Linux下onvif客户端获取ipc摄像头 GetStreamUri:rtsp地址(h264、h265)
GetStreamUri:rtsp地址
鉴权:但是在使用这个接口之前是需要鉴权的。ONVIF协议规定,部分接口需要鉴权,部分接口不需要鉴权,在调用需要鉴权的接口时不使用鉴权,会导致接口调用失败。实现鉴权的方式之一可以调用gSOAP源码中的 soap_wsse_add_UsernameTokenDigest()函数。要安装依赖库OpenSSL
实现代码:
#include <stdio.h> #include <stdlib.h> #include <string.h> #include <assert.h> #include "soapH.h" #include "stdsoap2.h" #include "soapStub.h" #include "wsseapi.h" #include "wsdd.nsmap" //命名空间 static struct soap* ONVIF_Initsoap(struct SOAP_ENV__Header *header, const char *was_To, const char *was_Action, int timeout) { struct soap *soap = NULL; // soap环境变量 unsigned char macaddr[6]; char _HwId[1024]; unsigned int Flagrand; soap = soap_new(); if(soap == NULL) { printf("[%d]soap = NULL\n", __LINE__); return NULL; } soap_set_namespaces(soap, namespaces); // 设置soap的namespaces,即设置命名空间 // 设置超时(超过指定时间没有数据就退出) if(timeout > 0) { soap->recv_timeout = timeout; soap->send_timeout = timeout; soap->connect_timeout = timeout; } else { //Maximum waittime : 20s soap->recv_timeout = 20; soap->send_timeout = 20; soap->connect_timeout = 20; } soap_default_SOAP_ENV__Header(soap, header); //Create SessionID randomly,生成uuid(windows下叫guid,linux下叫uuid),格式为urn:uuid:8-4-4-4-12,由系统随机产生 srand((int)time(0)); Flagrand = rand()%9000 + 8888; macaddr[0] = 0x1; macaddr[1] = 0x2; macaddr[2] = 0x3; macaddr[3] = 0x4; macaddr[4] = 0x5; macaddr[5] = 0x6; sprintf(_HwId, "urn:uuid:%ud68a-1dd2-11b2-a105-%02X%02X%02X%02X%02X%02X", Flagrand, macaddr[0], macaddr[1], macaddr[2],macaddr[3],macaddr[4],macaddr[5]); header->wsa__MessageID = (char *)malloc(100); memset(header->wsa__MessageID, 0, 100); strncpy(header->wsa__MessageID, _HwId, strlen(_HwId)); //wsa__MessageID存放的是uuid if(was_Action != NULL) { header->wsa__Action = (char*)malloc(1024); memset(header->wsa__Action, '\0', 1024); strncpy(header->wsa__Action, was_Action, 1024); // } if(was_To != NULL) { header->wsa__To = (char *)malloc(1024); memset(header->wsa__To, '\0', 1024); strncpy(header->wsa__To, was_To, 1024);//"urn:schemas-xmlsoap-org:ws:2005:04:discovery"; } soap->header = header; return soap; } //释放函数 void ONVIF_soap_delete(struct soap *soap) { soap_destroy(soap); // remove deserialized class instances (C++ only) soap_end(soap); // Clean up deserialized data (except class instances) and temporary data soap_free(soap); // Reset and deallocate the context created with soap_new or soap_copy } //鉴权 static int ONVIF_SetAuthInfo(struct soap *soap, const char *username, const char *password) { int result = 0; if((NULL != username) || (NULL != password)){ soap_wsse_add_UsernameTokenDigest(soap, NULL, username, password); }else{ printf("un etAuth\n"); result = -1; } return result; } int main(int argc,char *argv[]) { int i = 0; int ret = 0; char media_addr[] = "http://172.168.0.211/onvif/media_service"; //GetCapabilities得到的地址 char media_addr2[] = "http://172.168.0.211/onvif/media2_service"; //GetServices得到的地址 char taken[] = "Profile000"; //get_profiles获取 struct SOAP_ENV__Header header; struct soap* soap = ONVIF_Initsoap(&header, NULL, NULL, 5); //...............................................h264通道.................................................... struct _trt__GetStreamUri trt__GetStreamUri; struct _trt__GetStreamUriResponse response; trt__GetStreamUri.StreamSetup = (struct tt__StreamSetup*)soap_malloc(soap, sizeof(struct tt__StreamSetup)); if (NULL == trt__GetStreamUri.StreamSetup){ printf("soap_malloc is error\n"); ret = -1; } trt__GetStreamUri.StreamSetup->Stream = tt__StreamType__RTP_Unicast;//stream type trt__GetStreamUri.StreamSetup->Transport = (struct tt__Transport *)soap_malloc(soap, sizeof(struct tt__Transport)); if (NULL == trt__GetStreamUri.StreamSetup->Transport){ printf("soap_malloc is error\n"); ret = -1; } trt__GetStreamUri.StreamSetup->Transport->Protocol = 1; trt__GetStreamUri.StreamSetup->Transport->Tunnel = 0; trt__GetStreamUri.StreamSetup->__size = 1; trt__GetStreamUri.StreamSetup->__any = NULL; trt__GetStreamUri.StreamSetup->__anyAttribute = NULL; trt__GetStreamUri.ProfileToken = (char *)soap_malloc(soap, 128*sizeof(char ));// if (NULL == trt__GetStreamUri.ProfileToken){ printf("soap_malloc is error\n"); ret = -1; } strcpy(trt__GetStreamUri.ProfileToken, taken); ONVIF_SetAuthInfo(soap,"admin","123456"); //鉴权 soap_call___trt__GetStreamUri(soap, media_addr, NULL, &trt__GetStreamUri, &response); if(soap->error){ ret = -1; printf("soap error: %d, %s, %s\n", soap->error, *soap_faultcode(soap), *soap_faultstring(soap)); return ret; }else{ printf("rtsp_addr: %s\n", response.MediaUri->Uri); } //...............................................h264通道.................................................... /* //...............................................h265通道.................................................... struct _tr2__GetStreamUri tr2__GetStreamUri; struct _tr2__GetStreamUriResponse tr2__GetStreamUriResponse; tr2__GetStreamUri.Protocol = (char *)soap_malloc(soap, 128*sizeof(char));// if (NULL == tr2__GetStreamUri.Protocol){ printf("soap_malloc is error\n"); ret = -1; } tr2__GetStreamUri.ProfileToken = (char *)soap_malloc(soap, 128*sizeof(char ));// if (NULL == tr2__GetStreamUri.ProfileToken){ printf("soap_malloc is error\n"); ret = -1; } strcpy(tr2__GetStreamUri.Protocol, "tcp"); strcpy(tr2__GetStreamUri.ProfileToken, taken); ONVIF_SetAuthInfo(soap,"admin","123456"); //鉴权 soap_call___tr2__GetStreamUri(soap, media_addr2, NULL, &tr2__GetStreamUri, &tr2__GetStreamUriResponse); if(soap->error){ ret = -1; printf("soap error: %d, %s, %s\n", soap->error, *soap_faultcode(soap), *soap_faultstring(soap)); return ret; }else{ printf("rtsp_addr: %s\n", tr2__GetStreamUriResponse.Uri); }*/ //...............................................h265通道.................................................... ONVIF_soap_delete(soap); return ret; }
ps:一般情况是如果一开始用的是_tr2(h265),那么获取信息的时候应该就会一直用tr2(h265)通道。但是有些摄像头比较奇葩,一开始走的都是_tr2,也就是h265的通道(如get_profiles),但是在获取onvif的uri(rtsp地址)的时候本该走_tr2(h265)通道,却走了_trt(h264)的通道才能获取,我这个摄像头就是如此。
当然有些h265的摄像头走的是trt(h264)通道,并不会用到_tr2(h265)的通道。
编译:gcc -o test get_Uri_test.c stdsoap2.c soapC.c md5.c dom.c mecevp.c smdevp.c threads.c wsaapi.c wsseapi.c soapClient.c -I import/ -DWITH_OPENSSL -lssl -lcrypto -ldl -pthread
结果: