/*******************************************************************************
* cpuTargetWinOverlap - Detect CPU address decode windows overlapping
*
* DESCRIPTION:
* An unpredicted behaviur is expected in case CPU address decode
* windows overlapps.
* This function detects CPU address decode windows overlapping of a
* specified target. The function does not check the target itself for
* overlapping. The function also skipps disabled address decode windows.
*
* INPUT:
* target - Peripheral target enumerator.
* pAddrDecWin - An address decode window struct.
*
* OUTPUT:
* None.
*
* RETURN:
* MV_TRUE if the given address window overlaps current address
* decode map, MV_FALSE otherwise.
*
*******************************************************************************/
static MV_BOOL cpuTargetWinOverlap(MV_TARGET target, MV_ADDR_WIN *pAddrWin)
{
MV_U32 targetNum;
MV_CPU_DEC_WIN addrDecWin;
MV_STATUS status;
for(targetNum = 0; targetNum < MAX_TARGETS; targetNum++)
{
#if defined(MV_RUN_FROM_FLASH)
if(MV_TARGET_IS_AS_BOOT(target))
{
if (MV_CHANGE_BOOT_CS(targetNum) == target)
continue;
}
#endif /* MV_RUN_FROM_FLASH */
/* don't check our target or illegal targets */
if (targetNum == target)
{
continue;
}
/* Get window parameters */
status = mvCpuIfTargetWinGet(targetNum, &addrDecWin);
if(MV_NO_SUCH == status)
{
continue;
}
if(MV_OK != status)
{
DB(mvOsPrintf("cpuTargetWinOverlap: ERR. TargetWinGet failed\n"));
return MV_TRUE;
}
/* Do not check disabled windows */
if (MV_FALSE == addrDecWin.enable)
{
continue;
}
if(MV_TRUE == ctrlWinOverlapTest(pAddrWin, &addrDecWin.addrWin))
{
DB(mvOsPrintf(
"cpuTargetWinOverlap: Required target %d overlap current %d\n",
target, targetNum));
return MV_TRUE;
}
}
return MV_FALSE;
}
/*******************************************************************************
* mvCpuIfInit - Initialize Controller CPU interface
*
* DESCRIPTION:
* This function initialize Controller CPU interface:
* 1. Set CPU interface configuration registers.
* 2. Set CPU master Pizza arbiter control according to static
* configuration described in configuration file.
* 3. Opens CPU address decode windows. DRAM windows are assumed to be
* already set (auto detection).
*
* INPUT:
* None.
*
* OUTPUT:
* None.
*
* RETURN:
* None.
*
*******************************************************************************/
MV_STATUS mvCpuIfInit(MV_CPU_DEC_WIN *cpuAddrWinMap)
{
MV_U32 regVal;
MV_TARGET target;
MV_ADDR_WIN addrWin;
int ii;
if (cpuAddrWinMap == NULL)
{
DB(mvOsPrintf("mvCpuIfInit:ERR. cpuAddrWinMap == NULL\n"));
return MV_ERROR;
}
/* Set ARM Configuration register */
regVal = MV_REG_READ(CPU_CONFIG_REG);
regVal &= ~CPU_CONFIG_DEFAULT_MASK;
/* regVal |= CPU_CONFIG_DEFAULT; Note: not needed */
MV_REG_WRITE(CPU_CONFIG_REG,regVal);
/* First disable all CPU target windows */
for (target = 0; cpuAddrWinMap[target].enable != TBL_TERM; target++)
{
if ((MV_TARGET_IS_DRAM(target))||(target == INTER_REGS))
{
continue;
}
#if defined(MV_MEM_OVER_PCI_WA) || defined(MV_UART_OVER_PCI_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PCI(target))
{
continue;
}
#endif
#if defined(MV_MEM_OVER_PEX_WA) || defined(MV_UART_OVER_PEX_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PEX(target))
{
continue;
}
#endif
#if defined(MV_RUN_FROM_FLASH)
/* Don't disable the boot device. */
if (target == DEV_BOOCS)
{
continue;
}
#endif /* MV_RUN_FROM_FLASH */
mvCpuIfTargetWinEnable(MV_CHANGE_BOOT_CS(target),MV_FALSE);
}
/* TODO */
for (ii = 0; ii < 8; ii++)
MV_REG_WRITE(AHB_TO_MBUS_WIN_CTRL_REG(ii), 0);
#if defined(MV_RUN_FROM_FLASH)
/* Resize the bootcs windows before other windows, because this */
/* window is enabled and will cause an overlap if not resized. */
target = DEV_BOOCS;
if (MV_OK != mvCpuIfTargetWinSet(target, &cpuAddrWinMap[target]))
{
DB(mvOsPrintf("mvCpuIfInit:ERR. mvCpuIfTargetWinSet fail\n"));
return MV_ERROR;
}
addrWin.baseLow = cpuAddrWinMap[target].addrWin.baseLow;
addrWin.baseHigh = cpuAddrWinMap[target].addrWin.baseHigh;
if (0xffffffff == mvAhbToMbusWinRemap(cpuAddrWinMap[target].winNum ,&addrWin))
{
DB(mvOsPrintf("mvCpuIfInit:WARN. mvAhbToMbusWinRemap can't remap winNum=%d\n",
cpuAddrWinMap[target].winNum));
}
#endif /* MV_RUN_FROM_FLASH */
/* Go through all targets in user table until table terminator */
for (target = 0; cpuAddrWinMap[target].enable != TBL_TERM; target++)
{
#if defined(MV_RUN_FROM_FLASH)
if (target == DEV_BOOCS)
{
continue;
}
#endif /* MV_RUN_FROM_FLASH */
/* if DRAM auto sizing is used do not initialized DRAM target windows, */
/* assuming this already has been done earlier. */
#ifdef MV_DRAM_AUTO_SIZE
if (MV_TARGET_IS_DRAM(target))
{
continue;
}
#endif
#if defined(MV_MEM_OVER_PCI_WA) || defined(MV_UART_OVER_PCI_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PCI(target))
{
continue;
}
#endif
#if defined(MV_MEM_OVER_PEX_WA) || defined(MV_UART_OVER_PEX_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PEX(target))
{
continue;
}
#endif
/* If the target attribute is the same as the boot device attribute */
/* then it's stays disable */
if (MV_TARGET_IS_AS_BOOT(target))
{
continue;
}
if((0 == cpuAddrWinMap[target].addrWin.size) ||
(DIS == cpuAddrWinMap[target].enable))
{
if (MV_OK != mvCpuIfTargetWinEnable(target, MV_FALSE))
{
DB(mvOsPrintf("mvCpuIfInit:ERR. mvCpuIfTargetWinEnable fail\n"));
return MV_ERROR;
}
}
else
{
if (MV_OK != mvCpuIfTargetWinSet(target, &cpuAddrWinMap[target]))
{
DB(mvOsPrintf("mvCpuIfInit:ERR. mvCpuIfTargetWinSet fail\n"));
return MV_ERROR;
}
addrWin.baseLow = cpuAddrWinMap[target].addrWin.baseLow;
addrWin.baseHigh = cpuAddrWinMap[target].addrWin.baseHigh;
if (0xffffffff == mvAhbToMbusWinRemap(cpuAddrWinMap[target].winNum ,&addrWin))
{
DB(mvOsPrintf("mvCpuIfInit:WARN. mvAhbToMbusWinRemap can't remap winNum=%d\n",
cpuAddrWinMap[target].winNum));
}
}
}
#ifdef MV_INCLUDE_PEX
mvCpuIfEnablePex();
#endif
#ifdef MV_INCLUDE_PMU
mvCpuIfEnablePmu();
#endif
return MV_OK;
}
/*******************************************************************************
* mvCpuIfInit - Initialize Controller CPU interface
*
* DESCRIPTION:
* This function initialize Controller CPU interface:
* 1. Set CPU interface configuration registers.
* 2. Set CPU master Pizza arbiter control according to static
* configuration described in configuration file.
* 3. Opens CPU address decode windows. DRAM windows are assumed to be
* already set (auto detection).
*
* INPUT:
* None.
*
* OUTPUT:
* None.
*
* RETURN:
* None.
*
*******************************************************************************/
MV_STATUS mvCpuIfInit(MV_CPU_DEC_WIN *cpuAddrWinMap)
{
MV_U32 regVal;
MV_TARGET target;
MV_ADDR_WIN addrWin;
if (cpuAddrWinMap == NULL)
{
DB(mvOsPrintf("mvCpuIfInit:ERR. cpuAddrWinMap == NULL\n"));
return MV_ERROR;
}
/*Initialize the boot target array according to device type*/
if(mvCtrlModelGet() == MV_6180_DEV_ID || mvCtrlModelGet() == MV_6280_DEV_ID)
sampleAtResetTargetArray = sampleAtResetTargetArray6180P;
else
sampleAtResetTargetArray = sampleAtResetTargetArrayP;
/* Set ARM Configuration register */
regVal = MV_REG_READ(CPU_CONFIG_REG);
regVal &= ~CPU_CONFIG_DEFAULT_MASK;
regVal |= CPU_CONFIG_DEFAULT;
MV_REG_WRITE(CPU_CONFIG_REG,regVal);
/* First disable all CPU target windows */
for (target = 0; cpuAddrWinMap[target].enable != TBL_TERM; target++)
{
if ((MV_TARGET_IS_DRAM(target))||(target == INTER_REGS))
{
continue;
}
#if defined(MV_MEM_OVER_PCI_WA) || defined(MV_UART_OVER_PCI_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PCI(target))
{
continue;
}
#endif
#if defined(MV_MEM_OVER_PEX_WA) || defined(MV_UART_OVER_PEX_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PEX(target))
{
continue;
}
#endif
#if defined(MV_RUN_FROM_FLASH)
/* Don't disable the boot device. */
if (target == DEV_BOOCS)
{
continue;
}
#endif /* MV_RUN_FROM_FLASH */
/* Only MV88F6282 have 2 PCIe interfaces */
if((mvCtrlModelGet() != MV_6282_DEV_ID) && MV_TARGET_IS_PEX1(target))
continue;
mvCpuIfTargetWinEnable(MV_CHANGE_BOOT_CS(target),MV_FALSE);
}
#if defined(MV_RUN_FROM_FLASH)
/* Resize the bootcs windows before other windows, because this */
/* window is enabled and will cause an overlap if not resized. */
target = DEV_BOOCS;
if (MV_OK != mvCpuIfTargetWinSet(target, &cpuAddrWinMap[target]))
{
DB(mvOsPrintf("mvCpuIfInit:ERR. mvCpuIfTargetWinSet fail\n"));
return MV_ERROR;
}
addrWin.baseLow = cpuAddrWinMap[target].addrWin.baseLow;
addrWin.baseHigh = cpuAddrWinMap[target].addrWin.baseHigh;
if (0xffffffff == mvAhbToMbusWinRemap(cpuAddrWinMap[target].winNum ,&addrWin))
{
DB(mvOsPrintf("mvCpuIfInit:WARN. mvAhbToMbusWinRemap can't remap winNum=%d\n",
cpuAddrWinMap[target].winNum));
}
#endif /* MV_RUN_FROM_FLASH */
/* Go through all targets in user table until table terminator */
for (target = 0; cpuAddrWinMap[target].enable != TBL_TERM; target++)
{
#if defined(MV_RUN_FROM_FLASH)
if (target == DEV_BOOCS)
{
continue;
}
#endif /* MV_RUN_FROM_FLASH */
/* if DRAM auto sizing is used do not initialized DRAM target windows, */
/* assuming this already has been done earlier. */
#ifdef MV_DRAM_AUTO_SIZE
if (MV_TARGET_IS_DRAM(target))
{
continue;
}
#endif
#if defined(MV_MEM_OVER_PCI_WA) || defined(MV_UART_OVER_PCI_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PCI(target))
{
continue;
}
#endif
#if defined(MV_MEM_OVER_PEX_WA) || defined(MV_UART_OVER_PEX_WA)
/* If the target PEX or PCI and memory is over PEX or PCI we don't touch this CPU windows */
if (MV_TARGET_IS_PEX(target))
{
continue;
}
#endif
/* If the target attribute is the same as the boot device attribute */
/* then it's stays disable */
if (MV_TARGET_IS_AS_BOOT(target))
{
continue;
}
/* Only MV88F6282 have 2 PCIe interfaces */
if((mvCtrlModelGet() != MV_6282_DEV_ID) && MV_TARGET_IS_PEX1(target))
continue;
if((0 == cpuAddrWinMap[target].addrWin.size) ||
(DIS == cpuAddrWinMap[target].enable))
{
if (MV_OK != mvCpuIfTargetWinEnable(target, MV_FALSE))
{
DB(mvOsPrintf("mvCpuIfInit:ERR. mvCpuIfTargetWinEnable fail\n"));
return MV_ERROR;
}
}
else
{
if (MV_OK != mvCpuIfTargetWinSet(target, &cpuAddrWinMap[target]))
{
DB(mvOsPrintf("mvCpuIfInit:ERR. mvCpuIfTargetWinSet fail\n"));
return MV_ERROR;
}
addrWin.baseLow = cpuAddrWinMap[target].addrWin.baseLow;
addrWin.baseHigh = cpuAddrWinMap[target].addrWin.baseHigh;
if (0xffffffff == mvAhbToMbusWinRemap(cpuAddrWinMap[target].winNum ,&addrWin))
{
DB(mvOsPrintf("mvCpuIfInit:WARN. mvAhbToMbusWinRemap can't remap winNum=%d\n",
cpuAddrWinMap[target].winNum));
}
}
}
return MV_OK;
}
