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634 lines
28 KiB
634 lines
28 KiB
/*
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* $Log: V:/Flite/archives/TrueFFS5/Src/INFTLDBG.C_V $
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*
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* Rev 1.0 Nov 16 2001 00:44:12 oris
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* Initial revision.
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*
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*/
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/***********************************************************************************/
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/* M-Systems Confidential */
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/* Copyright (C) M-Systems Flash Disk Pioneers Ltd. 1995-2001 */
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/* All Rights Reserved */
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/***********************************************************************************/
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/* NOTICE OF M-SYSTEMS OEM */
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/* SOFTWARE LICENSE AGREEMENT */
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/* */
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/* THE USE OF THIS SOFTWARE IS GOVERNED BY A SEPARATE LICENSE */
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/* AGREEMENT BETWEEN THE OEM AND M-SYSTEMS. REFER TO THAT AGREEMENT */
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/* FOR THE SPECIFIC TERMS AND CONDITIONS OF USE, */
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/* OR CONTACT M-SYSTEMS FOR LICENSE ASSISTANCE: */
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/* E-MAIL = [email protected] */
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/***********************************************************************************/
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/*************************************************/
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/* T r u e F F S 5.0 S o u r c e F i l e s */
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/* --------------------------------------------- */
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/*************************************************/
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/*****************************************************************************
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* File Header *
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* ----------- *
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* Name : inftldbg.c *
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* *
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* Description : Implementation of INFTL debug routine. *
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* *
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*****************************************************************************/
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/*********************************************************/
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/* The following routine are for debuging INFTL chains. */
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/* They should not be compiled as part of TrueFFS based */
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/* drivers and application. */
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/*********************************************************/
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/* function prototype */
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static FLStatus getUnitData(Bnand vol, ANANDUnitNo unitNo,
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ANANDUnitNo *virtualUnitNo, ANANDUnitNo *prevUnitNo,
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byte *ANAC, byte *NAC, byte *validFields);
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static byte getSectorFlags(Bnand vol, CardAddress sectorAddress);
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#ifdef CHECK_MOUNT
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extern FILE* tl_out;
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/* Macroes */
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#define TL_DEBUG_PRINT fprintf
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#define STATUS_DEBUG_PRINT printf
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#define SET_EXIT(x) vol.debugState |= x /* Add INFTL debug warnnings */
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#define DID_MOUNT_FAIL vol.debugState & INFTL_FAILED_MOUNT
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#endif /* CHECK_MOUNT */
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#ifdef CHAINS_DEBUG
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byte * fileNameBuf1 = "Chains00.txt";
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byte * fileNameBuf2 = "report.txt";
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/*------------------------------------------------------------------------*/
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/* g e t F i l e H a n d l e */
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/* */
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/* Get file handle for debug print output file. */
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/* */
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/* Parameters: */
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/* vol : Pointer identifying drive */
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/* type : File name identifier */
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/* */
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/* Returns: */
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/* File handle to ourput file. */
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/*------------------------------------------------------------------------*/
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#include <string.h>
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FILE* getFileHandle(Bnand vol,byte type)
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{
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char *fileName;
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char *logFileExt;
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switch (type)
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{
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case 0:
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fileName = fileNameBuf1;
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break;
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case 1:
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fileName = fileNameBuf2;
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break;
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default:
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return NULL;
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}
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logFileExt = strchr(fileName,'.');
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if (logFileExt == NULL)
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{
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return NULL;
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}
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else
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{
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(*(logFileExt-1))++;
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}
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if (DID_MOUNT_FAIL)
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{
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return (FILE *)FL_FOPEN(fileName,"a");
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}
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else
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{
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return NULL;
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}
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}
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/*------------------------------------------------------------------------*/
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/* g o A l o n g V i r t u a l U n i t */
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/* */
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/* Print the following info for a specified virtual chain: */
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/* */
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/* Virtual unit number : "Chain #XX :" */
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/* Physical unit number : "#XX " */
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/* Physical unit ANAC : "(%XX)" */
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/* Physical unit NAC : "[%XX]" */
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/* Previous unit : "==>:" or "endofchain" */
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/* */
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/* The virtual unit state can have several comments: */
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/* */
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/* "FREE" - Legal state where irtual unit has */
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/* no physical unit assigned */
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/* "Chain XX is too long" - The chains has 2 times the maxium */
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/* legal chains length */
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/* "Something wrong with chain #XX" - There is a problem with the chain: */
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/* a) "this unit should be the last in chain " */
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/* The ram convertin table does not have the first in chain mark */
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/* for this unit although we know it is the last of its chain. */
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/* b) "this unit points to the unit with the different vu no %XX" */
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/* The virtual unit field of the current physical unit does not */
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/* match the virtual unit number of the chain being inspected. The */
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/* new virtual unit is XX */
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/* */
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/* Parameters: */
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/* vol : Pointer identifying drive */
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/* virtualUnit : Number of the virtual unit to scan */
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/* physUnits : Physical unit table indicating the number of */
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/* virtual units each physical unit bellongs to. */
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/* out : File pointer for ouput */
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/* */
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/* Returns: */
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/* None */
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/*------------------------------------------------------------------------*/
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void goAlongVirtualUnit(Bnand vol,word virtualUnit,byte *physUnits,FILE* out)
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{
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int i;
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ANANDUnitNo virtualUnitNo, prevUnitNo,unitNo;
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byte ANAC,NAC,parityPerField;
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unitNo=vol.virtualUnits[virtualUnit];
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FL_FPRINTF(out,"Chain #%d :", virtualUnit);
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if(unitNo==ANAND_NO_UNIT)
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{
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FL_FPRINTF(out,"FREE\n");
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return;
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}
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for(i=0;i<2*MAX_UNIT_CHAIN;i++)
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{
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if (physUnits != NULL)
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physUnits[unitNo]++;
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getUnitData(&vol,unitNo,&virtualUnitNo, &prevUnitNo,&ANAC,&NAC,&parityPerField);
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FL_FPRINTF(out,"#%d (%d)[%d]==>:",unitNo,ANAC,NAC);
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if(vol.physicalUnits[unitNo]&FIRST_IN_CHAIN)
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{
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FL_FPRINTF(out,"endofchain\n");
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return;
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}
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unitNo=prevUnitNo;
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if((prevUnitNo==ANAND_NO_UNIT)||(virtualUnitNo!=virtualUnit))
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{
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FL_FPRINTF(out,"\nSomething wrong with chain #%d\n",virtualUnit);
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TL_DEBUG_PRINT(tl_out,"\nSomething wrong with chain #%d\n",virtualUnit);
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SET_EXIT(INFTL_FAILED_MOUNT);
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if(prevUnitNo==ANAND_NO_UNIT)
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{
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FL_FPRINTF(out,"this unit should be the last in chain\n");
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TL_DEBUG_PRINT(tl_out,"this unit should be the last in chain (length %d)\n",i);
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}
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else
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{
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FL_FPRINTF(out,"this unit points to the unit with the different vu no %d\n",virtualUnitNo);
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TL_DEBUG_PRINT(tl_out,"this unit points to the unit with the different vu no %d\n",virtualUnitNo);
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}
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return;
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}
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}
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FL_FPRINTF(out,"Chain %d is too long \n",virtualUnit);
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TL_DEBUG_PRINT(tl_out,"Chain %d is too long \n",virtualUnit);
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SET_EXIT(INFTL_FAILED_MOUNT);
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}
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/*------------------------------------------------------------------------*/
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/* c h e c k V i r t u a l C h a i n s */
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/* */
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/* Print the physical units in each virtual unit of the media */
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/* */
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/* Parameters: */
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/* vol : Pointer identifying drive */
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/* out : File pointer to print the result */
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/* */
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/* Returns: */
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/* None */
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/*------------------------------------------------------------------------*/
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void checkVirtualChains(Bnand vol, FILE* out)
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{
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word i;
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#ifdef FL_MALLOC
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byte* physUnits;
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#else
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byte physUnits[MAX_SUPPORTED_UNITS];
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#endif /* FL_MALLOC */
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if (vol.noOfVirtualUnits == 0) /* Not format */
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{
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FL_FPRINTF(out,"\nThis is a format routine since no virtual unit are reported\n");
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return;
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}
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#ifdef FL_MALLOC
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physUnits = (byte *)FL_MALLOC(vol.noOfUnits);
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if (physUnits == NULL)
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#else
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if (MAX_SUPPORTED_UNITS < vol.noOfUnits)
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#endif /* FL_MALLOC */
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{
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FL_FPRINTF(out,"\nCheck virtual chains will not check cross links due to lack of memory\n");
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TL_DEBUG_PRINT(tl_out,"\nCheck virtual chains will not check cross links due to lack of memory (no of units %d\n",vol.noOfUnits);
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SET_EXIT(INFTL_FAILED_MOUNT);
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return;
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}
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if (physUnits != NULL)
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tffsset(physUnits,0,vol.noOfUnits);
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/* Go along each of the virtual units */
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FL_FPRINTF(out,"Chains are :\n");
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for(i=0;i<vol.noOfVirtualUnits;i++)
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goAlongVirtualUnit(&vol,i,physUnits,out);
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FL_FPRINTF(out,"\nChecking if physicl units were used more then once\n");
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if (physUnits != NULL)
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{
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for(i=0;i<vol.noOfUnits;i++)
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if(physUnits[i]>1)
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{
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FL_FPRINTF(out,"Phys unit #%d were used more than once %d\n",i,physUnits[i]);
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TL_DEBUG_PRINT(tl_out,"Phys unit #%d were used more than once.\n",i);
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TL_DEBUG_PRINT(tl_out,"It was used %d times.\n",physUnits[i]);
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SET_EXIT(INFTL_FAILED_MOUNT);
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}
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}
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else
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{
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FL_FPRINTF(out,"\nCould not check due to lack of memory\n");
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}
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/* Free memory */
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#ifdef FL_MALLOC
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FL_FREE(physUnits);
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#endif /* FL_MALLOC */
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}
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/*------------------------------------------------------------------------*/
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/* c h e c k V o l u m e S t a t i s t i c s */
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/* */
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/* Print the volume statistics. */
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/* */
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/* Parameters: */
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/* vol : Pointer identifying drive */
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/* out : File pointer to print the result */
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/* */
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/* Returns: */
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/* None */
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/*------------------------------------------------------------------------*/
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void checkVolumeStatistics(Bnand vol , FILE* out)
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{
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FL_FPRINTF(out,"\nThe volume statistics are:\n");
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FL_FPRINTF(out,"Socket nomber ----------------------------------- %d\n",vol.socketNo);
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FL_FPRINTF(out,"The volume internal flags ----------------------- %d\n",vol.flags);
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FL_FPRINTF(out,"Number of free units ---------------------------- %d\n",vol.freeUnits);
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TL_DEBUG_PRINT(tl_out,"Number of free units ---------------------------- %d\n",vol.freeUnits);
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FL_FPRINTF(out,"Number of boot unit ----------------------------- %d\n",vol.bootUnits);
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FL_FPRINTF(out,"Number of media units --------------------------- %d\n",vol.noOfUnits);
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FL_FPRINTF(out,"Number of virtual units ------------------------- %d\n",vol.noOfVirtualUnits);
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FL_FPRINTF(out,"Number of virtual sector on the volume ---------- %ld\n",vol.virtualSectors);
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FL_FPRINTF(out,"The media rover unit ---------------------------- %d\n",vol.roverUnit);
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FL_FPRINTF(out,"Physical first unit number of the volume -------- %d\n",vol.firstUnit);
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#ifdef NFTL_CACHE
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FL_FPRINTF(out,"Physical first unit address --------------------- %d\n",vol.firstUnitAddress);
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#endif /* NFTL_CACHE */
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#ifdef QUICK_MOUNT_FEATURE
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FL_FPRINTF(out,"First quick mount unit -------------------------- %d\n",vol.firstQuickMountUnit);
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#endif /* QUICK_MOUNT_FEATURE */
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FL_FPRINTF(out,"Number of unit with a valid sector count -------- %d\n",vol.countsValid);
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FL_FPRINTF(out,"The currently mapped sector number -------------- %ld\n",vol.mappedSectorNo);
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FL_FPRINTF(out,"The currently mapped sector address ------------- %ld\n",vol.mappedSectorAddress);
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FL_FPRINTF(out,"Number of sectors per unit ---------------------- %d\n",vol.sectorsPerUnit);
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FL_FPRINTF(out,"Number of bits needed to shift from block to unit %d\n",vol.blockMultiplierBits);
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FL_FPRINTF(out,"Number of bits used to represent a flash block -- %d\n",vol.erasableBlockSizeBits);
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FL_FPRINTF(out,"Number of bits used to represent a media unit --- %d\n",vol.unitSizeBits);
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FL_FPRINTF(out,"Number of sectors read -------------------------- %ld\n",vol.sectorsRead);
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FL_FPRINTF(out,"Number of sectors written ----------------------- %ld\n",vol.sectorsWritten);
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FL_FPRINTF(out,"Number of sectors deleted ----------------------- %ld\n",vol.sectorsDeleted);
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FL_FPRINTF(out,"Number of parasite write ------------------------ %ld\n",vol.parasiteWrites);
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FL_FPRINTF(out,"Number of units folded -------------------------- %ld\n",vol.unitsFolded);
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FL_FPRINTF(out,"The total erase counter ------------------------- %ld\n",vol.eraseSum);
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FL_FPRINTF(out,"Wear leveling counter limit---------------------- %ld\n",vol.wearLevel.alarm);
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FL_FPRINTF(out,"Wear leveling current unit ---------------------- %d\n",vol.wearLevel.currUnit);
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FL_FCLOSE(out);
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}
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#endif /* CHAINS_DEBUG */
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#ifdef CHECK_MOUNT
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/*------------------------------------------------------------------------*/
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/* c h e c k M o u n t I N F T L */
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/* */
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/* Print Low level errors in INFTL format. */
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/* */
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/* Parameters: */
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/* vol : Pointer identifying drive */
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/* */
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/* Returns: */
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/* flOK on success */
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/*------------------------------------------------------------------------*/
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FLStatus checkMountINFTL(Bnand vol)
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{
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ANANDUnitNo erCount=0,freeUnits=0,iUnit;
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ANANDUnitNo virtualUnitNo,prevUnitNo;
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FLStatus status;
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byte pattern[SECTOR_SIZE],tempbuf[SECTOR_SIZE];
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byte sectorFlags,ANAC, NAC, prevANAC, parityPerField;
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word *erasePatt1;
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word *erasePatt2;
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word i,temp;
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dword sectorAddress;
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tffsset(pattern,0xff,SECTOR_SIZE);
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for (iUnit = 0; iUnit < vol.noOfUnits; iUnit++)
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{
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STATUS_DEBUG_PRINT("Checking unit %d\r",iUnit);
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if (vol.physicalUnits[iUnit] != UNIT_BAD)
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{
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/*Read unit header*/
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status=getUnitData(&vol,iUnit,&virtualUnitNo, &prevUnitNo,&ANAC,&NAC,&parityPerField);
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if((status!=flOK)||(!isValidParityResult(parityPerField)))
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{
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TL_DEBUG_PRINT(tl_out,"Error going along INFTL chains - could not get unit data of %d.\n",iUnit);
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TL_DEBUG_PRINT(tl_out,"Status = %d and parityPerField is %d.\n",status,parityPerField);
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SET_EXIT(INFTL_FAILED_MOUNT);
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continue;
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}
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/* FREE unit test that it's all erased and it has erase mark */
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if((virtualUnitNo==ANAND_NO_UNIT)&&
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(prevUnitNo==ANAND_NO_UNIT) &&
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(ANAC==ANAND_UNIT_FREE) &&
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(NAC==ANAND_UNIT_FREE))
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{
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freeUnits++;
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for(i=0;i<(1<<(vol.unitSizeBits - SECTOR_SIZE_BITS));i++)
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{
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/* Extra area */
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if(i!=2) /* skip erase mark at - UNIT_TAILER_OFFSET */
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{
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checkStatus(vol.flash.read(&vol.flash,
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unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,
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tempbuf,16,EXTRA));
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if(tffscmp(tempbuf,pattern,16)!=0)
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{
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TL_DEBUG_PRINT(tl_out,"Extra area of FREE unit is not FF's in %d unit %d sector, it is\n",iUnit,i);
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for(temp=0;temp<16;temp++)
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TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
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TL_DEBUG_PRINT(tl_out,"\n\n");
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SET_EXIT(INFTL_FAILED_MOUNT);
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}
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}
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else /* Erase mark sector offset */
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{
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checkStatus(vol.flash.read(&vol.flash,
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unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,
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tempbuf,16,EXTRA));
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if(tffscmp(tempbuf,pattern,8)!=0)
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{
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TL_DEBUG_PRINT(tl_out,"Extra area of FREE unit is not FF's in %d unit %d sector, it is\n",iUnit,i);
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for(temp=0;temp<16;temp++)
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TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
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TL_DEBUG_PRINT(tl_out,"\n\n");
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SET_EXIT(INFTL_FAILED_MOUNT);
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}
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erasePatt1=(unsigned short*)(&(tempbuf[12]));
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erasePatt2=(unsigned short*)(&(tempbuf[14]));
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if(*erasePatt1!=ERASE_MARK)
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{
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TL_DEBUG_PRINT(tl_out,"First Erase mark of FREE unit is not written well in Unit %d it is %x\n",iUnit,*erasePatt1);
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}
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if(*erasePatt2!=ERASE_MARK)
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{
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TL_DEBUG_PRINT(tl_out,"Second Erase mark of FREE unit is not written well in Unit %d it is %x\n",iUnit,*erasePatt2);
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}
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if ((*erasePatt1!=ERASE_MARK)||(*erasePatt2!=ERASE_MARK))
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erCount++;
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}
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/* Data area */
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checkStatus(vol.flash.read(&vol.flash,
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unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,
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tempbuf,SECTOR_SIZE,0));
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if(tffscmp(tempbuf,pattern,SECTOR_SIZE)!=0)
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{
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TL_DEBUG_PRINT(tl_out,"Data area of FREE unit is not FF's in %d unit %d sector it is.\n",iUnit,i);
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for(temp=0;temp<SECTOR_SIZE;temp++)
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{
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if (temp%0x10==0)
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TL_DEBUG_PRINT(tl_out,"\n");
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TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
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}
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TL_DEBUG_PRINT(tl_out,"\n\n");
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SET_EXIT(INFTL_FAILED_MOUNT);
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}
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}
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}
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else /* Not a FREE unit */
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{
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/* If it's not erased test each valid sector for ecc/edc error */
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for(i=0;i<(1<<(vol.unitSizeBits - SECTOR_SIZE_BITS));i++)
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{
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sectorFlags = getSectorFlags(&vol,unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE);
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if(sectorFlags==SECTOR_FREE)
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{
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/* Extra area */
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switch(i)
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{
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case 0: /* Do not check extra area */
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case 4:
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break;
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case 2: /* Check only erase mark */
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checkStatus(vol.flash.read(&vol.flash,
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unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,
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tempbuf,16,EXTRA));
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if(tffscmp(tempbuf,pattern,8)!=0)
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{
|
|
TL_DEBUG_PRINT(tl_out,"Extra area of USED unit is not FF's in %d unit %d sector, it is\n",iUnit,i);
|
|
for(temp=0;temp<16;temp++)
|
|
TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
|
|
TL_DEBUG_PRINT(tl_out,"\n\n");
|
|
SET_EXIT(INFTL_FAILED_MOUNT);
|
|
}
|
|
else
|
|
{
|
|
erasePatt1=(unsigned short*)(&(tempbuf[12]));
|
|
erasePatt2=(unsigned short*)(&(tempbuf[14]));
|
|
if(*erasePatt1!=ERASE_MARK)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"USED unit First Erase mark is not written well in Unit %d it is %x\n",iUnit,*erasePatt1);
|
|
}
|
|
if(*erasePatt2!=ERASE_MARK)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"USED unit Second Erase mark is not written well in Unit %d it is %x\n",iUnit,*erasePatt2);
|
|
}
|
|
if ((*erasePatt1!=ERASE_MARK)||(*erasePatt2!=ERASE_MARK))
|
|
{
|
|
SET_EXIT(INFTL_FAILED_MOUNT);
|
|
erCount++;
|
|
}
|
|
}
|
|
break;
|
|
|
|
default: /* Make sure it is free (0xff) */
|
|
checkStatus(vol.flash.read(&vol.flash,
|
|
unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,
|
|
tempbuf,16,EXTRA));
|
|
if(tffscmp(tempbuf,pattern,16)!=0)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"Extra area of USED unit is not FF's in %d unit %d sector, it is\n",iUnit,i);
|
|
for(temp=0;temp<16;temp++)
|
|
TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
|
|
TL_DEBUG_PRINT(tl_out,"\n\n");
|
|
SET_EXIT(INFTL_FAILED_MOUNT);
|
|
}
|
|
} /* End sector number case */
|
|
|
|
/* Data area */
|
|
|
|
checkStatus(vol.flash.read(&vol.flash,
|
|
unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,
|
|
tempbuf,SECTOR_SIZE,0));
|
|
if(tffscmp(tempbuf,pattern,SECTOR_SIZE)!=0)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"Data area of USED unit FREE sector is not FF's in %d unit %d sector it is\n",iUnit,i);
|
|
for(temp=0;temp<SECTOR_SIZE;temp++)
|
|
{
|
|
if (temp%0x10==0)
|
|
TL_DEBUG_PRINT(tl_out,"\n");
|
|
TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
|
|
}
|
|
TL_DEBUG_PRINT(tl_out,"\n\n");
|
|
SET_EXIT(INFTL_FAILED_MOUNT);
|
|
}
|
|
}
|
|
else /* not a FREE sector - Used / Deleted / ignored */
|
|
{
|
|
/* Extra area */
|
|
|
|
switch(i)
|
|
{
|
|
case 0: /* Do not check extra area */
|
|
case 4:
|
|
break;
|
|
case 2: /* Check only erase mark */
|
|
checkStatus(vol.flash.read(&vol.flash,
|
|
unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE+8,
|
|
tempbuf,8,EXTRA));
|
|
erasePatt1=(unsigned short*)(&(tempbuf[4]));
|
|
erasePatt2=(unsigned short*)(&(tempbuf[6]));
|
|
if(*erasePatt1!=ERASE_MARK)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"USED unit not a free sector First Erase mark is not written well in Unit %d it is %x\n",iUnit,*erasePatt1);
|
|
}
|
|
if(*erasePatt2!=ERASE_MARK)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"USED unit not a free sector Second Erase mark is not written well in Unit %d it is %x\n",iUnit,*erasePatt2);
|
|
}
|
|
if ((*erasePatt1!=ERASE_MARK)||(*erasePatt2!=ERASE_MARK))
|
|
{
|
|
SET_EXIT(INFTL_FAILED_MOUNT);
|
|
erCount++;
|
|
}
|
|
break;
|
|
|
|
default: /* Make sure it is free (0xff) */
|
|
checkStatus(vol.flash.read(&vol.flash,
|
|
unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE+8,
|
|
tempbuf,8,EXTRA));
|
|
if(tffscmp(tempbuf,pattern,8)!=0)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"USED unit not a free sector is not FF's in %d unit %d sector, it is\n",iUnit,i);
|
|
for(temp=0;temp<8;temp++)
|
|
TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
|
|
TL_DEBUG_PRINT(tl_out,"\n\n");
|
|
SET_EXIT(INFTL_FAILED_MOUNT);
|
|
}
|
|
} /* End sector number case */
|
|
|
|
/* Data area */
|
|
|
|
status=vol.flash.read(&vol.flash,unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,tempbuf,SECTOR_SIZE,EDC);
|
|
|
|
if((sectorFlags==SECTOR_DELETED)||
|
|
(sectorFlags==SECTOR_USED))
|
|
{
|
|
if(status!=flOK)
|
|
{
|
|
if(sectorFlags==SECTOR_USED)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"Used sector with ");
|
|
}
|
|
else
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"Deleted sector with ");
|
|
}
|
|
TL_DEBUG_PRINT(tl_out,"ECC/EDC error in %d unit %d sector, the data is\n",iUnit,i);
|
|
for(temp=0;temp<SECTOR_SIZE;temp++)
|
|
{
|
|
if (temp%0x10==0)
|
|
TL_DEBUG_PRINT(tl_out,"\n");
|
|
TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
|
|
}
|
|
TL_DEBUG_PRINT(tl_out,"\n\n");
|
|
SET_EXIT(INFTL_FAILED_MOUNT);
|
|
}
|
|
}
|
|
else /* sectorFlags == SECTOR_IGNORED */
|
|
{
|
|
vol.flash.read(&vol.flash,unitBaseAddress(vol,iUnit)+i*SECTOR_SIZE,tempbuf,SECTOR_SIZE,0);
|
|
TL_DEBUG_PRINT(tl_out,"There is an ignored sector in %d unit %d sector the data is\n",iUnit,i);
|
|
for(temp=0;temp<SECTOR_SIZE;temp++)
|
|
{
|
|
if (temp%0x10==0)
|
|
TL_DEBUG_PRINT(tl_out,"\n");
|
|
TL_DEBUG_PRINT(tl_out,"%x ",tempbuf[temp]);
|
|
}
|
|
if (status == flOK)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"\nThe EDC is fine, how about checking bit failures\n\n");
|
|
}
|
|
else
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"\nThe EDC is wrong\n\n");
|
|
}
|
|
}
|
|
}
|
|
} /* sector loop */
|
|
} /* Used unit */
|
|
} /* Good block */
|
|
} /* unit loop */
|
|
if (vol.debugState & INFTL_FAILED_MOUNT)
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"\nNote that all unit numbers are relative to first unit = %d\n",vol.firstUnit);
|
|
}
|
|
else
|
|
{
|
|
TL_DEBUG_PRINT(tl_out,"\n");
|
|
}
|
|
return flOK;
|
|
}
|
|
#endif /* CHECK_MOUNT */
|