[15.05/openwrt.git] / target / linux / generic / files / crypto / ocf / kirkwood / mvHal / mv_hal / pex / mvVrtBrgPex.c

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*******************************************************************************/

#include "mvPex.h"

//#define MV_DEBUG
/* defines  */       
#ifdef MV_DEBUG         
        #define DB(x)   x
#else                
        #define DB(x)    
#endif               

/* locals */         
typedef struct
{
        MV_U32 data;
        MV_U32 mask;
}PEX_HEADER_DATA;

/* local function forwad decleration */
MV_U32 mvPexHwConfigRead (MV_U32 pexIf, MV_U32 bus, MV_U32 dev, MV_U32 func, 
                        MV_U32 regOff);
MV_STATUS mvPexHwConfigWrite(MV_U32 pexIf, MV_U32 bus, MV_U32 dev, 
                           MV_U32 func, MV_U32 regOff, MV_U32 data);
void resetPexConfig(MV_U32 pexIf, MV_U32 bus, MV_U32 dev);


PEX_HEADER_DATA configHdr[16] = 
{
{0x888811ab, 0x00000000}, /*[device ID, vendor ID] */
{0x00100007, 0x0000ffff}, /*[status register, command register] */  
{0x0604000e, 0x00000000}, /*[programming interface, sub class code, class code, revision ID] */
{0x00010008, 0x00000000},  /*[BIST, header type, latency time, cache line] */
{0x00000000, 0x00000000},  /*[base address 0] */             
{0x00000000, 0x00000000},  /*[base address 1] */             
{0x00000000, 0x00ffffff},  /*[secondary latency timersubordinate bus number, secondary bus number, primary bus number] */         
{0x0000f101, 0x00000000},  /*[secondary status ,IO limit, IO base] */
{0x9ff0a000, 0x00000000},  /*[memory limit, memory base] */                
{0x0001fff1, 0x00000000},  /*[prefetch memory limit, prefetch memory base] */       
{0xffffffff, 0x00000000},  /*[prefetch memory base upper] */ 
{0x00000000, 0x00000000},  /*[prefetch memory limit upper] */
{0xeffff000, 0x00000000},  /*[IO limit upper 16 bits, IO base upper 16 bits] */      
{0x00000000, 0x00000000},  /*[reserved, capability pointer] */ 
{0x00000000, 0x00000000},  /*[expansion ROM base address] */ 
{0x00000000, 0x000000FF},  /*[bridge control, interrupt pin, interrupt line] */             
};


#define HEADER_WRITE(data, offset) configHdr[offset/4].data = ((configHdr[offset/4].data & ~configHdr[offset/4].mask) | \
                                                                                                                                (data & configHdr[offset/4].mask))
#define HEADER_READ(offset) configHdr[offset/4].data

/*******************************************************************************
* mvVrtBrgPexInit - Initialize PEX interfaces
*
* DESCRIPTION:
*
* This function is responsible of intialization of the Pex Interface , It 
* configure the Pex Bars and Windows in the following manner:
*
*  Assumptions : 
*                               Bar0 is always internal registers bar
*                           Bar1 is always the DRAM bar
*                               Bar2 is always the Device bar
*
*  1) Sets the Internal registers bar base by obtaining the base from
*         the CPU Interface
*  2) Sets the DRAM bar base and size by getting the base and size from
*     the CPU Interface when the size is the sum of all enabled DRAM 
*         chip selects and the base is the base of CS0 .
*  3) Sets the Device bar base and size by getting these values from the 
*     CPU Interface when the base is the base of the lowest base of the
*     Device chip selects, and the 
*
*
* INPUT:
*
*       pexIf   -  PEX interface number.
*
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_OK if function success otherwise MV_ERROR or MV_BAD_PARAM
*
*******************************************************************************/
MV_STATUS mvPexVrtBrgInit(MV_U32 pexIf)
{
        /* reset PEX tree to recover previous U-boot/Boot configurations */
        MV_U32 localBus = mvPexLocalBusNumGet(pexIf);


        resetPexConfig(pexIf, localBus, 1);
        return MV_OK;
}


MV_U32 mvPexVrtBrgConfigRead (MV_U32 pexIf, MV_U32 bus, MV_U32 dev, MV_U32 func, 
                        MV_U32 regOff)
{
        
        MV_U32 localBus = mvPexLocalBusNumGet(pexIf);
        MV_U32 localDev = mvPexLocalDevNumGet(pexIf);
        MV_U32 val;  
        if(bus == localBus)
        {
                if(dev > 1)
                {
/* on the local device allow only device #0 & #1 */
                        return 0xffffffff;
                }
                else
                if (dev == localDev)
                {
                        /* read the memory controller registers */
                        return mvPexHwConfigRead (pexIf, bus, dev, func, regOff);
                }
                else
                {
                        /* access the virtual brg header */
                        return HEADER_READ(regOff);
                }
        }
        else
        if(bus == (localBus + 1))
        {
                /* access the device behind the virtual bridge */
                if((dev == localDev) || (dev > 1))
                {
                        return 0xffffffff;
                }
                else
                {
                        /* access the device behind the virtual bridge, in this case 
                        *  change the bus number to the local bus number in order to 
                        *  generate type 0 config cycle
                        */                      
                        mvPexLocalBusNumSet(pexIf, bus);
                        mvPexLocalDevNumSet(pexIf, 1);
                        val = mvPexHwConfigRead (pexIf, bus, 0, func, regOff);
                        mvPexLocalBusNumSet(pexIf, localBus);
                        mvPexLocalDevNumSet(pexIf, localDev);
                        return val;
                }
        }
        /* for all other devices use the HW function to get the 
        *  requested registers
        */
        mvPexLocalDevNumSet(pexIf, 1);
        val = mvPexHwConfigRead (pexIf, bus, dev, func, regOff);
        mvPexLocalDevNumSet(pexIf, localDev);   
        return val;
}


MV_STATUS mvPexVrtBrgConfigWrite(MV_U32 pexIf, MV_U32 bus, MV_U32 dev, 
                           MV_U32 func, MV_U32 regOff, MV_U32 data)
{
        MV_U32 localBus = mvPexLocalBusNumGet(pexIf);
        MV_U32 localDev = mvPexLocalDevNumGet(pexIf);
        MV_STATUS       status;

        if(bus == localBus)
        {
                if(dev > 1)
                {
                        /* on the local device allow only device #0 & #1 */
                        return MV_ERROR;
                }
                else
                if (dev == localDev)
                {
                        /* read the memory controller registers */
                        return mvPexHwConfigWrite (pexIf, bus, dev, func, regOff, data);                        
                }
                else
                {
                        /* access the virtual brg header */
                        HEADER_WRITE(data, regOff);
                        return MV_OK;
                }
        }
        else
        if(bus == (localBus + 1))
        {
                /* access the device behind the virtual bridge */
                if((dev == localDev) || (dev > 1))
                {
                        return MV_ERROR;
                }
                else
                {
                        /* access the device behind the virtual bridge, in this case 
                        *  change the bus number to the local bus number in order to 
                        *  generate type 0 config cycle
                        */
                        //return mvPexHwConfigWrite (pexIf, localBus, dev, func, regOff, data);
                        mvPexLocalBusNumSet(pexIf, bus);
                        mvPexLocalDevNumSet(pexIf, 1);
                        status = mvPexHwConfigWrite (pexIf, bus, 0, func, regOff, data);
                        mvPexLocalBusNumSet(pexIf, localBus);
                        mvPexLocalDevNumSet(pexIf, localDev);
                        return status;

                }
        }
        /* for all other devices use the HW function to get the 
        *  requested registers
        */
        mvPexLocalDevNumSet(pexIf, 1);
        status = mvPexHwConfigWrite (pexIf, bus, dev, func, regOff, data);
        mvPexLocalDevNumSet(pexIf, localDev);
        return status;
}




void resetPexConfig(MV_U32 pexIf, MV_U32 bus, MV_U32 dev)
{
        MV_U32 tData;
        MV_U32 i;

        /* restore the PEX configuration to initialization state */
        /* in case PEX P2P call recursive and reset config */
        tData = mvPexHwConfigRead (pexIf, bus, dev, 0x0, 0x0);
        if(tData != 0xffffffff)
        {
                /* agent had been found - check whether P2P */
                tData = mvPexHwConfigRead (pexIf, bus, dev, 0x0, 0x8);
                if((tData & 0xffff0000) == 0x06040000)
                {/* P2P */
                        /* get the sec bus and the subordinate */
                        MV_U32 secBus;  
                        tData = mvPexHwConfigRead (pexIf, bus, dev, 0x0, 0x18);
                        secBus = ((tData >> 8) & 0xff);
                        /* now scan on sec bus */
                        for(i = 0;i < 0xff;i++)
                        {
                                resetPexConfig(pexIf, secBus, i);
                        }
                        /* now reset this device */
                        DB(mvOsPrintf("Reset bus %d dev %d\n", bus, dev));
                        mvPexHwConfigWrite(pexIf, bus, dev, 0x0, 0x18, 0x0); 
                        DB(mvOsPrintf("Reset bus %d dev %d\n", bus, dev));
                }
        }
}