onvif开发之设备发现功能的实现

        忙了一个多月,onvif总算告一段落了。这几个星期忙着其他的项目,也没有好好整理一下onvif的东西。接下来得好好整理一下自己的项目思路和项目经验,同时将自己的一些心得写出来,希望对人有所帮助。

        相信大多数兄弟和我一样,onvif开发,最开始做的就是发现功能。这两天登录onvif的官网看才发现,onvif版本在八月份有更新,已经更新到V2.4了,于是下载最新的版本来进行。代码的生成可以详见我的前一篇文章。V2.4版本新增了一个wsdl文件,现在用于生成源码的文件一共有18。为了保证全功能,最好一次性生成包含所有功能的源码。然后根据最新生成的源码来实现onvif客户端和服务端的发现功能。

1. 创建onvif_test目录。以下这些源码由最新的gsoap2.8.16)和最新的onvifwsdl文件(2.4)生成。(截止2013.09.16

onvif.h

soapClientLib.c

soapServerLib.c

soapC.c

soapClient.c

soapH.h

soapServer.c

soapStub.h

2.以下文件来自gsoap_2.8.16\gsoap-2.8\gsoap

stdsoap2.c

stdsoap2.h

3.以下文件来自gsoap_2.8.16\gsoap-2.8\gsoap\custom

duration.c

4.生成的soapClientLib.csoapServerLib.c无实际作用,可直接删除。

5.增加自定义文件

onvif_server.c   onvif服务端实现代码

onvif_client.c   onvif客户端实现代码

onvif_server_interface.c   onvif服务端接口实现

onvif_function.c  onvif实现函数,公用

onvif_function.h  onvif实现函数,公用

onvif_server.c为服务端的实现代码,主要是定义main函数,服务端主要是监听,并处理和应答消息。

Main函数定义如下:

int main(int argc,char ** argv)
{
	printf("[%s][%d][%s][%s] start \n", __FILE__, __LINE__, __TIME__, __func__);

	int count = 0;
	struct soap ServerSoap;
	struct ip_mreq mcast;
	
	soap_init1(&ServerSoap, SOAP_IO_UDP | SOAP_XML_IGNORENS);
	soap_set_namespaces(&ServerSoap,  namespaces);
	
	printf("[%s][%d][%s][%s] ServerSoap.version = %d \n", __FILE__, __LINE__, __TIME__, __func__, ServerSoap.version);
	
	if(!soap_valid_socket(soap_bind(&ServerSoap, NULL, ONVIF_LISTEN_PORT, 10)))
	{
		soap_print_fault(&ServerSoap, stderr);
		exit(1);
	}
	
	mcast.imr_multiaddr.s_addr = inet_addr("239.255.255.250");
	mcast.imr_interface.s_addr = htonl(INADDR_ANY);

	if(setsockopt(ServerSoap.master, IPPROTO_IP, IP_ADD_MEMBERSHIP, (char*)&mcast, sizeof(mcast)) < 0)
	{
	    	printf("setsockopt error! error code = %d,err string = %s\n",errno,strerror(errno));
		return 0;
	}

	for(;;)
	{
		if(soap_serve(&ServerSoap))
		{
			soap_print_fault(&ServerSoap, stderr);
		}

		soap_destroy(&ServerSoap);
		soap_end(&ServerSoap);

		//客户端的IP地址
		printf("RECEIVE count %d, connection from IP = %lu.%lu.%lu.%lu socket = %d \r\n", count, ((ServerSoap.ip)>>24)&0xFF, ((ServerSoap.ip)>>16)&0xFF, ((ServerSoap.ip)>>8)&0xFF,(ServerSoap.ip)&0xFF, (ServerSoap.socket));
		count++;
	}

	//分离运行时的环境
	soap_done(&ServerSoap);

	return 0;
}

onvif_server_interface.c   此文件用来定义所有服务端需要填充的接口。这里我们填充__wsdd__Probe接口即可,其他赞不支持的接口可以用宏统一处理。

__wsdd__Probe的填充如下:

SOAP_FMAC5 int SOAP_FMAC6  __wsdd__Probe(struct soap* soap, struct wsdd__ProbeType *wsdd__Probe)
{

	#define MACH_ADDR_LENGTH 6
	#define INFO_LENGTH 512
	#define LARGE_INFO_LENGTH 1024
	#define SMALL_INFO_LENGTH 512
	
	printf("[%d] __wsdd__Probe start !\n", __LINE__);
	
	unsigned char macaddr[6] = {0};
	char _IPAddr[INFO_LENGTH] = {0};
	char _HwId[1024] = {0};
	
	wsdd__ProbeMatchesType ProbeMatches;
	ProbeMatches.ProbeMatch = (struct wsdd__ProbeMatchType *)soap_malloc(soap, sizeof(struct wsdd__ProbeMatchType));
	ProbeMatches.ProbeMatch->XAddrs = (char *)soap_malloc(soap, sizeof(char) * INFO_LENGTH);
	ProbeMatches.ProbeMatch->Types = (char *)soap_malloc(soap, sizeof(char) * INFO_LENGTH);
	ProbeMatches.ProbeMatch->Scopes = (struct wsdd__ScopesType*)soap_malloc(soap,sizeof(struct wsdd__ScopesType));
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ReferenceProperties = (struct wsa__ReferencePropertiesType*)soap_malloc(soap,sizeof(struct wsa__ReferencePropertiesType));
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ReferenceParameters = (struct wsa__ReferenceParametersType*)soap_malloc(soap,sizeof(struct wsa__ReferenceParametersType));
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ServiceName = (struct wsa__ServiceNameType*)soap_malloc(soap,sizeof(struct wsa__ServiceNameType));
	ProbeMatches.ProbeMatch->wsa__EndpointReference.PortType = (char **)soap_malloc(soap, sizeof(char *) * SMALL_INFO_LENGTH);
	ProbeMatches.ProbeMatch->wsa__EndpointReference.__any = (char **)soap_malloc(soap, sizeof(char*) * SMALL_INFO_LENGTH);
	ProbeMatches.ProbeMatch->wsa__EndpointReference.__anyAttribute = (char *)soap_malloc(soap, sizeof(char) * SMALL_INFO_LENGTH);
	ProbeMatches.ProbeMatch->wsa__EndpointReference.Address = (char *)soap_malloc(soap, sizeof(char) * INFO_LENGTH);

	netGetMac("eth4", macaddr); //eth0  根据实际情况填充
	macaddr[0]=0x01;macaddr[1]=0x01;macaddr[2]=0x01;macaddr[3]=0x01;macaddr[4]=0x01;macaddr[5]=0x01;
	sprintf(_HwId,"urn:uuid:2419d68a-2dd2-21b2-a205-%02X%02X%02X%02X%02X%02X",macaddr[0], macaddr[1], macaddr[2], macaddr[3], macaddr[4], macaddr[5]);


	unsigned int localIp = 0;
	netGetIp("eth4", &localIp); //eth0 根据实际情况填充
	sprintf(_IPAddr, "http://%s/onvif/device_service", inet_ntoa(*((struct in_addr *)&localIp)));
	printf("[%d] _IPAddr ==== %s\n", __LINE__, _IPAddr);
	
	ProbeMatches.__sizeProbeMatch = 1;
	ProbeMatches.ProbeMatch->Scopes->__item =(char *)soap_malloc(soap, 1024);
	memset(ProbeMatches.ProbeMatch->Scopes->__item,0,sizeof(ProbeMatches.ProbeMatch->Scopes->__item));	

	//Scopes MUST BE
	strcat(ProbeMatches.ProbeMatch->Scopes->__item, "onvif://www.onvif.org/type/NetworkVideoTransmitter");

	ProbeMatches.ProbeMatch->Scopes->MatchBy = NULL;
	strcpy(ProbeMatches.ProbeMatch->XAddrs, _IPAddr);
	strcpy(ProbeMatches.ProbeMatch->Types, wsdd__Probe->Types);
	printf("wsdd__Probe->Types=%s\n",wsdd__Probe->Types);
	ProbeMatches.ProbeMatch->MetadataVersion = 1;
	
	//ws-discovery规定 为可选项
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ReferenceProperties->__size = 0;
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ReferenceProperties->__any = NULL;
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ReferenceParameters->__size = 0;
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ReferenceParameters->__any = NULL;
	
	ProbeMatches.ProbeMatch->wsa__EndpointReference.PortType[0] = (char *)soap_malloc(soap, sizeof(char) * SMALL_INFO_LENGTH);
	//ws-discovery规定 为可选项
	strcpy(ProbeMatches.ProbeMatch->wsa__EndpointReference.PortType[0], "ttl");
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ServiceName->__item = NULL;
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ServiceName->PortName = NULL;
	ProbeMatches.ProbeMatch->wsa__EndpointReference.ServiceName->__anyAttribute = NULL;
	ProbeMatches.ProbeMatch->wsa__EndpointReference.__any[0] = (char *)soap_malloc(soap, sizeof(char) * SMALL_INFO_LENGTH);
	strcpy(ProbeMatches.ProbeMatch->wsa__EndpointReference.__any[0], "Any");
	strcpy(ProbeMatches.ProbeMatch->wsa__EndpointReference.__anyAttribute, "Attribute");
	ProbeMatches.ProbeMatch->wsa__EndpointReference.__size = 0;
	strcpy(ProbeMatches.ProbeMatch->wsa__EndpointReference.Address, _HwId);
	
	soap->header->wsa__To = "http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous";
	soap->header->wsa__Action = "http://schemas.xmlsoap.org/ws/2005/04/discovery/ProbeMatches";
	soap->header->wsa__RelatesTo = (struct wsa__Relationship*)soap_malloc(soap, sizeof(struct wsa__Relationship));
	soap->header->wsa__RelatesTo->__item = soap->header->wsa__MessageID;
	soap->header->wsa__RelatesTo->RelationshipType = NULL;
	soap->header->wsa__RelatesTo->__anyAttribute = NULL;

	soap->header->wsa__MessageID =(char *)soap_malloc(soap, sizeof(char) * INFO_LENGTH);
	strcpy(soap->header->wsa__MessageID,_HwId+4);

    	if (SOAP_OK == soap_send___wsdd__ProbeMatches(soap, "http://", NULL, &ProbeMatches))
    	{
		printf("send ProbeMatches success !\n");
		return SOAP_OK;
	}

	printf("[%d] soap error: %d, %s, %s\n", __LINE__, soap->error, *soap_faultcode(soap), *soap_faultstring(soap));  
	
	return soap->error;;

}

onvif_client.c   onvif客户端实现代码,主要是定义客户端的main函数:

Main定义如下:

int main()  
{  
	printf("[%s][%d][%s][%s] start \n", __FILE__, __LINE__, __TIME__, __func__);

	int result = 0;  
	wsdd__ProbeType req;
	struct __wsdd__ProbeMatches resp;
	wsdd__ScopesType sScope;
	struct SOAP_ENV__Header header;  
	
	struct soap *soap;  
	soap = soap_new();  
	if(NULL == soap )  
	{  
		printf("sopa new error\r\n");  
		return -1;  
	}  

	soap->recv_timeout = 10;  
	soap_set_namespaces(soap, namespaces);  
	soap_default_SOAP_ENV__Header(soap, &header);  

	uuid_t uuid;
	char guid_string[100];
	uuid_generate(uuid);
	uuid_unparse(uuid, guid_string);

	header.wsa__MessageID = guid_string; 
	header.wsa__To = "urn:schemas-xmlsoap-org:ws:2005:04:discovery";  
	header.wsa__Action = "http://schemas.xmlsoap.org/ws/2005/04/discovery/Probe";  
	soap->header = &header;  
	
	soap_default_wsdd__ScopesType(soap, &sScope);  
	sScope.__item = "";  
	soap_default_wsdd__ProbeType(soap, &req);  
	req.Scopes = &sScope;  
	req.Types = ""; //"dn:NetworkVideoTransmitter";  

	int i = 0;  	
       result = soap_send___wsdd__Probe(soap, MULTICAST_ADDRESS, NULL, &req);  
       while(result == SOAP_OK)  
       {  
		result = soap_recv___wsdd__ProbeMatches(soap, &resp);  
		if(result == SOAP_OK)  
		{  
			if(soap->error)  
			{  
				printf("soap error 1: %d, %s, %s\n", soap->error, *soap_faultcode(soap), *soap_faultstring(soap));  
				result = soap->error;  
			}  
			else  
			{  
				printf("guog *********************************************\r\n");  
				if(soap->header->wsa__MessageID)  
				{  
					printf("MessageID   : %s\r\n", soap->header->wsa__MessageID);  
				}  
				if(soap->header->wsa__RelatesTo && soap->header->wsa__RelatesTo->__item)  
				{  
					printf("RelatesTo   : %s\r\n", soap->header->wsa__RelatesTo->__item);  
				}  
				if(soap->header->wsa__To)  
				{  
					printf("To          : %s\r\n", soap->header->wsa__To);  
				}  
				if(soap->header->wsa__Action)  
				{  
					printf("Action      : %s\r\n", soap->header->wsa__Action);  
				}  

				for(i = 0; i < resp.wsdd__ProbeMatches->__sizeProbeMatch; i++)  
				{  
					printf("__sizeProbeMatch        : %d\r\n", resp.wsdd__ProbeMatches->__sizeProbeMatch);  
					printf("wsa__EndpointReference       : %p\r\n", resp.wsdd__ProbeMatches->ProbeMatch->wsa__EndpointReference);  
					printf("Target EP Address       : %s\r\n", resp.wsdd__ProbeMatches->ProbeMatch->wsa__EndpointReference.Address);  
					printf("Target Type             : %s\r\n", resp.wsdd__ProbeMatches->ProbeMatch->Types);  
					printf("Target Service Address  : %s\r\n", resp.wsdd__ProbeMatches->ProbeMatch->XAddrs);  
					printf("Target Metadata Version : %d\r\n", resp.wsdd__ProbeMatches->ProbeMatch->MetadataVersion);  
					if(resp.wsdd__ProbeMatches->ProbeMatch->Scopes)  
					{  
						printf("Target Scopes Address   : %s\r\n", resp.wsdd__ProbeMatches->ProbeMatch->Scopes->__item);  
					}  
				}
			}  
		}  
		else if (soap->error)  
		{  
			printf("[%d] soap error 2: %d, %s, %s\n", __LINE__, soap->error, *soap_faultcode(soap), *soap_faultstring(soap));  
			result = soap->error;  
		}  
       }  

	soap_destroy(soap); 
	soap_end(soap); 
	soap_free(soap);

	printf("[%d] guog discover over !\n", __LINE__);
	
	return result;  
}  

6.wsdd.nsmap改为nsmap.h,并删除其余的*.nsmap(都一样)

7.编写makefile文件。注意在makefile中打开开关DEBUG,以便跟踪日志。

8.tcpdumpgcc环境的抓包工具,调试的时候用。

make编译通过,运行,客户端发现功能ok

    但是服务端的发现功能却不行;别急,这是由于SOAP的版本问题;soap的版本是根据命名空间来自动确定的;在soap结构体的version字段表示soap版本;

以下命名空间表示SOAP1.1版本:

{"SOAP-ENV", "http://schemas.xmlsoap.org/soap/envelope/", "http://www.w3.org/*/soap-envelope", NULL},

{"SOAP-ENC", "http://schemas.xmlsoap.org/soap/encoding/", "http://www.w3.org/*/soap-encoding", NULL}, //1.1

以下命名空间表示SOAP1.2版本:

{"SOAP-ENV", "http://www.w3.org/2003/05/soap-envelope", "http://schemas.xmlsoap.org/soap/envelope/", NULL},

{"SOAP-ENC", "http://www.w3.org/2003/05/soap-encoding", "http://schemas.xmlsoap.org/soap/encoding/", NULL},  //1.2

    注意确定自己当前的命名空间。我们用SOAP1.2版本才能被测试工具发现(ONVIF Device Test Tool version 13.06)

不清楚可以查看soap_set_namespaces接口和soap_set_local_namespaces接口;

于是将nsmap.h中的命名空间前两行改为:

{"SOAP-ENV", "http://www.w3.org/2003/05/soap-envelope", "http://schemas.xmlsoap.org/soap/envelope/", NULL},

{"SOAP-ENC", "http://www.w3.org/2003/05/soap-encoding", "http://schemas.xmlsoap.org/soap/encoding/", NULL},  //1.2

再编译运行,发现功能ok

 

 

最后,将所用的工具和源码提供给大家,大家根据需要下载。


onvif测试工具V13.06:http://download.csdn.net/detail/u011597695/6288593


gsoap 2.8.16版本: http://download.csdn.net/detail/u011597695/6288615


onvif v2.4版本的wsdl文件:http://download.csdn.net/detail/u011597695/6288627


onvif v2.4版本的wsdl文件(适于离线生成源码):http://download.csdn.net/detail/u011597695/6288647


onvif源代码V2.4:http://download.csdn.net/detail/u011597695/6288663


 

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