MultiCast.cpp

Set multicast mode.

The sample code shows how to set the transport mode to multicast mode.

#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <pthread.h>
#include <string.h>
#include "MvCameraControl.h"
bool g_bExit = false;
// Wait for user to press enter to stop acquisition or end the sample program
void PressEnterToExit(void)
{
int c;
while ( (c = getchar()) != '\n' && c != EOF );
fprintf( stderr, "\nPress enter to exit.\n");
while( getchar() != '\n');
g_bExit = true;
sleep(1);
}
bool PrintDeviceInfo(MV_CC_DEVICE_INFO* pstMVDevInfo)
{
if (NULL == pstMVDevInfo)
{
printf("The Pointer of pstMVDevInfo is NULL!\n");
return false;
}
if (pstMVDevInfo->nTLayerType == MV_GIGE_DEVICE)
{
int nIp1 = ((pstMVDevInfo->SpecialInfo.stGigEInfo.nCurrentIp & 0xff000000) >> 24);
int nIp2 = ((pstMVDevInfo->SpecialInfo.stGigEInfo.nCurrentIp & 0x00ff0000) >> 16);
int nIp3 = ((pstMVDevInfo->SpecialInfo.stGigEInfo.nCurrentIp & 0x0000ff00) >> 8);
int nIp4 = (pstMVDevInfo->SpecialInfo.stGigEInfo.nCurrentIp & 0x000000ff);
// Print current IP and user defined name
printf("Device Model Name: %s\n", pstMVDevInfo->SpecialInfo.stGigEInfo.chModelName);
printf("CurrentIp: %d.%d.%d.%d\n" , nIp1, nIp2, nIp3, nIp4);
printf("UserDefinedName: %s\n\n" , pstMVDevInfo->SpecialInfo.stGigEInfo.chUserDefinedName);
}
else if (pstMVDevInfo->nTLayerType == MV_USB_DEVICE)
{
printf("Device Model Name: %s\n", pstMVDevInfo->SpecialInfo.stUsb3VInfo.chModelName);
printf("UserDefinedName: %s\n\n", pstMVDevInfo->SpecialInfo.stUsb3VInfo.chUserDefinedName);
}
else if (pstMVDevInfo->nTLayerType == MV_GENTL_GIGE_DEVICE)
{
printf("UserDefinedName: %s\n", pstMVDevInfo->SpecialInfo.stGigEInfo.chUserDefinedName);
printf("Serial Number: %s\n", pstMVDevInfo->SpecialInfo.stGigEInfo.chSerialNumber);
printf("Model Name: %s\n\n", pstMVDevInfo->SpecialInfo.stGigEInfo.chModelName);
}
else if (pstMVDevInfo->nTLayerType == MV_GENTL_CAMERALINK_DEVICE)
{
printf("UserDefinedName: %s\n", pstMVDevInfo->SpecialInfo.stCMLInfo.chUserDefinedName);
printf("Serial Number: %s\n", pstMVDevInfo->SpecialInfo.stCMLInfo.chSerialNumber);
printf("Model Name: %s\n\n", pstMVDevInfo->SpecialInfo.stCMLInfo.chModelName);
}
else if (pstMVDevInfo->nTLayerType == MV_GENTL_CXP_DEVICE)
{
printf("UserDefinedName: %s\n", pstMVDevInfo->SpecialInfo.stCXPInfo.chUserDefinedName);
printf("Serial Number: %s\n", pstMVDevInfo->SpecialInfo.stCXPInfo.chSerialNumber);
printf("Model Name: %s\n\n", pstMVDevInfo->SpecialInfo.stCXPInfo.chModelName);
}
else if (pstMVDevInfo->nTLayerType == MV_GENTL_XOF_DEVICE)
{
printf("UserDefinedName: %s\n", pstMVDevInfo->SpecialInfo.stXoFInfo.chUserDefinedName);
printf("Serial Number: %s\n", pstMVDevInfo->SpecialInfo.stXoFInfo.chSerialNumber);
printf("Model Name: %s\n\n", pstMVDevInfo->SpecialInfo.stXoFInfo.chModelName);
}
else
{
printf("Not support.\n");
}
return true;
}
static void* WorkThread(void* pUser)
{
int nRet = MV_OK;
MV_FRAME_OUT stImageInfo = {0};
memset(&stImageInfo, 0, sizeof(MV_FRAME_OUT));
while(1)
{
nRet = MV_CC_GetImageBuffer(pUser, &stImageInfo, 1000);
if (nRet == MV_OK)
{
printf("Get One Frame: Width[%d], Height[%d], nFrameNum[%d]\n",
stImageInfo.stFrameInfo.nExtendWidth, stImageInfo.stFrameInfo.nExtendHeight, stImageInfo.stFrameInfo.nFrameNum);
MV_CC_FreeImageBuffer(pUser, &stImageInfo);
}
else
{
printf("No data[0x%x]\n", nRet);
}
if(g_bExit)
{
break;
}
}
return 0;
}
int main()
{
int nRet = MV_OK;
void* handle = NULL;
do
{
// Initialize SDK.
nRet = MV_CC_Initialize();
if (MV_OK != nRet)
{
printf("Initialize SDK fail! nRet [0x%x]\n", nRet);
break;
}
// Enumerate devices
MV_CC_DEVICE_INFO_LIST stDeviceList;
memset(&stDeviceList, 0, sizeof(MV_CC_DEVICE_INFO_LIST));
nRet = MV_CC_EnumDevices(MV_GIGE_DEVICE | MV_USB_DEVICE | MV_GENTL_CAMERALINK_DEVICE | MV_GENTL_CXP_DEVICE | MV_GENTL_XOF_DEVICE, &stDeviceList);
if (MV_OK != nRet)
{
printf("Enum Devices fail! nRet [0x%x]\n", nRet);
break;
}
if (stDeviceList.nDeviceNum > 0)
{
for (unsigned int i = 0; i < stDeviceList.nDeviceNum; i++)
{
printf("[device %d]:\n", i);
MV_CC_DEVICE_INFO* pDeviceInfo = stDeviceList.pDeviceInfo[i];
if (NULL == pDeviceInfo)
{
break;
}
PrintDeviceInfo(pDeviceInfo);
}
}
else
{
printf("Find No Devices!\n");
break;
}
printf("Please Intput camera index: ");
unsigned int nIndex = 0;
scanf("%d", &nIndex);
if (nIndex >= stDeviceList.nDeviceNum)
{
printf("Intput error!\n");
break;
}
// Select device and create handle
nRet = MV_CC_CreateHandle(&handle, stDeviceList.pDeviceInfo[nIndex]);
if (MV_OK != nRet)
{
printf("Create Handle fail! nRet [0x%x]\n", nRet);
break;
}
int c;
while ( (c = getchar()) != '\n' && c != EOF );
char key;
// Query the user to launch the multicast controlling application or the multicast monitoring application.
printf("Start multicast sample in (c)ontrol or in (m)onitor mode? (c/m)\n");
scanf("%c", &key);
if((key != 'c') && (key != 'm') && (key != 'C') && (key != 'M'))
{
printf("Input error\n");
break;
}
// Query the user for the mode to use
bool monitorMode = (key == 'm') || (key == 'M');
// Open device
if (monitorMode)
{
nRet = MV_CC_OpenDevice(handle, MV_ACCESS_Monitor);
}
else
{
nRet = MV_CC_OpenDevice(handle, MV_ACCESS_Control);
}
if (MV_OK != nRet)
{
printf("Open Device fail! nRet [0x%x]\n", nRet);
break;
}
// Detect network optimal package size (only works for the GigE cameras)
if (MV_GIGE_DEVICE == stDeviceList.pDeviceInfo[nIndex]->nTLayerType && false == monitorMode)
{
int nPacketSize = MV_CC_GetOptimalPacketSize(handle);
if (nPacketSize > 0)
{
nRet = MV_CC_SetIntValueEx(handle,"GevSCPSPacketSize",nPacketSize);
if(nRet != MV_OK)
{
printf("Warning: Set Packet Size fail nRet [0x%x]!\n", nRet);
}
}
else
{
printf("Warning: Get Packet Size fail nRet [0x%x]!\n", nPacketSize);
}
}
// Specify multicast IP
char strIp[] = "239.192.1.1";
unsigned int nIp1, nIp2, nIp3, nIp4, nIp;
sscanf(strIp, "%d.%d.%d.%d", &nIp1, &nIp2, &nIp3, &nIp4);
nIp = (nIp1 << 24) | (nIp2 << 16) | (nIp3 << 8) | nIp4;
// Specify multicast port
MV_TRANSMISSION_TYPE stTransmissionType;
memset(&stTransmissionType, 0, sizeof(MV_TRANSMISSION_TYPE));
stTransmissionType.enTransmissionType = MV_GIGE_TRANSTYPE_MULTICAST;
stTransmissionType.nDestIp = nIp;
stTransmissionType.nDestPort = 1042;
nRet = MV_GIGE_SetTransmissionType(handle, &stTransmissionType);
if (MV_OK != nRet)
{
printf("Set Transmission Type fail! nRet [0x%x]\n", nRet);
break;
}
// Start image acquisition
nRet = MV_CC_StartGrabbing(handle);
if (MV_OK != nRet)
{
printf("Start Grabbing fail! nRet [0x%x]\n", nRet);
break;
}
pthread_t nThreadID = 0;
nRet = pthread_create(&nThreadID, NULL ,WorkThread , handle);
if (nRet != 0)
{
printf("thread create failed.ret = %d\n",nRet);
break;
}
PressEnterToExit();
g_bExit = true;
sleep(1);
// Stop image acquisition
nRet = MV_CC_StopGrabbing(handle);
if (MV_OK != nRet)
{
printf("Stop Grabbing fail! nRet [0x%x]\n", nRet);
break;
}
// Close device
nRet = MV_CC_CloseDevice(handle);
if (MV_OK != nRet)
{
printf("ClosDevice fail! nRet [0x%x]\n", nRet);
break;
}
// Destroy handle
nRet = MV_CC_DestroyHandle(handle);
if (MV_OK != nRet)
{
printf("Destroy Handle fail! nRet [0x%x]\n", nRet);
break;
}
handle = NULL;
} while (0);
if (handle != NULL)
{
MV_CC_DestroyHandle(handle);
handle = NULL;
}
// Finalize SDK
MV_CC_Finalize();
printf("exit.\n");
return 0;
}