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gfiber / uboot / armada / 0277985b8271863728d10fbe22307b8a827d1a37 / . / tools / marvell / bin_hdr / src_ddr / ddr3libv2 / src / Soc / ddr3_msys_bobk_training.c
blob: 9d3cc9e005b3b267a07431d78707f4d0578e6c9f [file] [log] [blame]
/*******************************************************************************
* Copyright 2001, Marvell International Ltd.
* This code contains confidential information of Marvell semiconductor, inc.
* no rights are granted herein under any patent, mask work right or copyright
* of Marvell or any third party.
* Marvell reserves the right at its sole discretion to request that this code
* be immediately returned to Marvell. This code is provided "as is".
* Marvell makes no warranties, express, implied or otherwise, regarding its
* accuracy, completeness or performance.
********************************************************************************
* ddr3_msys_training.c
*
* DESCRIPTION:
*
*
* DEPENDENCIES:
*
* FILE REVISION NUMBER:
* $Revision: 1 $
***************************************************************************/
#include "mv_os.h"
#include "ddr3_msys_bobk.h"
#include "ddr3_msys_bobk_config.h"
#include "ddr3_hws_sil_training.h"
#include "mvSiliconIf.h"
#include "mvDdr3TrainingIpPrvIf.h"
#include "mvHwsDdr3BobK.h"
#include "printf.h"
/************************** globals ***************************************/
extern MV_SERVER_REG_ACCESS_SET hwsServerRegSetFuncPtr;
extern MV_SERVER_REG_ACCESS_GET hwsServerRegGetFuncPtr;
GT_U32 serverBaseAddr = 0;
/* the following global variables are set in ddr3TipDynamicReadLeveling */
extern GT_U32 genericInitController;
extern GT_U32 debugBobK;
/************************** pre-declarations ******************************/
GT_STATUS ddr3DunitAccessRead
(
GT_U8 devNum,
MV_HWS_ACCESS_TYPE interfaceAccess,
GT_U32 interfaceId,
GT_U32 regAddr,
GT_U32 *data,
GT_U32 mask
);
GT_STATUS ddr3DunitAccessWrite
(
GT_U8 devNum,
MV_HWS_ACCESS_TYPE interfaceAccess,
GT_U32 interfaceId,
GT_U32 regAddr,
GT_U32 dataValue,
GT_U32 mask
);
GT_STATUS ddr3DunitAccessInit
(
GT_U32 devNum,
GT_U32 boardId
);
MV_VOID configureServerWindows(void);
extern GT_STATUS ddr3TipBobKGetFreqConfig
(
GT_U8 devNum,
MV_HWS_DDR_FREQ freq,
MV_HWS_TIP_FREQ_CONFIG_INFO *freqConfigInfo
);
extern GT_STATUS ddr3TipBobKSetDivider
(
GT_U8 devNum,
GT_U32 interfaceId,
MV_HWS_DDR_FREQ freq
);
extern GT_STATUS ddr3TipInitBobKSilicon
(
GT_U32 devNum,
GT_U32 boardId
);
extern GT_STATUS ddr3TipBobKGetInitFreq
(
GT_STATUS devNum,
GT_U32 interfaceId,
MV_HWS_DDR_FREQ *freq
);
GT_STATUS ddr3TipBobKSelectCPUDdrController
(
GT_U8 devNum,
GT_BOOL enable
);
/***************************************************************************/
/******************************************************************************
* Name: serverRegSet.
* Desc: definition of server write prototype
* Args: TBD
* Notes:
* Returns: OK if success, other error code if fail.
*/
GT_STATUS serverRegSet
(
GT_U8 devNum,
GT_U32 addr,
GT_U32 data
)
{
if(serverBaseAddr == 0) {
mvPrintf("Server windows were not initialized\n", 0);
return GT_NOT_INITIALIZED;
}
*((volatile unsigned int*)(serverBaseAddr+addr)) = data;
//mvPrintf("serverRegSet 0x%x =0x%x\n",addr,data);
return GT_OK;
}
/******************************************************************************
* Name: serverRegGet.
* Desc: definition of server read prototype
* Args: TBD
* Notes:
* Returns: OK if success, other error code if fail.
*/
GT_STATUS serverRegGet
(
GT_U8 devNum,
GT_U32 addr,
GT_U32 *data
)
{
if(serverBaseAddr == 0) {
mvPrintf("Server windows were not initialized\n", 0);
return GT_NOT_INITIALIZED;
}
*data = (*((volatile unsigned int*)(serverBaseAddr+addr)));
//mvPrintf("serverRegGet 0x%x =0x%x\n",addr,*data);
return GT_OK;
}
MV_STATUS ddr3SiliconPreInit(void)
{
MV_STATUS status;
MV_U8 devNum = 0;
/* initialize window to server */
configureServerWindows();
if (ddr3GetSdramAssignment(devNum) == TM_EN) {
mvPrintf("Error: DDR3 interface is used by Traffic Manager\n", 0);
return MV_FAIL;
}
#if 0
MV_U32 uiReg;
/* set dupicate CS configuration */
serverRegGet(0, 0xf8288, &uiReg);
uiReg |= (1 << 17);
serverRegSet(0, 0xf8288, uiReg);
#endif
status = ddr3SiliconInit();
if (MV_OK != status) {
mvPrintf("DDR3 silicon init - FAILED 0x%x\n", status);
return status;
}
return MV_OK;
}
MV_STATUS ddr3SiliconPostInit(void)
{
return MV_OK;
}
/******************************************************************************
* Name: ddr3TipInitSilicon
* Desc: initiate silicon parameters
* Args:
* Notes:
* Returns: required value
*/
MV_STATUS ddr3SiliconInit(void) {
MV_STATUS status;
genericInitController = 1;
status = ddr3TipInitBobK(0, 0);
if (MV_OK != status) {
mvPrintf("DDR3 Msys silicon init - FAILED 0x%x\n", status);
return status;
}
return MV_OK;
}
MV_STATUS ddr3PostRunAlg(void)
{
MV_U32 readDelay[5];
GT_U32 gReadSampleDelay = 0x19191919;
GT_U32 gReadReadyDelay = 0x19191919;
CHECK_STATUS(mvHwsDdr3TipIFRead(0, ACCESS_TYPE_UNICAST, 4, REG_READ_DATA_SAMPLE_DELAYS_ADDR,
readDelay, MASK_ALL_BITS));
gReadSampleDelay = readDelay[4];
CHECK_STATUS(mvHwsDdr3TipIFRead(0, ACCESS_TYPE_UNICAST, 4, REG_READ_DATA_READY_DELAYS_ADDR,
readDelay, MASK_ALL_BITS));
gReadReadyDelay = readDelay[4];
CHECK_STATUS(ddr3TipBobKSelectCPUDdrController(0, GT_FALSE)); // set mux to msys
MV_REG_WRITE(REG_READ_DATA_SAMPLE_DELAYS_ADDR, gReadSampleDelay);
MV_REG_WRITE(REG_READ_DATA_READY_DELAYS_ADDR, gReadReadyDelay);
return MV_OK;
}
/********************************************/
/*********** Msys D-Unit Access **********/
/********************************************/
GT_STATUS ddr3DunitAccessWrite
(
GT_U8 devNum,
MV_HWS_ACCESS_TYPE interfaceAccess,
GT_U32 interfaceId,
GT_U32 regAddr,
GT_U32 dataValue,
GT_U32 mask
)
{
GT_U32 uiDataRead;
GT_U32 dataRead[MAX_INTERFACE_NUM];
#ifdef WIN32
mvPrintf(DEBUG_LEVEL_TRACE,"ddr3DunitAccessWrite 0x%x: 0x%x (mask 0x%x)\n", regAddr, dataValue);
return GT_OK;
#endif
if (mask != MASK_ALL_BITS)
{
if (debugBobK >= 2)
{
mvPrintf("ddr3DunitAccessWrite active interface = %d\n",interfaceId);
}
CHECK_STATUS(ddr3DunitAccessRead(devNum, ACCESS_TYPE_UNICAST,interfaceId, regAddr, dataRead, MASK_ALL_BITS));
uiDataRead = dataRead[interfaceId];
dataValue = (uiDataRead & (~mask)) | (dataValue & mask);
}
if (debugBobK >= 1)
{
mvPrintf("0x%x: 0x%x\n", regAddr, dataValue);
}
MV_REG_WRITE(regAddr, dataValue);
return GT_OK;
}
GT_STATUS ddr3DunitAccessRead
(
GT_U8 devNum,
MV_HWS_ACCESS_TYPE interfaceAccess,
GT_U32 interfaceId,
GT_U32 regAddr,
GT_U32 *data,
GT_U32 mask
)
{
#ifdef WIN32
mvPrintf("ddr3DunitAccessRead 0x%x: 0x%x (mask 0x%x)\n", regAddr, *data);
return GT_OK;
#endif
data[interfaceId] = MV_REG_READ(regAddr) & mask;
return GT_OK;
}
GT_STATUS ddr3DunitAccessInit
(
GT_U32 devNum,
GT_U32 boardId
)
{
MV_HWS_TIP_CONFIG_FUNC_DB configFunc;
configFunc.tipDunitReadFunc = ddr3DunitAccessRead;
configFunc.tipDunitWriteFunc = ddr3DunitAccessWrite;
configFunc.tipDunitMuxSelectFunc = ddr3TipBobKSelectCPUDdrController;
configFunc.tipSetFreqDividerFunc = ddr3TipBobKSetDivider;
configFunc.tipGetFreqConfigInfoFunc = ddr3TipBobKGetFreqConfig;
mvHwsDdr3TipInitConfigFunc(devNum, &configFunc);
return GT_OK;
}
MV_VOID configureServerWindows(void)
{
static MV_BOOL configDone = MV_FALSE;
if(configDone == MV_TRUE)
return;
MV_REG_WRITE(REG_XBAR_WIN_5_CTRL_ADDR, 0xF0081);
serverBaseAddr = MV_REG_READ(REG_XBAR_WIN_5_BASE_ADDR);
/* init server access */
hwsServerRegSetFuncPtr = serverRegSet;
hwsServerRegGetFuncPtr = serverRegGet;
configDone = MV_TRUE;
}
/*****************************************************************************/
GT_U32 ddr3TipGetInitFreq()
{
MV_HWS_DDR_FREQ freq;
configureServerWindows();
ddr3TipBobKGetInitFreq(0, 0, &freq); /* In BobK interface 0 is the CPU interface*/
return freq;
}