Leaked source code of windows server 2003
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/*
* $Log: V:/Flite/archives/TrueFFS5/Src/FLIOCTL.C_V $ * * Rev 1.7 May 09 2001 00:45:48 oris * Changed protection ioctl interface to prevent the use of input buffer as an output buffer. * * Rev 1.6 Apr 16 2001 13:43:28 oris * Removed warrnings. * * Rev 1.5 Apr 09 2001 15:09:20 oris * End with an empty line. * * Rev 1.4 Apr 01 2001 15:16:26 oris * Updated inquire capability ioctl - diffrent input and output records. * * Rev 1.3 Apr 01 2001 07:58:30 oris * copywrite notice. * FL_IOCTL_FORMAT_PHYSICAL_DRIVE ioctl is not under the LOW_LEVEL compilation flag. * Bug fix - BDK_GET_INFO no longer calls bdkCreate(). * * Rev 1.2 Feb 14 2001 02:15:00 oris * Updated inquire capabilities ioctl. * * Rev 1.1 Feb 13 2001 01:52:20 oris * Added the following new IO Controls: * FL_IOCTL_FORMAT_VOLUME2, * FL_IOCTL_FORMAT_PARTITION, * FL_IOCTL_BDTL_HW_PROTECTION, * FL_IOCTL_BINARY_HW_PROTECTION, * FL_IOCTL_OTP, * FL_IOCTL_CUSTOMER_ID, * FL_IOCTL_UNIQUE_ID, * FL_IOCTL_NUMBER_OF_PARTITIONS, * FL_IOCTL_SUPPORTED_FEATURES, * FL_IOCTL_SET_ENVIRONMENT_VARIABLES, * FL_IOCTL_PLACE_EXB_BY_BUFFER, * FL_IOCTL_WRITE_IPL, * FL_IOCTL_DEEP_POWER_DOWN_MODE, * and BDK_GET_INFO type in FL_IOCTL_BDK_OPERATION * Those IOCTL were not qualed and the TrueFFS 5.0 should be release with revision 1.0 of this this file. * * Rev 1.0 Feb 04 2001 11:37:36 oris * Initial revision. * */ /***********************************************************************************/ /* M-Systems Confidential */ /* Copyright (C) M-Systems Flash Disk Pioneers Ltd. 1995-2001 */ /* All Rights Reserved */ /***********************************************************************************/ /* NOTICE OF M-SYSTEMS OEM */ /* SOFTWARE LICENSE AGREEMENT */ /* */ /* THE USE OF THIS SOFTWARE IS GOVERNED BY A SEPARATE LICENSE */ /* AGREEMENT BETWEEN THE OEM AND M-SYSTEMS. REFER TO THAT AGREEMENT */ /* FOR THE SPECIFIC TERMS AND CONDITIONS OF USE, */ /* OR CONTACT M-SYSTEMS FOR LICENSE ASSISTANCE: */ /* E-MAIL = [email protected] */ /***********************************************************************************/
#include "flioctl.h"
#include "blockdev.h"
#ifdef IOCTL_INTERFACE
FLStatus flIOctl(IOreq FAR2 *ioreq1) { IOreq ioreq2; void FAR1 *inputRecord; void FAR1 *outputRecord;
inputRecord = ((flIOctlRecord FAR1 *)(ioreq1->irData))->inputRecord; outputRecord = ((flIOctlRecord FAR1 *)(ioreq1->irData))->outputRecord; ioreq2.irHandle = ioreq1->irHandle;
switch (ioreq1->irFlags) { case FL_IOCTL_GET_INFO: { flDiskInfoOutput FAR1 *outputRec = (flDiskInfoOutput FAR1 *)outputRecord;
ioreq2.irData = &(outputRec->info); outputRec->status = flVolumeInfo(&ioreq2); return outputRec->status; }
#ifdef DEFRAGMENT_VOLUME
case FL_IOCTL_DEFRAGMENT: { flDefragInput FAR1 *inputRec = (flDefragInput FAR1 *)inputRecord; flDefragOutput FAR1 *outputRec = (flDefragOutput FAR1 *)outputRecord;
ioreq2.irLength = inputRec->requiredNoOfSectors; outputRec->status = flDefragmentVolume(&ioreq2); outputRec->actualNoOfSectors = ioreq2.irLength; return outputRec->status; } #endif /* DEFRAGMENT_VOLUME */
#ifndef FL_READ_ONLY
#ifdef WRITE_PROTECTION
case FL_IOCTL_WRITE_PROTECT: { flWriteProtectInput FAR1 *inputRec = (flWriteProtectInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
ioreq2.irData = inputRec->password; ioreq2.irFlags = inputRec->type; outputRec->status = flWriteProtection(&ioreq2); return outputRec->status; } #endif /* WRITE_PROTECTION */
#endif /* FL_READ_ONLY */
case FL_IOCTL_MOUNT_VOLUME: { flMountInput FAR1 *inputRec = (flMountInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
if (inputRec->type == FL_DISMOUNT) outputRec->status = flDismountVolume(&ioreq2); else outputRec->status = flAbsMountVolume(&ioreq2); return outputRec->status; }
#ifdef FORMAT_VOLUME
case FL_IOCTL_FORMAT_VOLUME: { flFormatInput FAR1 *inputRec = (flFormatInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
ioreq2.irFlags = inputRec->formatType; ioreq2.irData = &(inputRec->fp); outputRec->status = flFormatVolume(&ioreq2); return outputRec->status; }
case FL_IOCTL_FORMAT_LOGICAL_DRIVE: { flFormatLogicalInput FAR1 *inputRec = (flFormatLogicalInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
ioreq2.irData = &(inputRec->fp); outputRec->status = flFormatLogicalDrive(&ioreq2); return outputRec->status; }
case FL_IOCTL_FORMAT_PHYSICAL_DRIVE: { flFormatPhysicalInput FAR1 *inputRec = (flFormatPhysicalInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
ioreq2.irFlags = inputRec->formatType; ioreq2.irData = &(inputRec->fp); outputRec->status = flFormatPhysicalDrive(&ioreq2); return outputRec->status; } #endif /* FORMAT_VOLUME */
#ifdef BDK_ACCESS
case FL_IOCTL_BDK_OPERATION: { flBDKOperationInput FAR1 *inputRec = (flBDKOperationInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
ioreq2.irData = &(inputRec->bdkStruct); switch(inputRec->type) { case BDK_INIT_READ: outputRec->status = bdkReadInit(&ioreq2); break; case BDK_READ: outputRec->status = bdkReadBlock(&ioreq2); break; case BDK_GET_INFO: outputRec->status = bdkPartitionInfo(&ioreq2); break; #ifndef FL_READ_ONLY
case BDK_INIT_WRITE: outputRec->status = bdkWriteInit(&ioreq2); break; case BDK_WRITE: outputRec->status = bdkWriteBlock(&ioreq2); break; case BDK_ERASE: outputRec->status = bdkErase(&ioreq2); break; case BDK_CREATE: outputRec->status = bdkCreate(&ioreq2); break; #endif /* FL_READ_ONLY */
default: outputRec->status = flBadParameter; break; } return outputRec->status; } #endif /* BDK_ACCESS */
#ifdef HW_PROTECTION
#ifdef BDK_ACCESS
case FL_IOCTL_BINARY_HW_PROTECTION: { flProtectionInput FAR1 *inputRec = (flProtectionInput FAR1 *)inputRecord; flProtectionOutput FAR1 *outputRec = (flProtectionOutput FAR1 *)outputRecord;
switch(inputRec->type) { case PROTECTION_INSERT_KEY: ioreq2.irData = inputRec->key; outputRec->status = bdkInsertProtectionKey(&ioreq2); break; case PROTECTION_REMOVE_KEY: outputRec->status = bdkRemoveProtectionKey(&ioreq2); break; case PROTECTION_GET_TYPE: outputRec->status = bdkIdentifyProtection(&ioreq2); outputRec->protectionType = (byte)ioreq2.irFlags; break; case PROTECTION_DISABLE_LOCK: ioreq2.irFlags = 0; outputRec->status = bdkHardwareProtectionLock(&ioreq2); break; case PROTECTION_ENABLE_LOCK: ioreq2.irFlags = LOCK_ENABLED; outputRec->status = bdkHardwareProtectionLock(&ioreq2); break; case PROTECTION_CHANGE_KEY: ioreq2.irData = inputRec->key; outputRec->status = bdkChangeProtectionKey(&ioreq2); break; case PROTECTION_CHANGE_TYPE: ioreq2.irFlags = inputRec->protectionType; outputRec->status = bdkChangeProtectionType(&ioreq2); break; default: outputRec->status = flBadParameter; break; } return outputRec->status; } #endif /* BDK_ACCESS */
case FL_IOCTL_BDTL_HW_PROTECTION: { flProtectionInput FAR1 *inputRec = (flProtectionInput FAR1 *)inputRecord; flProtectionOutput FAR1 *outputRec = (flProtectionOutput FAR1 *)outputRecord;
switch(inputRec->type) { case PROTECTION_INSERT_KEY: ioreq2.irData = inputRec->key; outputRec->status = flInsertProtectionKey(&ioreq2); break; case PROTECTION_REMOVE_KEY: outputRec->status = flRemoveProtectionKey(&ioreq2); break; case PROTECTION_GET_TYPE: outputRec->status = flIdentifyProtection(&ioreq2); outputRec->protectionType = (byte)ioreq2.irFlags; break; case PROTECTION_DISABLE_LOCK: ioreq2.irFlags = 0; outputRec->status = flHardwareProtectionLock(&ioreq2); break; case PROTECTION_ENABLE_LOCK: ioreq2.irFlags = LOCK_ENABLED; outputRec->status = flHardwareProtectionLock(&ioreq2); break; case PROTECTION_CHANGE_KEY: ioreq2.irData = inputRec->key; outputRec->status = flChangeProtectionKey(&ioreq2); break; case PROTECTION_CHANGE_TYPE: ioreq2.irFlags = inputRec->protectionType; outputRec->status = flChangeProtectionType(&ioreq2); break; default: outputRec->status = flBadParameter; break; } return outputRec->status; } #endif /* HW_PROTECTION */
#ifdef HW_OTP
case FL_IOCTL_OTP: { flOtpInput FAR1 *inputRec = (flOtpInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
switch(inputRec->type) { case OTP_SIZE: outputRec->status = flOTPSize(&ioreq2); inputRec->lockedFlag = (byte)ioreq2.irFlags; inputRec->length = ioreq2.irCount ; inputRec->usedSize = ioreq2.irLength ; break; case OTP_READ: ioreq2.irData = inputRec->buffer; /* user buffer */ ioreq2.irCount = inputRec->usedSize; /* offset */ ioreq2.irLength = inputRec->length; /* size to read */ outputRec->status = flOTPRead(&ioreq2); break; case OTP_WRITE_LOCK: ioreq2.irData = inputRec->buffer; /* user buffer */ ioreq2.irLength = inputRec->length; /* size to read */ outputRec->status = flOTPWriteAndLock(&ioreq2); break; default: outputRec->status = flBadParameter; break; } return outputRec->status; }
case FL_IOCTL_CUSTOMER_ID: { flCustomerIdOutput FAR1 *outputRec = (flCustomerIdOutput FAR1 *)outputRecord;
ioreq2.irData = outputRec->id; outputRec->status = flGetCustomerID(&ioreq2); return outputRec->status; }
case FL_IOCTL_UNIQUE_ID: { flUniqueIdOutput FAR1 *outputRec = (flUniqueIdOutput FAR1 *)outputRecord;
ioreq2.irData = outputRec->id; outputRec->status = flGetUniqueID(&ioreq2); return outputRec->status; } #endif /* HW_OTP */
case FL_IOCTL_NUMBER_OF_PARTITIONS: { flCountPartitionsOutput FAR1 *outputRec = (flCountPartitionsOutput FAR1 *)outputRecord;
outputRec->status = flCountVolumes(&ioreq2); outputRec->noOfPartitions = (byte) ioreq2.irFlags; return outputRec->status; }
#ifdef LOW_LEVEL
case FL_IOCTL_INQUIRE_CAPABILITIES: { flCapabilityInput FAR1 *inputRec = (flCapabilityInput FAR1 *)inputRecord; flCapabilityOutput FAR1 *outputRec = (flCapabilityOutput FAR1 *)outputRecord;
ioreq2.irLength = inputRec->capability; outputRec->status = flInquireCapabilities(&ioreq2); outputRec->capability = ioreq2.irLength; return outputRec->status; }
#endif /* LOW_LEVEL */
#ifdef ENVIRONMENT_VARS
/*
case FL_IOCTL_EXTENDED_ENVIRONMENT_VARIABLES: { flEnvVarsInput FAR1 *inputRec = (flEnvVarsInput FAR1 *)inputRecord; flEnvVarsOutput FAR1 *outputRec = (flEnvVarsOutput FAR1 *)outputRecord; outputRec->status = flSetEnv(inputRec->varName , inputRec->varValue, &(outputRec->prevValue)); return outputRec->status; } */ #endif /* ENVIRONMENT_VARS */
#ifdef LOW_LEVEL
#ifdef WRITE_EXB_IMAGE
case FL_IOCTL_PLACE_EXB_BY_BUFFER: { flPlaceExbInput FAR1 *inputRec = (flPlaceExbInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord; ioreq2.irData = inputRec->buf; ioreq2.irLength = inputRec->bufLen; ioreq2.irWindowBase = inputRec->exbWindow; ioreq2.irFlags = inputRec->exbFlags; outputRec->status = flPlaceExbByBuffer(&ioreq2); return outputRec->status; }
#endif /* WRITE_EXB_IMAGE */
case FL_IOCTL_EXTENDED_WRITE_IPL: { flIplInput FAR1 *inputRec = (flIplInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord; ioreq2.irData = inputRec->buf; ioreq2.irLength = inputRec->bufLen; outputRec->status = flWriteIPL(&ioreq2); return outputRec->status; }
case FL_IOCTL_DEEP_POWER_DOWN_MODE: { flPowerDownInput FAR1 *inputRec = (flPowerDownInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord; ioreq2.irFlags = inputRec->state; outputRec->status = flDeepPowerDownMode(&ioreq2); return outputRec->status; }
#endif /* LOW_LEVEL */
#ifdef ABS_READ_WRITE
#ifndef FL_READ_ONLY
case FL_IOCTL_DELETE_SECTORS: { flDeleteSectorsInput FAR1 *inputRec = (flDeleteSectorsInput FAR1 *)inputRecord; flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;
ioreq2.irSectorNo = inputRec->firstSector; ioreq2.irSectorCount = inputRec->numberOfSectors; outputRec->status = flAbsDelete(&ioreq2); return outputRec->status; } #endif /* FL_READ_ONLY */
case FL_IOCTL_READ_SECTORS: { flReadWriteInput FAR1 *inputRec = (flReadWriteInput FAR1 *)inputRecord; flReadWriteOutput FAR1 *outputRec = (flReadWriteOutput FAR1 *)outputRecord;
ioreq2.irSectorNo = inputRec->firstSector; ioreq2.irSectorCount = inputRec->numberOfSectors; ioreq2.irData = inputRec->buf; outputRec->status = flAbsRead(&ioreq2); outputRec->numberOfSectors = ioreq2.irSectorCount; return outputRec->status; } #ifndef FL_READ_ONLY
case FL_IOCTL_WRITE_SECTORS: { flReadWriteInput FAR1 *inputRec = (flReadWriteInput FAR1 *)inputRecord; flReadWriteOutput FAR1 *outputRec = (flReadWriteOutput FAR1 *)outputRecord;
ioreq2.irSectorNo = inputRec->firstSector; ioreq2.irSectorCount = inputRec->numberOfSectors; ioreq2.irData = inputRec->buf; outputRec->status = flAbsWrite(&ioreq2); outputRec->numberOfSectors = ioreq2.irSectorCount; return outputRec->status; } #endif /* FL_READ_ONLY */
#endif /* ABS_READ_WRITE */
default: return flBadParameter; } }
#endif /* IOCTL_INTERFACE */
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