LD1_MMDC1_Vol_subEna)
#define IEDMODEL_LD1_MMDC1_Vol_subMag (&iedModel_LD1_MMDC1_Vol_subMag)
#define IEDMODEL_LD1_MMDC1_Vol_subMag_f (&iedModel_LD1_MMDC1_Vol_subMag_f)
#define IEDMODEL_LD1_MMDC1_Vol_subQ (&iedModel_LD1_MMDC1_Vol_subQ)
#define IEDMODEL_LD1_MMDC1_Vol_subID (&iedModel_LD1_MMDC1_Vol_subID)
#define IEDMODEL_LD1_GGIO1 (&iedModel_LD1_GGIO1)
#define IEDMODEL_LD1_GGIO1_Beh (&iedModel_LD1_GGIO1_Beh)
#define IEDMODEL_LD1_GGIO1_Beh_stVal (&iedModel_LD1_GGIO1_Beh_stVal)
#define IEDMODEL_LD1_GGIO1_Beh_q (&iedModel_LD1_GGIO1_Beh_q)
#define IEDMODEL_LD1_GGIO1_Beh_t (&iedModel_LD1_GGIO1_Beh_t)
#define IEDMODEL_LD1_GGIO1_Ind1 (&iedModel_LD1_GGIO1_Ind1)
#define IEDMODEL_LD1_GGIO1_Ind1_stVal (&iedModel_LD1_GGIO1_Ind1_stVal)
#define IEDMODEL_LD1_GGIO1_Ind1_q (&iedModel_LD1_GGIO1_Ind1_q)
#define IEDMODEL_LD1_GGIO1_Ind1_t (&iedModel_LD1_GGIO1_Ind1_t)
#define IEDMODEL_LD1_GGIO1_Ind1_subEna (&iedModel_LD1_GGIO1_Ind1_subEna)
#define IEDMODEL_LD1_GGIO1_Ind1_subVal (&iedModel_LD1_GGIO1_Ind1_subVal)
#define IEDMODEL_LD1_GGIO1_Ind1_subQ (&iedModel_LD1_GGIO1_Ind1_subQ)
#define IEDMODEL_LD1_GGIO1_Ind1_subID (&iedModel_LD1_GGIO1_Ind1_subID)
#define IEDMODEL_LD1_GGIO1_AnIn1 (&iedModel_LD1_GGIO1_AnIn1)
#define IEDMODEL_LD1_GGIO1_AnIn1_mag (&iedModel_LD1_GGIO1_AnIn1_mag)
#define IEDMODEL_LD1_GGIO1_AnIn1_mag_f (&iedModel_LD1_GGIO1_AnIn1_mag_f)
#define IEDMODEL_LD1_GGIO1_AnIn1_q (&iedModel_LD1_GGIO1_AnIn1_q)
#define IEDMODEL_LD1_GGIO1_AnIn1_t (&iedModel_LD1_GGIO1_AnIn1_t)
#define IEDMODEL_LD1_GGIO1_AnIn1_subEna (&iedModel_LD1_GGIO1_AnIn1_subEna)
#define IEDMODEL_LD1_GGIO1_AnIn1_subMag (&iedModel_LD1_GGIO1_AnIn1_subMag)
#define IEDMODEL_LD1_GGIO1_AnIn1_subMag_f (&iedModel_LD1_GGIO1_AnIn1_subMag_f)
#define IEDMODEL_LD1_GGIO1_AnIn1_subQ (&iedModel_LD1_GGIO1_AnIn1_subQ)
#define IEDMODEL_LD1_GGIO1_AnIn1_subID (&iedModel_LD1_GGIO1_AnIn1_subID)
#endif /* STATIC_MODEL_H_ */

229
examples/server_example_substitution/substitution_example.icd
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<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<SCL xmlns="http://www.iec.ch/61850/2003/SCL" revision="A" version="2007">
<Header id="" nameStructure="IEDName" toolID="FUHUA Model Designer ICT">
<History>
<Hitem revision="" version="" when=""/>
</History>
</Header>
<Communication>
<SubNetwork name="W1">
<ConnectedAP apName="AP1" iedName="IED1">
<Address>
<P type="OSI-AP-Title">1 3 9999 33</P>
<P type="OSI-AE-Qualifier">33</P>
<P type="OSI-PSEL">00 00 00 01</P>
<P type="OSI-SSEL">00 01</P>
<P type="OSI-TSEL">00 01</P>
<P type="MMS-Port">102</P>
<P type="IP">192.168.62.248</P>
<P type="IP-SUBNET">255.255.255.0</P>
<P type="IP-GATEWAY">192.168.62.254</P>
</Address>
</ConnectedAP>
</SubNetwork>
</Communication>
<IED name="IED1">
<Services>
<DynAssociation/>
<SettingGroups>
<SGEdit/>
<ConfSG/>
</SettingGroups>
<GetDirectory/>
<GetDataObjectDefinition/>
<DataObjectDirectory/>
<GetDataSetValue/>
<SetDataSetValue/>
<DataSetDirectory/>
<ConfDataSet max="15" maxAttributes="60"/>
<DynDataSet max="15" maxAttributes="60"/>
<ReadWrite/>
<ConfReportControl max="10"/>
<GetCBValues/>
<ReportSettings bufTime="Dyn" cbName="Dyn" datSet="Dyn" intgPd="Dyn" optFields="Dyn" rptID="Dyn" trgOps="Dyn"/>
<GSESettings appID="Dyn" cbName="Dyn" datSet="Dyn" dataLabel="Dyn"/>
<GOOSE max="16"/>
<ConfLNs fixLnInst="true" fixPrefix="true"/>
</Services>
<AccessPoint name="AP1">
<Server>
<Authentication/>
<LDevice inst="LD1">
<LN0 inst="" lnClass="LLN0" lnType="LLN0">
<ReportControl bufTime="3000" buffered="false" confRev="1" datSet="" intgPd="5000" name="urcb" rptID="13e08c78">
<TrgOps dchg="true" dupd="true" period="false" qchg="true"/>
<OptFields bufOvfl="true" configRef="true" dataRef="true" dataSet="false" entryID="true" reasonCode="true" seqNum="true" timeStamp="true"/>
<RptEnabled max="2"/>
</ReportControl>
</LN0>
<LN inst="1" lnClass="LPHD" lnType="LPHD"/>
<LN inst="1" lnClass="MMDC" lnType="MMDC"/>
<LN inst="1" lnClass="GGIO" lnType="GGIO"/>
</LDevice>
</Server>
</AccessPoint>
</IED>
<DataTypeTemplates>
<LNodeType id="LPHD" lnClass="LPHD">
<DO name="PhyNam" type="DPL"/>
<DO name="PhyHealth" type="ENS"/>
<DO name="Proxy" type="SPS"/>
</LNodeType>
<LNodeType id="LLN0" lnClass="LLN0">
<DO name="Beh" type="ENS"/>
</LNodeType>
<LNodeType id="GGIO" lnClass="GGIO">
<DO name="Beh" type="ENS"/>
<DO name="Ind1" type="SPS"/>
<DO name="AnIn1" type="MV"/>
</LNodeType>
<LNodeType id="MMDC" lnClass="MMDC">
<DO name="Beh" type="ENS"/>
<DO name="Watt" type="MV"/>
<DO name="Amp" type="MV"/>
<DO name="Vol" type="MV"/>
</LNodeType>
<DOType cdc="DPL" id="DPL">
<DA bType="VisString255" fc="DC" name="vendor"/>
</DOType>
<DOType cdc="ENS" id="ENS">
<DA bType="Enum" fc="ST" name="stVal" type="tempEnum"/>
<DA bType="Quality" fc="ST" name="q"/>
<DA bType="Timestamp" fc="ST" name="t"/>
</DOType>
<DOType cdc="SPS" id="SPS">
<DA bType="BOOLEAN" dchg="true" fc="ST" name="stVal"/>
<DA bType="Quality" fc="ST" name="q" qchg="true"/>
<DA bType="Timestamp" fc="ST" name="t"/>
<DA bType="BOOLEAN" fc="SV" name="subEna"/>
<DA bType="BOOLEAN" fc="SV" name="subVal"/>
<DA bType="Quality" fc="SV" name="subQ"/>
<DA bType="VisString64" fc="SV" name="subID"/>
</DOType>
<DOType cdc="MV" id="MV">
<DA bType="Struct" dchg="true" dupd="false" fc="MX" name="mag" type="AnalogueValue"/>
<DA bType="Quality" fc="MX" name="q" qchg="true"/>
<DA bType="Timestamp" fc="MX" name="t"/>
<DA bType="BOOLEAN" fc="SV" name="subEna"/>
<DA bType="Struct" fc="SV" name="subMag" type="AnalogueValue"/>
<DA bType="Quality" fc="SV" name="subQ"/>
<DA bType="VisString64" fc="SV" name="subID"/>
</DOType>
<DAType id="AnalogueValue">
<BDA bType="FLOAT32" name="f"/>
</DAType>
<DAType id="Unit">
<BDA bType="Enum" name="SIUnit" type="SIUnit"/>
<BDA bType="Enum" name="multiplier" type="multiplier"/>
</DAType>
<DAType id="ScaledValueConfig">
<BDA bType="FLOAT32" name="scaleFactor"/>
<BDA bType="FLOAT32" name="offset"/>
</DAType>
<DAType id="RangeConfig">
<BDA bType="Struct" name="hhLim" type="AnalogueValue"/>
<BDA bType="Struct" name="hLim" type="AnalogueValue"/>
<BDA bType="Struct" name="lLim" type="AnalogueValue"/>
<BDA bType="Struct" name="llLim" type="AnalogueValue"/>
<BDA bType="Struct" name="min" type="AnalogueValue"/>
<BDA bType="Struct" name="max" type="AnalogueValue"/>
</DAType>
<EnumType id="tempEnum">
<EnumVal ord="0">e1</EnumVal>
<EnumVal ord="1">e2</EnumVal>
<EnumVal ord="2">e3</EnumVal>
<EnumVal ord="3">e4</EnumVal>
<EnumVal ord="4">e5</EnumVal>
</EnumType>
<EnumType id="range">
<EnumVal ord="0">normal</EnumVal>
<EnumVal ord="1">high</EnumVal>
<EnumVal ord="2">low</EnumVal>
<EnumVal ord="3">high-high</EnumVal>
<EnumVal ord="4">low-low</EnumVal>
</EnumType>
<EnumType id="SIUnit">
<EnumVal ord="1">none</EnumVal>
<EnumVal ord="2">m</EnumVal>
<EnumVal ord="3">kg</EnumVal>
<EnumVal ord="4">s</EnumVal>
<EnumVal ord="5">A</EnumVal>
<EnumVal ord="6">K</EnumVal>
<EnumVal ord="7">mol</EnumVal>
<EnumVal ord="8">cd</EnumVal>
<EnumVal ord="9">deg</EnumVal>
<EnumVal ord="10">rad</EnumVal>
<EnumVal ord="11">sr</EnumVal>
<EnumVal ord="21">Gy</EnumVal>
<EnumVal ord="22">q</EnumVal>
<EnumVal ord="23">°C</EnumVal>
<EnumVal ord="24">Sv</EnumVal>
<EnumVal ord="25">F</EnumVal>
<EnumVal ord="26">C</EnumVal>
<EnumVal ord="27">S</EnumVal>
<EnumVal ord="28">H</EnumVal>
<EnumVal ord="29">V</EnumVal>
<EnumVal ord="30">ohm</EnumVal>
<EnumVal ord="31">J</EnumVal>
<EnumVal ord="32">N</EnumVal>
<EnumVal ord="33">Hz</EnumVal>
<EnumVal ord="34">lx</EnumVal>
<EnumVal ord="35">Lm</EnumVal>
<EnumVal ord="36">Wb</EnumVal>
<EnumVal ord="37">T</EnumVal>
<EnumVal ord="38">W</EnumVal>
<EnumVal ord="39">Pa</EnumVal>
<EnumVal ord="41">m²</EnumVal>
<EnumVal ord="42">m³</EnumVal>
<EnumVal ord="43">m/s</EnumVal>
<EnumVal ord="44">m/s²</EnumVal>
<EnumVal ord="45">m³/s</EnumVal>
<EnumVal ord="46">m/m³</EnumVal>
<EnumVal ord="47">M</EnumVal>
<EnumVal ord="48">kg/m³</EnumVal>
<EnumVal ord="49">m²/s</EnumVal>
<EnumVal ord="50">W/m K</EnumVal>
<EnumVal ord="51">J/K</EnumVal>
<EnumVal ord="52">ppm</EnumVal>
<EnumVal ord="53">1/s</EnumVal>
<EnumVal ord="54">rad/s</EnumVal>
<EnumVal ord="61">VA</EnumVal>
<EnumVal ord="62">Watts</EnumVal>
<EnumVal ord="63">VAr</EnumVal>
<EnumVal ord="64">theta</EnumVal>
<EnumVal ord="65">cos(theta)</EnumVal>
<EnumVal ord="66">Vs</EnumVal>
<EnumVal ord="67">V²</EnumVal>
<EnumVal ord="68">As</EnumVal>
<EnumVal ord="69">A²</EnumVal>
<EnumVal ord="70">A²t</EnumVal>
<EnumVal ord="71">VAh</EnumVal>
<EnumVal ord="72">Wh</EnumVal>
<EnumVal ord="73">VArh</EnumVal>
<EnumVal ord="74">V/Hz</EnumVal>
</EnumType>
<EnumType id="multiplier">
<EnumVal ord="-24">Yocto</EnumVal>
<EnumVal ord="-21">Zepto</EnumVal>
<EnumVal ord="-18">Atto</EnumVal>
<EnumVal ord="-15">Femto</EnumVal>
<EnumVal ord="-12">Pico</EnumVal>
<EnumVal ord="-9">Nano</EnumVal>
<EnumVal ord="-6">Micro</EnumVal>
<EnumVal ord="-3">Milli</EnumVal>
<EnumVal ord="-2">Centi</EnumVal>
<EnumVal ord="-1">Deci</EnumVal>
<EnumVal ord="0">zeroNoValue</EnumVal>
<EnumVal ord="1">Deca</EnumVal>
<EnumVal ord="2">Hecto</EnumVal>
<EnumVal ord="3">Kilo</EnumVal>
<EnumVal ord="6">Mega</EnumVal>
<EnumVal ord="9">Giga</EnumVal>
<EnumVal ord="12">Tera</EnumVal>
<EnumVal ord="15">Petra</EnumVal>
<EnumVal ord="18">Exa</EnumVal>
<EnumVal ord="21">Zetta</EnumVal>
<EnumVal ord="24">Yotta</EnumVal>
</EnumType>
</DataTypeTemplates>
</SCL>
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