host-multicast.c

在DM642上实现的ip组播通信示例

//--------------------------------------------------------------------------
// IP Stack Multicast host demo
//--------------------------------------------------------------------------
#include <stdio.h>
#include <netmain.h>
#include <_stack.h>

//---------------------------------------------------------------------------
// Title String
//
char *VerStr = "\nTCP/IP Multicast Example Host\n";

// Define the Interface number
#define IFIDX 1

// Our NETCTRL callback functions
static void   NetworkOpen();
static void   NetworkClose();
static void   NetworkIPAddr( IPN IPAddr, uint IfIdx, uint fAdd );

// Fun reporting function
static void   ServiceReport( uint Item, uint Status, uint Report, HANDLE hCfgEntry );

static volatile int IPAddrCnt = 0;
//---------------------------------------------------------------------------
// Multicast UDP handle, server task prototype and buffers
//
static HANDLE hUDPServer=0;
static void udp_test();
char sendBuffer[1500];
char recvBuffer[1500];

//---------------------------------------------------------------------------
// Configuration
//
char *HostName    = "HostEVMDM642";
char *LocalIPAddr = "0.0.0.0";          // Set to "0.0.0.0" for DHCP
char *LocalIPMask = "255.255.254.0";    // Not used when using DHCP
char *GatewayIP   = "0.0.0.0";                  // Not used when using DHCP
char *DomainName  = "demo.net";         // Not used when using DHCP
char *DNSServer   = "0.0.0.0";          // Used when set to anything but zero

char *MulticastAddr = "224.1.2.3";  // Multicast group address

UINT8 DHCP_OPTIONS[] = { DHCPOPT_SERVER_IDENTIFIER, DHCPOPT_ROUTER };

//---------------------------------------------------------------------
// Main Entry Point
//---------------------------------------------------------------------
int main()
{

}

//
// Main Thread
//
int StackTest()
{
    int               rc;
    HANDLE            hCfg;

    //
    // THIS MUST BE THE ABSOLUTE FIRST THING DONE IN AN APPLICATION!!
    //
    rc = NC_SystemOpen( NC_PRIORITY_LOW, NC_OPMODE_INTERRUPT );
    if( rc )
    {
        printf("NC_SystemOpen Failed (%d)\n",rc);
        for(;;);
    }

    // Print out our banner
    printf(VerStr);

    //
    // Create and build the system configuration from scratch.
    //

    // Create a new configuration
    hCfg = CfgNew();
    if( !hCfg )
    {
        printf("Unable to create configuration\n");
        goto main_exit;
    }

    // We better validate the length of the supplied names
    if( strlen( DomainName ) >= CFG_DOMAIN_MAX ||
        strlen( HostName ) >= CFG_HOSTNAME_MAX )
    {
        printf("Names too long\n");
        goto main_exit;
    }

    // Add our global hostname to hCfg (to be claimed in all connected domains)
    CfgAddEntry( hCfg, CFGTAG_SYSINFO, CFGITEM_DHCP_HOSTNAME, 0,
                 strlen(HostName), (UINT8 *)HostName, 0 );

    // If the IP address is specified, manually configure IP and Gateway
    if( inet_addr(LocalIPAddr) )
    {
        CI_IPNET NA;
        CI_ROUTE RT;
        IPN      IPTmp;

        // Setup manual IP address
        bzero( &NA, sizeof(NA) );
        NA.IPAddr  = inet_addr(LocalIPAddr);
        NA.IPMask  = inet_addr(LocalIPMask);
        strcpy( NA.Domain, DomainName );
        NA.NetType = 0;

        // Add the address to interface 1
        CfgAddEntry( hCfg, CFGTAG_IPNET, IFIDX, 0,
                           sizeof(CI_IPNET), (UINT8 *)&NA, 0 );

        // Add the default gateway. Since it is the default, the
        // destination address and mask are both zero (we go ahead
        // and show the assignment for clarity).
        bzero( &RT, sizeof(RT) );
        RT.IPDestAddr = 0;
        RT.IPDestMask = 0;
        RT.IPGateAddr = inet_addr(GatewayIP);

        // Add the route
        CfgAddEntry( hCfg, CFGTAG_ROUTE, 0, 0,
                           sizeof(CI_ROUTE), (UINT8 *)&RT, 0 );

        // Manually add the DNS server when specified
        IPTmp = inet_addr(DNSServer);
        if( IPTmp )
            CfgAddEntry( hCfg, CFGTAG_SYSINFO, CFGITEM_DHCP_DOMAINNAMESERVER,
                         0, sizeof(IPTmp), (UINT8 *)&IPTmp, 0 );
    }
    // Else we specify DHCP
    else
    {
        CI_SERVICE_DHCPC dhcpc;

        // Specify DHCP Service on IF-1
        bzero( &dhcpc, sizeof(dhcpc) );
        dhcpc.cisargs.Mode   = CIS_FLG_IFIDXVALID;
        dhcpc.cisargs.IfIdx  = IFIDX;
        dhcpc.cisargs.pCbSrv = &ServiceReport;
        dhcpc.param.pOptions = DHCP_OPTIONS;
        dhcpc.param.len = 2;
        CfgAddEntry( hCfg, CFGTAG_SERVICE, CFGITEM_SERVICE_DHCPCLIENT, 0,
                     sizeof(dhcpc), (UINT8 *)&dhcpc, 0 );
    }

    //
    // Configure IPStack/OS Options
    //

    // We don't want to see debug messages less than WARNINGS
    rc = DBG_WARN;
    CfgAddEntry( hCfg, CFGTAG_OS, CFGITEM_OS_DBGPRINTLEVEL,
                 CFG_ADDMODE_UNIQUE, sizeof(uint), (UINT8 *)&rc, 0 );

    //
    // This code sets up the TCP and UDP buffer sizes
    // (Note 8192 is actually the default. This code is here to
    // illustrate how the buffer and limit sizes are configured.)
    //

    // TCP Transmit buffer size
    rc = 8192;
    CfgAddEntry( hCfg, CFGTAG_IP, CFGITEM_IP_SOCKTCPTXBUF,
                 CFG_ADDMODE_UNIQUE, sizeof(uint), (UINT8 *)&rc, 0 );

    // TCP Receive buffer size (copy mode)
    rc = 8192;
    CfgAddEntry( hCfg, CFGTAG_IP, CFGITEM_IP_SOCKTCPRXBUF,
                 CFG_ADDMODE_UNIQUE, sizeof(uint), (UINT8 *)&rc, 0 );

    // TCP Receive limit (non-copy mode)
    rc = 8192;
    CfgAddEntry( hCfg, CFGTAG_IP, CFGITEM_IP_SOCKTCPRXLIMIT,
                 CFG_ADDMODE_UNIQUE, sizeof(uint), (UINT8 *)&rc, 0 );

    // UDP Receive limit
    rc = 8192;
    CfgAddEntry( hCfg, CFGTAG_IP, CFGITEM_IP_SOCKUDPRXLIMIT,
                 CFG_ADDMODE_UNIQUE, sizeof(uint), (UINT8 *)&rc, 0 );

    //
    // Boot the system using this configuration
    //
    // We keep booting until the function returns 0. This allows
    // us to have a "reboot" command.
    //
    do
    {
        rc = NC_NetStart( hCfg, NetworkOpen, NetworkClose, NetworkIPAddr );
    } while( rc > 0 );

    // Leave the Multicast group we joined
    IGMPLeaveHostGroup( inet_addr(MulticastAddr), IFIDX );

    // Delete Configuration
    CfgFree( hCfg );

    // Close the OS
main_exit:
    NC_SystemClose();
    return(0);
}

//
// NetworkOpen
//
// This function is called after the configuration has booted
//
static void NetworkOpen()
{
    // Create our local servers
    hUDPServer = TaskCreate ( udp_test, "UDPTEST", OS_TASKPRINORM, 
                               OS_TASKSTKNORM, 0, 0, 0 ); 
}

//
// NetworkClose
//
// This function is called when the network is shutting down,
// or when it no longer has any IP addresses assigned to it.
//
static void NetworkClose()
{
    TaskDestroy( hUDPServer );
}


//
// NetworkIPAddr
//
// This function is called whenever an IP address binding is
// added or removed from the system.
//
static void NetworkIPAddr( IPN IPAddr, uint IfIdx, uint fAdd )
{
    IPN IPTmp;

    if( fAdd ) {
        printf("Network Added: ");
        IPAddrCnt++;
    }
    else {
        printf("Network Removed: ");
        IPAddrCnt--;
    }
    // Print a message
    IPTmp = ntohl( IPAddr );
    printf("If-%d:%d.%d.%d.%d\n", IfIdx,
            (UINT8)(IPTmp>>24)&0xFF, (UINT8)(IPTmp>>16)&0xFF,
            (UINT8)(IPTmp>>8)&0xFF, (UINT8)IPTmp&0xFF );

}

//
// DHCP_reset()
//
// Code to reset DHCP client by removing it from the active config,
// and then reinstalling it.
//
// Called with:
// IfIdx    set to the interface (1-n) that is using DHCP.
// fOwnTask set when called on a new task thread (via TaskCreate()).
//
void DHCP_reset( uint IfIdx, uint fOwnTask )
{
    CI_SERVICE_DHCPC dhcpc;
    HANDLE h;
    int    rc,tmp;
    uint   idx;

    // If we were called from a newly created task thread, allow