ext/open62541/examples/pubsub/tutorial_pubsub_publish.c - a71ch-crypto-support - Git at Google

 /* This work is licensed under a Creative Commons CCZero 1.0 Universal License.
  * See http://creativecommons.org/publicdomain/zero/1.0/ for more information. */

 /**
  * .. _pubsub-tutorial:
  *
  * Working with Publish/Subscribe
  * ------------------------------
  *
  * Work in progress: This Tutorial will be continuously extended during the next
  * PubSub batches. More details about the PubSub extension and corresponding
  * open62541 API are located here: :ref:`pubsub`.
  *
  * Publishing Fields
  * ^^^^^^^^^^^^^^^^^
  * The PubSub publish example demonstrate the simplest way to publish
  * informations from the information model over UDP multicast using the UADP
  * encoding.
  *
  * **Connection handling**
  *
  * PubSubConnections can be created and deleted on runtime. More details about
  * the system preconfiguration and connection can be found in
  * ``tutorial_pubsub_connection.c``.
  */

 #include <open62541/plugin/log_stdout.h>
 #include <open62541/plugin/pubsub_ethernet.h>
 #include <open62541/plugin/pubsub_udp.h>
 #include <open62541/server.h>
 #include <open62541/server_config_default.h>

 #include <signal.h>

 UA_NodeId connectionIdent, publishedDataSetIdent, writerGroupIdent;

 static void
 addPubSubConnection(UA_Server *server, UA_String *transportProfile,
                     UA_NetworkAddressUrlDataType *networkAddressUrl){
     /* Details about the connection configuration and handling are located
      * in the pubsub connection tutorial */
     UA_PubSubConnectionConfig connectionConfig;
     memset(&connectionConfig, 0, sizeof(connectionConfig));
     connectionConfig.name = UA_STRING("UADP Connection 1");
     connectionConfig.transportProfileUri = *transportProfile;
     connectionConfig.enabled = UA_TRUE;
     UA_Variant_setScalar(&connectionConfig.address, networkAddressUrl,
                          &UA_TYPES[UA_TYPES_NETWORKADDRESSURLDATATYPE]);
     /* Changed to static publisherId from random generation to identify
      * the publisher on Subscriber side */
     connectionConfig.publisherId.numeric = 2234;
     UA_Server_addPubSubConnection(server, &connectionConfig, &connectionIdent);
 }

 /**
  * **PublishedDataSet handling**
  *
  * The PublishedDataSet (PDS) and PubSubConnection are the toplevel entities and
  * can exist alone. The PDS contains the collection of the published fields. All
  * other PubSub elements are directly or indirectly linked with the PDS or
  * connection. */
 static void
 addPublishedDataSet(UA_Server *server) {
     /* The PublishedDataSetConfig contains all necessary public
     * informations for the creation of a new PublishedDataSet */
     UA_PublishedDataSetConfig publishedDataSetConfig;
     memset(&publishedDataSetConfig, 0, sizeof(UA_PublishedDataSetConfig));
     publishedDataSetConfig.publishedDataSetType = UA_PUBSUB_DATASET_PUBLISHEDITEMS;
     publishedDataSetConfig.name = UA_STRING("Demo PDS");
     /* Create new PublishedDataSet based on the PublishedDataSetConfig. */
     UA_Server_addPublishedDataSet(server, &publishedDataSetConfig, &publishedDataSetIdent);
 }

 /**
  * **DataSetField handling**
  *
  * The DataSetField (DSF) is part of the PDS and describes exactly one published
  * field. */
 static void
 addDataSetField(UA_Server *server) {
     /* Add a field to the previous created PublishedDataSet */
     UA_NodeId dataSetFieldIdent;
     UA_DataSetFieldConfig dataSetFieldConfig;
     memset(&dataSetFieldConfig, 0, sizeof(UA_DataSetFieldConfig));
     dataSetFieldConfig.dataSetFieldType = UA_PUBSUB_DATASETFIELD_VARIABLE;
     dataSetFieldConfig.field.variable.fieldNameAlias = UA_STRING("Server localtime");
     dataSetFieldConfig.field.variable.promotedField = UA_FALSE;
     dataSetFieldConfig.field.variable.publishParameters.publishedVariable =
     UA_NODEID_NUMERIC(0, UA_NS0ID_SERVER_SERVERSTATUS_CURRENTTIME);
     dataSetFieldConfig.field.variable.publishParameters.attributeId = UA_ATTRIBUTEID_VALUE;
     UA_Server_addDataSetField(server, publishedDataSetIdent,
                               &dataSetFieldConfig, &dataSetFieldIdent);
 }

 /**
  * **WriterGroup handling**
  *
  * The WriterGroup (WG) is part of the connection and contains the primary
  * configuration parameters for the message creation. */
 static void
 addWriterGroup(UA_Server *server) {
     /* Now we create a new WriterGroupConfig and add the group to the existing
      * PubSubConnection. */
     UA_WriterGroupConfig writerGroupConfig;
     memset(&writerGroupConfig, 0, sizeof(UA_WriterGroupConfig));
     writerGroupConfig.name = UA_STRING("Demo WriterGroup");
     writerGroupConfig.publishingInterval = 100;
     writerGroupConfig.enabled = UA_FALSE;
     writerGroupConfig.writerGroupId = 100;
     writerGroupConfig.encodingMimeType = UA_PUBSUB_ENCODING_UADP;
     writerGroupConfig.messageSettings.encoding             = UA_EXTENSIONOBJECT_DECODED;
     writerGroupConfig.messageSettings.content.decoded.type = &UA_TYPES[UA_TYPES_UADPWRITERGROUPMESSAGEDATATYPE];
     /* The configuration flags for the messages are encapsulated inside the
      * message- and transport settings extension objects. These extension
      * objects are defined by the standard. e.g.
      * UadpWriterGroupMessageDataType */
     UA_UadpWriterGroupMessageDataType *writerGroupMessage  = UA_UadpWriterGroupMessageDataType_new();
     /* Change message settings of writerGroup to send PublisherId,
      * WriterGroupId in GroupHeader and DataSetWriterId in PayloadHeader
      * of NetworkMessage */
     writerGroupMessage->networkMessageContentMask          = (UA_UadpNetworkMessageContentMask)(UA_UADPNETWORKMESSAGECONTENTMASK_PUBLISHERID |
                                                               (UA_UadpNetworkMessageContentMask)UA_UADPNETWORKMESSAGECONTENTMASK_GROUPHEADER |
                                                               (UA_UadpNetworkMessageContentMask)UA_UADPNETWORKMESSAGECONTENTMASK_WRITERGROUPID |
                                                               (UA_UadpNetworkMessageContentMask)UA_UADPNETWORKMESSAGECONTENTMASK_PAYLOADHEADER);
     writerGroupConfig.messageSettings.content.decoded.data = writerGroupMessage;
     UA_Server_addWriterGroup(server, connectionIdent, &writerGroupConfig, &writerGroupIdent);
     UA_UadpWriterGroupMessageDataType_delete(writerGroupMessage);
 }

 /**
  * **DataSetWriter handling**
  *
  * A DataSetWriter (DSW) is the glue between the WG and the PDS. The DSW is
  * linked to exactly one PDS and contains additional informations for the
  * message generation. */
 static void
 addDataSetWriter(UA_Server *server) {
     /* We need now a DataSetWriter within the WriterGroup. This means we must
      * create a new DataSetWriterConfig and add call the addWriterGroup function. */
     UA_NodeId dataSetWriterIdent;
     UA_DataSetWriterConfig dataSetWriterConfig;
     memset(&dataSetWriterConfig, 0, sizeof(UA_DataSetWriterConfig));
     dataSetWriterConfig.name = UA_STRING("Demo DataSetWriter");
     dataSetWriterConfig.dataSetWriterId = 62541;
     dataSetWriterConfig.keyFrameCount = 10;
     UA_Server_addDataSetWriter(server, writerGroupIdent, publishedDataSetIdent,
                                &dataSetWriterConfig, &dataSetWriterIdent);
 }

 /**
  * That's it! You're now publishing the selected fields. Open a packet
  * inspection tool of trust e.g. wireshark and take a look on the outgoing
  * packages. The following graphic figures out the packages created by this
  * tutorial.
  *
  * .. figure:: ua-wireshark-pubsub.png
  *     :figwidth: 100 %
  *     :alt: OPC UA PubSub communication in wireshark
  *
  * The open62541 subscriber API will be released later. If you want to process
  * the the datagrams, take a look on the ua_network_pubsub_networkmessage.c
  * which already contains the decoding code for UADP messages.
  *
  * It follows the main server code, making use of the above definitions. */
 UA_Boolean running = true;
 static void stopHandler(int sign) {
     UA_LOG_INFO(UA_Log_Stdout, UA_LOGCATEGORY_SERVER, "received ctrl-c");
     running = false;
 }

 static int run(UA_String *transportProfile,
                UA_NetworkAddressUrlDataType *networkAddressUrl) {
     signal(SIGINT, stopHandler);
     signal(SIGTERM, stopHandler);

     UA_Server *server = UA_Server_new();
     UA_ServerConfig *config = UA_Server_getConfig(server);
     UA_ServerConfig_setDefault(config);

     /* Details about the connection configuration and handling are located in
      * the pubsub connection tutorial */
     config->pubsubTransportLayers =
         (UA_PubSubTransportLayer *) UA_calloc(2, sizeof(UA_PubSubTransportLayer));
     if(!config->pubsubTransportLayers) {
         UA_Server_delete(server);
         return EXIT_FAILURE;
     }
     config->pubsubTransportLayers[0] = UA_PubSubTransportLayerUDPMP();
     config->pubsubTransportLayersSize++;
 #ifdef UA_ENABLE_PUBSUB_ETH_UADP
     config->pubsubTransportLayers[1] = UA_PubSubTransportLayerEthernet();
     config->pubsubTransportLayersSize++;
 #endif

     addPubSubConnection(server, transportProfile, networkAddressUrl);
     addPublishedDataSet(server);
     addDataSetField(server);
     addWriterGroup(server);
     addDataSetWriter(server);

     UA_StatusCode retval = UA_Server_run(server, &running);

     UA_Server_delete(server);
     return retval == UA_STATUSCODE_GOOD ? EXIT_SUCCESS : EXIT_FAILURE;
 }

 static void
 usage(char *progname) {
     printf("usage: %s <uri> [device]\n", progname);
 }

 int main(int argc, char **argv) {
     UA_String transportProfile =
         UA_STRING("http://opcfoundation.org/UA-Profile/Transport/pubsub-udp-uadp");
     UA_NetworkAddressUrlDataType networkAddressUrl =
         {UA_STRING_NULL , UA_STRING("opc.udp://224.0.0.22:4840/")};

     if (argc > 1) {
         if (strcmp(argv[1], "-h") == 0) {
             usage(argv[0]);
             return EXIT_SUCCESS;
         } else if (strncmp(argv[1], "opc.udp://", 10) == 0) {
             networkAddressUrl.url = UA_STRING(argv[1]);
         } else if (strncmp(argv[1], "opc.eth://", 10) == 0) {
             transportProfile =
                 UA_STRING("http://opcfoundation.org/UA-Profile/Transport/pubsub-eth-uadp");
             if (argc < 3) {
                 printf("Error: UADP/ETH needs an interface name\n");
                 return EXIT_FAILURE;
             }
             networkAddressUrl.networkInterface = UA_STRING(argv[2]);
             networkAddressUrl.url = UA_STRING(argv[1]);
         } else {
             printf("Error: unknown URI\n");
             return EXIT_FAILURE;
         }
     }

     return run(&transportProfile, &networkAddressUrl);
 }
	/* This work is licensed under a Creative Commons CCZero 1.0 Universal License.
	* See http://creativecommons.org/publicdomain/zero/1.0/ for more information. */

	/**
	* .. _pubsub-tutorial:
	*
	* Working with Publish/Subscribe
	* ------------------------------
	*
	* Work in progress: This Tutorial will be continuously extended during the next
	* PubSub batches. More details about the PubSub extension and corresponding
	* open62541 API are located here: :ref:`pubsub`.
	*
	* Publishing Fields
	* ^^^^^^^^^^^^^^^^^
	* The PubSub publish example demonstrate the simplest way to publish
	* informations from the information model over UDP multicast using the UADP
	* encoding.
	*
	* Connection handling
	*
	* PubSubConnections can be created and deleted on runtime. More details about
	* the system preconfiguration and connection can be found in
	* ``tutorial_pubsub_connection.c``.
	*/

	#include <open62541/plugin/log_stdout.h>
	#include <open62541/plugin/pubsub_ethernet.h>
	#include <open62541/plugin/pubsub_udp.h>
	#include <open62541/server.h>
	#include <open62541/server_config_default.h>

	#include <signal.h>

	UA_NodeId connectionIdent, publishedDataSetIdent, writerGroupIdent;

	static void
	addPubSubConnection(UA_Server server, UA_String transportProfile,
	UA_NetworkAddressUrlDataType *networkAddressUrl){
	/* Details about the connection configuration and handling are located
	* in the pubsub connection tutorial */
	UA_PubSubConnectionConfig connectionConfig;
	memset(&connectionConfig, 0, sizeof(connectionConfig));
	connectionConfig.name = UA_STRING("UADP Connection 1");
	connectionConfig.transportProfileUri = *transportProfile;
	connectionConfig.enabled = UA_TRUE;
	UA_Variant_setScalar(&connectionConfig.address, networkAddressUrl,
	&UA_TYPES[UA_TYPES_NETWORKADDRESSURLDATATYPE]);
	/* Changed to static publisherId from random generation to identify
	* the publisher on Subscriber side */
	connectionConfig.publisherId.numeric = 2234;
	UA_Server_addPubSubConnection(server, &connectionConfig, &connectionIdent);
	}

	/**
	* PublishedDataSet handling
	*
	* The PublishedDataSet (PDS) and PubSubConnection are the toplevel entities and
	* can exist alone. The PDS contains the collection of the published fields. All
	* other PubSub elements are directly or indirectly linked with the PDS or
	* connection. */
	static void
	addPublishedDataSet(UA_Server *server) {
	/* The PublishedDataSetConfig contains all necessary public
	* informations for the creation of a new PublishedDataSet */
	UA_PublishedDataSetConfig publishedDataSetConfig;
	memset(&publishedDataSetConfig, 0, sizeof(UA_PublishedDataSetConfig));
	publishedDataSetConfig.publishedDataSetType = UA_PUBSUB_DATASET_PUBLISHEDITEMS;
	publishedDataSetConfig.name = UA_STRING("Demo PDS");
	/* Create new PublishedDataSet based on the PublishedDataSetConfig. */
	UA_Server_addPublishedDataSet(server, &publishedDataSetConfig, &publishedDataSetIdent);
	}

	/**
	* DataSetField handling
	*
	* The DataSetField (DSF) is part of the PDS and describes exactly one published
	* field. */
	static void
	addDataSetField(UA_Server *server) {
	/* Add a field to the previous created PublishedDataSet */
	UA_NodeId dataSetFieldIdent;
	UA_DataSetFieldConfig dataSetFieldConfig;
	memset(&dataSetFieldConfig, 0, sizeof(UA_DataSetFieldConfig));
	dataSetFieldConfig.dataSetFieldType = UA_PUBSUB_DATASETFIELD_VARIABLE;
	dataSetFieldConfig.field.variable.fieldNameAlias = UA_STRING("Server localtime");
	dataSetFieldConfig.field.variable.promotedField = UA_FALSE;
	dataSetFieldConfig.field.variable.publishParameters.publishedVariable =
	UA_NODEID_NUMERIC(0, UA_NS0ID_SERVER_SERVERSTATUS_CURRENTTIME);
	dataSetFieldConfig.field.variable.publishParameters.attributeId = UA_ATTRIBUTEID_VALUE;
	UA_Server_addDataSetField(server, publishedDataSetIdent,
	&dataSetFieldConfig, &dataSetFieldIdent);
	}

	/**
	* WriterGroup handling
	*
	* The WriterGroup (WG) is part of the connection and contains the primary
	* configuration parameters for the message creation. */
	static void
	addWriterGroup(UA_Server *server) {
	/* Now we create a new WriterGroupConfig and add the group to the existing
	* PubSubConnection. */
	UA_WriterGroupConfig writerGroupConfig;
	memset(&writerGroupConfig, 0, sizeof(UA_WriterGroupConfig));
	writerGroupConfig.name = UA_STRING("Demo WriterGroup");
	writerGroupConfig.publishingInterval = 100;
	writerGroupConfig.enabled = UA_FALSE;
	writerGroupConfig.writerGroupId = 100;
	writerGroupConfig.encodingMimeType = UA_PUBSUB_ENCODING_UADP;
	writerGroupConfig.messageSettings.encoding = UA_EXTENSIONOBJECT_DECODED;
	writerGroupConfig.messageSettings.content.decoded.type = &UA_TYPES[UA_TYPES_UADPWRITERGROUPMESSAGEDATATYPE];
	/* The configuration flags for the messages are encapsulated inside the
	* message- and transport settings extension objects. These extension
	* objects are defined by the standard. e.g.
	* UadpWriterGroupMessageDataType */
	UA_UadpWriterGroupMessageDataType *writerGroupMessage = UA_UadpWriterGroupMessageDataType_new();
	/* Change message settings of writerGroup to send PublisherId,
	* WriterGroupId in GroupHeader and DataSetWriterId in PayloadHeader
	* of NetworkMessage */
	writerGroupMessage->networkMessageContentMask = (UA_UadpNetworkMessageContentMask)(UA_UADPNETWORKMESSAGECONTENTMASK_PUBLISHERID \|
	(UA_UadpNetworkMessageContentMask)UA_UADPNETWORKMESSAGECONTENTMASK_GROUPHEADER \|
	(UA_UadpNetworkMessageContentMask)UA_UADPNETWORKMESSAGECONTENTMASK_WRITERGROUPID \|
	(UA_UadpNetworkMessageContentMask)UA_UADPNETWORKMESSAGECONTENTMASK_PAYLOADHEADER);
	writerGroupConfig.messageSettings.content.decoded.data = writerGroupMessage;
	UA_Server_addWriterGroup(server, connectionIdent, &writerGroupConfig, &writerGroupIdent);
	UA_UadpWriterGroupMessageDataType_delete(writerGroupMessage);
	}

	/**
	* DataSetWriter handling
	*
	* A DataSetWriter (DSW) is the glue between the WG and the PDS. The DSW is
	* linked to exactly one PDS and contains additional informations for the
	* message generation. */
	static void
	addDataSetWriter(UA_Server *server) {
	/* We need now a DataSetWriter within the WriterGroup. This means we must
	* create a new DataSetWriterConfig and add call the addWriterGroup function. */
	UA_NodeId dataSetWriterIdent;
	UA_DataSetWriterConfig dataSetWriterConfig;
	memset(&dataSetWriterConfig, 0, sizeof(UA_DataSetWriterConfig));
	dataSetWriterConfig.name = UA_STRING("Demo DataSetWriter");
	dataSetWriterConfig.dataSetWriterId = 62541;
	dataSetWriterConfig.keyFrameCount = 10;
	UA_Server_addDataSetWriter(server, writerGroupIdent, publishedDataSetIdent,
	&dataSetWriterConfig, &dataSetWriterIdent);
	}

	/**
	* That's it! You're now publishing the selected fields. Open a packet
	* inspection tool of trust e.g. wireshark and take a look on the outgoing
	* packages. The following graphic figures out the packages created by this
	* tutorial.
	*
	* .. figure:: ua-wireshark-pubsub.png
	* :figwidth: 100 %
	* :alt: OPC UA PubSub communication in wireshark
	*
	* The open62541 subscriber API will be released later. If you want to process
	* the the datagrams, take a look on the ua_network_pubsub_networkmessage.c
	* which already contains the decoding code for UADP messages.
	*
	* It follows the main server code, making use of the above definitions. */
	UA_Boolean running = true;
	static void stopHandler(int sign) {
	UA_LOG_INFO(UA_Log_Stdout, UA_LOGCATEGORY_SERVER, "received ctrl-c");
	running = false;
	}

	static int run(UA_String *transportProfile,
	UA_NetworkAddressUrlDataType *networkAddressUrl) {
	signal(SIGINT, stopHandler);
	signal(SIGTERM, stopHandler);

	UA_Server *server = UA_Server_new();
	UA_ServerConfig *config = UA_Server_getConfig(server);
	UA_ServerConfig_setDefault(config);

	/* Details about the connection configuration and handling are located in
	* the pubsub connection tutorial */
	config->pubsubTransportLayers =
	(UA_PubSubTransportLayer *) UA_calloc(2, sizeof(UA_PubSubTransportLayer));
	if(!config->pubsubTransportLayers) {
	UA_Server_delete(server);
	return EXIT_FAILURE;
	}
	config->pubsubTransportLayers[0] = UA_PubSubTransportLayerUDPMP();
	config->pubsubTransportLayersSize++;
	#ifdef UA_ENABLE_PUBSUB_ETH_UADP
	config->pubsubTransportLayers[1] = UA_PubSubTransportLayerEthernet();
	config->pubsubTransportLayersSize++;
	#endif

	addPubSubConnection(server, transportProfile, networkAddressUrl);
	addPublishedDataSet(server);
	addDataSetField(server);
	addWriterGroup(server);
	addDataSetWriter(server);

	UA_StatusCode retval = UA_Server_run(server, &running);

	UA_Server_delete(server);
	return retval == UA_STATUSCODE_GOOD ? EXIT_SUCCESS : EXIT_FAILURE;
	}

	static void
	usage(char *progname) {
	printf("usage: %s <uri> [device]\n", progname);
	}

	int main(int argc, char **argv) {
	UA_String transportProfile =
	UA_STRING("http://opcfoundation.org/UA-Profile/Transport/pubsub-udp-uadp");
	UA_NetworkAddressUrlDataType networkAddressUrl =
	{UA_STRING_NULL , UA_STRING("opc.udp://224.0.0.22:4840/")};

	if (argc > 1) {
	if (strcmp(argv[1], "-h") == 0) {
	usage(argv[0]);
	return EXIT_SUCCESS;
	} else if (strncmp(argv[1], "opc.udp://", 10) == 0) {
	networkAddressUrl.url = UA_STRING(argv[1]);
	} else if (strncmp(argv[1], "opc.eth://", 10) == 0) {
	transportProfile =
	UA_STRING("http://opcfoundation.org/UA-Profile/Transport/pubsub-eth-uadp");
	if (argc < 3) {
	printf("Error: UADP/ETH needs an interface name\n");
	return EXIT_FAILURE;
	}
	networkAddressUrl.networkInterface = UA_STRING(argv[2]);
	networkAddressUrl.url = UA_STRING(argv[1]);
	} else {
	printf("Error: unknown URI\n");
	return EXIT_FAILURE;
	}
	}

	return run(&transportProfile, &networkAddressUrl);
	}