示例#1
0
//#define MULTI_ADDR_MODE 1
GT_STATUS qdStart(int cpuPort)
{
	GT_STATUS status;


	/*
	 *   Register all the required functions to QuarterDeck Driver.
	 * */
	memset((char*)&cfg,0,sizeof(GT_SYS_CONFIG));
	memset((char*)&diagDev,0,sizeof(GT_QD_DEV));

	dev = &diagDev;

	cfg.BSPFunctions.readMii   = switchReadReg;
	cfg.BSPFunctions.writeMii  = switchWriteReg;
#ifdef GT_RMGMT_ACCESS
	cfg.BSPFunctions.hwAccess  = gtBspHwAccess; 
#endif
#ifdef USE_SEMAPHORE
	cfg.BSPFunctions.semCreate = osSemCreate;
	cfg.BSPFunctions.semDelete = osSemDelete;
	cfg.BSPFunctions.semTake   = osSemWait;
	cfg.BSPFunctions.semGive   = osSemSignal;
#else
	cfg.BSPFunctions.semCreate = NULL;
	cfg.BSPFunctions.semDelete = NULL;
	cfg.BSPFunctions.semTake   = NULL;
	cfg.BSPFunctions.semGive   = NULL;
#endif
	gtBspMiiInit(dev);

	cfg.initPorts = GT_TRUE;    /* Set switch ports to Forwarding mode. If GT_FALSE, use Default Setting. */
	cfg.cpuPortNum = cpuPort;
#ifdef MANUAL_MODE    /* not defined. this is only for sample */
	/* user may want to use this mode when there are two QD switchs on the same MII bus. */
	cfg.mode.scanMode = SMI_MANUAL_MODE;    /* Use QD located at manually defined base addr */
	cfg.mode.baseAddr = 0x10;    /* valid value in this case is either 0 or 0x10 */
#else
#ifdef MULTI_ADDR_MODE
	cfg.mode.scanMode = SMI_MULTI_ADDR_MODE;    /* find a QD in indirect access mode */
	cfg.mode.baseAddr = 1;        /* this is the phyAddr used by QD family device. 
									 Valid value are 1 ~ 31.*/
#else
	cfg.mode.scanMode = SMI_AUTO_SCAN_MODE;    /* Scan 0 or 0x10 base address to find the QD */
	cfg.mode.baseAddr = 0;
#endif
#endif


	if((status=qdLoadDriver(&cfg, dev)) != GT_OK)
	{
		ERROR(GLOBAL_OUT_GROUP, "qdLoadDriver return Failed\n");
		return status;
	}

	INFO(GLOBAL_OUT_GROUP,"Device ID     : 0x%x\n",dev->deviceId);
	INFO(GLOBAL_OUT_GROUP,"Base Reg Addr : 0x%x\n",dev->baseRegAddr);
	INFO(GLOBAL_OUT_GROUP,"No of Ports   : %d\n",(int)dev->numOfPorts);
	INFO(GLOBAL_OUT_GROUP,"CPU Ports     : %d\n",(int)dev->cpuPortNum);

	/*
	 *      *  start the QuarterDeck
	 *          */
	if((status=sysEnable(dev)) != GT_OK)
	{
		ERROR(GLOBAL_OUT_GROUP,"sysConfig return Failed\n");
		return status;
	}

	INFO(GLOBAL_OUT_GROUP,"QuarterDeck has been started.\n");


	return GT_OK;
}
示例#2
0
GT_STATUS qdStart(int cpuPort, int useQdSim, int devId) /* devId is used for simulator only */
{
GT_STATUS status;

    /*
     *  Register all the required functions to QuarterDeck Driver.
    */
    memset((char*)&cfg,0,sizeof(GT_SYS_CONFIG));
    memset((char*)&diagDev,0,sizeof(GT_QD_DEV));

    if(useQdSim == 0) /* use EV-96122 */
    {
        cfg.BSPFunctions.readMii   = gtBspReadMii;
        cfg.BSPFunctions.writeMii  = gtBspWriteMii;
#ifdef GT_RMGMT_ACCESS
    cfg.BSPFunctions.hwAccess  = gtBspHwAccess;
#endif
#ifdef USE_SEMAPHORE
        cfg.BSPFunctions.semCreate = osSemCreate;
        cfg.BSPFunctions.semDelete = osSemDelete;
        cfg.BSPFunctions.semTake   = osSemWait;
        cfg.BSPFunctions.semGive   = osSemSignal;
#else
        cfg.BSPFunctions.semCreate = NULL;
        cfg.BSPFunctions.semDelete = NULL;
        cfg.BSPFunctions.semTake   = NULL;
        cfg.BSPFunctions.semGive   = NULL;
#endif
        gtBspMiiInit(dev);
    }
    else    /* use QuaterDeck Simulator (No QD Device Required.) */
    {
        cfg.BSPFunctions.readMii   = qdSimRead;
        cfg.BSPFunctions.writeMii  = qdSimWrite;
#ifdef USE_SEMAPHORE
        cfg.BSPFunctions.semCreate = osSemCreate;
        cfg.BSPFunctions.semDelete = osSemDelete;
        cfg.BSPFunctions.semTake   = osSemWait;
        cfg.BSPFunctions.semGive   = osSemSignal;
#else
        cfg.BSPFunctions.semCreate = NULL;
        cfg.BSPFunctions.semDelete = NULL;
        cfg.BSPFunctions.semTake   = NULL;
        cfg.BSPFunctions.semGive   = NULL;
#endif

        qdSimInit(devId,0);
    }

    cfg.initPorts = GT_TRUE;    /* Set switch ports to Forwarding mode. If GT_FALSE, use Default Setting. */
    cfg.cpuPortNum = cpuPort;
#ifdef MANUAL_MODE    /* not defined. this is only for sample */
    /* user may want to use this mode when there are two QD switchs on the same MII bus. */
    cfg.mode.scanMode = SMI_MANUAL_MODE;    /* Use QD located at manually defined base addr */
    cfg.mode.baseAddr = 0x10;    /* valid value in this case is either 0 or 0x10 */
#else
#ifdef MULTI_ADDR_MODE
    cfg.mode.scanMode = SMI_MULTI_ADDR_MODE;    /* find a QD in indirect access mode */
    cfg.mode.baseAddr = 1;        /* this is the phyAddr used by QD family device.
                                Valid value are 1 ~ 31.*/
#else
    cfg.mode.scanMode = SMI_AUTO_SCAN_MODE;    /* Scan 0 or 0x10 base address to find the QD */
    cfg.mode.baseAddr = 0;
#endif
#endif
    if((status=qdLoadDriver(&cfg, dev)) != GT_OK)
    {
        MSG_PRINT(("qdLoadDriver return Failed\n"));
        return status;
    }

    MSG_PRINT(("Device ID     : 0x%x\n",dev->deviceId));
    MSG_PRINT(("Base Reg Addr : 0x%x\n",dev->baseRegAddr));
    MSG_PRINT(("No of Ports   : %d\n",dev->numOfPorts));
    MSG_PRINT(("CPU Ports     : %d\n",dev->cpuPortNum));

    /*
     *  start the QuarterDeck
    */
    if((status=sysEnable(dev)) != GT_OK)
    {
        MSG_PRINT(("sysConfig return Failed\n"));
        return status;
    }

    MSG_PRINT(("QuarterDeck has been started.\n"));

    return GT_OK;
}