/* $Id: VSCSILunSbc.cpp 76474 2018-12-25 07:21:57Z vboxsync $ */ /** @file * Virtual SCSI driver: SBC LUN implementation (hard disks) */ /* * Copyright (C) 2006-2017 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #define LOG_GROUP LOG_GROUP_VSCSI #include #include #include #include #include #include #include #include #include #include "VSCSIInternal.h" /** Maximum of amount of LBAs to unmap with one command. */ #define VSCSI_UNMAP_LBAS_MAX(a_cbSector) ((10*_1M) / a_cbSector) /** * SBC LUN instance */ typedef struct VSCSILUNSBC { /** Core LUN structure */ VSCSILUNINT Core; /** Sector size of the medium. */ uint64_t cbSector; /** Size of the virtual disk. */ uint64_t cSectors; /** VPD page pool. */ VSCSIVPDPOOL VpdPagePool; } VSCSILUNSBC; /** Pointer to a SBC LUN instance */ typedef VSCSILUNSBC *PVSCSILUNSBC; static DECLCALLBACK(int) vscsiLunSbcInit(PVSCSILUNINT pVScsiLun) { PVSCSILUNSBC pVScsiLunSbc = (PVSCSILUNSBC)pVScsiLun; int rc = VINF_SUCCESS; int cVpdPages = 0; uint32_t cRegions = vscsiLunMediumGetRegionCount(pVScsiLun); if (cRegions != 1) rc = VERR_INVALID_PARAMETER; if (RT_SUCCESS(rc)) rc = vscsiLunMediumQueryRegionProperties(pVScsiLun, 0, NULL, &pVScsiLunSbc->cSectors, &pVScsiLunSbc->cbSector, NULL); if (RT_SUCCESS(rc)) rc = vscsiVpdPagePoolInit(&pVScsiLunSbc->VpdPagePool); /* Create device identification page - mandatory. */ if (RT_SUCCESS(rc)) { PVSCSIVPDPAGEDEVID pDevIdPage; rc = vscsiVpdPagePoolAllocNewPage(&pVScsiLunSbc->VpdPagePool, VSCSI_VPD_DEVID_NUMBER, VSCSI_VPD_DEVID_SIZE, (uint8_t **)&pDevIdPage); if (RT_SUCCESS(rc)) { /** @todo Not conforming to the SPC spec but Solaris needs at least a stub to work. */ pDevIdPage->u5PeripheralDeviceType = SCSI_INQUIRY_DATA_PERIPHERAL_DEVICE_TYPE_DIRECT_ACCESS; pDevIdPage->u3PeripheralQualifier = SCSI_INQUIRY_DATA_PERIPHERAL_QUALIFIER_CONNECTED; pDevIdPage->u16PageLength = RT_H2BE_U16(0x0); cVpdPages++; } } if ( RT_SUCCESS(rc) && (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_UNMAP)) { PVSCSIVPDPAGEBLOCKLIMITS pBlkPage; PVSCSIVPDPAGEBLOCKPROV pBlkProvPage; /* Create the page and fill it. */ rc = vscsiVpdPagePoolAllocNewPage(&pVScsiLunSbc->VpdPagePool, VSCSI_VPD_BLOCK_LIMITS_NUMBER, VSCSI_VPD_BLOCK_LIMITS_SIZE, (uint8_t **)&pBlkPage); if (RT_SUCCESS(rc)) { pBlkPage->u5PeripheralDeviceType = SCSI_INQUIRY_DATA_PERIPHERAL_DEVICE_TYPE_DIRECT_ACCESS; pBlkPage->u3PeripheralQualifier = SCSI_INQUIRY_DATA_PERIPHERAL_QUALIFIER_CONNECTED; pBlkPage->u16PageLength = RT_H2BE_U16(0x3c); pBlkPage->u8MaxCmpWriteLength = 0; pBlkPage->u16OptTrfLengthGran = 0; pBlkPage->u32MaxTrfLength = 0; pBlkPage->u32OptTrfLength = 0; pBlkPage->u32MaxPreXdTrfLength = 0; pBlkPage->u32MaxUnmapLbaCount = RT_H2BE_U32(VSCSI_UNMAP_LBAS_MAX(pVScsiLunSbc->cbSector)); pBlkPage->u32MaxUnmapBlkDescCount = UINT32_C(0xffffffff); pBlkPage->u32OptUnmapGranularity = 0; pBlkPage->u32UnmapGranularityAlignment = 0; cVpdPages++; } if (RT_SUCCESS(rc)) { rc = vscsiVpdPagePoolAllocNewPage(&pVScsiLunSbc->VpdPagePool, VSCSI_VPD_BLOCK_PROV_NUMBER, VSCSI_VPD_BLOCK_PROV_SIZE, (uint8_t **)&pBlkProvPage); if (RT_SUCCESS(rc)) { pBlkProvPage->u5PeripheralDeviceType = SCSI_INQUIRY_DATA_PERIPHERAL_DEVICE_TYPE_DIRECT_ACCESS; pBlkProvPage->u3PeripheralQualifier = SCSI_INQUIRY_DATA_PERIPHERAL_QUALIFIER_CONNECTED; pBlkProvPage->u16PageLength = RT_H2BE_U16(0x4); pBlkProvPage->u8ThresholdExponent = 1; pBlkProvPage->fLBPU = true; cVpdPages++; } } } if ( RT_SUCCESS(rc) && (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_NON_ROTATIONAL)) { PVSCSIVPDPAGEBLOCKCHARACTERISTICS pBlkPage; /* Create the page and fill it. */ rc = vscsiVpdPagePoolAllocNewPage(&pVScsiLunSbc->VpdPagePool, VSCSI_VPD_BLOCK_CHARACTERISTICS_NUMBER, VSCSI_VPD_BLOCK_CHARACTERISTICS_SIZE, (uint8_t **)&pBlkPage); if (RT_SUCCESS(rc)) { pBlkPage->u5PeripheralDeviceType = SCSI_INQUIRY_DATA_PERIPHERAL_DEVICE_TYPE_DIRECT_ACCESS; pBlkPage->u3PeripheralQualifier = SCSI_INQUIRY_DATA_PERIPHERAL_QUALIFIER_CONNECTED; pBlkPage->u16PageLength = RT_H2BE_U16(0x3c); pBlkPage->u16MediumRotationRate = RT_H2BE_U16(VSCSI_VPD_BLOCK_CHARACT_MEDIUM_ROTATION_RATE_NON_ROTATING); cVpdPages++; } } if ( RT_SUCCESS(rc) && cVpdPages) { PVSCSIVPDPAGESUPPORTEDPAGES pVpdPages; rc = vscsiVpdPagePoolAllocNewPage(&pVScsiLunSbc->VpdPagePool, VSCSI_VPD_SUPPORTED_PAGES_NUMBER, VSCSI_VPD_SUPPORTED_PAGES_SIZE + cVpdPages, (uint8_t **)&pVpdPages); if (RT_SUCCESS(rc)) { unsigned idxVpdPage = 0; pVpdPages->u5PeripheralDeviceType = SCSI_INQUIRY_DATA_PERIPHERAL_DEVICE_TYPE_DIRECT_ACCESS; pVpdPages->u3PeripheralQualifier = SCSI_INQUIRY_DATA_PERIPHERAL_QUALIFIER_CONNECTED; pVpdPages->u16PageLength = RT_H2BE_U16(cVpdPages); pVpdPages->abVpdPages[idxVpdPage++] = VSCSI_VPD_DEVID_NUMBER; if (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_UNMAP) { pVpdPages->abVpdPages[idxVpdPage++] = VSCSI_VPD_BLOCK_LIMITS_NUMBER; pVpdPages->abVpdPages[idxVpdPage++] = VSCSI_VPD_BLOCK_PROV_NUMBER; } if (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_NON_ROTATIONAL) pVpdPages->abVpdPages[idxVpdPage++] = VSCSI_VPD_BLOCK_CHARACTERISTICS_NUMBER; } } /* For SBC LUNs, there will be no ready state transitions. */ pVScsiLunSbc->Core.fReady = true; return rc; } static DECLCALLBACK(int) vscsiLunSbcDestroy(PVSCSILUNINT pVScsiLun) { PVSCSILUNSBC pVScsiLunSbc = (PVSCSILUNSBC)pVScsiLun; vscsiVpdPagePoolDestroy(&pVScsiLunSbc->VpdPagePool); return VINF_SUCCESS; } static DECLCALLBACK(int) vscsiLunSbcReqProcess(PVSCSILUNINT pVScsiLun, PVSCSIREQINT pVScsiReq) { PVSCSILUNSBC pVScsiLunSbc = (PVSCSILUNSBC)pVScsiLun; int rc = VINF_SUCCESS; int rcReq = SCSI_STATUS_OK; uint64_t uLbaStart = 0; uint32_t cSectorTransfer = 0; VSCSIIOREQTXDIR enmTxDir = VSCSIIOREQTXDIR_INVALID; switch(pVScsiReq->pbCDB[0]) { case SCSI_INQUIRY: { vscsiReqSetXferSize(pVScsiReq, scsiBE2H_U16(&pVScsiReq->pbCDB[3])); /* Check for EVPD bit. */ if (pVScsiReq->pbCDB[1] & 0x1) { rc = vscsiVpdPagePoolQueryPage(&pVScsiLunSbc->VpdPagePool, pVScsiReq, pVScsiReq->pbCDB[2]); if (RT_UNLIKELY(rc == VERR_NOT_FOUND)) { rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); rc = VINF_SUCCESS; } else rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); } else if (pVScsiReq->pbCDB[2] != 0) /* A non zero page code is an error. */ rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); else { SCSIINQUIRYDATA ScsiInquiryReply; memset(&ScsiInquiryReply, 0, sizeof(ScsiInquiryReply)); ScsiInquiryReply.cbAdditional = 31; ScsiInquiryReply.u5PeripheralDeviceType = SCSI_INQUIRY_DATA_PERIPHERAL_DEVICE_TYPE_DIRECT_ACCESS; ScsiInquiryReply.u3PeripheralQualifier = SCSI_INQUIRY_DATA_PERIPHERAL_QUALIFIER_CONNECTED; ScsiInquiryReply.u3AnsiVersion = 0x05; /* SPC-4 compliant */ ScsiInquiryReply.fCmdQue = 1; /* Command queuing supported. */ ScsiInquiryReply.fWBus16 = 1; const char *pszVendorId = "VBOX"; const char *pszProductId = "HARDDISK"; const char *pszProductLevel = "1.0"; int rcTmp = vscsiLunQueryInqStrings(pVScsiLun, &pszVendorId, &pszProductId, &pszProductLevel); Assert(RT_SUCCESS(rcTmp) || rcTmp == VERR_NOT_FOUND); RT_NOREF(rcTmp); scsiPadStrS(ScsiInquiryReply.achVendorId, pszVendorId, 8); scsiPadStrS(ScsiInquiryReply.achProductId, pszProductId, 16); scsiPadStrS(ScsiInquiryReply.achProductLevel, pszProductLevel, 4); RTSgBufCopyFromBuf(&pVScsiReq->SgBuf, (uint8_t *)&ScsiInquiryReply, sizeof(SCSIINQUIRYDATA)); rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); } break; } case SCSI_READ_CAPACITY: { uint8_t aReply[8]; memset(aReply, 0, sizeof(aReply)); vscsiReqSetXferSize(pVScsiReq, sizeof(aReply)); /* * If sector size exceeds the maximum value that is * able to be stored in 4 bytes return 0xffffffff in this field */ if (pVScsiLunSbc->cSectors > UINT32_C(0xffffffff)) scsiH2BE_U32(aReply, UINT32_C(0xffffffff)); else scsiH2BE_U32(aReply, pVScsiLunSbc->cSectors - 1); scsiH2BE_U32(&aReply[4], (uint32_t)pVScsiLunSbc->cbSector); RTSgBufCopyFromBuf(&pVScsiReq->SgBuf, aReply, sizeof(aReply)); rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); break; } case SCSI_MODE_SENSE_6: { uint8_t uModePage = pVScsiReq->pbCDB[2] & 0x3f; uint8_t aReply[24]; uint8_t *pu8ReplyPos; bool fValid = false; vscsiReqSetXferSize(pVScsiReq, pVScsiReq->pbCDB[4]); memset(aReply, 0, sizeof(aReply)); aReply[0] = 4; /* Reply length 4. */ aReply[1] = 0; /* Default media type. */ aReply[2] = RT_BIT(4); /* Caching supported. */ aReply[3] = 0; /* Block descriptor length. */ if (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_READONLY) aReply[2] |= RT_BIT(7); /* Set write protect bit */ pu8ReplyPos = aReply + 4; if ((uModePage == 0x08) || (uModePage == 0x3f)) { memset(pu8ReplyPos, 0, 20); *pu8ReplyPos++ = 0x08; /* Page code. */ *pu8ReplyPos++ = 0x12; /* Size of the page. */ *pu8ReplyPos++ = 0x4; /* Write cache enabled. */ fValid = true; } else if (uModePage == 0) { fValid = true; } /* Querying unknown pages must fail. */ if (fValid) { RTSgBufCopyFromBuf(&pVScsiReq->SgBuf, aReply, sizeof(aReply)); rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); } else { rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); } break; } case SCSI_MODE_SELECT_6: { uint8_t abParms[12]; size_t cbCopied; size_t cbList = pVScsiReq->pbCDB[4]; vscsiReqSetXferSize(pVScsiReq, pVScsiReq->pbCDB[4]); /* Copy the parameters. */ cbCopied = RTSgBufCopyToBuf(&pVScsiReq->SgBuf, &abParms[0], sizeof(abParms)); /* Handle short LOGICAL BLOCK LENGTH parameter. */ if ( !(pVScsiReq->pbCDB[1] & 0x01) && cbCopied == sizeof(abParms) && cbList >= 12 && abParms[3] == 8) { uint32_t cbBlock; cbBlock = scsiBE2H_U24(&abParms[4 + 5]); Log2(("SBC: set LOGICAL BLOCK LENGTH to %u\n", cbBlock)); if (cbBlock == 512) /* Fixed block size. */ { rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); break; } } /* Fail any other requests. */ rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); break; } case SCSI_READ_6: { enmTxDir = VSCSIIOREQTXDIR_READ; uLbaStart = ((uint64_t) pVScsiReq->pbCDB[3] | (pVScsiReq->pbCDB[2] << 8) | ((pVScsiReq->pbCDB[1] & 0x1f) << 16)); cSectorTransfer = pVScsiReq->pbCDB[4]; break; } case SCSI_READ_10: { enmTxDir = VSCSIIOREQTXDIR_READ; uLbaStart = scsiBE2H_U32(&pVScsiReq->pbCDB[2]); cSectorTransfer = scsiBE2H_U16(&pVScsiReq->pbCDB[7]); break; } case SCSI_READ_12: { enmTxDir = VSCSIIOREQTXDIR_READ; uLbaStart = scsiBE2H_U32(&pVScsiReq->pbCDB[2]); cSectorTransfer = scsiBE2H_U32(&pVScsiReq->pbCDB[6]); break; } case SCSI_READ_16: { enmTxDir = VSCSIIOREQTXDIR_READ; uLbaStart = scsiBE2H_U64(&pVScsiReq->pbCDB[2]); cSectorTransfer = scsiBE2H_U32(&pVScsiReq->pbCDB[10]); break; } case SCSI_WRITE_6: { enmTxDir = VSCSIIOREQTXDIR_WRITE; uLbaStart = ((uint64_t) pVScsiReq->pbCDB[3] | (pVScsiReq->pbCDB[2] << 8) | ((pVScsiReq->pbCDB[1] & 0x1f) << 16)); cSectorTransfer = pVScsiReq->pbCDB[4]; break; } case SCSI_WRITE_10: { enmTxDir = VSCSIIOREQTXDIR_WRITE; uLbaStart = scsiBE2H_U32(&pVScsiReq->pbCDB[2]); cSectorTransfer = scsiBE2H_U16(&pVScsiReq->pbCDB[7]); break; } case SCSI_WRITE_12: { enmTxDir = VSCSIIOREQTXDIR_WRITE; uLbaStart = scsiBE2H_U32(&pVScsiReq->pbCDB[2]); cSectorTransfer = scsiBE2H_U32(&pVScsiReq->pbCDB[6]); break; } case SCSI_WRITE_16: { enmTxDir = VSCSIIOREQTXDIR_WRITE; uLbaStart = scsiBE2H_U64(&pVScsiReq->pbCDB[2]); cSectorTransfer = scsiBE2H_U32(&pVScsiReq->pbCDB[10]); break; } case SCSI_SYNCHRONIZE_CACHE: { break; /* Handled below */ } case SCSI_READ_BUFFER: { uint8_t uDataMode = pVScsiReq->pbCDB[1] & 0x1f; vscsiReqSetXferSize(pVScsiReq, scsiBE2H_U16(&pVScsiReq->pbCDB[6])); switch (uDataMode) { case 0x00: case 0x01: case 0x02: case 0x03: case 0x0a: break; case 0x0b: { uint8_t aReply[4]; /* We do not implement an echo buffer. */ memset(aReply, 0, sizeof(aReply)); RTSgBufCopyFromBuf(&pVScsiReq->SgBuf, aReply, sizeof(aReply)); rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); break; } case 0x1a: case 0x1c: break; default: AssertMsgFailed(("Invalid data mode\n")); } break; } case SCSI_VERIFY_10: case SCSI_START_STOP_UNIT: { vscsiReqSetXferSize(pVScsiReq, 0); rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); break; } case SCSI_LOG_SENSE: { uint8_t uPageCode = pVScsiReq->pbCDB[2] & 0x3f; uint8_t uSubPageCode = pVScsiReq->pbCDB[3]; vscsiReqSetXferSize(pVScsiReq, scsiBE2H_U16(&pVScsiReq->pbCDB[7])); switch (uPageCode) { case 0x00: { if (uSubPageCode == 0) { uint8_t aReply[4]; aReply[0] = 0; aReply[1] = 0; aReply[2] = 0; aReply[3] = 0; RTSgBufCopyFromBuf(&pVScsiReq->SgBuf, aReply, sizeof(aReply)); rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); break; } } RT_FALL_THRU(); default: rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); } break; } case SCSI_SERVICE_ACTION_IN_16: { switch (pVScsiReq->pbCDB[1] & 0x1f) { case SCSI_SVC_ACTION_IN_READ_CAPACITY_16: { uint8_t aReply[32]; memset(aReply, 0, sizeof(aReply)); scsiH2BE_U64(aReply, pVScsiLunSbc->cSectors - 1); scsiH2BE_U32(&aReply[8], 512); if (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_UNMAP) aReply[14] = 0x80; /* LPME enabled */ /* Leave the rest 0 */ vscsiReqSetXferSize(pVScsiReq, sizeof(aReply)); RTSgBufCopyFromBuf(&pVScsiReq->SgBuf, aReply, sizeof(aReply)); rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); break; } default: rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); /* Don't know if this is correct */ } break; } case SCSI_UNMAP: { if (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_UNMAP) { uint8_t abHdr[8]; size_t cbCopied; size_t cbList = scsiBE2H_U16(&pVScsiReq->pbCDB[7]); /* Copy the header. */ vscsiReqSetXferSize(pVScsiReq, cbList); cbCopied = RTSgBufCopyToBuf(&pVScsiReq->SgBuf, &abHdr[0], sizeof(abHdr)); /* Using the anchor bit is not supported. */ if ( !(pVScsiReq->pbCDB[1] & 0x01) && cbCopied == sizeof(abHdr) && cbList >= 8) { uint32_t cBlkDesc = scsiBE2H_U16(&abHdr[2]) / 16; if (cBlkDesc) { PRTRANGE paRanges = (PRTRANGE)RTMemAllocZ(cBlkDesc * sizeof(RTRANGE)); if (paRanges) { for (unsigned i = 0; i < cBlkDesc; i++) { uint8_t abBlkDesc[16]; cbCopied = RTSgBufCopyToBuf(&pVScsiReq->SgBuf, &abBlkDesc[0], sizeof(abBlkDesc)); if (RT_UNLIKELY(cbCopied != sizeof(abBlkDesc))) { rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); break; } paRanges[i].offStart = scsiBE2H_U64(&abBlkDesc[0]) * 512; paRanges[i].cbRange = scsiBE2H_U32(&abBlkDesc[8]) * 512; } if (rcReq == SCSI_STATUS_OK) rc = vscsiIoReqUnmapEnqueue(pVScsiLun, pVScsiReq, paRanges, cBlkDesc); if ( rcReq != SCSI_STATUS_OK || RT_FAILURE(rc)) RTMemFree(paRanges); } else /* Out of memory. */ rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_HARDWARE_ERROR, SCSI_ASC_SYSTEM_RESOURCE_FAILURE, SCSI_ASCQ_SYSTEM_BUFFER_FULL); } else /* No block descriptors is not an error condition. */ rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); } else /* Invalid CDB. */ rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET, 0x00); } else rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_ILLEGAL_OPCODE, 0x00); break; } default: //AssertMsgFailed(("Command %#x [%s] not implemented\n", pRequest->pbCDB[0], SCSICmdText(pRequest->pbCDB[0]))); rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_ILLEGAL_OPCODE, 0x00); } if (enmTxDir != VSCSIIOREQTXDIR_INVALID) { LogFlow(("%s: uLbaStart=%llu cSectorTransfer=%u\n", __FUNCTION__, uLbaStart, cSectorTransfer)); vscsiReqSetXferSize(pVScsiReq, cSectorTransfer * 512); if (RT_UNLIKELY(uLbaStart + cSectorTransfer > pVScsiLunSbc->cSectors)) { rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_LOGICAL_BLOCK_OOR, 0x00); vscsiDeviceReqComplete(pVScsiLun->pVScsiDevice, pVScsiReq, rcReq, false, VINF_SUCCESS); } else if (!cSectorTransfer) { /* A 0 transfer length is not an error. */ rcReq = vscsiLunReqSenseOkSet(pVScsiLun, pVScsiReq); vscsiDeviceReqComplete(pVScsiLun->pVScsiDevice, pVScsiReq, rcReq, false, VINF_SUCCESS); } else { /* Enqueue new I/O request */ if ( ( enmTxDir == VSCSIIOREQTXDIR_WRITE || enmTxDir == VSCSIIOREQTXDIR_FLUSH) && (pVScsiLun->fFeatures & VSCSI_LUN_FEATURE_READONLY)) rcReq = vscsiLunReqSenseErrorSet(pVScsiLun, pVScsiReq, SCSI_SENSE_DATA_PROTECT, SCSI_ASC_WRITE_PROTECTED, 0x00); else rc = vscsiIoReqTransferEnqueue(pVScsiLun, pVScsiReq, enmTxDir, uLbaStart * 512, cSectorTransfer * 512); } } else if (pVScsiReq->pbCDB[0] == SCSI_SYNCHRONIZE_CACHE) { /* Enqueue flush */ vscsiReqSetXferSize(pVScsiReq, 0); rc = vscsiIoReqFlushEnqueue(pVScsiLun, pVScsiReq); } else if (pVScsiReq->pbCDB[0] != SCSI_UNMAP) /* Request completed */ vscsiDeviceReqComplete(pVScsiLun->pVScsiDevice, pVScsiReq, rcReq, false, VINF_SUCCESS); return rc; } VSCSILUNDESC g_VScsiLunTypeSbc = { /** enmLunType */ VSCSILUNTYPE_SBC, /** pcszDescName */ "SBC", /** cbLun */ sizeof(VSCSILUNSBC), /** cSupOpcInfo */ 0, /** paSupOpcInfo */ NULL, /** pfnVScsiLunInit */ vscsiLunSbcInit, /** pfnVScsiLunDestroy */ vscsiLunSbcDestroy, /** pfnVScsiLunReqProcess */ vscsiLunSbcReqProcess, /** pfnVScsiLunReqFree */ NULL, /** pfnVScsiLunMediumInserted */ NULL, /** pfnVScsiLunMediumRemoved */ NULL };