/*******************************************************************************
*Copyright (c) 2014 PMC-Sierra, Inc. All rights reserved.
*
*Redistribution and use in source and binary forms, with or without modification, are permitted provided
*that the following conditions are met:
*1. Redistributions of source code must retain the above copyright notice, this list of conditions and the
*following disclaimer.
*2. Redistributions in binary form must reproduce the above copyright notice,
*this list of conditions and the following disclaimer in the documentation and/or other materials provided
*with the distribution.
*
*THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED
*WARRANTIES,INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
*FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
*FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
*NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
*BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
*LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
*SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE
**
********************************************************************************/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <dev/pms/config.h>
#include <dev/pms/freebsd/driver/common/osenv.h>
#include <dev/pms/freebsd/driver/common/ostypes.h>
#include <dev/pms/freebsd/driver/common/osdebug.h>
#include <dev/pms/RefTisa/sallsdk/api/sa.h>
#include <dev/pms/RefTisa/sallsdk/api/saapi.h>
#include <dev/pms/RefTisa/sallsdk/api/saosapi.h>
#ifdef FDS_DM
#include <dev/pms/RefTisa/discovery/api/dm.h>
#include <dev/pms/RefTisa/discovery/api/dmapi.h>
#include <dev/pms/RefTisa/discovery/api/tddmapi.h>
#include <dev/pms/RefTisa/discovery/dm/dmdefs.h>
#include <dev/pms/RefTisa/discovery/dm/dmtypes.h>
#include <dev/pms/RefTisa/discovery/dm/dmproto.h>
osGLOBAL bit32
dmSMPStart(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
dmDeviceData_t *oneDeviceData,
bit32 functionCode,
bit8 *pSmpBody,
bit32 smpBodySize,
bit32 agRequestType
)
{
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
dmIntPortContext_t *onePortContext = agNULL;
dmSMPRequestBody_t *dmSMPRequestBody = agNULL;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *dmSMPResponseBody = agNULL;
#endif
agsaSASRequestBody_t *agSASRequestBody;
dmList_t *SMPList;
agsaDevHandle_t *agDevHandle;
agsaIORequest_t *agIORequest;
agsaSMPFrame_t *agSMPFrame;
bit32 expectedRspLen = 0;
dmSMPFrameHeader_t dmSMPFrameHeader;
dmExpander_t *oneExpander = agNULL;
bit32 status;
DM_DBG5(("dmSMPStart: start\n"));
DM_DBG5(("dmSMPStart: 2nd sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG5(("dmSMPStart: 2nd sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
dm_memset(&dmSMPFrameHeader, 0, sizeof(dmSMPFrameHeader_t));
onePortContext = oneDeviceData->dmPortContext;
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmSMPStart: invalid port or aborted discovery!!!\n"));
return DM_RC_FAILURE;
}
oneExpander = oneDeviceData->dmExpander;
if (oneExpander == agNULL)
{
DM_DBG1(("dmSMPStart: Wrong!!! oneExpander is NULL!!!\n"));
return DM_RC_FAILURE;
}
if (onePortContext != agNULL)
{
DM_DBG5(("dmSMPStart: pid %d\n", onePortContext->id));
/* increment the number of pending SMP */
onePortContext->discovery.pendingSMP++;
}
else
{
DM_DBG1(("dmSMPStart: Wrong, onePortContext is NULL!!!\n"));
return DM_RC_FAILURE;
}
/* get an smp REQUEST from the free list */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
if (DMLIST_EMPTY(&(dmAllShared->freeSMPList)))
{
DM_DBG1(("dmSMPStart: no free SMP!!!\n"));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
/* undo increment the number of pending SMP */
onePortContext->discovery.pendingSMP--;
return DM_RC_FAILURE;
}
else
{
DMLIST_DEQUEUE_FROM_HEAD(&SMPList, &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
dmSMPRequestBody = DMLIST_OBJECT_BASE(dmSMPRequestBody_t, Link, SMPList);
}
if (dmSMPRequestBody == agNULL)
{
DM_DBG1(("dmSMPStart: dmSMPRequestBody is NULL, wrong!!!\n"));
return DM_RC_FAILURE;
}
DM_DBG5(("dmSMPStart: SMP id %d\n", dmSMPRequestBody->id));
dmSMPRequestBody->dmRoot = dmRoot;
dmSMPRequestBody->dmDevice = oneDeviceData;
dmSMPRequestBody->dmPortContext = onePortContext;
agDevHandle = oneExpander->agDevHandle;
/* save the callback funtion */
dmSMPRequestBody->SMPCompletionFunc = dmSMPCompleted; /* in dmsmp.c */
dmSMPRequestBody->retries = 0;
agIORequest = &(dmSMPRequestBody->agIORequest);
agIORequest->osData = (void *) dmSMPRequestBody;
agIORequest->sdkData = agNULL; /* SALL takes care of this */
agSASRequestBody = &(dmSMPRequestBody->agSASRequestBody);
agSMPFrame = &(agSASRequestBody->smpFrame);
/* sets dmSMPFrameHeader values */
if (oneExpander->SAS2 == 0)
{
DM_DBG5(("dmSMPStart: SAS 1.1\n"));
switch (functionCode)
{
case SMP_REPORT_GENERAL:
expectedRspLen = sizeof(smpRespReportGeneral_t) + 4;
break;
case SMP_REPORT_MANUFACTURE_INFORMATION:
expectedRspLen = sizeof(smpRespReportManufactureInfo_t) + 4;
break;
case SMP_DISCOVER:
expectedRspLen = sizeof(smpRespDiscover_t) + 4;
break;
case SMP_REPORT_PHY_ERROR_LOG:
expectedRspLen = 32 - 4;
break;
case SMP_REPORT_PHY_SATA:
expectedRspLen = sizeof(smpRespReportPhySata_t) + 4;
break;
case SMP_REPORT_ROUTING_INFORMATION:
expectedRspLen = sizeof(smpRespReportRouteTable_t) + 4;
break;
case SMP_CONFIGURE_ROUTING_INFORMATION:
expectedRspLen = 4;
break;
case SMP_PHY_CONTROL:
expectedRspLen = 4;
break;
case SMP_PHY_TEST_FUNCTION:
expectedRspLen = 4;
break;
case SMP_PMC_SPECIFIC:
expectedRspLen = 4;
break;
default:
expectedRspLen = 0;
DM_DBG1(("dmSMPStart: SAS 1.1 error, undefined or unused smp function code 0x%x !!!\n", functionCode));
return DM_RC_FAILURE;
}
/* SMP 1.1 header */
dmSMPFrameHeader.smpFrameType = SMP_REQUEST; /* SMP request */
dmSMPFrameHeader.smpFunction = (bit8)functionCode;
dmSMPFrameHeader.smpFunctionResult = 0;
dmSMPFrameHeader.smpReserved = 0;
}
else /* SAS 2 */
{
DM_DBG2(("dmSMPStart: SAS 2\n"));
switch (functionCode)
{
case SMP_REPORT_GENERAL:
expectedRspLen = sizeof(smpRespReportGeneral2_t) + 4;
/* SMP 2.0 header */
dmSMPFrameHeader.smpFrameType = SMP_REQUEST; /* SMP request */
dmSMPFrameHeader.smpFunction = (bit8)functionCode;
dmSMPFrameHeader.smpFunctionResult = 0x11;
dmSMPFrameHeader.smpReserved = 0;
break;
case SMP_REPORT_MANUFACTURE_INFORMATION:
expectedRspLen = sizeof(smpRespReportManufactureInfo2_t) + 4;
break;
case SMP_DISCOVER:
expectedRspLen = sizeof(smpRespDiscover2_t) + 4;
/* SMP 2.0 header */
dmSMPFrameHeader.smpFrameType = SMP_REQUEST; /* SMP request */
dmSMPFrameHeader.smpFunction = (bit8)functionCode;
// dmSMPFrameHeader.smpFunctionResult = 0x6c;
dmSMPFrameHeader.smpFunctionResult = 0x1b;
dmSMPFrameHeader.smpReserved = 0x02;
break;
case SMP_REPORT_PHY_ERROR_LOG:
expectedRspLen = 32 - 4;
break;
case SMP_REPORT_PHY_SATA:
/* SMP 2.0 header */
dmSMPFrameHeader.smpFrameType = SMP_REQUEST; /* SMP request */
dmSMPFrameHeader.smpFunction = (bit8)functionCode;
dmSMPFrameHeader.smpFunctionResult = 0x10;
dmSMPFrameHeader.smpReserved = 0x02;
expectedRspLen = sizeof(smpRespReportPhySata2_t) + 4;
break;
case SMP_REPORT_ROUTING_INFORMATION:
expectedRspLen = sizeof(smpRespReportRouteTable2_t) + 4;
break;
case SMP_CONFIGURE_ROUTING_INFORMATION:
expectedRspLen = 4;
/* SMP 2.0 header */
dmSMPFrameHeader.smpFrameType = SMP_REQUEST; /* SMP request */
dmSMPFrameHeader.smpFunction = (bit8)functionCode;
dmSMPFrameHeader.smpFunctionResult = 0;
dmSMPFrameHeader.smpReserved = 0x09;
break;
case SMP_PHY_CONTROL:
expectedRspLen = 4;
/* SMP 2.0 header */
dmSMPFrameHeader.smpFrameType = SMP_REQUEST; /* SMP request */
dmSMPFrameHeader.smpFunction = (bit8)functionCode;
dmSMPFrameHeader.smpFunctionResult = 0;
dmSMPFrameHeader.smpReserved = 0x09;
break;
case SMP_PHY_TEST_FUNCTION:
expectedRspLen = 4;
break;
case SMP_DISCOVER_LIST:
expectedRspLen = SMP_MAXIMUM_PAYLOAD; /* 1024 without CRC */
/* SMP 2.0 header */
dmSMPFrameHeader.smpFrameType = SMP_REQUEST; /* SMP request */
dmSMPFrameHeader.smpFunction = (bit8)functionCode;
dmSMPFrameHeader.smpFunctionResult = 0xFF;
dmSMPFrameHeader.smpReserved = 0x06;
break;
case SMP_PMC_SPECIFIC:
expectedRspLen = 4;
break;
default:
expectedRspLen = 0;
DM_DBG1(("dmSMPStart: SAS 2 error!!! undefined or unused smp function code 0x%x!!!\n", functionCode));
return DM_RC_FAILURE;
}
}
if (DMIsSPC(agRoot))
{
#ifdef DIRECT_SMP /* direct SMP with 48 or less payload */
if ( (smpBodySize + 4) <= SMP_DIRECT_PAYLOAD_LIMIT) /* 48 */
{
DM_DBG5(("dmSMPStart: DIRECT smp payload\n"));
dm_memset(dmSMPRequestBody->smpPayload, 0, SMP_DIRECT_PAYLOAD_LIMIT);
dm_memcpy(dmSMPRequestBody->smpPayload, &dmSMPFrameHeader, 4);
dm_memcpy((dmSMPRequestBody->smpPayload)+4, pSmpBody, smpBodySize);
/* direct SMP payload eg) REPORT_GENERAL, DISCOVER etc */
agSMPFrame->outFrameBuf = dmSMPRequestBody->smpPayload;
agSMPFrame->outFrameLen = smpBodySize + 4; /* without last 4 byte crc */
/* to specify DIRECT SMP response */
agSMPFrame->inFrameLen = 0;
/* temporary solution for T2D Combo*/
#if defined (INITIATOR_DRIVER) && defined (TARGET_DRIVER)
/* force smp repsonse to be direct */
agSMPFrame->expectedRespLen = 0;
#else
agSMPFrame->expectedRespLen = expectedRspLen;
#endif
}
else
{
DM_DBG5(("dmSMPStart: INDIRECT smp payload, TBD\n"));
}
#else
/*
dmSMPRequestBody is SMP request
dmSMPResponsebody is SMP response
*/
/* get an smp RESPONSE from the free list */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
if (DMLIST_EMPTY(&(dmAllShared->freeSMPList)))
{
DM_DBG1(("dmSMPStart: no free SMP!!!\n"));
/* puy back dmSMPRequestBody to the freelist ???*/
// DMLIST_DEQUEUE_THIS(&(dmSMPRequestBody->Link));
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
/* undo increment the number of pending SMP */
onePortContext->discovery.pendingSMP--;
return DM_RC_FAILURE;
}
else
{
DMLIST_DEQUEUE_FROM_HEAD(&SMPList, &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
dmSMPResponseBody = DMLIST_OBJECT_BASE(dmSMPRequestBody_t, Link, SMPList);
DM_DBG5(("dmSMPStart: SMP id %d\n", dmSMPResponseBody->id));
}
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPStart: dmSMPResponseBody is NULL, wrong!!!\n"));
return DM_RC_FAILURE;
}
/* fill in indirect SMP request fields */
DM_DBG5(("dmSMPStart: INDIRECT smp payload\n"));
/* save the pointer to SMP response in SMP request */
dmSMPRequestBody->IndirectSMPResponse = dmSMPResponseBody;
/* SMP request and response initialization */
dm_memset(dmSMPRequestBody->IndirectSMP, 0, smpBodySize + 4);
dm_memset(dmSMPResponseBody->IndirectSMP, 0, expectedRspLen);
dm_memcpy(dmSMPRequestBody->IndirectSMP, &dmSMPFrameHeader, 4);
dm_memcpy(dmSMPRequestBody->IndirectSMP+4, pSmpBody, smpBodySize);
/* Indirect SMP request */
agSMPFrame->outFrameBuf = agNULL;
agSMPFrame->outFrameAddrUpper32 = dmSMPRequestBody->IndirectSMPUpper32;
agSMPFrame->outFrameAddrLower32 = dmSMPRequestBody->IndirectSMPLower32;
agSMPFrame->outFrameLen = smpBodySize + 4; /* without last 4 byte crc */
/* Indirect SMP response */
agSMPFrame->expectedRespLen = expectedRspLen;
agSMPFrame->inFrameAddrUpper32 = dmSMPResponseBody->IndirectSMPUpper32;
agSMPFrame->inFrameAddrLower32 = dmSMPResponseBody->IndirectSMPLower32;
agSMPFrame->inFrameLen = expectedRspLen; /* without last 4 byte crc */
#endif
}
else /* SPCv controller */
{
/* only direct mode for both request and response */
DM_DBG5(("dmSMPStart: DIRECT smp payload\n"));
agSMPFrame->flag = 0;
dm_memset(dmSMPRequestBody->smpPayload, 0, SMP_DIRECT_PAYLOAD_LIMIT);
dm_memcpy(dmSMPRequestBody->smpPayload, &dmSMPFrameHeader, 4);
dm_memcpy((dmSMPRequestBody->smpPayload)+4, pSmpBody, smpBodySize);
/* direct SMP payload eg) REPORT_GENERAL, DISCOVER etc */
agSMPFrame->outFrameBuf = dmSMPRequestBody->smpPayload;
agSMPFrame->outFrameLen = smpBodySize + 4; /* without last 4 byte crc */
/* to specify DIRECT SMP response */
agSMPFrame->inFrameLen = 0;
/* temporary solution for T2D Combo*/
#if defined (INITIATOR_DRIVER) && defined (TARGET_DRIVER)
/* force smp repsonse to be direct */
agSMPFrame->expectedRespLen = 0;
#else
agSMPFrame->expectedRespLen = expectedRspLen;
#endif
// tdhexdump("tdSMPStart", (bit8*)agSMPFrame->outFrameBuf, agSMPFrame->outFrameLen);
// tdhexdump("tdSMPStart new", (bit8*)tdSMPRequestBody->smpPayload, agSMPFrame->outFrameLen);
// tdhexdump("tdSMPStart - tdSMPRequestBody", (bit8*)tdSMPRequestBody, sizeof(tdssSMPRequestBody_t));
}
if (agDevHandle == agNULL)
{
DM_DBG1(("dmSMPStart: !!! agDevHandle is NULL !!! \n"));
}
else
{
status = saSMPStart(
agRoot,
agIORequest,
0,
agDevHandle,
agRequestType,
agSASRequestBody,
&dmsaSMPCompleted
);
if (status == AGSA_RC_SUCCESS)
{
/* start SMP timer */
if (functionCode == SMP_REPORT_GENERAL || functionCode == SMP_DISCOVER ||
functionCode == SMP_REPORT_PHY_SATA || functionCode == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverySMPTimer(dmRoot, onePortContext, functionCode, dmSMPRequestBody);
}
return DM_RC_SUCCESS;
}
else if (status == AGSA_RC_BUSY)
{
/* set timer */
if (functionCode == SMP_REPORT_GENERAL || functionCode == SMP_DISCOVER ||
functionCode == SMP_REPORT_PHY_SATA || functionCode == SMP_CONFIGURE_ROUTING_INFORMATION)
{
/* only for discovery related SMPs*/
dmSMPBusyTimer(dmRoot, onePortContext, oneDeviceData, dmSMPRequestBody);
return DM_RC_SUCCESS;
}
else
{
DM_DBG1(("dmSMPStart: return DM_RC_BUSY!!! \n"));
#ifdef DIRECT_SMP
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#else
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return DM_RC_BUSY;
}
}
else /* AGSA_RC_FAILURE */
{
DM_DBG1(("dmSMPStart: return DM_RC_FAILURE!!! \n"));
/* discovery failure or task management failure */
if (functionCode == SMP_REPORT_GENERAL || functionCode == SMP_DISCOVER ||
functionCode == SMP_REPORT_PHY_SATA || functionCode == SMP_CONFIGURE_ROUTING_INFORMATION)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
#ifdef DIRECT_SMP
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#else
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return DM_RC_FAILURE;
}
}
return DM_RC_SUCCESS;
}
osGLOBAL void
dmsaSMPCompleted(
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
bit32 agIOStatus,
bit32 agIOInfoLen,
agsaFrameHandle_t agFrameHandle
)
{
dmSMPRequestBody_t *pSMPRequestBody = (dmSMPRequestBody_t *) agIORequest->osData;
/* SPC can't be SMP target */
DM_DBG5(("dmsaSMPCompleted: start\n"));
if (pSMPRequestBody == agNULL)
{
DM_DBG1(("dmsaSMPCompleted: pSMPRequestBody is NULL!!! \n"));
return;
}
if (pSMPRequestBody->SMPCompletionFunc == agNULL)
{
DM_DBG1(("dmsaSMPCompleted: pSMPRequestBody->SMPCompletionFunc is NULL!!!\n"));
return;
}
#ifdef DM_INTERNAL_DEBUG /* debugging */
DM_DBG3(("dmsaSMPCompleted: agIOrequest %p\n", agIORequest->osData));
DM_DBG3(("dmsaSMPCompleted: sizeof(tdIORequestBody_t) %d 0x%x\n", sizeof(tdIORequestBody_t),
sizeof(tdIORequestBody_t)));
DM_DBG3(("dmsaSMPCompleted: SMPRequestbody %p\n", pSMPRequestBody));
DM_DBG3(("dmsaSMPCompleted: calling callback fn\n"));
DM_DBG3(("dmsaSMPCompleted: callback fn %p\n",pSMPRequestBody->SMPCompletionFunc));
#endif /* TD_INTERNAL_DEBUG */
/*
if initiator, calling dmSMPCompleted() in dmsmp.c
*/
pSMPRequestBody->SMPCompletionFunc(
agRoot,
agIORequest,
agIOStatus,
agIOInfoLen,
agFrameHandle
);
return;
}
osGLOBAL bit32
dmPhyControlSend(
dmRoot_t *dmRoot,
// dmDeviceData_t *oneDeviceData, /* taget disk */
dmDeviceData_t *oneExpDeviceData, /* taget disk */
bit8 phyOp,
bit8 phyID // added
)
{
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
agsaRoot_t *agRoot = dmAllShared->agRoot;
// thenil
// dmDeviceData_t *oneExpDeviceData;
smpReqPhyControl_t smpPhyControlReq;
// bit8 phyID;
bit32 status;
DM_DBG3(("dmPhyControlSend: start\n"));
osti_memset(&smpPhyControlReq, 0, sizeof(smpReqPhyControl_t));
/* fill in SMP payload */
smpPhyControlReq.phyIdentifier = phyID;
smpPhyControlReq.phyOperation = phyOp;
status = dmSMPStart(
dmRoot,
agRoot,
oneExpDeviceData,
SMP_PHY_CONTROL,
(bit8 *)&smpPhyControlReq,
sizeof(smpReqPhyControl_t),
AGSA_SMP_INIT_REQ
);
return status;
}
osGLOBAL void
dmReportGeneralSend(
dmRoot_t *dmRoot,
dmDeviceData_t *oneDeviceData
)
{
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
agsaRoot_t *agRoot = dmAllShared->agRoot;
DM_DBG3(("dmReportGeneralSend: start\n"));
DM_DBG3(("dmReportGeneralSend: oneDeviceData %p did %d\n", oneDeviceData, oneDeviceData->id));
DM_DBG3(("dmReportGeneralSend: oneExpander %p did %d\n", oneDeviceData->dmExpander, oneDeviceData->dmExpander->id));
if (agRoot == agNULL)
{
DM_DBG1(("dmReportGeneralSend: agRoot is NULL!!!\n"));
return;
}
dmSMPStart(
dmRoot,
agRoot,
oneDeviceData,
SMP_REPORT_GENERAL,
agNULL,
0,
AGSA_SMP_INIT_REQ
);
return;
}
osGLOBAL void
dmReportGeneralRespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
smpRespReportGeneral_t dmSMPReportGeneralResp;
smpRespReportGeneral_t *pdmSMPReportGeneralResp;
dmIntPortContext_t *onePortContext = agNULL;
dmDiscovery_t *discovery;
dmExpander_t *oneExpander = agNULL;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *dmSMPRequestBody;
dmSMPRequestBody_t *dmSMPResponseBody = agNULL;
#endif
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
DM_DBG3(("dmReportGeneralRespRcvd: start\n"));
DM_DBG3(("dmReportGeneralRespRcvd: sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG3(("dmReportGeneralRespRcvd: sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
#ifndef DIRECT_SMP
dmSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
#endif
pdmSMPReportGeneralResp = &dmSMPReportGeneralResp;
dm_memset(&dmSMPReportGeneralResp, 0, sizeof(smpRespReportGeneral_t));
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, frameHandle, 4, pdmSMPReportGeneralResp, sizeof(smpRespReportGeneral_t));
#else
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
saFrameReadBlock(agRoot, dmSMPResponseBody->IndirectSMP, 4, pdmSMPReportGeneralResp, sizeof(smpRespReportGeneral_t));
#endif
onePortContext = oneDeviceData->dmPortContext;
discovery = &(onePortContext->discovery);
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmReportGeneralRespRcvd: invalid port or aborted discovery!!!\n"));
return;
}
if (frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
oneDeviceData->numOfPhys = (bit8) pdmSMPReportGeneralResp->numOfPhys;
oneExpander = oneDeviceData->dmExpander;
oneExpander->routingIndex = (bit16) REPORT_GENERAL_GET_ROUTEINDEXES(pdmSMPReportGeneralResp);
oneExpander->configReserved = 0;
oneExpander->configRouteTable = REPORT_GENERAL_IS_CONFIGURABLE(pdmSMPReportGeneralResp) ? 1 : 0;
oneExpander->configuring = REPORT_GENERAL_IS_CONFIGURING(pdmSMPReportGeneralResp) ? 1 : 0;
DM_DBG2(("dmReportGeneralRespRcvd: SAS 2 is %d\n", oneExpander->SAS2));
DM_DBG3(("dmReportGeneralRespRcvd: oneDeviceData %p did %d\n", oneDeviceData, oneDeviceData->id));
DM_DBG3(("dmReportGeneralRespRcvd: oneExpander %p did %d\n", oneExpander, oneExpander->id));
if ( oneExpander->SAS2 == 0 && REPORT_GENERAL_IS_LONG_RESPONSE(pdmSMPReportGeneralResp) == 1)
{
oneExpander->SAS2 = REPORT_GENERAL_IS_LONG_RESPONSE(pdmSMPReportGeneralResp);
DM_DBG2(("dmReportGeneralRespRcvd: SAS 2 Long Response=%d\n", REPORT_GENERAL_IS_LONG_RESPONSE(pdmSMPReportGeneralResp)));
dmReportGeneralSend(dmRoot, oneDeviceData);
return;
}
DM_DBG3(("dmReportGeneralRespRcvd: oneExpander=%p numberofPhys=0x%x RoutingIndex=0x%x\n",
oneExpander, oneDeviceData->numOfPhys, oneExpander->routingIndex));
DM_DBG3(("dmReportGeneralRespRcvd: configRouteTable=%d configuring=%d\n",
oneExpander->configRouteTable, oneExpander->configuring));
if (oneExpander->configuring == 1)
{
discovery->retries++;
if (discovery->retries >= dmAllShared->MaxRetryDiscovery)
{
DM_DBG1(("dmReportGeneralRespRcvd: retries are over!!!\n"));
DM_DBG1(("dmReportGeneralRespRcvd: sasAddressHi 0x%08x sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi, oneDeviceData->SASAddressID.sasAddressLo));
discovery->retries = 0;
/* failed the discovery */
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else
{
DM_DBG3(("dmReportGeneralRespRcvd: keep retrying\n"));
DM_DBG1(("dmReportGeneralRespRcvd: Prep222389 RETRY at %d Maximum Retry is %d\n", discovery->retries, dmAllShared->MaxRetryDiscovery));
DM_DBG1(("dmReportGeneralRespRcvd: sasAddressHi 0x%08x sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi, oneDeviceData->SASAddressID.sasAddressLo));
// start timer for sending ReportGeneral
dmDiscoveryConfiguringTimer(dmRoot, onePortContext, oneDeviceData);
}
}
else
{
discovery->retries = 0;
dmDiscoverSend(dmRoot, oneDeviceData);
}
}
else
{
DM_DBG1(("dmReportGeneralRespRcvd: SMP failed; fn result 0x%x; stopping discovery !!!\n", frameHeader->smpFunctionResult));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
osGLOBAL void
dmReportGeneral2RespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
smpRespReportGeneral2_t dmSMPReportGeneral2Resp;
smpRespReportGeneral2_t *pdmSMPReportGeneral2Resp;
dmExpander_t *oneExpander = agNULL;
dmIntPortContext_t *onePortContext = agNULL;
dmDiscovery_t *discovery;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *dmSMPRequestBody;
dmSMPRequestBody_t *dmSMPResponseBody = agNULL;
#endif
bit32 ConfiguresOthers = agFALSE;
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
DM_DBG2(("dmReportGeneral2RespRcvd: start\n"));
DM_DBG2(("dmReportGeneral2RespRcvd: sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG2(("dmReportGeneral2RespRcvd: sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
#ifndef DIRECT_SMP
dmSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
#endif
pdmSMPReportGeneral2Resp = &dmSMPReportGeneral2Resp;
dm_memset(&dmSMPReportGeneral2Resp, 0, sizeof(smpRespReportGeneral2_t));
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, frameHandle, 4, pdmSMPReportGeneral2Resp, sizeof(smpRespReportGeneral2_t));
#else
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
saFrameReadBlock(agRoot, dmSMPResponseBody->IndirectSMP, 4, pdmSMPReportGeneral2Resp, sizeof(smpRespReportGeneral2_t));
#endif
onePortContext = oneDeviceData->dmPortContext;
discovery = &(onePortContext->discovery);
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmReportGeneral2RespRcvd: invalid port or aborted discovery!!!\n"));
return;
}
/* ??? start here */
if (frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
oneDeviceData->numOfPhys = (bit8) pdmSMPReportGeneral2Resp->numOfPhys;
oneExpander = oneDeviceData->dmExpander;
oneExpander->routingIndex = (bit16) SAS2_REPORT_GENERAL_GET_ROUTEINDEXES(pdmSMPReportGeneral2Resp);
oneExpander->configReserved = 0;
oneExpander->configRouteTable = SAS2_REPORT_GENERAL_IS_CONFIGURABLE(pdmSMPReportGeneral2Resp) ? 1 : 0;
oneExpander->configuring = SAS2_REPORT_GENERAL_IS_CONFIGURING(pdmSMPReportGeneral2Resp) ? 1 : 0;
oneExpander->TTTSupported = SAS2_REPORT_GENERAL_IS_TABLE_TO_TABLE_SUPPORTED(pdmSMPReportGeneral2Resp) ? 1 : 0;
ConfiguresOthers = SAS2_REPORT_GENERAL_IS_CONFIGURES_OTHERS(pdmSMPReportGeneral2Resp) ? 1 : 0;
DM_DBG2(("dmReportGeneral2RespRcvd: SAS 2 is %d\n", oneExpander->SAS2));
DM_DBG3(("dmReportGeneral2RespRcvd: oneDeviceData %p did %d\n", oneDeviceData, oneDeviceData->id));
DM_DBG3(("dmReportGeneral2RespRcvd: oneExpander %p did %d\n", oneExpander, oneExpander->id));
DM_DBG2(("dmReportGeneral2RespRcvd: oneExpander=%p numberofPhys=0x%x RoutingIndex=0x%x\n",
oneExpander, oneDeviceData->numOfPhys, oneExpander->routingIndex));
DM_DBG2(("dmReportGeneral2RespRcvd: configRouteTable=%d configuring=%d\n",
oneExpander->configRouteTable, oneExpander->configuring));
if (ConfiguresOthers)
{
DM_DBG2(("dmReportGeneral2RespRcvd: ConfiguresOthers is true\n"));
discovery->ConfiguresOthers = agTRUE;
}
if (oneExpander->configuring == 1)
{
discovery->retries++;
if (discovery->retries >= dmAllShared->MaxRetryDiscovery)
{
DM_DBG1(("dmReportGeneral2RespRcvd: retries are over!!!\n"));
DM_DBG1(("dmReportGeneral2RespRcvd: sasAddressHi 0x%08x sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi, oneDeviceData->SASAddressID.sasAddressLo));
discovery->retries = 0;
/* failed the discovery */
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else
{
DM_DBG2(("dmReportGeneral2RespRcvd: keep retrying\n"));
DM_DBG1(("dmReportGeneral2RespRcvd: Prep222389 RETRY at %d Maximum Retry is %d\n", discovery->retries, dmAllShared->MaxRetryDiscovery));
DM_DBG1(("dmReportGeneral2RespRcvd: sasAddressHi 0x%08x sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi, oneDeviceData->SASAddressID.sasAddressLo));
// start timer for sending ReportGeneral
dmDiscoveryConfiguringTimer(dmRoot, onePortContext, oneDeviceData);
}
}
else
{
discovery->retries = 0;
dmDiscoverSend(dmRoot, oneDeviceData);
}
}
else
{
DM_DBG2(("dmReportGeneral2RespRcvd: SMP failed, stopping discovery\n"));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
osGLOBAL void
dmDiscoverSend(
dmRoot_t *dmRoot,
dmDeviceData_t *oneDeviceData
)
{
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
agsaRoot_t *agRoot = dmAllShared->agRoot;
smpReqDiscover_t smpDiscoverReq;
dmExpander_t *oneExpander;
DM_DBG3(("dmDiscoverSend: start\n"));
DM_DBG3(("dmDiscoverSend: oneDeviceData %p did %d\n", oneDeviceData, oneDeviceData->id));
oneExpander = oneDeviceData->dmExpander;
DM_DBG3(("dmDiscoverSend: oneExpander %p did %d\n", oneExpander, oneExpander->id));
DM_DBG3(("dmDiscoverSend: phyID 0x%x\n", oneExpander->discoveringPhyId));
dm_memset(&smpDiscoverReq, 0, sizeof(smpReqDiscover_t));
smpDiscoverReq.reserved1 = 0;
smpDiscoverReq.reserved2 = 0;
smpDiscoverReq.phyIdentifier = oneExpander->discoveringPhyId;
smpDiscoverReq.reserved3 = 0;
dmSMPStart(
dmRoot,
agRoot,
oneDeviceData,
SMP_DISCOVER,
(bit8 *)&smpDiscoverReq,
sizeof(smpReqDiscover_t),
AGSA_SMP_INIT_REQ
);
return;
}
osGLOBAL void
dmDiscoverRespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
dmIntPortContext_t *onePortContext = agNULL;
dmDiscovery_t *discovery;
smpRespDiscover_t *pdmSMPDiscoverResp;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *dmSMPRequestBody;
dmSMPRequestBody_t *dmSMPResponseBody = agNULL;
#endif
dmExpander_t *oneExpander = agNULL;
DM_DBG3(("dmDiscoverRespRcvd: start\n"));
DM_DBG3(("dmDiscoverRespRcvd: sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG3(("dmDiscoverRespRcvd: sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
onePortContext = oneDeviceData->dmPortContext;
oneExpander = oneDeviceData->dmExpander;
discovery = &(onePortContext->discovery);
#ifndef DIRECT_SMP
dmSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
#endif
DM_DBG3(("dmDiscoverRespRcvd: oneDeviceData %p did %d\n", oneDeviceData, oneDeviceData->id));
DM_DBG3(("dmDiscoverRespRcvd: oneExpander %p did %d\n", oneExpander, oneExpander->id));
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmDiscoverRespRcvd: invalid port or aborted discovery!!!\n"));
return;
}
pdmSMPDiscoverResp = &(discovery->SMPDiscoverResp);
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, frameHandle, 4, pdmSMPDiscoverResp, sizeof(smpRespDiscover_t));
#else
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
saFrameReadBlock(agRoot, dmSMPResponseBody->IndirectSMP, 4, pdmSMPDiscoverResp, sizeof(smpRespDiscover_t));
#endif
if ( frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
if ( onePortContext->discovery.status == DISCOVERY_UP_STREAM)
{
dmUpStreamDiscoverExpanderPhy(dmRoot, onePortContext, oneExpander, pdmSMPDiscoverResp);
}
else if ( onePortContext->discovery.status == DISCOVERY_DOWN_STREAM)
{
dmDownStreamDiscoverExpanderPhy(dmRoot, onePortContext, oneExpander, pdmSMPDiscoverResp);
}
else if (onePortContext->discovery.status == DISCOVERY_CONFIG_ROUTING)
{
/* not done with configuring routing
1. set the timer
2. on timer expiration, call tdsaSASDownStreamDiscoverExpanderPhy()
*/
DM_DBG3(("dmDiscoverRespRcvd: still configuring routing; setting timer\n"));
DM_DBG3(("dmDiscoverRespRcvd: onePortContext %p oneDeviceData %p pdmSMPDiscoverResp %p\n", onePortContext, oneDeviceData, pdmSMPDiscoverResp));
dmhexdump("dmDiscoverRespRcvd", (bit8*)pdmSMPDiscoverResp, sizeof(smpRespDiscover_t));
dmConfigureRouteTimer(dmRoot, onePortContext, oneExpander, pdmSMPDiscoverResp, agNULL);
}
else
{
/* nothing */
}
}
else if (frameHeader->smpFunctionResult == PHY_VACANT)
{
DM_DBG3(("dmDiscoverRespRcvd: smpFunctionResult is PHY_VACANT, phyid %d\n", oneExpander->discoveringPhyId));
if ( onePortContext->discovery.status == DISCOVERY_UP_STREAM)
{
dmUpStreamDiscoverExpanderPhySkip(dmRoot, onePortContext, oneExpander);
}
else if ( onePortContext->discovery.status == DISCOVERY_DOWN_STREAM)
{
dmDownStreamDiscoverExpanderPhySkip(dmRoot, onePortContext, oneExpander);
}
else if (onePortContext->discovery.status == DISCOVERY_CONFIG_ROUTING)
{
/* not done with configuring routing
1. set the timer
2. on timer expiration, call tdsaSASDownStreamDiscoverExpanderPhy()
*/
DM_DBG3(("dmDiscoverRespRcvd: still configuring routing; setting timer\n"));
DM_DBG3(("dmDiscoverRespRcvd: onePortContext %p oneDeviceData %p pdmSMPDiscoverResp %p\n", onePortContext, oneDeviceData, pdmSMPDiscoverResp));
dmhexdump("dmDiscoverRespRcvd", (bit8*)pdmSMPDiscoverResp, sizeof(smpRespDiscover_t));
dmConfigureRouteTimer(dmRoot, onePortContext, oneExpander, pdmSMPDiscoverResp, agNULL);
}
}
else
{
DM_DBG1(("dmDiscoverRespRcvd: Discovery Error SMP function return result error=0x%x !!!\n",
frameHeader->smpFunctionResult));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
osGLOBAL void
dmDiscover2RespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
dmIntPortContext_t *onePortContext = agNULL;
dmDiscovery_t *discovery;
smpRespDiscover2_t *pdmSMPDiscover2Resp;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *dmSMPRequestBody;
dmSMPRequestBody_t *dmSMPResponseBody = agNULL;
#endif
dmExpander_t *oneExpander = agNULL;
DM_DBG2(("dmDiscover2RespRcvd: start\n"));
DM_DBG2(("dmDiscover2RespRcvd: sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG2(("dmDiscover2RespRcvd: sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
onePortContext = oneDeviceData->dmPortContext;
oneExpander = oneDeviceData->dmExpander;
discovery = &(onePortContext->discovery);
#ifndef DIRECT_SMP
dmSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
#endif
DM_DBG3(("dmDiscoverRespRcvd: oneDeviceData %p did %d\n", oneDeviceData, oneDeviceData->id));
DM_DBG3(("dmDiscoverRespRcvd: oneExpander %p did %d\n", oneExpander, oneExpander->id));
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmDiscover2RespRcvd: invalid port or aborted discovery!!!\n"));
return;
}
pdmSMPDiscover2Resp = &(discovery->SMPDiscover2Resp);
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, frameHandle, 4, pdmSMPDiscover2Resp, sizeof(smpRespDiscover2_t));
#else
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
saFrameReadBlock(agRoot, dmSMPResponseBody->IndirectSMP, 4, pdmSMPDiscover2Resp, sizeof(smpRespDiscover2_t));
#endif
if ( frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED )
{
DM_DBG2(("dmDiscover2RespRcvd: phyIdentifier %d\n", pdmSMPDiscover2Resp->phyIdentifier));
DM_DBG2(("dmDiscover2RespRcvd: NegotiatedSSCHWMuxingSupported %d\n", pdmSMPDiscover2Resp->NegotiatedSSCHWMuxingSupported));
DM_DBG2(("dmDiscover2RespRcvd: SAS2_MUXING_SUPPORTED %d\n", SAS2_DISCRSP_IS_MUXING_SUPPORTED(pdmSMPDiscover2Resp)));
DM_DBG2(("dmDiscover2RespRcvd: NegotiatedLogicalLinkRate %d\n", pdmSMPDiscover2Resp->NegotiatedLogicalLinkRate));
DM_DBG2(("dmDiscover2RespRcvd: ReasonNegotiatedPhysicalLinkRate %d\n", pdmSMPDiscover2Resp->ReasonNegotiatedPhysicalLinkRate));
DM_DBG2(("dmDiscover2RespRcvd: SAS2_DISCRSP_GET_LOGICAL_LINKRATE %d\n", SAS2_DISCRSP_GET_LOGICAL_LINKRATE(pdmSMPDiscover2Resp)));
DM_DBG2(("dmDiscover2RespRcvd: SAS2_DISCRSP_GET_LINKRATE %d\n", SAS2_DISCRSP_GET_LINKRATE(pdmSMPDiscover2Resp)));
//NegotiatedLogicalLinkRate 13
//ReasonNegotiatedPhysicalLinkRate 94
if ( onePortContext->discovery.status == DISCOVERY_UP_STREAM)
{
dmUpStreamDiscover2ExpanderPhy(dmRoot, onePortContext, oneExpander, pdmSMPDiscover2Resp);
}
else if ( onePortContext->discovery.status == DISCOVERY_DOWN_STREAM)
{
dmDownStreamDiscover2ExpanderPhy(dmRoot, onePortContext, oneExpander, pdmSMPDiscover2Resp);
}
else if (onePortContext->discovery.status == DISCOVERY_CONFIG_ROUTING)
{
/* not done with configuring routing
1. set the timer
2. on timer expiration, call tdsaSASDownStreamDiscoverExpanderPhy()
*/
DM_DBG2(("dmDiscover2RespRcvd: still configuring routing; setting timer\n"));
DM_DBG2(("dmDiscover2RespRcvd: onePortContext %p oneDeviceData %p pdmSMPDiscover2Resp %p\n", onePortContext, oneDeviceData, pdmSMPDiscover2Resp));
dmhexdump("dmDiscover2RespRcvd", (bit8*)pdmSMPDiscover2Resp, sizeof(smpRespDiscover2_t));
dmConfigureRouteTimer(dmRoot, onePortContext, oneExpander, agNULL, pdmSMPDiscover2Resp);
}
else
{
/* nothing */
}
}
else if (frameHeader->smpFunctionResult == PHY_VACANT)
{
DM_DBG2(("dmDiscover2RespRcvd: smpFunctionResult is PHY_VACANT, phyid %d\n", oneExpander->discoveringPhyId));
if ( onePortContext->discovery.status == DISCOVERY_UP_STREAM)
{
dmUpStreamDiscover2ExpanderPhySkip(dmRoot, onePortContext, oneExpander);
}
else if ( onePortContext->discovery.status == DISCOVERY_DOWN_STREAM)
{
dmDownStreamDiscover2ExpanderPhySkip(dmRoot, onePortContext, oneExpander);
}
else if (onePortContext->discovery.status == DISCOVERY_CONFIG_ROUTING)
{
/* not done with configuring routing
1. set the timer
2. on timer expiration, call tdsaSASDownStreamDiscoverExpanderPhy()
*/
DM_DBG2(("dmDiscover2RespRcvd: still configuring routing; setting timer\n"));
DM_DBG2(("dmDiscover2RespRcvd: onePortContext %p oneDeviceData %p pdmSMPDiscover2Resp %p\n", onePortContext, oneDeviceData, pdmSMPDiscover2Resp));
dmhexdump("dmDiscover2RespRcvd", (bit8*)pdmSMPDiscover2Resp, sizeof(smpRespDiscover2_t));
dmConfigureRouteTimer(dmRoot, onePortContext, oneExpander, agNULL, pdmSMPDiscover2Resp);
}
else
{
/* nothing */
}
}
else
{
DM_DBG1(("dmDiscover2RespRcvd: Discovery Error SMP function return result error=0x%x\n",
frameHeader->smpFunctionResult));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
#ifdef NOT_YET
osGLOBAL void
tdsaDiscoverList2Send(
tiRoot_t *tiRoot,
tdsaDeviceData_t *oneDeviceData
)
{
agsaRoot_t *agRoot;
tdsaExpander_t *oneExpander;
smpReqDiscoverList2_t smpDiscoverListReq;
DM_DBG1(("tdsaDiscoverList2Send: start\n"));
DM_DBG1(("tdsaDiscoverList2Send: device %p did %d\n", oneDeviceData, oneDeviceData->id));
agRoot = oneDeviceData->agRoot;
oneExpander = oneDeviceData->dmExpander;
DM_DBG1(("tdsaDiscoverList2Send: phyID 0x%x\n", oneExpander->discoveringPhyId));
osti_memset(&smpDiscoverListReq, 0, sizeof(smpReqDiscoverList2_t));
smpDiscoverListReq.reserved1 = 0;
smpDiscoverListReq.StartingPhyID = 0;
smpDiscoverListReq.MaxNumDiscoverDesc = 40; /* 40 for SHORT FORMAT; 8 for Long Format; SAS2 p630 */
smpDiscoverListReq.byte10 = 0x2; /* phy filter; all but "no device attached" */
smpDiscoverListReq.byte11 = 0x1; /* descriptor type; SHORT FORMAT */
dmSMPStart(
dmRoot,
agRoot,
oneDeviceData,
SMP_DISCOVER_LIST,
(bit8 *)&smpDiscoverListReq,
sizeof(smpReqDiscoverList2_t),
AGSA_SMP_INIT_REQ,
agNULL
);
return;
}
osGLOBAL void
tdsaDiscoverList2RespRcvd(
tiRoot_t *tiRoot,
agsaRoot_t *agRoot,
tdsaDeviceData_t *oneDeviceData,
tdssSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
return;
}
#endif /* not yet */
/*****************************************************************************
*! \brief dmReportPhySataSend
*
* Purpose: This function sends Report Phy SATA to a device.
*
* \param dmRoot: Pointer to the OS Specific module allocated dmRoot_t
* instance.
* \param oneDeviceData: Pointer to the device data.
* \param phyId: Phy Identifier.
*
* \return:
* None
*
* \note:
*
*****************************************************************************/
osGLOBAL void
dmReportPhySataSend(
dmRoot_t *dmRoot,
dmDeviceData_t *oneDeviceData,
bit8 phyId
)
{
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
agsaRoot_t *agRoot = dmAllShared->agRoot;
dmExpander_t *oneExpander;
smpReqReportPhySata_t smpReportPhySataReq;
DM_DBG3(("dmReportPhySataSend: start\n"));
DM_DBG3(("dmReportPhySataSend: oneDeviceData %p did %d\n", oneDeviceData, oneDeviceData->id));
DM_DBG3(("dmReportPhySataSend: sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG3(("dmReportPhySataSend: sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
oneExpander = oneDeviceData->dmExpander;
if (oneExpander == agNULL)
{
DM_DBG1(("dmReportPhySataSend: Error!!! expander is NULL\n"));
return;
}
DM_DBG3(("dmReportPhySataSend: device %p did %d\n", oneDeviceData, oneDeviceData->id));
DM_DBG3(("dmReportPhySataSend: phyid %d\n", phyId));
dm_memset(&smpReportPhySataReq, 0, sizeof(smpReqReportPhySata_t));
smpReportPhySataReq.phyIdentifier = phyId;
dmSMPStart(
dmRoot,
agRoot,
oneExpander->dmDevice,
SMP_REPORT_PHY_SATA,
(bit8 *)&smpReportPhySataReq,
sizeof(smpReqReportPhySata_t),
AGSA_SMP_INIT_REQ
);
return;
}
/*****************************************************************************
*! \brief dmReportPhySataRcvd
*
* Purpose: This function processes Report Phy SATA response.
*
* \param dmRoot_t: Pointer to the OS Specific module allocated dmRoot_t
* instance.
* \param agRoot: Pointer to chip/driver Instance.
* \param oneDeviceData: Pointer to the device data.
* \param frameHeader: Pointer to SMP frame header.
* \param frameHandle: A Handle used to refer to the response frame
*
* \return:
* None
*
* \note:
*
*****************************************************************************/
osGLOBAL void
dmReportPhySataRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
smpRespReportPhySata_t SMPreportPhySataResp;
smpRespReportPhySata_t *pSMPReportPhySataResp;
dmExpander_t *oneExpander = oneDeviceData->dmExpander;
dmIntPortContext_t *onePortContext = agNULL;
agsaFisRegDeviceToHost_t *fis;
dmDeviceData_t *SataDevice = agNULL;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *tdSMPRequestBody;
#endif
bit8 sataDeviceType;
bit8 *bit8fis;
bit8 i = 0;
bit32 a = 0;
bit8 bit8fisarray[20];
DM_DBG3(("dmReportPhySataRcvd: start\n"));
DM_DBG3(("dmReportPhySataRcvd: sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG3(("dmReportPhySataRcvd: sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
#ifndef DIRECT_SMP
tdSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
#endif
/* get the current sata device hanlde stored in the expander structure */
if (oneExpander != agNULL)
{
SataDevice = oneExpander->dmDeviceToProcess;
}
if (SataDevice != agNULL)
{
DM_DBG3(("dmReportPhySataRcvd: sasAddressHi 0x%08x\n", SataDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmReportPhySataRcvd: sasAddressLo 0x%08x\n", SataDevice->SASAddressID.sasAddressLo));
}
else
{
DM_DBG3(("dmReportPhySataRcvd: SataDevice is NULL\n"));
}
pSMPReportPhySataResp = &SMPreportPhySataResp;
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, frameHandle, 4, pSMPReportPhySataResp, sizeof(smpRespReportPhySata_t));
#else
saFrameReadBlock(agRoot, tdSMPRequestBody->IndirectSMPResp, 4, pSMPReportPhySataResp, sizeof(smpRespReportPhySata_t));
#endif
/* tdhexdump("dmReportPhySataRcvd", (bit8 *)pSMPReportPhySataResp, sizeof(smpRespReportPhySata_t));*/
#ifndef DIRECT_SMP
ostiFreeMemory(
dmRoot,
tdSMPRequestBody->IndirectSMPReqosMemHandle,
tdSMPRequestBody->IndirectSMPReqLen
);
ostiFreeMemory(
dmRoot,
tdSMPRequestBody->IndirectSMPResposMemHandle,
tdSMPRequestBody->IndirectSMPRespLen
);
#endif
onePortContext = oneDeviceData->dmPortContext;
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmReportPhySataRcvd: invalid port or aborted discovery!!!\n"));
return;
}
if (SataDevice == agNULL)
{
DM_DBG1(("dmReportPhySataRcvd: SataDevice is NULL, wrong\n"));
dmDiscoverAbort(dmRoot, onePortContext);
return;
}
if (frameHeader->smpFunctionResult == PHY_VACANT )
{
DM_DBG1(("dmReportPhySataRcvd: smpFunctionResult == PHY_VACANT, wrong\n"));
return;
}
if ( frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED )
{
fis = (agsaFisRegDeviceToHost_t*) &SMPreportPhySataResp.regDevToHostFis;
if (fis->h.fisType == REG_DEV_TO_HOST_FIS)
{
/* save signature */
DM_DBG3(("dmReportPhySataRcvd: saves the signature\n"));
/* saves signature */
SataDevice->satSignature[0] = fis->d.sectorCount;
SataDevice->satSignature[1] = fis->d.lbaLow;
SataDevice->satSignature[2] = fis->d.lbaMid;
SataDevice->satSignature[3] = fis->d.lbaHigh;
SataDevice->satSignature[4] = fis->d.device;
SataDevice->satSignature[5] = 0;
SataDevice->satSignature[6] = 0;
SataDevice->satSignature[7] = 0;
DM_DBG3(("dmReportPhySataRcvd: SATA Signature = %02x %02x %02x %02x %02x\n",
SataDevice->satSignature[0],
SataDevice->satSignature[1],
SataDevice->satSignature[2],
SataDevice->satSignature[3],
SataDevice->satSignature[4]));
sataDeviceType = tddmSATADeviceTypeDecode(SataDevice->satSignature);
if( sataDeviceType == SATA_ATAPI_DEVICE)
{
SataDevice->agDeviceInfo.flag |= ATAPI_DEVICE_FLAG;
}
SataDevice->dmDeviceInfo.sataDeviceType = sataDeviceType;
}
/* Handling DataDomain buggy FIS */
else if (fis->h.error == REG_DEV_TO_HOST_FIS)
{
/* needs to flip fis to host order */
bit8fis = (bit8*)fis;
for (i=0;i<5;i++)
{
a = DMA_LEBIT32_TO_BIT32(*(bit32*)bit8fis);
DM_DBG3(("dmReportPhySataRcvd: a 0x%8x\n", a));
bit8fisarray[4*i] = (a & 0xFF000000) >> 24;
bit8fisarray[4*i+1] = (a & 0x00FF0000) >> 16;
bit8fisarray[4*i+2] = (a & 0x0000FF00) >> 8;
bit8fisarray[4*i+3] = (a & 0x000000FF);
bit8fis = bit8fis + 4;
}
fis = (agsaFisRegDeviceToHost_t*) bit8fisarray;
/* save signature */
DM_DBG3(("dmReportPhySataRcvd: DataDomain ATAPI saves the signature\n"));
/* saves signature */
SataDevice->satSignature[0] = fis->d.sectorCount;
SataDevice->satSignature[1] = fis->d.lbaLow;
SataDevice->satSignature[2] = fis->d.lbaMid;
SataDevice->satSignature[3] = fis->d.lbaHigh;
SataDevice->satSignature[4] = fis->d.device;
SataDevice->satSignature[5] = 0;
SataDevice->satSignature[6] = 0;
SataDevice->satSignature[7] = 0;
DM_DBG3(("dmReportPhySataRcvd: SATA Signature = %02x %02x %02x %02x %02x\n",
SataDevice->satSignature[0],
SataDevice->satSignature[1],
SataDevice->satSignature[2],
SataDevice->satSignature[3],
SataDevice->satSignature[4]));
sataDeviceType = tddmSATADeviceTypeDecode(SataDevice->satSignature);
if( sataDeviceType == SATA_ATAPI_DEVICE)
{
SataDevice->agDeviceInfo.flag |= ATAPI_DEVICE_FLAG;
}
SataDevice->dmDeviceInfo.sataDeviceType = sataDeviceType;
}
else
{
DM_DBG3(("dmReportPhySataRcvd: getting next stp bride\n"));
}
/* Continure to report this STP device to TD*/
if (SataDevice->ExpDevice != agNULL)
{
tddmReportDevice(dmRoot, onePortContext->dmPortContext, &SataDevice->dmDeviceInfo, &SataDevice->ExpDevice->dmDeviceInfo, dmDeviceArrival);
}
else
{
tddmReportDevice(dmRoot, onePortContext->dmPortContext, &SataDevice->dmDeviceInfo, agNULL, dmDeviceArrival);
}
}
else
{
DM_DBG3(("dmReportPhySataRcvd: siReportPhySataRcvd SMP function return result %x\n",
frameHeader->smpFunctionResult));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
/*****************************************************************************
*! \brief dmReportPhySata2Rcvd
*
* Purpose: This function processes SAS2.0 Report Phy SATA response.
*
* \param dmRoot_t: Pointer to the OS Specific module allocated dmRoot_t
* instance.
* \param agRoot: Pointer to chip/driver Instance.
* \param oneDeviceData: Pointer to the device data.
* \param frameHeader: Pointer to SMP frame header.
* \param frameHandle: A Handle used to refer to the response frame
*
* \return:
* None
*
* \note:
*
*****************************************************************************/
osGLOBAL void
dmReportPhySata2Rcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
smpRespReportPhySata2_t SMPreportPhySataResp;
smpRespReportPhySata2_t *pSMPReportPhySataResp;
dmExpander_t *oneExpander = oneDeviceData->dmExpander;
dmIntPortContext_t *onePortContext = agNULL;
agsaFisRegDeviceToHost_t *fis;
dmDeviceData_t *SataDevice = agNULL;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *tdSMPRequestBody;
#endif
bit8 sataDeviceType = 0;
bit8 *bit8fis;
bit8 i = 0;
bit32 a = 0;
bit8 bit8fisarray[20];
DM_DBG3(("dmReportPhySata2Rcvd: start\n"));
DM_DBG3(("dmReportPhySata2Rcvd: sasAddressHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG3(("dmReportPhySata2Rcvd: sasAddressLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
#ifndef DIRECT_SMP
tdSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
#endif
/* get the current sata device hanlde stored in the expander structure */
if (oneExpander != agNULL)
{
SataDevice = oneExpander->dmDeviceToProcess;
}
if (SataDevice != agNULL)
{
DM_DBG3(("dmReportPhySata2Rcvd: sasAddressHi 0x%08x\n", SataDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmReportPhySata2Rcvd: sasAddressLo 0x%08x\n", SataDevice->SASAddressID.sasAddressLo));
}
else
{
DM_DBG3(("dmReportPhySataRcvd: SataDevice is NULL\n"));
}
pSMPReportPhySataResp = &SMPreportPhySataResp;
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, frameHandle, 4, pSMPReportPhySataResp, sizeof(smpRespReportPhySata_t));
#else
saFrameReadBlock(agRoot, tdSMPRequestBody->IndirectSMPResp, 4, pSMPReportPhySataResp, sizeof(smpRespReportPhySata_t));
#endif
/* tdhexdump("dmReportPhySataRcvd", (bit8 *)pSMPReportPhySataResp, sizeof(smpRespReportPhySata_t));*/
#ifndef DIRECT_SMP
ostiFreeMemory(
dmRoot,
tdSMPRequestBody->IndirectSMPReqosMemHandle,
tdSMPRequestBody->IndirectSMPReqLen
);
ostiFreeMemory(
dmRoot,
tdSMPRequestBody->IndirectSMPResposMemHandle,
tdSMPRequestBody->IndirectSMPRespLen
);
#endif
onePortContext = oneDeviceData->dmPortContext;
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmReportPhySata2Rcvd: invalid port or aborted discovery!!!\n"));
return;
}
if (SataDevice == agNULL)
{
DM_DBG1(("dmReportPhySata2Rcvd: SataDevice is NULL, wrong\n"));
dmDiscoverAbort(dmRoot, onePortContext);
return;
}
if ( frameHeader->smpFunctionResult == PHY_VACANT )
{
DM_DBG1(("dmReportPhySata2Rcvd: smpFunctionResult == PHY_VACANT, wrong\n"));
return;
}
if ( frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED )
{
fis = (agsaFisRegDeviceToHost_t*) &SMPreportPhySataResp.regDevToHostFis;
if (fis->h.fisType == REG_DEV_TO_HOST_FIS)
{
/* save signature */
DM_DBG3(("dmReportPhySata2Rcvd: saves the signature\n"));
/* saves signature */
SataDevice->satSignature[0] = fis->d.sectorCount;
SataDevice->satSignature[1] = fis->d.lbaLow;
SataDevice->satSignature[2] = fis->d.lbaMid;
SataDevice->satSignature[3] = fis->d.lbaHigh;
SataDevice->satSignature[4] = fis->d.device;
SataDevice->satSignature[5] = 0;
SataDevice->satSignature[6] = 0;
SataDevice->satSignature[7] = 0;
DM_DBG3(("dmReportPhySata2Rcvd: SATA Signature = %02x %02x %02x %02x %02x\n",
SataDevice->satSignature[0],
SataDevice->satSignature[1],
SataDevice->satSignature[2],
SataDevice->satSignature[3],
SataDevice->satSignature[4]));
sataDeviceType = tddmSATADeviceTypeDecode(SataDevice->satSignature);
if( sataDeviceType == SATA_ATAPI_DEVICE)
{
SataDevice->agDeviceInfo.flag |= ATAPI_DEVICE_FLAG;
}
SataDevice->dmDeviceInfo.sataDeviceType = sataDeviceType;
}
/* Handling DataDomain buggy FIS */
else if (fis->h.error == REG_DEV_TO_HOST_FIS)
{
/* needs to flip fis to host order */
bit8fis = (bit8*)fis;
for (i=0;i<5;i++)
{
a = DMA_LEBIT32_TO_BIT32(*(bit32*)bit8fis);
DM_DBG3(("dmReportPhySata2Rcvd: a 0x%8x\n", a));
bit8fisarray[4*i] = (a & 0xFF000000) >> 24;
bit8fisarray[4*i+1] = (a & 0x00FF0000) >> 16;
bit8fisarray[4*i+2] = (a & 0x0000FF00) >> 8;
bit8fisarray[4*i+3] = (a & 0x000000FF);
bit8fis = bit8fis + 4;
}
fis = (agsaFisRegDeviceToHost_t*) bit8fisarray;
/* save signature */
DM_DBG3(("dmReportPhySata2Rcvd: DataDomain ATAPI saves the signature\n"));
/* saves signature */
SataDevice->satSignature[0] = fis->d.sectorCount;
SataDevice->satSignature[1] = fis->d.lbaLow;
SataDevice->satSignature[2] = fis->d.lbaMid;
SataDevice->satSignature[3] = fis->d.lbaHigh;
SataDevice->satSignature[4] = fis->d.device;
SataDevice->satSignature[5] = 0;
SataDevice->satSignature[6] = 0;
SataDevice->satSignature[7] = 0;
DM_DBG3(("dmReportPhySata2Rcvd: SATA Signature = %02x %02x %02x %02x %02x\n",
SataDevice->satSignature[0],
SataDevice->satSignature[1],
SataDevice->satSignature[2],
SataDevice->satSignature[3],
SataDevice->satSignature[4]));
sataDeviceType = tddmSATADeviceTypeDecode(SataDevice->satSignature);
if( sataDeviceType == SATA_ATAPI_DEVICE)
{
SataDevice->agDeviceInfo.flag |= ATAPI_DEVICE_FLAG;
}
SataDevice->dmDeviceInfo.sataDeviceType = sataDeviceType;
}
else
{
DM_DBG3(("dmReportPhySata2Rcvd: getting next stp bride\n"));
}
/* Continue to report this STP device to TD*/
if (SataDevice->ExpDevice != agNULL)
{
tddmReportDevice(dmRoot, onePortContext->dmPortContext, &SataDevice->dmDeviceInfo, &SataDevice->ExpDevice->dmDeviceInfo, dmDeviceArrival);
}
else
{
tddmReportDevice(dmRoot, onePortContext->dmPortContext, &SataDevice->dmDeviceInfo, agNULL, dmDeviceArrival);
}
}
else
{
DM_DBG3(("dmReportPhySata2Rcvd: siReportPhySataRcvd SMP function return result %x\n",
frameHeader->smpFunctionResult));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
osGLOBAL bit32
dmRoutingEntryAdd(
dmRoot_t *dmRoot,
dmExpander_t *oneExpander,
bit32 phyId,
bit32 configSASAddressHi,
bit32 configSASAddressLo
)
{
dmIntRoot_t *dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmIntContext_t *dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
agsaRoot_t *agRoot = dmAllShared->agRoot;
bit32 ret = agTRUE;
dmIntPortContext_t *onePortContext;
smpReqConfigureRouteInformation_t confRoutingInfo;
bit32 i;
DM_DBG3(("dmRoutingEntryAdd: start\n"));
DM_DBG3(("dmRoutingEntryAdd: exp addrHi 0x%08x\n", oneExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmRoutingEntryAdd: exp addrLo 0x%08x\n", oneExpander->dmDevice->SASAddressID.sasAddressLo));
DM_DBG3(("dmRoutingEntryAdd: phyid %d\n", phyId));
if (oneExpander->dmDevice->SASAddressID.sasAddressHi == configSASAddressHi &&
oneExpander->dmDevice->SASAddressID.sasAddressLo == configSASAddressLo
)
{
DM_DBG3(("dmRoutingEntryAdd: unnecessary\n"));
return ret;
}
if (oneExpander->routingAttribute[phyId] != SAS_ROUTING_TABLE)
{
DM_DBG3(("dmRoutingEntryAdd: not table routing, routing is %d\n", oneExpander->routingAttribute[phyId]));
return ret;
}
onePortContext = oneExpander->dmDevice->dmPortContext;
onePortContext->discovery.status = DISCOVERY_CONFIG_ROUTING;
/* reset smpReqConfigureRouteInformation_t */
dm_memset(&confRoutingInfo, 0, sizeof(smpReqConfigureRouteInformation_t));
if ( oneExpander->currentIndex[phyId] < oneExpander->routingIndex )
{
DM_DBG3(("dmRoutingEntryAdd: adding sasAddressHi 0x%08x\n", configSASAddressHi));
DM_DBG3(("dmRoutingEntryAdd: adding sasAddressLo 0x%08x\n", configSASAddressLo));
DM_DBG3(("dmRoutingEntryAdd: phyid %d currentIndex[phyid] %d\n", phyId, oneExpander->currentIndex[phyId]));
oneExpander->configSASAddressHi = configSASAddressHi;
oneExpander->configSASAddressLo = configSASAddressLo;
confRoutingInfo.reserved1[0] = 0;
confRoutingInfo.reserved1[1] = 0;
OSSA_WRITE_BE_16(agRoot, confRoutingInfo.expanderRouteIndex, 0, (oneExpander->currentIndex[phyId]));
confRoutingInfo.reserved2 = 0;
confRoutingInfo.phyIdentifier = (bit8)phyId;
confRoutingInfo.reserved3[0] = 0;
confRoutingInfo.reserved3[1] = 0;
confRoutingInfo.disabledBit_reserved4 = 0;
confRoutingInfo.reserved5[0] = 0;
confRoutingInfo.reserved5[1] = 0;
confRoutingInfo.reserved5[2] = 0;
OSSA_WRITE_BE_32(agRoot, confRoutingInfo.routedSasAddressHi, 0, configSASAddressHi);
OSSA_WRITE_BE_32(agRoot, confRoutingInfo.routedSasAddressLo, 0, configSASAddressLo);
for ( i = 0; i < 16; i ++ )
{
confRoutingInfo.reserved6[i] = 0;
}
dmSMPStart(dmRoot, agRoot, oneExpander->dmDevice, SMP_CONFIGURE_ROUTING_INFORMATION, (bit8 *)&confRoutingInfo, sizeof(smpReqConfigureRouteInformation_t), AGSA_SMP_INIT_REQ);
oneExpander->currentIndex[phyId] ++;
}
else
{
DM_DBG3(("dmRoutingEntryAdd: Discovery Error routing index overflow for currentIndex=%d, routingIndex=%d\n", oneExpander->currentIndex[phyId], oneExpander->routingIndex));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
ret = agFALSE;
}
return ret;
}
osGLOBAL void
dmConfigRoutingInfoRespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
dmIntPortContext_t *onePortContext;
dmExpander_t *oneExpander = oneDeviceData->dmExpander;
dmExpander_t *UpStreamExpander;
dmExpander_t *DownStreamExpander;
dmExpander_t *ReturningExpander;
dmExpander_t *ConfigurableExpander;
dmDeviceData_t *ReturningExpanderDeviceData = agNULL;
bit32 dupConfigSASAddr = agFALSE;
DM_DBG3(("dmConfigRoutingInfoRespRcvd: start\n"));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: exp addrHi 0x%08x\n", oneExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: exp addrLo 0x%08x\n", oneExpander->dmDevice->SASAddressID.sasAddressLo));
onePortContext = oneDeviceData->dmPortContext;
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmConfigRoutingInfoRespRcvd: invalid port or aborted discovery!!!\n"));
return;
}
if ( frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED ||
frameHeader->smpFunctionResult == PHY_VACANT
)
{
DownStreamExpander = oneExpander->dmCurrentDownStreamExpander;
if (DownStreamExpander != agNULL)
{
DownStreamExpander->currentUpStreamPhyIndex ++;
DM_DBG3(("dmConfigRoutingInfoRespRcvd: DownStreamExpander->currentUpStreamPhyIndex %d\n", DownStreamExpander->currentUpStreamPhyIndex));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: DownStreamExpander->numOfUpStreamPhys %d\n", DownStreamExpander->numOfUpStreamPhys));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: DownStreamExpander addrHi 0x%08x\n", DownStreamExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: DownStreamExpander addrLo 0x%08x\n", DownStreamExpander->dmDevice->SASAddressID.sasAddressLo));
}
oneExpander->currentDownStreamPhyIndex++;
DM_DBG3(("dmConfigRoutingInfoRespRcvd: oneExpander->currentDownStreamPhyIndex %d oneExpander->numOfDownStreamPhys %d\n", oneExpander->currentDownStreamPhyIndex, oneExpander->numOfDownStreamPhys));
if ( (DownStreamExpander != agNULL) &&
(DownStreamExpander->currentUpStreamPhyIndex < DownStreamExpander->numOfUpStreamPhys)
)
{
DM_DBG3(("dmConfigRoutingInfoRespRcvd: first if\n"));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: DownStreamExpander->currentUpStreamPhyIndex %d\n", DownStreamExpander->currentUpStreamPhyIndex));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: DownStreamExpander->upStreamPhys[] %d\n", DownStreamExpander->upStreamPhys[DownStreamExpander->currentUpStreamPhyIndex]));
dmRoutingEntryAdd(dmRoot,
oneExpander,
DownStreamExpander->upStreamPhys[DownStreamExpander->currentUpStreamPhyIndex],
oneExpander->configSASAddressHi,
oneExpander->configSASAddressLo
);
}
else
{
/* traversing up till discovery Root onePortContext->discovery.RootExp */
DM_DBG3(("dmConfigRoutingInfoRespRcvd: else\n"));
UpStreamExpander = oneExpander->dmUpStreamExpander;
ConfigurableExpander = dmFindConfigurableExp(dmRoot, onePortContext, oneExpander);
if (UpStreamExpander != agNULL)
{
DM_DBG3(("dmConfigRoutingInfoRespRcvd: UpStreamExpander addrHi 0x%08x\n", UpStreamExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: UpStreamExpander addrLo 0x%08x\n", UpStreamExpander->dmDevice->SASAddressID.sasAddressLo));
}
else
{
DM_DBG3(("dmConfigRoutingInfoRespRcvd: UpStreamExpander is NULL\n"));
}
dupConfigSASAddr = dmDuplicateConfigSASAddr(dmRoot,
ConfigurableExpander,
oneExpander->configSASAddressHi,
oneExpander->configSASAddressLo
);
if ( ConfigurableExpander != agNULL && dupConfigSASAddr == agFALSE)
{
DM_DBG3(("dmConfigRoutingInfoRespRcvd: else if\n"));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: ConfigurableExpander addrHi 0x%08x\n", ConfigurableExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: ConfigurableExpander addrLo 0x%08x\n", ConfigurableExpander->dmDevice->SASAddressID.sasAddressLo));
if ( UpStreamExpander != agNULL)
{
UpStreamExpander->dmCurrentDownStreamExpander = oneExpander;
}
ConfigurableExpander->currentDownStreamPhyIndex =
dmFindCurrentDownStreamPhyIndex(dmRoot, ConfigurableExpander);
ConfigurableExpander->dmReturnginExpander = oneExpander->dmReturnginExpander;
if ( DownStreamExpander != agNULL)
{
DownStreamExpander->currentUpStreamPhyIndex = 0;
}
DM_DBG3(("dmConfigRoutingInfoRespRcvd: ConfigurableExpander->currentDownStreamPhyIndex %d\n", ConfigurableExpander->currentDownStreamPhyIndex));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: ConfigurableExpander->downStreamPhys[] %d\n", ConfigurableExpander->downStreamPhys[ConfigurableExpander->currentDownStreamPhyIndex]));
dmRoutingEntryAdd(dmRoot,
ConfigurableExpander,
ConfigurableExpander->downStreamPhys[ConfigurableExpander->currentDownStreamPhyIndex],
oneExpander->configSASAddressHi,
oneExpander->configSASAddressLo
);
}
else
{
/* going back to where it was */
/* ConfigRoutingInfo is done for a target */
DM_DBG3(("dmConfigRoutingInfoRespRcvd: $$$$$$ my change $$$$$ \n"));
ReturningExpander = oneExpander->dmReturnginExpander;
if ( DownStreamExpander != agNULL)
{
DownStreamExpander->currentUpStreamPhyIndex = 0;
}
/* debugging */
if (ReturningExpander != agNULL)
{
DM_DBG3(("dmConfigRoutingInfoRespRcvd: ReturningExpander addrHi 0x%08x\n", ReturningExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG3(("dmConfigRoutingInfoRespRcvd: ReturningExpander addrLo 0x%08x\n", ReturningExpander->dmDevice->SASAddressID.sasAddressLo));
ReturningExpanderDeviceData = ReturningExpander->dmDevice;
}
/* No longer in DISCOVERY_CONFIG_ROUTING */
onePortContext->discovery.status = DISCOVERY_DOWN_STREAM;
if (ReturningExpander != agNULL && ReturningExpanderDeviceData != agNULL)
{
/* If not the last phy */
if ( ReturningExpander->discoveringPhyId < ReturningExpanderDeviceData->numOfPhys )
{
DM_DBG3(("dmConfigRoutingInfoRespRcvd: More Phys to discover\n"));
/* continue discovery for the next phy */
/* needs to send only one Discovery not multiple times */
if (ReturningExpander->discoverSMPAllowed == agTRUE)
{
dmDiscoverSend(dmRoot, ReturningExpanderDeviceData);
}
if (ReturningExpander != agNULL)
{
ReturningExpander->discoverSMPAllowed = agFALSE;
}
}
/* If the last phy */
else
{
DM_DBG3(("dmConfigRoutingInfoRespRcvd: No More Phys\n"));
ReturningExpander->discoverSMPAllowed = agTRUE;
/* remove the expander from the discovering list */
dmDiscoveringExpanderRemove(dmRoot, onePortContext, ReturningExpander);
/* continue downstream discovering */
dmDownStreamDiscovering(dmRoot, onePortContext, ReturningExpanderDeviceData);
//DownStreamExpander
}
}
}
}
}
else
{
DM_DBG1(("dmConfigRoutingInfoRespRcvd: Discovery Error SMP function return result error=0x%x !!!\n", frameHeader->smpFunctionResult));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
osGLOBAL void
dmConfigRoutingInfo2RespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
dmExpander_t *oneExpander = oneDeviceData->dmExpander;
dmExpander_t *UpStreamExpander;
dmExpander_t *DownStreamExpander;
dmExpander_t *ReturningExpander;
dmExpander_t *ConfigurableExpander;
dmIntPortContext_t *onePortContext;
dmDeviceData_t *ReturningExpanderDeviceData = agNULL;
bit32 dupConfigSASAddr = agFALSE;
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: start\n"));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: exp addrHi 0x%08x\n", oneExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: exp addrLo 0x%08x\n", oneExpander->dmDevice->SASAddressID.sasAddressLo));
onePortContext = oneDeviceData->dmPortContext;
if (dmDiscoverCheck(dmRoot, onePortContext) == agTRUE)
{
DM_DBG1(("dmConfigRoutingInfo2RespRcvd: invalid port or aborted discovery!!!\n"));
return;
}
if (frameHeader->smpFunctionResult == PHY_VACANT)
{
DM_DBG1(("dmConfigRoutingInfo2RespRcvd: smpFunctionResult is PHY_VACANT\n"));
}
if ( frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED ||
frameHeader->smpFunctionResult == PHY_VACANT
)
{
DownStreamExpander = oneExpander->dmCurrentDownStreamExpander;
if (DownStreamExpander != agNULL)
{
DownStreamExpander->currentUpStreamPhyIndex ++;
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: DownStreamExpander->currentUpStreamPhyIndex %d\n", DownStreamExpander->currentUpStreamPhyIndex));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: DownStreamExpander->numOfUpStreamPhys %d\n", DownStreamExpander->numOfUpStreamPhys));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: DownStreamExpander addrHi 0x%08x\n", DownStreamExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: DownStreamExpander addrLo 0x%08x\n", DownStreamExpander->dmDevice->SASAddressID.sasAddressLo));
}
oneExpander->currentDownStreamPhyIndex++;
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: oneExpander->currentDownStreamPhyIndex %d oneExpander->numOfDownStreamPhys %d\n", oneExpander->currentDownStreamPhyIndex, oneExpander->numOfDownStreamPhys));
if ( (DownStreamExpander != agNULL) &&
(DownStreamExpander->currentUpStreamPhyIndex < DownStreamExpander->numOfUpStreamPhys)
)
{
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: first if\n"));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: DownStreamExpander->currentUpStreamPhyIndex %d\n", DownStreamExpander->currentUpStreamPhyIndex));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: DownStreamExpander->upStreamPhys[] %d\n", DownStreamExpander->upStreamPhys[DownStreamExpander->currentUpStreamPhyIndex]));
dmRoutingEntryAdd(dmRoot,
oneExpander,
DownStreamExpander->upStreamPhys[DownStreamExpander->currentUpStreamPhyIndex],
oneExpander->configSASAddressHi,
oneExpander->configSASAddressLo
);
}
else
{
/* traversing up till discovery Root onePortContext->discovery.RootExp */
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: else\n"));
UpStreamExpander = oneExpander->dmUpStreamExpander;
ConfigurableExpander = dmFindConfigurableExp(dmRoot, onePortContext, oneExpander);
if (UpStreamExpander != agNULL)
{
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: UpStreamExpander addrHi 0x%08x\n", UpStreamExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: UpStreamExpander addrLo 0x%08x\n", UpStreamExpander->dmDevice->SASAddressID.sasAddressLo));
}
else
{
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: UpStreamExpander is NULL\n"));
}
dupConfigSASAddr = dmDuplicateConfigSASAddr(dmRoot,
ConfigurableExpander,
oneExpander->configSASAddressHi,
oneExpander->configSASAddressLo
);
if ( ConfigurableExpander != agNULL && dupConfigSASAddr == agFALSE)
{
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: else if\n"));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: ConfigurableExpander addrHi 0x%08x\n", ConfigurableExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: ConfigurableExpander addrLo 0x%08x\n", ConfigurableExpander->dmDevice->SASAddressID.sasAddressLo));
if ( UpStreamExpander != agNULL)
{
UpStreamExpander->dmCurrentDownStreamExpander = oneExpander;
}
ConfigurableExpander->currentDownStreamPhyIndex =
dmFindCurrentDownStreamPhyIndex(dmRoot, ConfigurableExpander);
ConfigurableExpander->dmReturnginExpander = oneExpander->dmReturnginExpander;
if ( DownStreamExpander != agNULL)
{
DownStreamExpander->currentUpStreamPhyIndex = 0;
}
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: ConfigurableExpander->currentDownStreamPhyIndex %d\n", ConfigurableExpander->currentDownStreamPhyIndex));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: ConfigurableExpander->downStreamPhys[] %d\n", ConfigurableExpander->downStreamPhys[ConfigurableExpander->currentDownStreamPhyIndex]));
dmRoutingEntryAdd(dmRoot,
ConfigurableExpander,
ConfigurableExpander->downStreamPhys[ConfigurableExpander->currentDownStreamPhyIndex],
oneExpander->configSASAddressHi,
oneExpander->configSASAddressLo
);
}
else
{
/* going back to where it was */
/* ConfigRoutingInfo is done for a target */
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: $$$$$$ my change $$$$$ \n"));
ReturningExpander = oneExpander->dmReturnginExpander;
if ( DownStreamExpander != agNULL)
{
DownStreamExpander->currentUpStreamPhyIndex = 0;
}
/* debugging */
if (ReturningExpander != agNULL)
{
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: ReturningExpander addrHi 0x%08x\n", ReturningExpander->dmDevice->SASAddressID.sasAddressHi));
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: ReturningExpander addrLo 0x%08x\n", ReturningExpander->dmDevice->SASAddressID.sasAddressLo));
ReturningExpanderDeviceData = ReturningExpander->dmDevice;
}
/* No longer in DISCOVERY_CONFIG_ROUTING */
onePortContext->discovery.status = DISCOVERY_DOWN_STREAM;
if (ReturningExpander != agNULL && ReturningExpanderDeviceData != agNULL)
{
/* If not the last phy */
if ( ReturningExpander->discoveringPhyId < ReturningExpanderDeviceData->numOfPhys )
{
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: More Phys to discover\n"));
/* continue discovery for the next phy */
/* needs to send only one Discovery not multiple times */
if (ReturningExpander->discoverSMPAllowed == agTRUE)
{
dmDiscoverSend(dmRoot, ReturningExpanderDeviceData);
}
if (ReturningExpander != agNULL)
{
ReturningExpander->discoverSMPAllowed = agFALSE;
}
}
/* If the last phy */
else
{
DM_DBG2(("dmConfigRoutingInfo2RespRcvd: No More Phys\n"));
ReturningExpander->discoverSMPAllowed = agTRUE;
/* remove the expander from the discovering list */
dmDiscoveringExpanderRemove(dmRoot, onePortContext, ReturningExpander);
/* continue downstream discovering */
dmDownStreamDiscovering(dmRoot, onePortContext, ReturningExpanderDeviceData);
//DownStreamExpander
}
}
}
}
}
else
{
DM_DBG1(("dmConfigRoutingInfo2RespRcvd: Discovery Error SMP function return result error=0x%x!!!\n", frameHeader->smpFunctionResult));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
return;
}
/* no task management case here for phyControl*/
/* no task management case here for phyControl*/
osGLOBAL void
dmPhyControlRespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
DM_DBG3(("dmPhyControlRespRcvd: start\n"));
DM_DBG3(("dmPhyControlRespRcvd: expander device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG3(("dmPhyControlRespRcvd: expander device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
if (frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
DM_DBG3(("dmPhyControlRespRcvd: SMP success\n"));
}
else
{
DM_DBG1(("dmPhyControlRespRcvd: SMP failure; result 0x%x !!!\n", frameHeader->smpFunctionResult));
}
return;
}
/* no task management case here for phyControl*/
osGLOBAL void
dmPhyControl2RespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
DM_DBG2(("dmPhyControl2RespRcvd: start\n"));
DM_DBG2(("dmPhyControl2RespRcvd: expander device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi));
DM_DBG2(("dmPhyControl2RespRcvd: expander device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo));
if (frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
DM_DBG2(("dmPhyControl2RespRcvd: SMP success\n"));
}
else
{
DM_DBG1(("dmPhyControl2RespRcvd: SMP failure; result 0x%x !!!\n", frameHeader->smpFunctionResult));
}
return;
}
osGLOBAL void
dmPhyControlFailureRespRcvd(
dmRoot_t *dmRoot,
agsaRoot_t *agRoot,
dmDeviceData_t *oneDeviceData,
dmSMPFrameHeader_t *frameHeader,
agsaFrameHandle_t frameHandle
)
{
DM_DBG1(("dmPhyControlFailureRespRcvd: start\n"));
return;
}
GLOBAL void dmSetDeviceInfoCB(
agsaRoot_t *agRoot,
agsaContext_t *agContext,
agsaDevHandle_t *agDevHandle,
bit32 status,
bit32 option,
bit32 param
)
{
dmRoot_t *dmRoot = agNULL;
agsaIORequest_t *agIORequest;
bit32 smstatus;
agsaSASRequestBody_t *agSASRequestBody;
dmSMPRequestBody_t *dmSMPRequestBody = agNULL;
dmIntPortContext_t *onePortContext = agNULL;
dmDeviceData_t *oneDeviceData;
bit8 SMPRequestFunction;
bit8 devType_S_Rate;
DM_DBG1(("dmSetDeviceInfoCB: start\n"));
DM_DBG4(("dmSetDeviceInfoCB: status 0x%x\n", status));
DM_DBG4(("dmSetDeviceInfoCB: option 0x%x\n", option));
DM_DBG4(("dmSetDeviceInfoCB: param 0x%x\n", param));
if (status != OSSA_SUCCESS)
{
DM_DBG1(("dmSetDeviceInfoCB: status %d\n", status));
DM_DBG1(("dmSetDeviceInfoCB: option 0x%x\n", option));
DM_DBG1(("dmSetDeviceInfoCB: param 0x%x\n", param));
if (option == 32) /* set connection rate */
{
DM_DBG1(("dmSetDeviceInfoCB: IO failure\n"));
agIORequest = (agsaIORequest_t *)agContext->osData;
dmSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
dmRoot = dmSMPRequestBody->dmRoot;
oneDeviceData = dmSMPRequestBody->dmDevice;
onePortContext = oneDeviceData->dmPortContext;
SMPRequestFunction = dmSMPRequestBody->smpPayload[1];
if (SMPRequestFunction == SMP_REPORT_GENERAL ||
SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (SMPRequestFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
agNULL,
agNULL
);
}
}
}
if (agDevHandle == agNULL)
{
DM_DBG1(("dmSetDeviceInfoCB: agDevHandle is NULL\n"));
return;
}
/* retry SMP */
if (option == 32) /* set connection rate */
{
DM_DBG1(("dmSetDeviceInfoCB: set connection rate option\n"));
agIORequest = (agsaIORequest_t *)agContext->osData;
dmSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
dmRoot = dmSMPRequestBody->dmRoot;
agSASRequestBody = &(dmSMPRequestBody->agSASRequestBody);
oneDeviceData = dmSMPRequestBody->dmDevice;
onePortContext = oneDeviceData->dmPortContext;
devType_S_Rate = oneDeviceData->agDeviceInfo.devType_S_Rate;
devType_S_Rate = (devType_S_Rate & 0xF0) | (param >> 28);
oneDeviceData->agDeviceInfo.devType_S_Rate = devType_S_Rate;
SMPRequestFunction = dmSMPRequestBody->smpPayload[1];
DM_DBG1(("dmSetDeviceInfoCB: SMPRequestFunction 0x%x\n", SMPRequestFunction));
DM_DBG1(("dmSetDeviceInfoCB: new rate is 0x%x\n", DEVINFO_GET_LINKRATE(&oneDeviceData->agDeviceInfo)));
smstatus = saSMPStart(
agRoot,
agIORequest,
0,
agDevHandle,
AGSA_SMP_INIT_REQ,
agSASRequestBody,
&dmsaSMPCompleted
);
if (status == AGSA_RC_SUCCESS)
{
/* increment the number of pending SMP */
onePortContext->discovery.pendingSMP++;
// dmSMPRequestBody->retries++;
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* start discovery-related SMP timer */
dmDiscoverySMPTimer(dmRoot, onePortContext, (bit32)SMPRequestFunction, dmSMPRequestBody);
}
return;
}
else if (status == AGSA_RC_BUSY)
{
onePortContext->discovery.pendingSMP++;
// dmSMPRequestBody->retries++;
if (SMPRequestFunction == SMP_REPORT_GENERAL ||
SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmSMPBusyTimer(dmRoot, onePortContext, oneDeviceData, dmSMPRequestBody);
}
else if (SMPRequestFunction == SMP_PHY_CONTROL)
{
/* For taskmanagement SMP, let's fail task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
agNULL,
agNULL
);
}
else
{
}
}
else /* AGSA_RC_FAILURE */
{
if (SMPRequestFunction == SMP_REPORT_GENERAL ||
SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (SMPRequestFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
agNULL,
agNULL
);
}
else
{
}
}
}
return;
}
/* smp completion */
osGLOBAL void
dmSMPCompleted(
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
bit32 agIOStatus,
bit32 agIOInfoLen,
agsaFrameHandle_t agFrameHandle
)
{
dmIntRoot_t *dmIntRoot = agNULL;
dmIntContext_t *dmAllShared = agNULL;
dmSMPRequestBody_t *dmSMPRequestBody = agNULL;
agsaSMPFrame_t *agSMPFrame;
dmRoot_t *dmRoot = agNULL;
dmIntPortContext_t *onePortContext = agNULL;
dmIntPortContext_t *oldonePortContext;
dmExpander_t *oneExpander = agNULL;
dmDeviceData_t *oneDeviceData;
agsaDevHandle_t *agDevHandle = agNULL;
agsaSASRequestBody_t *agSASRequestBody;
bit8 smpHeader[4];
bit8 SMPRequestFunction;
dmSMPFrameHeader_t *dmResponseSMPFrameHeader;
dmSMPFrameHeader_t *dmSMPFrameHeader;
bit8 *dmSMPPayload;
smpReqPhyControl_t *smpPhyControlReq;
smpReqPhyControl2_t *smpPhyControl2Req;
#ifndef DIRECT_SMP
dmSMPRequestBody_t *dmSMPResponseBody = agNULL;
dmSMPFrameHeader_t *dmRequestSMPFrameHeader;
bit8 smpRequestHeader[4];
#endif
bit32 status;
bit32 ConnRate = SAS_CONNECTION_RATE_12_0G;
agsaContext_t *agContext = agNULL;
DM_DBG3(("dmSMPCompleted: start\n"));
dmSMPRequestBody = (dmSMPRequestBody_t *)agIORequest->osData;
dmRoot = dmSMPRequestBody->dmRoot;
dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
oneDeviceData = dmSMPRequestBody->dmDevice;
agSASRequestBody = &(dmSMPRequestBody->agSASRequestBody);
agSMPFrame = &(agSASRequestBody->smpFrame);
if (oneDeviceData->valid == agFALSE &&
oneDeviceData->valid2 == agFALSE &&
oneDeviceData->dmPortContext == agNULL &&
dmSMPRequestBody->dmPortContext->valid == agFALSE
)
{
DM_DBG3(("dmSMPCompleted: port has been destroyed\n"));
/* all device, port information have been reset
just put smp to freeList
*/
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
onePortContext = oneDeviceData->dmPortContext;
oneExpander = oneDeviceData->dmExpander;
agDevHandle = oneExpander->agDevHandle;
#ifdef DIRECT_SMP
SMPRequestFunction = dmSMPRequestBody->smpPayload[1];
#else
saFrameReadBlock(agRoot, dmSMPRequestBody->IndirectSMP, 0, smpRequestHeader, 4);
dmRequestSMPFrameHeader = (dmSMPFrameHeader_t *)smpRequestHeader;
SMPRequestFunction = dmRequestSMPFrameHeader->smpFunction;
#endif
#ifdef NOT_IN_USE
/* for debugging; dump SMP request payload */
dmhexdump("smp payload",
(bit8 *)agSASRequestBody->smpFrame.outFrameBuf,
agSASRequestBody->smpFrame.outFrameLen
);
dmhexdump("smp payload new",
(bit8 *)dmSMPRequestBody->smpPayload,
agSASRequestBody->smpFrame.outFrameLen
);
#endif
/* sanity check */
if (onePortContext != agNULL)
{
DM_DBG5(("dmSMPCompleted: pid %d\n", onePortContext->id));
}
else
{
DM_DBG1(("dmSMPCompleted: Wrong, onePortContext is NULL!!!\n"));
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
oldonePortContext = dmSMPRequestBody->dmPortContext;
if (oldonePortContext != agNULL)
{
DM_DBG5(("dmSMPCompleted: old pid %d\n", oldonePortContext->id));
}
else
{
DM_DBG1(("dmSMPCompleted: Wrong, oldonePortContext is NULL!!!\n"));
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
/* decrement the number of pending SMP */
onePortContext->discovery.pendingSMP--;
/* for port invalid case;
full discovery -> full discovery; incremental discovery -> full discovery
*/
if (onePortContext != oldonePortContext)
{
DM_DBG1(("dmSMPCompleted: portcontext has changed!!!\n"));
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* stop SMP timer */
tddmSingleThreadedEnter(dmRoot, DM_TIMER_LOCK);
if (onePortContext->discovery.DiscoverySMPTimer.timerRunning == agTRUE)
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
dmKillTimer(
dmRoot,
&(onePortContext->discovery.DiscoverySMPTimer)
);
}
else
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
}
tddmSingleThreadedEnter(dmRoot, DM_TIMER_LOCK);
if (oldonePortContext->discovery.DiscoverySMPTimer.timerRunning == agTRUE)
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
dmKillTimer(
dmRoot,
&(oldonePortContext->discovery.DiscoverySMPTimer)
);
}
else
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
}
}
/* clean up expanders data strucures; move to free exp when device is cleaned */
dmCleanAllExp(dmRoot, oldonePortContext);
/* remove devices */
dmInternalRemovals(dmRoot, oldonePortContext);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
if (onePortContext->valid == agFALSE ||
onePortContext->DiscoveryState == DM_DSTATE_COMPLETED ||
onePortContext->discovery.status == DISCOVERY_SAS_DONE ||
onePortContext->DiscoveryAbortInProgress == agTRUE
)
{
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* stop SMP timer */
tddmSingleThreadedEnter(dmRoot, DM_TIMER_LOCK);
if (onePortContext->discovery.DiscoverySMPTimer.timerRunning == agTRUE)
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
dmKillTimer(
dmRoot,
&(onePortContext->discovery.DiscoverySMPTimer)
);
}
else
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
}
tddmSingleThreadedEnter(dmRoot, DM_TIMER_LOCK);
if (oldonePortContext->discovery.DiscoverySMPTimer.timerRunning == agTRUE)
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
dmKillTimer(
dmRoot,
&(oldonePortContext->discovery.DiscoverySMPTimer)
);
}
else
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
}
}
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
if (onePortContext->discovery.pendingSMP == 0)
{
DM_DBG1(("dmSMPCompleted: aborting discovery\n"));
if (onePortContext->DiscoveryState == DM_DSTATE_COMPLETED ||
onePortContext->discovery.status == DISCOVERY_SAS_DONE ||
onePortContext->DiscoveryAbortInProgress == agTRUE
)
{
onePortContext->DiscoveryAbortInProgress = agFALSE;
onePortContext->DiscoveryState = DM_DSTATE_COMPLETED;
onePortContext->discovery.status = DISCOVERY_SAS_DONE;
dmCleanAllExp(dmRoot, onePortContext);
if ( onePortContext->DiscoveryAbortInProgress == agTRUE)
{
tddmDiscoverCB(
dmRoot,
onePortContext->dmPortContext,
dmDiscAborted
);
}
}
}
else
{
DM_DBG3(("dmSMPCompleted: not yet abort; non zero pendingSMP %d\n", onePortContext->discovery.pendingSMP));
}
return;
}
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* stop SMP timer */
tddmSingleThreadedEnter(dmRoot, DM_TIMER_LOCK);
if (onePortContext->discovery.DiscoverySMPTimer.timerRunning == agTRUE)
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
dmKillTimer(
dmRoot,
&(onePortContext->discovery.DiscoverySMPTimer)
);
}
else
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
}
tddmSingleThreadedEnter(dmRoot, DM_TIMER_LOCK);
if (oldonePortContext->discovery.DiscoverySMPTimer.timerRunning == agTRUE)
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
dmKillTimer(
dmRoot,
&(oldonePortContext->discovery.DiscoverySMPTimer)
);
}
else
{
tddmSingleThreadedLeave(dmRoot, DM_TIMER_LOCK);
}
}
if (oneExpander->SAS2 == 0)
{
DM_DBG3(("dmSMPCompleted: SAS 1.1\n"));
if (agIOStatus == OSSA_IO_SUCCESS)
{
//tdhexdump("dmSMPCompleted", (bit8*)agFrameHandle, agIOInfoLen);
/* parsing SMP payload */
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, agFrameHandle, 0, smpHeader, 4);
#else
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
saFrameReadBlock(agRoot, dmSMPResponseBody->IndirectSMP, 0, smpHeader, 4);
#endif
dmResponseSMPFrameHeader = (dmSMPFrameHeader_t *)smpHeader;
/* SMP function dependent payload */
switch (dmResponseSMPFrameHeader->smpFunction)
{
case SMP_REPORT_GENERAL:
DM_DBG3(("dmSMPCompleted: report general\n"));
if (agIOInfoLen != sizeof(smpRespReportGeneral_t) + 4 &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
DM_DBG3(("dmSMPCompleted: mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, (unsigned int)sizeof(smpRespReportGeneral_t) + 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
/* start here */
dmReportGeneralRespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_DISCOVER:
DM_DBG3(("dmSMPCompleted: discover\n"));
if (agIOInfoLen != sizeof(smpRespDiscover_t) + 4 &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
DM_DBG3(("dmSMPCompleted: mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, (unsigned int)sizeof(smpRespDiscover_t) + 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmDiscoverRespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_REPORT_PHY_SATA:
DM_DBG3(("dmSMPCompleted: report phy sata\n"));
if (agIOInfoLen != sizeof(smpRespReportPhySata_t) + 4 &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
DM_DBG3(("dmSMPCompleted: mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, (unsigned int)sizeof(smpRespReportPhySata_t) + 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmReportPhySataRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_CONFIGURE_ROUTING_INFORMATION:
DM_DBG3(("dmSMPCompleted: configure routing information\n"));
if (agIOInfoLen != 4 &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED)
{
DM_DBG3(("dmSMPCompleted: mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmConfigRoutingInfoRespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_PHY_CONTROL:
DM_DBG3(("dmSMPCompleted: phy control\n"));
if (agIOInfoLen != 4 &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED) /*zero length is expected */
{
DM_DBG3(("dmSMPCompleted: mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmPhyControlRespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_REPORT_ROUTING_INFORMATION: /* fall through */
case SMP_REPORT_PHY_ERROR_LOG: /* fall through */
case SMP_PHY_TEST_FUNCTION: /* fall through */
case SMP_REPORT_MANUFACTURE_INFORMATION: /* fall through */
case SMP_READ_GPIO_REGISTER: /* fall through */
case SMP_WRITE_GPIO_REGISTER: /* fall through */
default:
DM_DBG1(("dmSMPCompleted: wrong SMP function 0x%x !!!\n", dmResponseSMPFrameHeader->smpFunction));
DM_DBG1(("dmSMPCompleted: smpFrameType 0x%x !!!\n", dmResponseSMPFrameHeader->smpFrameType));
DM_DBG1(("dmSMPCompleted: smpFunctionResult 0x%x !!!\n", dmResponseSMPFrameHeader->smpFunctionResult));
DM_DBG1(("dmSMPCompleted: smpReserved 0x%x !!!\n", dmResponseSMPFrameHeader->smpReserved));
dmhexdump("dmSMPCompleted: SMP payload !!!", (bit8 *)agFrameHandle, agIOInfoLen);
break;
} /* switch */
} /* OSSA_IO_SUCCESS */
else if (agIOStatus == OSSA_IO_ABORTED || agIOStatus == OSSA_IO_INVALID_LENGTH)
{
/* no retry this case */
DM_DBG1(("dmSMPCompleted: OSSA_IO_ABORTED or OSSA_IO_INVALID_LENGTH, status 0x%x\n", agIOStatus));
}
else if (agIOStatus == OSSA_IO_ERROR_INTERNAL_SMP_RESOURCE)
{
DM_DBG3(("dmSMPCompleted: OSSA_IO_ERROR_INTERNAL_SMP_RESOURCE\n"));
saFrameReadBlock(agRoot, agFrameHandle, 0, smpHeader, 4);
dmResponseSMPFrameHeader = (dmSMPFrameHeader_t *)smpHeader;
status = saSMPStart(
agRoot,
agIORequest,
0,
agDevHandle,
AGSA_SMP_INIT_REQ,
agSASRequestBody,
&dmsaSMPCompleted
);
if (status == AGSA_RC_SUCCESS)
{
/* increment the number of pending SMP */
onePortContext->discovery.pendingSMP++;
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* start discovery-related SMP timer */
dmDiscoverySMPTimer(dmRoot, onePortContext, (bit32)(dmResponseSMPFrameHeader->smpFunction), dmSMPRequestBody);
}
return;
}
else if (status == AGSA_RC_BUSY)
{
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmSMPBusyTimer(dmRoot, onePortContext, oneDeviceData, dmSMPRequestBody);
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* For taskmanagement SMP, let's fail task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
else /* AGSA_RC_FAILURE */
{
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
} /* OSSA_IO_ERROR_INTERNAL_SMP_RESOURCE*/
else
{
if (agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_RETRY_BACKOFF_THRESHOLD_REACHED ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_TMO ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_NO_DEST ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_COLLIDE ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_PATHWAY_BLOCKED ||
agIOStatus == OSSA_IO_DS_NON_OPERATIONAL )
{
DM_DBG1(("dmSMPCompleted: setting back to operational\n"));
saSetDeviceState(agRoot, agNULL, 0, agDevHandle, SA_DS_OPERATIONAL);
}
if (agIOStatus == OSSA_IO_OPEN_CNX_ERROR_CONNECTION_RATE_NOT_SUPPORTED && dmAllShared->RateAdjust)
{
DM_DBG1(("dmSMPCompleted: OSSA_IO_OPEN_CNX_ERROR_CONNECTION_RATE_NOT_SUPPORTED\n"));
DM_DBG1(("dmSMPCompleted: SMPRequestFunction 0x%x\n", SMPRequestFunction));
ConnRate = DEVINFO_GET_LINKRATE(&oneDeviceData->agDeviceInfo);
if (ConnRate == SAS_CONNECTION_RATE_1_5G)
{
/* no retry; failure ??? */
if (SMPRequestFunction == SMP_REPORT_GENERAL ||
SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (SMPRequestFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
agNULL,
agNULL
);
}
else
{
}
}
else
{
ConnRate = ConnRate - 1;
}
agContext = &(dmSMPRequestBody->agContext);
agContext->osData = agIORequest;
saSetDeviceInfo(agRoot, agContext, 0, agDevHandle, 32, ConnRate << 28, dmSetDeviceInfoCB);
}
else
{
if (dmSMPRequestBody->retries < SMP_RETRIES) /* 5 */
{
/* retry the SMP again */
DM_DBG1(("dmSMPCompleted: failed, but retries %d agIOStatus 0x%x %d agIOInfoLen %d !!!\n",
dmSMPRequestBody->retries, agIOStatus, agIOStatus, agIOInfoLen));
saFrameReadBlock(agRoot, agFrameHandle, 0, smpHeader, 4);
dmResponseSMPFrameHeader = (dmSMPFrameHeader_t *)smpHeader;
status = saSMPStart(
agRoot,
agIORequest,
0,
agDevHandle,
AGSA_SMP_INIT_REQ,
agSASRequestBody,
&dmsaSMPCompleted
);
if (status == AGSA_RC_SUCCESS)
{
/* increment the number of pending SMP */
onePortContext->discovery.pendingSMP++;
dmSMPRequestBody->retries++;
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* start discovery-related SMP timer */
dmDiscoverySMPTimer(dmRoot, onePortContext, (bit32)(dmResponseSMPFrameHeader->smpFunction), dmSMPRequestBody);
}
return;
}
else if (status == AGSA_RC_BUSY)
{
onePortContext->discovery.pendingSMP++;
dmSMPRequestBody->retries++;
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmSMPBusyTimer(dmRoot, onePortContext, oneDeviceData, dmSMPRequestBody);
return;
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* For taskmanagement SMP, let's fail task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
else /* AGSA_RC_FAILURE */
{
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
}
else
{
dmSMPFrameHeader = (dmSMPFrameHeader_t *)agSMPFrame->outFrameBuf;
dmSMPPayload = (bit8 *)agSMPFrame->outFrameBuf + 4;
DM_DBG1(("dmSMPCompleted: failed. no more retry. agIOStatus 0x%x %d !!!\n", agIOStatus, agIOStatus));
if (agIOStatus == OSSA_IO_DS_NON_OPERATIONAL)
{
DM_DBG1(("dmSMPCompleted: failed, agIOStatus is OSSA_IO_DS_NON_OPERATIONAL!!!\n"));
}
if (agIOStatus == OSSA_IO_DS_IN_RECOVERY)
{
DM_DBG1(("dmSMPCompleted: failed, agIOStatus is OSSA_IO_DS_IN_RECOVERY!!!\n"));
}
if (dmSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* discovery failure */
DM_DBG1(("dmSMPCompleted: SMP function 0x%x\n", dmSMPFrameHeader->smpFunction));
DM_DBG1(("dmSMPCompleted: discover done with error\n"));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (dmSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
DM_DBG3(("dmSMPCompleted: SMP_PHY_CONTROL\n"));
smpPhyControlReq = (smpReqPhyControl_t *)dmSMPPayload;
if (smpPhyControlReq->phyOperation == SMP_PHY_CONTROL_CLEAR_AFFILIATION)
{
DM_DBG3(("dmSMPCompleted: discover done with error\n"));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else
{
DM_DBG3(("dmSMPCompleted: unknown phy operation 0x%x\n", smpPhyControlReq->phyOperation));
}
} /* SMP_PHY_CONTROL */
else
{
DM_DBG3(("dmSMPCompleted: SMP function 0x%x\n", dmSMPFrameHeader->smpFunction));
}
} /* else */
} /* for RateAdjust */
} /* outer else */
} /* SAS 1.1 */
/************************************ SAS 2 ***********************************************/
else
{
DM_DBG2(("dmSMPCompleted: SAS 2\n"));
if (agIOStatus == OSSA_IO_SUCCESS)
{
//tdhexdump("dmSMPCompleted", (bit8*)agFrameHandle, agIOInfoLen);
/* parsing SMP payload */
#ifdef DIRECT_SMP
saFrameReadBlock(agRoot, agFrameHandle, 0, smpHeader, 4);
#else
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
saFrameReadBlock(agRoot, dmSMPResponseBody->IndirectSMP, 0, smpHeader, 4);
#endif
dmResponseSMPFrameHeader = (dmSMPFrameHeader_t *)smpHeader;
/* SMP function dependent payload */
switch (dmResponseSMPFrameHeader->smpFunction)
{
case SMP_REPORT_GENERAL:
DM_DBG2(("dmSMPCompleted: report general\n"));
if ((agIOInfoLen != sizeof(smpRespReportGeneral2_t) + 4) &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED
)
{
DM_DBG1(("dmSMPCompleted: report general mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, (int)sizeof(smpRespReportGeneral2_t) + 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmReportGeneral2RespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_DISCOVER:
DM_DBG2(("dmSMPCompleted: discover\n"));
if ((agIOInfoLen != sizeof(smpRespDiscover2_t) + 4) &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED
)
{
DM_DBG1(("dmSMPCompleted: discover mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, (int)sizeof(smpRespDiscover2_t) + 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmDiscover2RespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_REPORT_PHY_SATA:
DM_DBG2(("dmSMPCompleted: report phy sata\n"));
if ((agIOInfoLen != sizeof(smpRespReportPhySata2_t) + 4) &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED
)
{
DM_DBG1(("dmSMPCompleted: report phy sata mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, (int)sizeof(smpRespReportPhySata2_t) + 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmReportPhySata2Rcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_CONFIGURE_ROUTING_INFORMATION:
DM_DBG2(("dmSMPCompleted: configure routing information\n"));
if (agIOInfoLen != 4 &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED
)
{
DM_DBG1(("dmSMPCompleted: configure routing information mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmConfigRoutingInfo2RespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
case SMP_PHY_CONTROL:
DM_DBG2(("dmSMPCompleted: phy control\n"));
if (agIOInfoLen != 4 &&
dmResponseSMPFrameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED
) /*zero length is expected */
{
DM_DBG1(("dmSMPCompleted: phy control mismatch len agIOInfoLen 0x%x 0x%x\n", agIOInfoLen, 4));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
dmPhyControl2RespRcvd(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
break;
#ifdef NOT_YET
case SMP_DISCOVER_LIST:
DM_DBG1(("dmSMPCompleted: SMP_DISCOVER_LIST\n"));
DM_DBG1(("dmSMPCompleted: agIOInfoLen 0x%x \n", agIOInfoLen));
tdhexdump("dmSMPCompleted", (bit8*)agFrameHandle, agIOInfoLen);
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
break;
#endif
case SMP_REPORT_ROUTING_INFORMATION: /* fall through */
case SMP_REPORT_PHY_ERROR_LOG: /* fall through */
case SMP_PHY_TEST_FUNCTION: /* fall through */
case SMP_REPORT_MANUFACTURE_INFORMATION: /* fall through */
case SMP_READ_GPIO_REGISTER: /* fall through */
case SMP_WRITE_GPIO_REGISTER: /* fall through */
default:
DM_DBG1(("dmSMPCompleted: wrong SMP function 0x%x\n", dmResponseSMPFrameHeader->smpFunction));
DM_DBG1(("dmSMPCompleted: smpFrameType 0x%x\n", dmResponseSMPFrameHeader->smpFrameType));
DM_DBG1(("dmSMPCompleted: smpFunctionResult 0x%x\n", dmResponseSMPFrameHeader->smpFunctionResult));
DM_DBG1(("dmSMPCompleted: smpReserved 0x%x\n", dmResponseSMPFrameHeader->smpReserved));
dmhexdump("dmSMPCompleted: SMP payload", (bit8 *)agFrameHandle, agIOInfoLen);
break;
}
} /* agIOStatus == OSSA_IO_SUCCESS */
else if (agIOStatus == OSSA_IO_ABORTED || agIOStatus == OSSA_IO_INVALID_LENGTH)
{
/* no retry this case */
DM_DBG1(("dmSMPCompleted: OSSA_IO_ABORTED or OSSA_IO_INVALID_LENGTH, status 0x%x\n", agIOStatus));
}
else if (agIOStatus == OSSA_IO_ERROR_INTERNAL_SMP_RESOURCE)
{
DM_DBG1(("dmSMPCompleted: OSSA_IO_ERROR_INTERNAL_SMP_RESOURCE\n"));
saFrameReadBlock(agRoot, agFrameHandle, 0, smpHeader, 4);
dmResponseSMPFrameHeader = (dmSMPFrameHeader_t *)smpHeader;
status = saSMPStart(
agRoot,
agIORequest,
0,
agDevHandle,
AGSA_SMP_INIT_REQ,
agSASRequestBody,
&dmsaSMPCompleted
);
if (status == AGSA_RC_SUCCESS)
{
/* increment the number of pending SMP */
onePortContext->discovery.pendingSMP++;
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* start discovery-related SMP timer */
dmDiscoverySMPTimer(dmRoot, onePortContext, (bit32)(dmResponseSMPFrameHeader->smpFunction), dmSMPRequestBody);
}
return;
}
else if (status == AGSA_RC_BUSY)
{
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmSMPBusyTimer(dmRoot, onePortContext, oneDeviceData, dmSMPRequestBody);
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* For taskmanagement SMP, let's fail task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
else /* AGSA_RC_FAILURE */
{
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
}
else if (agIOStatus == OSSA_IO_OPEN_CNX_ERROR_ZONE_VIOLATION)
{
DM_DBG1(("dmSMPCompleted: OSSA_IO_OPEN_CNX_ERROR_ZONE_VIOLATION\n"));
/*
skip to the next expander
*/
dmHandleZoneViolation(
dmRoot,
agRoot,
agIORequest,
oneDeviceData,
agNULL,
agFrameHandle
);
}
else
{
if (agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_RETRY_BACKOFF_THRESHOLD_REACHED ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_TMO ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_NO_DEST ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_COLLIDE ||
agIOStatus == OSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_PATHWAY_BLOCKED ||
agIOStatus == OSSA_IO_DS_NON_OPERATIONAL )
{
DM_DBG1(("dmSMPCompleted: setting back to operational\n"));
saSetDeviceState(agRoot, agNULL, 0, agDevHandle, SA_DS_OPERATIONAL);
}
if (agIOStatus == OSSA_IO_OPEN_CNX_ERROR_CONNECTION_RATE_NOT_SUPPORTED && dmAllShared->RateAdjust)
{
DM_DBG1(("dmSMPCompleted: OSSA_IO_OPEN_CNX_ERROR_CONNECTION_RATE_NOT_SUPPORTED\n"));
DM_DBG1(("dmSMPCompleted: SMPRequestFunction 0x%x\n", SMPRequestFunction));
ConnRate = DEVINFO_GET_LINKRATE(&oneDeviceData->agDeviceInfo);
if (ConnRate == SAS_CONNECTION_RATE_1_5G)
{
/* no retry; failure ??? */
if (SMPRequestFunction == SMP_REPORT_GENERAL ||
SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (SMPRequestFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
agNULL,
agNULL
);
}
else
{
}
}
else
{
ConnRate = ConnRate - 1;
}
agContext = &(dmSMPRequestBody->agContext);
agContext->osData = agIORequest;
saSetDeviceInfo(agRoot, agContext, 0, agDevHandle, 32, ConnRate << 28, dmSetDeviceInfoCB);
}
else
{
if (dmSMPRequestBody->retries < SMP_RETRIES) /* 5 */
{
/* retry the SMP again */
DM_DBG1(("dmSMPCompleted: failed! but retries %d agIOStatus 0x%x %d agIOInfoLen %d\n",
dmSMPRequestBody->retries, agIOStatus, agIOStatus, agIOInfoLen));
saFrameReadBlock(agRoot, agFrameHandle, 0, smpHeader, 4);
dmResponseSMPFrameHeader = (dmSMPFrameHeader_t *)smpHeader;
status = saSMPStart(
agRoot,
agIORequest,
0,
agDevHandle,
AGSA_SMP_INIT_REQ,
agSASRequestBody,
&dmsaSMPCompleted
);
if (status == AGSA_RC_SUCCESS)
{
/* increment the number of pending SMP */
onePortContext->discovery.pendingSMP++;
dmSMPRequestBody->retries++;
if (SMPRequestFunction == SMP_REPORT_GENERAL || SMPRequestFunction == SMP_DISCOVER ||
SMPRequestFunction == SMP_REPORT_PHY_SATA ||
SMPRequestFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* start discovery-related SMP timer */
dmDiscoverySMPTimer(dmRoot, onePortContext, (bit32)(dmResponseSMPFrameHeader->smpFunction), dmSMPRequestBody);
}
return;
}
else if (status == AGSA_RC_BUSY)
{
onePortContext->discovery.pendingSMP++;
dmSMPRequestBody->retries++;
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmSMPBusyTimer(dmRoot, onePortContext, oneDeviceData, dmSMPRequestBody);
return;
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* For taskmanagement SMP, let's fail task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
else /* AGSA_RC_FAILURE */
{
if (dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmResponseSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmResponseSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmResponseSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (dmResponseSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
/* task management failure */
dmPhyControlFailureRespRcvd(
dmRoot,
agRoot,
oneDeviceData,
dmResponseSMPFrameHeader,
agFrameHandle
);
}
else
{
}
}
}
else
{
dmSMPFrameHeader = (dmSMPFrameHeader_t *)agSMPFrame->outFrameBuf;
dmSMPPayload = (bit8 *)agSMPFrame->outFrameBuf + 4;
DM_DBG1(("dmSMPCompleted: failed! no more retry! agIOStatus 0x%x %d\n", agIOStatus, agIOStatus));
if (agIOStatus == OSSA_IO_DS_NON_OPERATIONAL)
{
DM_DBG1(("dmSMPCompleted: failed! agIOStatus is OSSA_IO_DS_NON_OPERATIONAL\n"));
}
if (agIOStatus == OSSA_IO_DS_IN_RECOVERY)
{
DM_DBG1(("dmSMPCompleted: failed! agIOStatus is OSSA_IO_DS_IN_RECOVERY\n"));
}
if (dmSMPFrameHeader->smpFunction == SMP_REPORT_GENERAL ||
dmSMPFrameHeader->smpFunction == SMP_DISCOVER ||
dmSMPFrameHeader->smpFunction == SMP_REPORT_PHY_SATA ||
dmSMPFrameHeader->smpFunction == SMP_CONFIGURE_ROUTING_INFORMATION
)
{
/* discovery failure */
DM_DBG1(("dmSMPCompleted: SMP function 0x%x\n", dmSMPFrameHeader->smpFunction));
DM_DBG1(("dmSMPCompleted: discover done with error\n"));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else if (dmSMPFrameHeader->smpFunction == SMP_PHY_CONTROL)
{
DM_DBG1(("dmSMPCompleted: SMP_PHY_CONTROL\n"));
smpPhyControl2Req = (smpReqPhyControl2_t *)dmSMPPayload;
if (smpPhyControl2Req->phyOperation == SMP_PHY_CONTROL_CLEAR_AFFILIATION)
{
DM_DBG1(("dmSMPCompleted: discover done with error\n"));
dmDiscoverDone(dmRoot, onePortContext, DM_RC_FAILURE);
}
else
{
DM_DBG1(("dmSMPCompleted: unknown phy operation 0x%x\n", smpPhyControl2Req->phyOperation));
}
} /* SMP_PHY_CONTROL */
else
{
DM_DBG1(("dmSMPCompleted: SMP function 0x%x\n", dmSMPFrameHeader->smpFunction));
}
} /* else */
} /* for RateAdjust */
} /* outer else */
} /* SAS 2 else */
/* SMP request */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#ifndef DIRECT_SMP
/* SMP response */
dmSMPResponseBody = (dmSMPRequestBody_t *)dmSMPRequestBody->IndirectSMPResponse;
if (dmSMPResponseBody == agNULL)
{
DM_DBG1(("dmSMPCompleted: Wrong, dmSMPResponseBody is NULL!!!\n"));
return;
}
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPResponseBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
#endif
return;
}
osGLOBAL void
dmSMPAbortCB(
agsaRoot_t *agRoot,
agsaIORequest_t *agIORequest,
bit32 flag,
bit32 status)
{
dmRoot_t *dmRoot = agNULL;
dmIntRoot_t *dmIntRoot = agNULL;
dmIntContext_t *dmAllShared = agNULL;
dmSMPRequestBody_t *dmSMPRequestBody = (dmSMPRequestBody_t *) agIORequest->osData;
DM_DBG5(("dmSMPAbortCB: start\n"));
if (dmSMPRequestBody == agNULL)
{
DM_DBG1(("dmSMPAbortCB: pSMPRequestBody is NULL!!! \n"));
return;
}
dmRoot = dmSMPRequestBody->dmRoot;
dmIntRoot = (dmIntRoot_t *)dmRoot->dmData;
dmAllShared = (dmIntContext_t *)&dmIntRoot->dmAllShared;
/* put back into free smplist */
tddmSingleThreadedEnter(dmRoot, DM_SMP_LOCK);
DMLIST_ENQUEUE_AT_TAIL(&(dmSMPRequestBody->Link), &(dmAllShared->freeSMPList));
tddmSingleThreadedLeave(dmRoot, DM_SMP_LOCK);
/* start here */
if (flag == 2)
{
/* abort all per port */
DM_DBG1(("dmSMPAbortCB: abort per port; not used!!!\n"));
}
else if (flag == 1)
{
/* abort all */
DM_DBG1(("dmSMPAbortCB: abort all; not used!!!\n"));
}
else if (flag == 0)
{
/* abort one */
DM_DBG1(("ossaSMPAbortCB: abort one\n"));
if (status != OSSA_IO_SUCCESS)
{
DM_DBG1(("dmSMPAbortCB: abort one, status 0x%x\n", status));
}
}
else
{
DM_DBG1(("dmSMPAbortCB: not allowed case, flag 0x%x!!!\n", flag));
}
return;
}
#endif /* FDS_DM */