#define LOG_GROUP LOG_GROUP_VSCSI

#include <VBox/log.h>

#include <VBox/err.h>

#include <VBox/types.h>

#include <VBox/vscsi.h>

#include <iprt/assert.h>

#include <iprt/mem.h>

#include <iprt/string.h>

#include "VSCSIInternal.h"

typedef struct VSCSILUNSBC

{

/** Core LUN structure */

VSCSILUNINT Core;

/** Size of the virtual disk. */

uint64_t cSectors;

} VSCSILUNSBC;

typedef VSCSILUNSBC *PVSCSILUNSBC;

static int vscsiLunSbcInit(PVSCSILUNINT pVScsiLun)

{

PVSCSILUNSBC pVScsiLunSbc = (PVSCSILUNSBC)pVScsiLun;

uint64_t cbDisk = 0;

int rc = VINF_SUCCESS;

rc = vscsiLunMediumGetSize(pVScsiLun, &cbDisk);

if (RT_SUCCESS(rc))

pVScsiLunSbc->cSectors = cbDisk / 512; /* Fixed sector size */

return rc;

}

static int vscsiLunSbcDestroy(PVSCSILUNINT pVScsiLun)

{

PVSCSILUNSBC pVScsiLunSbc = (PVSCSILUNSBC)pVScsiLun;

return VINF_SUCCESS;

}

static 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:

{

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;

vscsiPadStr(ScsiInquiryReply.achVendorId, "VBOX", 8);

vscsiPadStr(ScsiInquiryReply.achProductId, "HARDDISK", 16);

vscsiPadStr(ScsiInquiryReply.achProductLevel, "1.0", 4);

vscsiCopyToIoMemCtx(&pVScsiReq->IoMemCtx, (uint8_t *)&ScsiInquiryReply, sizeof(SCSIINQUIRYDATA));

rcReq = vscsiReqSenseOkSet(pVScsiReq);

break;

}

case SCSI_READ_CAPACITY:

{

uint8_t aReply[8];

memset(aReply, 0, sizeof(aReply));

/*

if (pVScsiLunSbc->cSectors > UINT32_C(0xffffffff))

vscsiH2BEU32(aReply, UINT32_C(0xffffffff));

else

vscsiH2BEU32(aReply, pVScsiLunSbc->cSectors - 1);

vscsiH2BEU32(&aReply[4], 512);

vscsiCopyToIoMemCtx(&pVScsiReq->IoMemCtx, aReply, sizeof(aReply));

rcReq = vscsiReqSenseOkSet(pVScsiReq);

break;

}

case SCSI_MODE_SENSE_6:

{

uint8_t uModePage = pVScsiReq->pbCDB[2] & 0x3f;

uint8_t aReply[24];

uint8_t *pu8ReplyPos;

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. */

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. */

}

vscsiCopyToIoMemCtx(&pVScsiReq->IoMemCtx, aReply, sizeof(aReply));

rcReq = vscsiReqSenseOkSet(pVScsiReq);

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 = vscsiBE2HU32(&pVScsiReq->pbCDB[2]);

cSectorTransfer = vscsiBE2HU16(&pVScsiReq->pbCDB[7]);

break;

}

case SCSI_READ_12:

{

enmTxDir = VSCSIIOREQTXDIR_READ;

uLbaStart = vscsiBE2HU32(&pVScsiReq->pbCDB[2]);

cSectorTransfer = vscsiBE2HU32(&pVScsiReq->pbCDB[6]);

break;

}

case SCSI_READ_16:

{

enmTxDir = VSCSIIOREQTXDIR_READ;

uLbaStart = vscsiBE2HU64(&pVScsiReq->pbCDB[2]);

cSectorTransfer = vscsiBE2HU32(&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 = vscsiBE2HU32(&pVScsiReq->pbCDB[2]);

cSectorTransfer = vscsiBE2HU16(&pVScsiReq->pbCDB[7]);

break;

}

case SCSI_WRITE_12:

{

enmTxDir = VSCSIIOREQTXDIR_WRITE;

uLbaStart = vscsiBE2HU32(&pVScsiReq->pbCDB[2]);

cSectorTransfer = vscsiBE2HU32(&pVScsiReq->pbCDB[6]);

break;

}

case SCSI_WRITE_16:

{

enmTxDir = VSCSIIOREQTXDIR_WRITE;

uLbaStart = vscsiBE2HU64(&pVScsiReq->pbCDB[2]);

cSectorTransfer = vscsiBE2HU32(&pVScsiReq->pbCDB[10]);

break;

}

case SCSI_SYNCHRONIZE_CACHE:

{

break; /* Handled below */

}

case SCSI_READ_BUFFER:

{

uint8_t uDataMode = pVScsiReq->pbCDB[1] & 0x1f;

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));

vscsiCopyToIoMemCtx(&pVScsiReq->IoMemCtx, aReply, sizeof(aReply));

rcReq = vscsiReqSenseOkSet(pVScsiReq);

break;

}

case 0x1a:

case 0x1c:

break;

default:

AssertMsgFailed(("Invalid data mode\n"));

}

break;

}

case SCSI_VERIFY_10:

case SCSI_START_STOP_UNIT:

{

rcReq = vscsiReqSenseOkSet(pVScsiReq);

break;

}

case SCSI_LOG_SENSE:

{

uint16_t cbMax = vscsiBE2HU16(&pVScsiReq->pbCDB[7]);

uint8_t uPageCode = pVScsiReq->pbCDB[2] & 0x3f;

uint8_t uSubPageCode = pVScsiReq->pbCDB[3];

switch (uPageCode)

{

case 0x00:

{

if (uSubPageCode == 0)

{

uint8_t aReply[4];

aReply[0] = 0;

aReply[1] = 0;

aReply[2] = 0;

aReply[3] = 0;

vscsiCopyToIoMemCtx(&pVScsiReq->IoMemCtx, aReply, sizeof(aReply));

rcReq = vscsiReqSenseOkSet(pVScsiReq);

break;

}

}

default:

rcReq = vscsiReqSenseErrorSet(pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET);

}

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));

vscsiH2BEU64(aReply, pVScsiLunSbc->cSectors - 1);

vscsiH2BEU32(&aReply[8], 512);

/* Leave the rest 0 */

vscsiCopyToIoMemCtx(&pVScsiReq->IoMemCtx, aReply, sizeof(aReply));

rcReq = vscsiReqSenseOkSet(pVScsiReq);

break;

}

default:

rcReq = vscsiReqSenseErrorSet(pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INV_FIELD_IN_CMD_PACKET); /* Don't know if this is correct */

}

break;

}

default:

//AssertMsgFailed(("Command %#x [%s] not implemented\n", pRequest->pbCDB[0], SCSICmdText(pRequest->pbCDB[0])));

rcReq = vscsiReqSenseErrorSet(pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_ILLEGAL_OPCODE);

}

if (enmTxDir != VSCSIIOREQTXDIR_INVALID)

{

LogFlow(("%s: uLbaStart=%llu cSectorTransfer=%u\n",

__FUNCTION__, uLbaStart, cSectorTransfer));

if (RT_UNLIKELY(uLbaStart + cSectorTransfer > pVScsiLunSbc->cSectors))

{

rcReq = vscsiReqSenseErrorSet(pVScsiReq, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_LOGICAL_BLOCK_OOR);

vscsiDeviceReqComplete(pVScsiLun->pVScsiDevice, pVScsiReq, rcReq, false, VINF_SUCCESS);

}

else

{

/* Enqueue new I/O request */

rc = vscsiIoReqTransferEnqueue(pVScsiLun, pVScsiReq, enmTxDir,

uLbaStart * 512, cSectorTransfer * 512);

}

}

else if (pVScsiReq->pbCDB[0] == SCSI_SYNCHRONIZE_CACHE)

{

/* Enqueue flush */

rc = vscsiIoReqFlushEnqueue(pVScsiLun, pVScsiReq);

}

else /* Request completed */

vscsiDeviceReqComplete(pVScsiLun->pVScsiDevice, pVScsiReq, rcReq, false, VINF_SUCCESS);

return rc;

}

VSCSILUNDESC g_VScsiLunTypeSbc =

{

/** enmLunType */

VSCSILUNTYPE_SBC,

/** pcszDescName */

"SBC",

/** cbLun */

sizeof(VSCSILUNSBC),

/** pfnVScsiLunInit */

vscsiLunSbcInit,

/** pfnVScsiLunDestroy */

vscsiLunSbcDestroy,

/** pfnVScsiLunReqProcess */

vscsiLunSbcReqProcess

};