flash_cfi.c
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/*****************************************************************************
* Copyright Statement:
* --------------------
* This software is protected by Copyright and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2005
*
* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
* OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
* MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
*
* THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
* WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
* LAWS PRINCIPLES. ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
* RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*****************************************************************************
*
* Filename:
* ---------
* flash_cfi.c
*
* Project:
* --------
* MAUI
*
* Description:
* ------------
* This module implements Common Flash Interface Query for NOR Flash Memory.
*
* Author:
* -------
* -------
*
*============================================================================
* HISTORY
* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
*------------------------------------------------------------------------------
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*------------------------------------------------------------------------------
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*============================================================================
****************************************************************************/
#include "kal_release.h"
#include "flash_opt.h"
#include "flash_cfi_internal.h"
#include "flash_cfi.h"
#include "flash_sf.h"
#include "custom_MemoryDevice.h"
#if !defined(__UBL__) && ((defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__)) || (defined(__NOR_CFI_SUPPORT__) && defined(__MTK_TARGET__) && !defined(_NAND_FLASH_BOOTING_) && !defined(__FS_SYSDRV_ON_NAND__)) ) && !defined(__SERIAL_FLASH_EN__) //SF not build CFI
#include "fat_fs.h"
#include "drvflash.h"
#include "kal_trace.h"
#include "kal_debug.h"
#define __NOR_CFI_PRINT__
// #define __NOR_CFI_DEBUG__
extern void DelayAWhile_UST(kal_uint32 delay);
extern kal_uint32 PAGE_BUFFER_SIZE;
//-----------------------------------------------------------------------------
// Message Array Entry
//-----------------------------------------------------------------------------
// Entry Structure
typedef struct tCFIStr {
kal_uint16 id;
const char *msg;
} TCFIStr;
// End of Debug Message (pivot)
#define CFI_END 0x1234
//-----------------------------------------------------------------------------
// Message: Algorithm Type
//-----------------------------------------------------------------------------
TCFIStr str_alg_type[] = {
{CFI_ALG_NONE, "(None)"},
{CFI_ALG_IntelSharpExt, "Intel/Sharp Extended"},
{CFI_ALG_AMDFujitsu, "AMD/Fujitsu Standard"},
{CFI_ALG_Intel, "Intel Standard"},
{CFI_ALG_AMDFujitsuExt, "AMD/Fujitsu Extended"},
{CFI_ALG_Winbond, "Winbond Standard"},
{CFI_ALG_Mitsubishi, "Mistubishi Standard"},
{CFI_ALG_MitsubishiExt, "Mistubishi Extended"},
{CFI_ALG_SST, "SST Page Write"},
{CFI_ALG_Intel_Perform, "Intel Performance Code"},
{CFI_ALG_Intel_Data, "Intel Data Command"},
{CFI_ALG_NA, "(Not Allowed)"},
{CFI_END,"Unknown"}
};
//-----------------------------------------------------------------------------
// Message: Device Interface
//-----------------------------------------------------------------------------
TCFIStr str_dev_int[] = {
{CFI_INT_X8, "x8-only asynchronous"},
{CFI_INT_X16, "x16-only asynchronous"},
{CFI_INT_X8X16, "Supports x8/x16 via BYTE# with asynchronous interface"},
{CFI_INT_X32, "x32-only asynchronous interface"},
{CFI_INT_X16X32, "Supports x16/x32 via WORD# with asynchronous interface"},
{CFI_INT_NA, "(Not Allowed)"},
{CFI_END, "Unknown"}
};
//-----------------------------------------------------------------------------
// Message: CFI Check Results
//-----------------------------------------------------------------------------
TCFIStr str_cfi_err[]={
{CFIErr_NoError, "Pass. Please manually check the device ID."},
{CFIErr_FATBeginUnalign, "FAT base address is not on block boundary"},
{CFIErr_FATEndUnalign, "FAT end address is not on block boundary"},
{CFIErr_FATSizeExceed, "FAT end address exceeds Flash size"},
{CFIErr_ProgBufExceed, "Wrong Buffer program length"},
{CFIErr_RegionInfoError, "RegionInfo[%d] is wrong (Block #%d)"},
{CFIErr_RegionInfoBlkCnt, "RegionInfo[%d] block count is wrong, should be %d"},
{CFIErr_RegionInfoBlkSize, "RegionInfo[%d] block size is wrong, should be 0x%x"},
{CFIErr_BankInfoBnkCnt, "BankInfo[%d] bank count is wrong, should be %d"},
{CFIErr_BankInfoBnkSize, "BankInfo[%d] bank size is wrong, should be 0x%x"},
{CFIErr_NotAvailable, "The device does not support CFI. Please manually check the device ID."}
};
//-----------------------------------------------------------------------------
// External Functions / Predefines
//-----------------------------------------------------------------------------
extern kal_uint32 SaveAndSetIRQMask( void );
extern void RestoreIRQMask(kal_uint32 irq);
extern kal_uint32 INT_DisableDataCache(void);
extern void INT_RestoreDataCache(kal_uint32 dc);
extern kal_uint32 custom_get_NORFLASH_Base(void); // custom_flash.c
extern kal_uint32 custom_get_fat_addr(void); // custom_flash.c
// FDM 4.0
#ifndef __NOR_FDM5__
static NOR_Flash_MTD_Data *cfi_mtd_data; // flash_cfi.c
extern kal_mutexid fdm_reclaim_mutex; // drvflash.c
extern NOR_FLASH_DRV_Data FlashDriveData; // custom_flash.c (FDM40)
extern const kal_char FLASH_ID[]; // custom_flash.c (!NFB)
extern void *MapWindow(void * DriveData, kal_uint32 BlockIndex, kal_uint32 WindowIndex); // flash_mtd.c
extern void WaitEraseDone(NOR_FLASH_DRV_Data * D, kal_uint32 frame_tick); // drvflash.c
#endif
// ROM
extern kal_uint32 custom_get_NORFLASH_ROMSpace(void);
extern kal_uint32 custom_get_NORFLASH_Size(void);
// FAT
extern kal_uint32 custom_get_fat_len(void);
extern kal_uint32 custom_get_fat_addr(void);
#define SWAP(x,y) {kal_uint32 z; z=x; x=y; y=z; }
//-----------------------------------------------------------------------------
// Internal Functions / Predefines
//-----------------------------------------------------------------------------
const char *CFI_Msg(kal_uint16 id, TCFIStr *str_list);
kal_uint32 cfi_block_size(MEM_DEV_CFI_T *CFIInfo, kal_uint32 address);
kal_uint32 cfi_bank_size(MEM_DEV_CFI_T *CFIInfo, kal_uint32 address);
kal_int32 CFI_ReadID(volatile FLASH_CELL *BaseAddr, MEM_DEV_CFI_T *CFIInfo);
void CFI_ConstructFATGeoInfo(MEM_DEV_CFI_T *CFIInfo);
kal_uint32 CFI_IsBlockBoundary(MEM_DEV_CFI_T *CFIInfo, kal_uint32 BlockAddr, kal_uint32 BlockSize);
kal_int32 CFI_QueryBankInfoAMD(volatile FLASH_CELL *BaseAddr, kal_uint16 PriExtAddr, MEM_DEV_CFI_T *CFIInfo);
kal_int32 CFI_QueryBankInfoNumonyx(volatile FLASH_CELL *BaseAddr, kal_uint16 PriExtAddr, MEM_DEV_CFI_T *CFIInfo);
#if defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && defined(__MTK_TARGET__)
#pragma arm section code = "SNORCODE"
#endif
//-----------------------------------------------------------------------------
/*!
@brief
Get last error message string
@param[in] CFIInfo The pointer to the CFI info structure
@param[out] str The pointer to the output string buffer
@param[in] len The length of the output string buffer
@retval
NULL: if the string buffer is out of space.
@remarks
This function should be only invoked after CFI_CheckSettings()
*/
char *CFI_GetErrorMessage(MEM_DEV_CFI_T *CFIInfo, char *str, int len)
{
if (str!=NULL) {
sprintf(str, CFI_Msg(CFIInfo->CheckResults, str_cfi_err), CFIInfo->CheckData1, CFIInfo->CheckData2);
if (len<strlen(str)) {
str[0]=0;
return NULL;
}
}
return str;
}
const char *CFI_GetCommandSetName(kal_uint16 id)
{
return CFI_Msg(id, str_alg_type);
}
//-----------------------------------------------------------------------------
/*!
@brief
(DEBUG) Output debug message to console
@param[in] fmt format string
@param[in] ... variable argument list
@retval
Always 0
@remarks
Debug only, don't use.
*/
static kal_char cfi_buf[CFI_TEXT_BUFF_SIZE];
void CFI_Error(const char *fmt, ...)
{
const char *prefix="[CFI] ";
va_list args;
kal_sprintf((char *)(&cfi_buf[0]),prefix);
va_start(args, fmt);
vsprintf((char *)(&cfi_buf[strlen(prefix)]), fmt, args);
#if ( defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__) )
kal_print((char *)(&cfi_buf[0])); // Basic load
#else
if (KAL_TRUE == kal_query_systemInit()) {
kal_bootup_print((char *)(&cfi_buf[0])); // Bootup
}
else {
tst_sys_trace((kal_uint8 *)(&cfi_buf[0])); // Default
}
#endif
return;
}
#ifdef __NOR_CFI_DEBUG__
#define CFI_Debug CFI_Error
#else
#define CFI_Debug(...)
#endif
#ifdef __NOR_CFI_PRINT__
#define CFI_Print CFI_Error
#else
#define CFI_Print(...)
#endif
//-----------------------------------------------------------------------------
// Debug message output facility in Basic Load
//-----------------------------------------------------------------------------
#if ( defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__) )
#define CFI_TEST_LIMIT 1000000
kal_uint32 CFI_Access_Counter, CFI_Check_Counter;
extern void triggerTestIRQ(void); // defined in flash_mtd.amd.c
extern kal_uint8 PLTestOption; // 2: CFI Stress 3: CFI Power loss
extern void NORTEST_Reset(void);
extern char text[100];
extern kal_uint32 ResetTimeout; // defined in nortest.c
extern kal_uint8 RandomNum; // defined in nortest.c
#if (defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && defined(__CFI_STRESS__))
#define BLTest(Num) \
{\
if (RandomNum == Num) {\
if (PLTestOption==0) { \
RandomNum = (RandomNum+1) % 5;\
triggerTestIRQ();\
} \
else { \
if (ResetTimeout==0) {\
if (RandomNum & 0x01) { \
NORTEST_Reset();\
} else { \
triggerTestIRQ();\
} \
} else {\
ResetTimeout--;\
RandomNum = (RandomNum+1) % 5;\
triggerTestIRQ();\
}\
}\
}\
}
#else // defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && defined(__CFI_STRESS__)
#define BLTest(...)
#endif // defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && defined(__CFI_STRESS__)
#else // ( defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__) )
#define BLTest(...)
#endif // ( defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__) )
//-----------------------------------------------------------------------------
/*!
@brief
(DEBUG) Get strings from message array by mesage id
@param[in] id Message ID
@param[in] str_list Message list
@retval
const string pointer to the correspond messagee
@remarks
Debug only, don't use.
*/
const char *CFI_Msg(kal_uint16 id, TCFIStr *str_list)
{
kal_uint16 i; // iterator
for (i=0 ; i<0xFFFE ; i++) {
if ((str_list[i].id == id) ||
(str_list[i].id == CFI_END)) {
break;
}
}
return str_list[i].msg;
}
//-----------------------------------------------------------------------------
/*!
@brief
Output GeometryInfo to console
*/
void CFI_DumpGeo(MEM_DEV_GEOMETRY_T *info, const char *name)
{
kal_uint16 i;
if (name!=NULL) {
CFI_Print(" %s[] = { ", name);
}
else {
CFI_Print(" RegionInfo[] = { ");
}
for (i=0; info[i].Size !=0 && i<CFI_REGIONINFO_SIZE; i++) {
CFI_Print(" {0x%x, 0x%x}, ", info[i].Size, info[i].Count);
}
CFI_Print(" {0x%x, 0x%x} };", info[i].Size, info[i].Count);
}
//-----------------------------------------------------------------------------
/*!
@brief
Output BlockInfo to console
*/
void CFI_DumpBlk(MEM_DEV_BLOCK_T *info, const char *name)
{
kal_uint16 i;
if (name!=NULL) {
CFI_Print(" %s[] = { ", name);
}
else {
CFI_Print(" BlockInfo[] = { ");
}
for (i=0; info[i].Size !=0 && i<CFI_BLOCKINFO_SIZE; i++) {
CFI_Print(" {0x%x, 0x%x}, ", info[i].Offset, info[i].Size);
}
CFI_Print(" {0x%x, 0x%x} };", info[i].Offset, info[i].Size);
}
//-----------------------------------------------------------------------------
/*!
@brief
Output all information to console
*/
void CFI_DumpInfo(MEM_DEV_CFI_T *CFIInfo)
{
CFI_Print("NOR Flash ID = { 0x%04X, 0x%04X, 0x%04X, 0x%04X }",
CFIInfo->FlashID[0], CFIInfo->FlashID[1],
CFIInfo->FlashID[2], CFIInfo->FlashID[3]);
CFI_Print("ProgramBufferSize: %d Bytes", CFIInfo->ProgramBufferSize);
CFI_Print("<The geometry of entire Flash>");
// Basic Info
CFI_Print("Number of entries in RegionInfo[]: %d", CFIInfo->RegionCount);
CFI_Print("Number of entries in BankInfo[]: %d", CFIInfo->BankCount);
CFI_Print("Total Blocks: %d", CFIInfo->TotalBlocks);
// Region Info
CFI_DumpGeo(CFIInfo->RegionInfo, "CFI_RegionInfo");
// Block Info
CFI_DumpBlk(CFIInfo->BlockInfo, "CFI_BlockInfo");
// Bank Info
CFI_DumpGeo(CFIInfo->BankInfo, "CFI_BankInfo");
CFI_Print("<The geometry start from FAT base address %08X>", custom_get_fat_addr());
// FAT Region Info
CFI_DumpGeo(CFIInfo->FAT_RegionInfo, "FAT_RegionInfo");
// FAT Bank Info
CFI_DumpGeo(CFIInfo->FAT_BankInfo, "FAT_BankInfo");
return;
}
//-----------------------------------------------------------------------------
/*!
@brief
Get FDM Lock
*/
void CFI_FDMLockRetrieve(void)
{
#if defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && !defined(__NOR_FDM5__)
extern void GetFDMLock(void);
if (fdm_reclaim_mutex==KAL_NILMUTEX_ID) {
MapWindow(FlashDriveData.MTDData, 0, 0);
return;
}
GetFDMLock();
#elif defined(__NOR_FDM5__)
extern void nFDM_LOCK(void);
nFDM_LOCK();
#else
extern void FDM_LOCK(void);
if (fdm_reclaim_mutex==KAL_NILMUTEX_ID) {
MapWindow(FlashDriveData.MTDData, 0, 0);
return;
}
FDM_LOCK();
#endif
return;
}
//-----------------------------------------------------------------------------
/*!
@brief
Relase FDM Lock
*/
void CFI_FDMLockRelease(void)
{
#if defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && !defined(__NOR_FDM5__)
extern void FreeFDMLock(void);
if (fdm_reclaim_mutex==KAL_NILMUTEX_ID) return;
FreeFDMLock();
#elif defined(__NOR_FDM5__)
extern void nFDM_UNLOCK(void);
nFDM_UNLOCK();
#else
extern void FDM_UNLOCK(void);
if (fdm_reclaim_mutex==KAL_NILMUTEX_ID) return;
FDM_UNLOCK();
#endif
return;
}
//-----------------------------------------------------------------------------
/*!
@brief
Wait Erase operation done
*/
void CFI_WaitEraseDone(void)
{
#if (defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) || defined(__NOR_FDM5__))
return;
#else // !__SINGLE_BANK_NOR_FLASH_SUPPORT__ && __NOR_FDM4__
//#define INVALID_BLOCK_INDEX 0xFFFFFFFF
if( FlashDriveData.ReclaimBlockID != 0xFFFFFFFF )
{
WaitEraseDone(&FlashDriveData, 70);
}
#endif
}
//-----------------------------------------------------------------------------
/*!
@brief
Read NOR Flash / Serial Flash ID
@param[in] BaseAddr Pointer to the Flash base address
@param[in] CFIInfo Pointer to output CFIInfo
@retval
CFI query results on given offset.
*/
kal_int32 CFI_ReadID(volatile FLASH_CELL *BaseAddr, MEM_DEV_CFI_T *CFIInfo)
{
kal_mem_set(CFIInfo->FlashID, 0, CFI_FLASH_ID_LENGTH);
if (KAL_TRUE != kal_query_systemInit()) {
CFI_FDMLockRetrieve();
CFI_WaitEraseDone();
}
NOR_ReadID(0, BaseAddr, CFIInfo->FlashID);
if (KAL_TRUE != kal_query_systemInit()) {
CFI_FDMLockRelease();
}
return CFIInfo->FlashID[0];
}
//-----------------------------------------------------------------------------
/*!
@brief
Output BlockInfo to console
@param[in] BaseAddr Pointer to the NOR Flash memory base address
@param[in] offset Query offset
@param[in] length Query length
@retval
CFI query results on given offset.
*/
kal_int32 CFI_Query(volatile FLASH_CELL *BaseAddr, kal_uint16 offset, kal_uint8 length)
{
kal_uint32 savedMask;
kal_uint32 data_cache_id;
kal_uint32 result=0;
kal_uint8 *buf=(kal_uint8*)(&result);
kal_uint8 i;
volatile FLASH_CELL *fp = (volatile FLASH_CELL*)(BaseAddr+offset);
if (KAL_TRUE != kal_query_systemInit()) {
CFI_FDMLockRetrieve();
CFI_WaitEraseDone();
}
// Note: Request FDM lock before it was initiailized will case fatal errors.
savedMask = SaveAndSetIRQMask();
data_cache_id = INT_DisableDataCache();
*(BaseAddr+CFI_CMD_ADDR) = CFI_CMD_ENTR;
BLTest(1); // CFI: Powerloss Test
for (i=0 ; i < 4 && i < length; i++) {
buf[i]=fp[i];
}
*(BaseAddr) = CFI_CMD_EXIT1;
*(BaseAddr) = CFI_CMD_EXIT2;
INT_RestoreDataCache(data_cache_id);
RestoreIRQMask(savedMask);
if (KAL_TRUE != kal_query_systemInit()) {
CFI_FDMLockRelease();
}
BLTest(0); // Interrupt Test
return result;
}
#if defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && defined(__MTK_TARGET__)
#pragma arm section code
#endif
//-----------------------------------------------------------------------------
/*!
@brief
Query CFI Geometry, and the results will be filled into a CFI info structure
defined in flash_cfi.h. The caller must pass a pointer to an allocated CFI info.
@param[in] BaseAddr Pointer to the NOR Flash memory base address
@param[out] CFIInfo Pointer to the CFI info
@retval
Number of regions
@remarks
This function update CFI_RegionInfo and call sub-query functions by vendor ID,
and the CFI_BankInfo will be updated in sub-query.
*/
kal_int32 CFI_QueryGeometry(volatile FLASH_CELL *BaseAddr, MEM_DEV_CFI_T *CFIInfo)
{
kal_uint32 tmp;
kal_uint16 PriExtAddr;
kal_uint16 prialg;
// kal_uint16 extver;
kal_uint8 i;
#if ( defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__) )
CFI_Access_Counter++;
if (CFI_Access_Counter%1000==0) {
CFI_Error("==== #%d Query / #%d Checks ==== ", CFI_Access_Counter, CFI_Check_Counter);
}
if (CFI_Access_Counter==CFI_TEST_LIMIT) {
CFI_Error("========== CFI Stress Test Finished, There was no errors ========== ");
while(1);
}
#endif
// Clear CFI Info
kal_mem_set(CFIInfo, 0, sizeof(MEM_DEV_CFI_T));
// Query ADMUX NOR Flash ID
CFI_ReadID(BaseAddr, CFIInfo);
CFI_Print("NOR Flash ID = { 0x%04X, 0x%04X, 0x%04X, 0x%04X }",
CFIInfo->FlashID[0], CFIInfo->FlashID[1],
CFIInfo->FlashID[2], CFIInfo->FlashID[3]);
//-------------------------------------------------------------------------
// Part 1: CFI Standard Query (for RegionInfo)
//-------------------------------------------------------------------------
tmp=CFI_QRY$;
if (CFI_QRYSTR != tmp) {
CFI_Print("[10h] Unknow Identify String %08X, expected: %08X, Vendor Specific Query Aborted.", tmp, CFI_QRYSTR);
CFIInfo->CheckResults=CFIErr_NotAvailable;
return 0;
}
// Query Primary Algorithm
CFIInfo->CommandSet = CFI_PRIALG$;
// Query Region Count 0x2C
CFIInfo->RegionCount = CFI_REGCNT$;
CFIInfo->TotalBlocks = 0;
// Query Region Info 0x2D
for (i=0; i<CFIInfo->RegionCount; i++) {
CFIInfo->RegionInfo[i].Count = CFI_Query(BaseAddr, CFI_REGINF + i*4 , 2) + 1;
CFIInfo->RegionInfo[i].Size = CFI_Query(BaseAddr, CFI_REGINF + i*4 + 2, 2) << 8;
CFIInfo->TotalBlocks += CFIInfo->RegionInfo[i].Count;
}
CFIInfo->RegionInfo[i].Count=0;
CFIInfo->RegionInfo[i].Size=0;
// Query Flash Density (Size) in bytes
CFIInfo->Size = CFI_EXP2(CFI_SIZE$);
// Query Page Buffer size 0x2A, the unit of query result is in exponetial of 2 (bytes)
CFIInfo->ProgramBufferSize = CFI_EXP2(CFI_WBSIZE$);
//-------------------------------------------------------------------------
// Part 2: CFI Primary Vendor-Specific Query (for BankInfo)
//-------------------------------------------------------------------------
// Query primary algorithm
prialg = CFI_PRIALG$;
// Query primary algorithm extension address
// Note: the base addr must not be modified
PriExtAddr = CFI_PRIEXT$;
// Query primary algorithm extension identify string "PRI"
if (CFI_PRISTR != CFI_Query(BaseAddr, PriExtAddr+CFI_EXTQRY, 3)) {
CFI_Print("[%02xh] Unknow Primary Extension Identify String %08X, expected: %08X", PriExtAddr+CFI_EXTQRY, CFI_Query(BaseAddr, PriExtAddr+CFI_EXTQRY, 3), CFI_PRISTR);
return 0;
}
CFI_Print("[13h] Primary Algorithm = %x, %s ", prialg, CFI_Msg(prialg, str_alg_type));
CFI_Print("[%02Xh] Extention version: %c.%c ", PriExtAddr+CFI_EXTVER1, CFI_Query(BaseAddr, PriExtAddr+CFI_EXTVER1, 1), CFI_Query(BaseAddr, PriExtAddr+CFI_EXTVER2, 1));
// extver = (CFI_Query(BaseAddr, PriExtAddr+CFI_EXTVER1, 1) - '0')*10 + (CFI_Query(BaseAddr, PriExtAddr+CFI_EXTVER2, 1) - '0');
CFIInfo->BankCount=0;
CFIInfo->BankInfo[0].Count=0;
CFIInfo->BankInfo[0].Size=0;
switch (prialg) {
case CFI_ALG_NONE:
break;
// Intel Series NOR Flash: BankInfo only available after v1.4
case CFI_ALG_IntelSharpExt:
case CFI_ALG_Intel:
case CFI_ALG_Intel_Perform:
case CFI_ALG_Intel_Data:
// if (extver >= 14) {
CFIInfo->BankCount=CFI_QueryBankInfoNumonyx(BaseAddr, PriExtAddr, CFIInfo);
// }
break;
// AMD Series NOR Flash: BankInfo only available after v1.3
case CFI_ALG_AMDFujitsu:
case CFI_ALG_AMDFujitsuExt:
// if (extver > 12) {
CFIInfo->BankCount=CFI_QueryBankInfoAMD(BaseAddr, PriExtAddr, CFIInfo);
// }
break;
case CFI_ALG_Winbond:
break;
case CFI_ALG_Mitsubishi:
case CFI_ALG_MitsubishiExt:
break;
case CFI_ALG_SST:
break;
default:
break;
}
//-------------------------------------------------------------------------
// Part 3: Construct FAT_RegionInfo and FAT_BankInfo
//-------------------------------------------------------------------------
CFI_ConstructFATGeoInfo(CFIInfo);
CFI_DumpInfo(CFIInfo);
return CFIInfo->RegionCount;
}
void CFI_ConstructFATGeoInfo(MEM_DEV_CFI_T *CFIInfo)
{
kal_uint16 ptr;
kal_uint32 fat_base, fat_end, addr, size;
fat_base=custom_get_fat_addr();
fat_end=fat_base+custom_get_fat_len();
CFI_Print("Construct FAT_RegionInfo[] and FAT_BankInfo[]");
if (CFIInfo->Size==0) {
CFI_Print("Construction aborted, CFIInfo was not initialized");
return;
}
CFIInfo->FAT_BankInfo[0].Size=0;
CFIInfo->FAT_BankInfo[0].Count=0;
CFIInfo->FAT_RegionInfo[0].Size=0;
CFIInfo->FAT_RegionInfo[0].Count=0;
// make sure that the base/end address are of block boundary
if ( 0 != CFI_IsBlockBoundary(CFIInfo, fat_base, 0)) {
CFI_Print("Construction aborted, the FAT base %08X were not aligned to block boundary", fat_base);
return;
}
if (0 != CFI_IsBlockBoundary(CFIInfo, fat_end, 0)) {
CFI_Print("Construction aborted, the FAT end %08X were not aligned to block boundary", fat_end);
return;
}
//-----------------------------------------------------
// Construct FAT_RegionInfo[]
//-----------------------------------------------------
if (CFIInfo->RegionInfo[0].Size!=0) {
for (ptr=0, addr=fat_base ; addr<fat_end;) {
size=cfi_block_size(CFIInfo, addr);
// add this block into fat region info
if (addr==fat_base) {
CFIInfo->FAT_RegionInfo[ptr].Size=size;
CFIInfo->FAT_RegionInfo[ptr].Count=1;
}
else if (size==CFIInfo->FAT_RegionInfo[ptr].Size) {
CFIInfo->FAT_RegionInfo[ptr].Count++;
}
else {
ptr++;
CFIInfo->FAT_RegionInfo[ptr].Size=size;
CFIInfo->FAT_RegionInfo[ptr].Count=1;
}
addr+=size;
}
ptr++;
CFIInfo->FAT_RegionInfo[ptr].Size=0;
CFIInfo->FAT_RegionInfo[ptr].Count=0;
if (ptr>=CFI_REGIONINFO_SIZE) {
CFI_Print("FAT_RegionInfo[] Exceeds CFI_REGIONINFO_SIZE %d", CFI_REGIONINFO_SIZE);
ASSERT(0);
}
}
else {
CFI_Print("CFI_RegionInfo[] doesn't exist");
}
// FAT Region Info
// CFI_DumpGeo(CFIInfo->FAT_RegionInfo, "FAT_RegionInfo");
//-----------------------------------------------------
// Construct FAT_BankInfo[]
//-----------------------------------------------------
// Make sure there is more than one bank
if (CFIInfo->BankCount!=0) {
for (ptr=0, addr=fat_base ; addr<fat_end;) {
size=cfi_bank_size(CFIInfo, addr);
if (size==0) {
CFI_Print("Address out of range in CFI_BankInfo[]");
break;
}
if ( (size+addr) > fat_end) {
size = fat_end-addr;
}
// add this block into fat region info
if (addr==fat_base) {
CFIInfo->FAT_BankInfo[0].Size=size;
CFIInfo->FAT_BankInfo[0].Count=1;
}
else if (size==CFIInfo->FAT_BankInfo[ptr].Size) {
CFIInfo->FAT_BankInfo[ptr].Count++;
}
else {
ptr++;
CFIInfo->FAT_BankInfo[ptr].Size=size;
CFIInfo->FAT_BankInfo[ptr].Count=1;
}
addr+=size;
}
ptr++;
CFIInfo->FAT_BankInfo[ptr].Size=0;
CFIInfo->FAT_BankInfo[ptr].Count=0;
if (ptr>=CFI_BANKINFO_SIZE) {
CFI_Print("FAT_BankInfo[] Exceeds CFI_BANKINFO_SIZE %d", CFI_BANKINFO_SIZE);
ASSERT(0);
}
}
else {
CFI_Print("CFI_BankInfo[] doesn't exist");
}
// FAT Bank Info
// CFI_DumpGeo(CFIInfo->FAT_BankInfo, "FAT_BankInfo");
return;
}
//-----------------------------------------------------------------------------
/*!
@brief
Construct BlockInfo[] by the RegionInfo[]
@param[in] CFIInfo Pointer to the CFI info
@retval
None
*/
void CFI_ConstructBlockInfo(MEM_DEV_CFI_T *CFIInfo)
{
kal_uint16 i;
CFIInfo->BlockInfo[0].Offset=0;
for (i=0; CFIInfo->RegionInfo[i].Size!=0; i++) {
CFIInfo->BlockInfo[i].Size = CFIInfo->RegionInfo[i].Size;
CFIInfo->BlockInfo[i+1].Offset = CFIInfo->BlockInfo[i].Offset + CFIInfo->RegionInfo[i].Size * CFIInfo->RegionInfo[i].Count;
}
CFIInfo->BlockInfo[i].Offset=0;
CFIInfo->BlockInfo[i].Size=0;
}
//-----------------------------------------------------------------------------
/*!
@brief
Lookup the block size of the given block address
@param[in] CFIInfo Pointer to the CFI info
@param[in] address Base address of the block
@retval
Size of the block on given address
*/
kal_uint32 cfi_block_size(MEM_DEV_CFI_T *CFIInfo, kal_uint32 address)
{
kal_uint16 i;
for (i=0; CFIInfo->BlockInfo[i+1].Size!=0; i++) {
if (address >= CFIInfo->BlockInfo[i].Offset &&
address < CFIInfo->BlockInfo[i+1].Offset) {
break;
}
}
return CFIInfo->BlockInfo[i].Size;
}
//-----------------------------------------------------------------------------
/*!
@brief
Lookup the bank size of the given address, if the address is not aligned to
bank boundary, returns the length to next bank boundary.
@param[in] CFIInfo Pointer to the CFI info
@param[in] address The given address
@retval
Length to next bank boundary
*/
kal_uint32 cfi_bank_size(MEM_DEV_CFI_T *CFIInfo, kal_uint32 address)
{
kal_uint16 i, j;
for (i=0; CFIInfo->BankInfo[i].Size!=0; i++) {
for (j=0; j<CFIInfo->BankInfo[i].Count; j++) {
if (address >= CFIInfo->BankInfo[i].Size) {
address -= CFIInfo->BankInfo[i].Size;
}
else {
return (CFIInfo->BankInfo[i].Size-address);
}
}
}
return 0;
}
//-----------------------------------------------------------------------------
/*!
@brief
Get Geometry from CFI vendor-specific query (AMD), and update CFI_BankInfo
static structure
@param[in] BaseAddr Pointer to the CFI primary vendor-specific query base address
@retval
Number of Banks
*/
kal_int32 CFI_QueryBankInfoAMD(volatile FLASH_CELL *BaseAddr, kal_uint16 PriExtAddr, MEM_DEV_CFI_T *CFIInfo)
{
kal_uint8 boot_flag;
kal_uint16 block_count, total_blocks, bank_ptr;
kal_int16 i, j;
kal_uint32 bank_size, block_size, address;
CFI_Print("Vendor Specific Query <AMD> ");
CFIInfo->BankCount = CFI_Query(BaseAddr, PriExtAddr+CFI_AMD_BNKCNT, 1);
CFI_Print("[%02Xh] Bank Count = %d ", PriExtAddr+CFI_AMD_BNKCNT, CFIInfo->BankCount);
boot_flag = CFI_Query(BaseAddr, PriExtAddr+CFI_AMD_BOOTFLAG, 1);
CFI_Print("[%02Xh] Bootflag = %d (%s) ", PriExtAddr+CFI_AMD_BOOTFLAG, boot_flag, (boot_flag==2)?("Bottom"):(boot_flag==3?("Top"):("Unknown")));
// Swap the Region Info for top boot (Toshiba Only)
if (CFIInfo->RegionCount>1 && CFIInfo->FlashID[0]==0x0098) {
if ((boot_flag==3)&&(CFIInfo->RegionInfo[0].Size!=CFIInfo->RegionInfo[1].Size)) {
SWAP(CFIInfo->RegionInfo[0].Size, CFIInfo->RegionInfo[CFIInfo->RegionCount-1].Size);
SWAP(CFIInfo->RegionInfo[0].Count, CFIInfo->RegionInfo[CFIInfo->RegionCount-1].Count);
}
}
CFI_ConstructBlockInfo(CFIInfo);
// If the Queried Bank Count is Zero
// Simply Returns 0
if (CFIInfo->BankCount==0) {
return 0;
}
total_blocks=0;
address=0;
bank_ptr=0;
CFIInfo->BankInfo[0].Count = 0;
CFIInfo->BankInfo[0].Size = 0;
// for each bank
for (i=0 ; i<CFIInfo->BankCount ; i++) {
// Retrieve number of blocks within the bank
block_count = CFI_Query(BaseAddr, PriExtAddr+CFI_AMD_BNKINF+i, 1);
bank_size = 0;
CFI_Debug("[%02Xh] Bank %d Region has %d blocks", PriExtAddr+CFI_AMD_BNKINF+i, i, CFI_Query(BaseAddr, PriExtAddr+CFI_AMD_BNKINF+i, 1));
if ( (total_blocks+block_count) >CFIInfo->TotalBlocks) {
CFI_Print("Error: the BankInfo is mismatch with the RegionInfo in total blocks");
return 0;
}
for (j=0; j<block_count; j++, total_blocks++) {
block_size = cfi_block_size(CFIInfo, address);
CFI_Debug("Block No %d @ %08Xh, Size=%08X Bytes", total_blocks, address, block_size);
bank_size += block_size;
address += block_size;
}
if (i==0) {
CFIInfo->BankInfo[bank_ptr].Size=bank_size;
CFIInfo->BankInfo[bank_ptr].Count=1;
}
else if (bank_size==CFIInfo->BankInfo[bank_ptr].Size) {
CFIInfo->BankInfo[bank_ptr].Count++;
}
else {
bank_ptr++;
CFIInfo->BankInfo[bank_ptr].Size=bank_size;
CFIInfo->BankInfo[bank_ptr].Count=1;
}
}
// If there is more than one banks
if (CFIInfo->BankInfo[0].Size!=0 && total_blocks!=CFIInfo->TotalBlocks) {
CFI_Print("Error: the BankInfo is mismatch with the RegionInfo in total blocks");
return 0;
}
// Add EndRegionInfo
bank_ptr++;
CFIInfo->BankInfo[bank_ptr].Count = 0;
CFIInfo->BankInfo[bank_ptr].Size = 0;
if (bank_ptr>=CFI_REGIONINFO_SIZE) {
CFI_Print("CFI_BankInfo[] Exceeds CFI_BANKINFO_SIZE %d", CFI_BANKINFO_SIZE);
ASSERT(0);
}
return i;
}
//-----------------------------------------------------------------------------
/*!
@brief
Get Geometry from CFI vendor-specific query (Numonyx), and update CFI_BankInfo
static structure
@param[in] BaseAddr Pointer to the CFI primary vendor-specific query base address
@retval
Number of Banks
*/
kal_int32 CFI_QueryBankInfoNumonyx(volatile FLASH_CELL *BaseAddr, kal_uint16 PriExtAddr, MEM_DEV_CFI_T *CFIInfo)
{
kal_uint32 block_size, bank_size;
kal_uint16 bank_count, bank_identicals, block_type_count, block_count;
kal_uint16 bank_fieldsize, bank_base, block_base;
kal_int16 i, j;
CFI_ConstructBlockInfo(CFIInfo);
bank_count = CFI_Query(BaseAddr, PriExtAddr+CFI_NUMONYX_BNKCNT, 1);
bank_base = CFI_NUMONYX_REGINF;
CFIInfo->BankInfo[0].Count=0;
CFIInfo->BankInfo[0].Size=0;
// Iterates all banks
for (i=0 ; i<bank_count ; i++) {
bank_fieldsize = CFI_Query(BaseAddr, PriExtAddr+bank_base, 2);
bank_identicals = CFI_Query(BaseAddr, PriExtAddr+bank_base + 2 , 1);
block_type_count = CFI_Query(BaseAddr, PriExtAddr+bank_base + 7, 1);
block_base = bank_base + 8;
bank_size=0;
// Iterates all block types in each bank
for (j=0 ; j<block_type_count ; j++) {
block_count = CFI_Query(BaseAddr, PriExtAddr+block_base, 2) + 1; // Number of identical blocks in the partition
block_size = CFI_Query(BaseAddr, PriExtAddr+block_base + 2, 2) << 8; // Size of the identical blocks
bank_size = bank_size + block_count * block_size;
block_base = block_base + 14;
}
CFIInfo->BankInfo[i].Count = bank_identicals;
CFIInfo->BankInfo[i].Size = bank_size;
bank_base = bank_base + bank_fieldsize;
}
CFIInfo->BankInfo[i].Count=0;
CFIInfo->BankInfo[i].Size=0;
return bank_count;
}
//-----------------------------------------------------------------------------
/*!
@brief
Check if the given block address is on the block boundary and the block size is correct
@param[in] CFIInfo Pointer to the CFI structure
@param[in] BlockAddr The base address of the the given block
@param[in] BlockSize The size of the given block
@retval
Nonzero: Given address is on block boundary
Zero: Given address is not on block boundary
@remarks
CFI_ConstructBlockInfo() must be invoked before calling this routine
*/
kal_uint32 CFI_IsBlockBoundary(MEM_DEV_CFI_T *CFIInfo, kal_uint32 BlockAddr, kal_uint32 BlockSize)
{
kal_uint32 i;
kal_uint32 result;
for (i=0; CFIInfo->BlockInfo[i].Size!=0 ;i++) {
if (CFIInfo->BlockInfo[i].Offset <= BlockAddr &&
(CFIInfo->BlockInfo[i+1].Offset > BlockAddr || CFIInfo->BlockInfo[i+1].Size==0) ) break;
}
// In case of wrong block info
if (CFIInfo->BlockInfo[i].Size==0) {
return 1;
}
result=(BlockAddr-CFIInfo->BlockInfo[i].Offset) % CFIInfo->BlockInfo[i].Size;
CFI_Debug("0x%08X: BlockInfo[%d] <0x%X> #%d (%s)",
BlockAddr, i,
CFIInfo->BlockInfo[i].Offset,
(BlockAddr-CFIInfo->BlockInfo[i].Offset) / CFIInfo->BlockInfo[i].Size,
(result)?"Unaligned":"Aligned");
if (BlockSize!=0 && (BlockSize != CFIInfo->BlockInfo[i].Size) ) {
CFI_Debug("0x%08X: BlockSize mismatch %08X, %08X", BlockSize, CFIInfo->BlockInfo[i].Size);
return BlockSize;
}
return result;
}
//-----------------------------------------------------------------------------
/*!
@brief
This macro is only used by CFI_CheckSettings() to set error codes.
*/
#define CFI_Check_Result(info, result, dat1, dat2) do { \
info->CheckResults=result; \
info->CheckData1=dat1; \
info->CheckData2=dat2; \
} while(0)
//-----------------------------------------------------------------------------
/*!
@brief
Verify NOR Flash settings via given CFI structure.
@param[in] CFIInfo Pointer to the CFI structure
@retval
==0: (=CFIErr_NoError) There is no error.
!=0: Refer to error codes
@remarks
The returned code can be interpreted by CFI_GetErrorMessage()
*/
kal_int32 CFI_CheckSettings(MEM_DEV_CFI_T *CFIInfo)
{
kal_uint16 i, j, blkno;
kal_uint32 addr;
kal_uint32 BufferProgramLength;
#if ( defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__) )
if (CFI_Access_Counter%1000==0) {
CFI_Error("#%d Check Setting ", CFI_Access_Counter);
}
#endif
CFI_Print("<Check> NOR Flash ID (MAUI): { %s }", FLASH_ID);
CFI_Print("<Check> NOR Flash ID (RDID) : { 0x%04X, 0x%04X, 0x%04X, 0x%04X }",
CFIInfo->FlashID[0], CFIInfo->FlashID[1],
CFIInfo->FlashID[2], CFIInfo->FlashID[3]);
CFIInfo->CheckResults=CFIErr_NoError;
CFIInfo->CheckData1=0;
CFIInfo->CheckData2=0;
if (CFIInfo->Size==0) {
CFI_Print("CFI Query was not valid, check aborted");
CFIInfo->CheckResults=CFIErr_NotAvailable;
return CFIErr_NotAvailable;
}
//----------------------------------------------
// FAT Settings
//----------------------------------------------
// Check 1: FAT base address must be aligned to block boundary
addr=custom_get_fat_addr();
CFI_Print("<Check> FAT base address %08X", addr);
if (CFI_IsBlockBoundary(CFIInfo ,addr, 0) != 0) {
CFI_Check_Result(CFIInfo, CFIErr_FATBeginUnalign, addr, 0);
return CFIErr_FATBeginUnalign;
}
// Check 2: FAT end address must be aligned to block boundary
addr+=custom_get_fat_len();
CFI_Print("<Check> FAT end address %08X", addr);
if (CFI_IsBlockBoundary(CFIInfo ,addr, 0) != 0) {
CFI_Check_Result(CFIInfo, CFIErr_FATEndUnalign, addr, 0);
return CFIErr_FATEndUnalign;
}
// Check 3: The end of FAT must not exceed the size of NOR Flash
if ( addr > CFIInfo->Size ) {
CFI_Check_Result(CFIInfo, CFIErr_FATSizeExceed, addr, 0);
return CFIErr_FATSizeExceed;
}
//----------------------------------------------
// MTD Driver
//----------------------------------------------
#if defined(__PAGE_BUFFER_PROGRAM__)
#if defined(__COMBO_MEMORY_SUPPORT__)
BufferProgramLength = PAGE_BUFFER_SIZE;
#else
BufferProgramLength = BUFFER_PROGRAM_ITERATION_LENGTH;
#endif
CFI_Print("<Check> Program Buffer Size %d bytes", BufferProgramLength*2);
if ( BufferProgramLength*2 > CFIInfo->ProgramBufferSize ) {
CFI_Check_Result(CFIInfo, CFIErr_ProgBufExceed, (BufferProgramLength*2), CFIInfo->ProgramBufferSize);
return CFIErr_ProgBufExceed;
}
#endif /* __PAGE_BUFFER_PROGRAM__ */
#if defined(__NOR_FDM5__)
CFI_Print("FDM 5.0 RegionInfo[]/BankInfo[] was not available");
#else // __NOR_FDM5__
cfi_mtd_data = FlashDriveData.MTDData;
//----------------------------------------------
// Check BankInfo[] and RegionInfo[]
//----------------------------------------------
addr=custom_get_fat_addr();
blkno=0;
// Make sure that NOR Driver is mounted
if ( ~(cfi_mtd_data->Signature) == ((kal_uint32)cfi_mtd_data->RegionInfo)) {
CFI_DumpBlk( (MEM_DEV_BLOCK_T *)cfi_mtd_data->RegionInfo, "NOR_RegionInfo");
CFI_DumpBlk( (MEM_DEV_BLOCK_T *)cfi_mtd_data->BankInfo, "NOR_BankInfo");
if (CFIInfo->FAT_RegionInfo[0].Size!=0) {
//----------------------------------------------
// Region Info (Block Boundary Check)
//----------------------------------------------
for (i=0; cfi_mtd_data->RegionInfo[i].BlockSize!=0; i++) {
for (j=0; j<cfi_mtd_data->RegionInfo[i].RegionBlocks; j++) {
if (CFI_IsBlockBoundary(CFIInfo, addr, cfi_mtd_data->RegionInfo[i].BlockSize) != 0) {
CFI_Check_Result(CFIInfo, CFIErr_RegionInfoError, i, blkno);
return CFIErr_RegionInfoError;
}
blkno++;
addr += cfi_mtd_data->RegionInfo[i].BlockSize;
}
}
//----------------------------------------------
// Region Info
//----------------------------------------------
for (i=0; cfi_mtd_data->RegionInfo[i].BlockSize!=0 || CFIInfo->FAT_RegionInfo[i].Size!=0 ;i++) {
if ( (cfi_mtd_data->RegionInfo[i].BlockSize != CFIInfo->FAT_RegionInfo[i].Size) ) {
CFI_Check_Result(CFIInfo, CFIErr_RegionInfoBlkSize, i, CFIInfo->FAT_RegionInfo[i].Size);
return CFIErr_RegionInfoBlkSize;
}
if ( (cfi_mtd_data->RegionInfo[i].RegionBlocks != CFIInfo->FAT_RegionInfo[i].Count) ) {
CFI_Check_Result(CFIInfo, CFIErr_RegionInfoBlkCnt, i, CFIInfo->FAT_RegionInfo[i].Count);
return CFIErr_RegionInfoBlkCnt;
}
}
}
else {
CFI_Print("FAT_RegionInfo[] not available, check aborted.");
}
#if (defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && defined(__MULTI_BANK_NOR_DEVICE__) || defined(__ARM9_MMU__) || defined(__ARM11_MMU__))
if (CFIInfo->FAT_BankInfo[0].Size!=0) {
//----------------------------------------------
// Bank Info
//----------------------------------------------
for (i=0; cfi_mtd_data->BankInfo[i].BankSize!=0 || CFIInfo->FAT_BankInfo[i].Size!=0 ;i++) {
if ( (cfi_mtd_data->BankInfo[i].BankSize != CFIInfo->FAT_BankInfo[i].Size) ) {
CFI_Check_Result(CFIInfo, CFIErr_BankInfoBnkSize, i, CFIInfo->FAT_BankInfo[i].Size);
return CFIErr_BankInfoBnkSize;
}
if ( (cfi_mtd_data->BankInfo[i].Banks != CFIInfo->FAT_BankInfo[i].Count) ) {
CFI_Check_Result(CFIInfo, CFIErr_BankInfoBnkCnt, i, CFIInfo->FAT_BankInfo[i].Count);
return CFIErr_BankInfoBnkCnt;
}
}
}
else {
CFI_Print("FAT_BankInfo[] not available, check aborted.");
}
#else // __SINGLE_BANK_NOR_FLASH_SUPPORT__) && (defined(__MULTI_BANK_NOR_DEVICE__) || defined(__ARM9_MMU__) || defined(__ARM11_MMU__)
CFI_Print("Not ESB configuration, BankInfo[] check canceled");
#endif // __SINGLE_BANK_NOR_FLASH_SUPPORT__) && (defined(__MULTI_BANK_NOR_DEVICE__) || defined(__ARM9_MMU__) || defined(__ARM11_MMU__)
}
else {
CFI_Print("MTD driver was not initialized, RegionInfo[] BankInfo[] check canceled");
}
#endif // __NOR_FDM5__
// CFI Stress Test: Asserts if the check is failed
#if ( defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__) )
ASSERT(CFIInfo->CheckResults==CFIErr_NoError);
CFI_Check_Counter++;
#endif
return CFIInfo->CheckResults;
}
//-----------------------------------------------------------------------------
/*!
@brief
Decode CFI data and output to console / sys trace.
@param[in] data Pointer to the CFI structure read by CFI_Read()
@retval
Number of regions
*/
kal_int32 CFI_QueryAll(volatile FLASH_CELL *BaseAddr)
{
kal_uint32 i;
kal_uint32 blockcount;
kal_uint32 blocksize;
kal_uint32 ident = CFI_QRY$;
kal_uint16 prialg = CFI_PRIALG$;
kal_uint16 priext = CFI_PRIEXT$;
kal_uint16 altalg = CFI_ALTALG$;
kal_uint16 altext = CFI_ALTEXT$;
kal_uint16 devint = CFI_DEVINT$;
kal_uint16 devsize = CFI_SIZE$;
kal_uint16 bufsize = CFI_WBSIZE$;
kal_uint8 vccmin = CFI_VCCMIN$;
kal_uint8 vccmax = CFI_VCCMAX$;
kal_uint8 vppmin = CFI_VPPMIN$;
kal_uint8 vppmax = CFI_VPPMAX$;
kal_uint8 ttwprog = CFI_WPRGTT$;
kal_uint8 ttbprog = CFI_BPRGTT$;
kal_uint8 tteblk = CFI_BLKETT$;
kal_uint8 ttechp = CFI_CHPETT$;
kal_uint8 mtwprog = CFI_WPRGMT$;
kal_uint8 mtbprog = CFI_BPRGMT$;
kal_uint8 mteblk = CFI_BLKEMT$;
kal_uint8 mtechp = CFI_CHPEMT$;
kal_uint8 regcnt = CFI_REGCNT$;
CFI_Print("[10h] Query String = \'%c\', \'%c\', \'%c\' ", ident & 0xFF, ident>>8 & 0xFF, ident>>16 & 0xFF);
if (ident!=CFI_QRYSTR) {
CFI_Print("The device does not support CFI Query");
return 0;
}
CFI_Print("[13h] Primary Algorithm = %x, %s ", prialg, CFI_Msg(prialg, str_alg_type));
CFI_Print("[15h] Primary Algorithm Extension offset = %x ", priext);
CFI_Print("[17h] Alternative Algorithm = %x, %s ", altalg, CFI_Msg(altalg, str_alg_type));
CFI_Print("[19h] Alternative Algorithm Extension offset = %x ", altext);
CFI_Print("[1Bh] Vcc Min = %d.%d V ", CFI_VOLT(vccmin), CFI_MILVOLT(vccmin));
CFI_Print("[1Ch] Vcc Max = %d.%d V ", CFI_VOLT(vccmax), CFI_MILVOLT(vccmax));
CFI_Print("[1Dh] Vpp Min = %d.%d V ", CFI_VOLT(vppmin), CFI_MILVOLT(vppmin));
CFI_Print("[1Eh] Vpp Max = %d.%d V ", CFI_VOLT(vppmax), CFI_MILVOLT(vppmax));
CFI_Print("[1Fh] %02xh Typical timeout per single byte/word/D-word program = %d us ", ttwprog, CFI_EXP2(ttwprog) );
CFI_Print("[20h] %02xh Typical timeout for maximum-size multi-byte program = %d us ", ttbprog, CFI_EXP2(ttbprog) );
CFI_Print("[21h] %02xh Typical timeout per individual block erase = %d ms ", tteblk, CFI_EXP2(tteblk) );
CFI_Print("[22h] %02xh Typical timeout for full chip erase = %d ms ", ttechp, (ttechp!=0)?CFI_EXP2(ttechp):0 );
CFI_Print("[23h] %02xh Maximum timeout per single byte/word/D-word program = %d us ", mtwprog, CFI_EXP2(ttwprog + mtwprog) );
CFI_Print("[24h] %02xh Maximum timeout for maximum-size multi-byte program = %d us ", mtbprog, CFI_EXP2(ttbprog + mtbprog) );
CFI_Print("[25h] %02xh Maximum timeout per individual block erase = %d ms ", mteblk, CFI_EXP2(tteblk + mteblk) );
CFI_Print("[26h] %02xh Maximum timeout for full chip erase = %d ms ", mtechp, ((ttechp+mtechp)!=0)?CFI_EXP2(ttechp+mtechp):0 );
CFI_Print("[27h] %02xh Device = 0x%X bytes / %d KB / %d MB / %d Mbits", devsize, CFI_EXP2(devsize), CFI_EXP2(devsize-10), CFI_EXP2(devsize-20), CFI_EXP2(devsize-17));
CFI_Print("[28h] %02xh Flash Device Interface = %d, %s ", devint, devint, CFI_Msg(devint, str_dev_int) );
CFI_Print("[2Ah] %02xh Maximum number of bytes in multi-byte program = %d bytes ", bufsize, CFI_EXP2(bufsize) );
CFI_Print("[2Ch] %02xh Number of Erase Block Regions = %d ", regcnt, regcnt);
for (i=0; i < regcnt; i++) {
blockcount = CFI_Query(BaseAddr, CFI_REGINF + i*4 , 2);
blocksize = CFI_Query(BaseAddr, CFI_REGINF + i*4 + 2, 2);
blockcount += 1; // The block count = queried value plus 1
blocksize = blocksize * 256; // the block size = queried value * 256 Bytes
CFI_Print("[%02xh] %04xh_%04xh <Region %d> Block Count = %d, Block Size = %d bytes ( %d x %d KB)", CFI_REGINF+i*4, blockcount, blocksize>>8, i, blockcount, blocksize, blockcount, blocksize >> 10);
}
return regcnt;
}
//-----------------------------------------------------------------------------
/*!
@brief
This function queries all available CFI entries, and output to console /
systrace.
*/
void CFI_NOR_Main(void)
{
MEM_DEV_CFI_T NORCFIInfo;
CFI_Print("-----[CFI query: NOR Flash Info]-----");
CFI_QueryAll(CFI_NOR_BASE$);
CFI_Print("-----[CFI query: NOR Flash Geometry]-----");
CFI_QueryGeometry(CFI_NOR_BASE$, &NORCFIInfo);
CFI_Print("-----[Check MAUI NOR Flash settings]-----");
CFI_CheckSettings(&NORCFIInfo);
CFI_Print("-----[Results]-----");
CFI_Print(CFI_Msg(NORCFIInfo.CheckResults, str_cfi_err), NORCFIInfo.CheckData1, NORCFIInfo.CheckData2);
CFI_Print("-----[End of CFI]-----");
return;
}
#else // ((defined(__NOR_FLASH_HARDWARE_TEST__) && defined(__MAUI_BASIC__)) || (defined(__NOR_CFI_SUPPORT__) && defined(__MTK_TARGET__) && !defined(_NAND_FLASH_BOOTING_) && !defined(__FS_SYSDRV_ON_NAND__)) )
void CFI_NOR_Main(void)
{
return;
}
// General functions
kal_int32 CFI_Query(volatile FLASH_CELL *BaseAddr, kal_uint16 offset, kal_uint8 length)
{
return 0;
}
kal_int32 CFI_QueryAll(volatile FLASH_CELL *BaseAddr)
{
return 0;
}
void CFI_DumpInfo(MEM_DEV_CFI_T *CFIInfo)
{
return;
}
// Reserved For EM
kal_int32 CFI_QueryGeometry(volatile FLASH_CELL *BaseAddr, MEM_DEV_CFI_T *CFIInfo)
{
return 0;
}
kal_int32 CFI_CheckSettings(MEM_DEV_CFI_T *CFIInfo)
{
return 0;
}
char *CFI_GetErrorMessage(MEM_DEV_CFI_T *CFIInfo, char *str, int len)
{
return NULL;
}
const char *CFI_GetCommandSetName(kal_uint16 id)
{
return NULL;
}
#if defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__) && defined(__MTK_TARGET__)
#pragma arm section code
#endif
#endif // !(__UBL__) && (((__NOR_FLASH_HARDWARE_TEST__) && (__MAUI_BASIC__)) || ((__NOR_CFI_SUPPORT__) && (__MTK_TARGET__) && !(_NAND_FLASH_BOOTING_) && !(__FS_SYSDRV_ON_NAND__)) )
#if (!defined(__FS_SYSDRV_ON_NAND__) && !defined(_NAND_FLASH_BOOTING_))
#if defined(__MTK_TARGET__)
#if defined(__UBL__) || defined(__FUE__)
#pragma arm section code = "INTERNCODE"
#elif defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__)
#pragma arm section code = "SNORCODE"
#endif
#endif //__MTK_TARGET__
extern kal_uint32 SaveAndSetIRQMask(void);
extern void RestoreIRQMask(kal_uint32 irq);
extern kal_uint32 INT_DisableDataCache(void);
extern void INT_RestoreDataCache(kal_uint32 dc);
extern kal_bool CMEM_CheckValidDeviceID(kal_uint8 *id);
//-----------------------------------------------------------------------------
/*!
@brief
Read NOR Flash ID
@param[in] BaseAddr Pointer to the NOR Flash memory base address
@param[out] flashid Array of FlashID, the maximum length is 4
@retval
Query result, byte aligned.
@remarks
Limited to the length return value (32 bits), the given length shall not exceed 4 (bytes)
This function must be put in RAM
*/
void NOR_ReadID(const kal_uint16 CS, volatile FLASH_CELL *BaseAddr, kal_uint16 *flashid)
{
kal_uint32 savedMask;
// Read Serial Flash ID
#if defined(__SERIAL_FLASH__)
{
kal_uint8 cmd, id[SF_FLASH_ID_LENGTH], i;
cmd=SF_CMD_READ_ID_QPI;
savedMask = SaveAndSetIRQMask();
SFI_Dev_Command_Ext(CS, &cmd, id, 1, SF_FLASH_ID_LENGTH);
RestoreIRQMask(savedMask);
if (id[0]==0x00 || id[0]==0xFF || (CMEM_CheckValidDeviceID(id) == KAL_FALSE)) {
cmd=SF_CMD_READ_ID;
savedMask = SaveAndSetIRQMask();
SFI_Dev_Command_Ext(CS, &cmd, id, 1, SF_FLASH_ID_LENGTH);
RestoreIRQMask(savedMask);
}
for (i=0;i<SF_FLASH_ID_LENGTH;i++) flashid[i]=id[i];
}
// Read ADMUX NOR Flash ID
#else // ADMUX
{
kal_uint32 data_cache_id;
volatile FLASH_CELL *fp = (volatile FLASH_CELL*)(BaseAddr);
// Note: Request FDM lock before it was initiailized will case fatal errors.
savedMask = SaveAndSetIRQMask();
data_cache_id = INT_DisableDataCache();
*(BaseAddr+CFI_RDID_UNLOCK_ADR1)=CFI_RDID_UNLOCK_DAT1;
*(BaseAddr+CFI_RDID_UNLOCK_ADR2)=CFI_RDID_UNLOCK_DAT2;
*(BaseAddr+CFI_RDID_ADR)=CFI_RDID_CMD;
flashid[0]=fp[0];
flashid[1]=fp[1];
flashid[2]=fp[2];
flashid[3]=fp[3];
*(BaseAddr) = CFI_CMD_EXIT1;
*(BaseAddr) = CFI_CMD_EXIT2;
INT_RestoreDataCache(data_cache_id);
RestoreIRQMask(savedMask);
}
#endif // defined(__SERIAL_FLASH__)
return;
}
#if defined(__MTK_TARGET__)
#if defined(__UBL__) || defined(__FUE__)|| defined(__SINGLE_BANK_NOR_FLASH_SUPPORT__)
#pragma arm section code
#endif //__UBL__ || __SINGLE_BANK_NOR_FLASH_SUPPORT__
#endif //__MTK_TARGET__
#endif // !defined __FS_SYSDRV_ON_NAND__) && (!defined(_NAND_FLASH_BOOTING_)
kal_int32 CFI_NOR_Flash(void)
{
CFI_NOR_Main();
return 0;
}