/******************************************************************************* *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 ********************************************************************************/ /*******************************************************************************/ /** \file * * * This file contains TB misc. functions * */ #include #include #include #include #include #include #include #include #include #include #include #include #ifdef FDS_SM #include #include #include #endif #ifdef FDS_DM #include #include #include #endif #include #include #include #ifdef INITIATOR_DRIVER #include #include #include #endif #ifdef TARGET_DRIVER #include #include #include #endif #include #include /***************************************************************************** *! \brief tiINIIOAbort * * Purpose: This function is called to abort an I/O request previously started * by a call to tiINIIOStart() or tiINIIOStartDif() . * * \param tiRoot: Pointer to initiator driver/port instance. * \param taskTag: Pointer to the associated task to be aborted * * \return: * * tiSuccess: I/O request successfully initiated. * tiBusy: No resources available, try again later. * tiIONoDevice: Invalid device handle. * tiError: Other errors that prevent the I/O request to be * started. * *****************************************************************************/ #ifdef INITIATOR_DRIVER /*TBD: INITIATOR SPECIFIC API in tiapi.h (TP)*/ osGLOBAL bit32 tiINIIOAbort( tiRoot_t *tiRoot, tiIORequest_t *taskTag ) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; agsaRoot_t *agRoot = agNULL; tdIORequestBody_t *tdIORequestBody = agNULL; agsaIORequest_t *agIORequest = agNULL; bit32 sasStatus = AGSA_RC_FAILURE; tdsaDeviceData_t *oneDeviceData; bit32 status= tiError; agsaIORequest_t *agAbortIORequest; tdIORequestBody_t *tdAbortIORequestBody; bit32 PhysUpper32; bit32 PhysLower32; bit32 memAllocStatus; void *osMemHandle; agsaDevHandle_t *agDevHandle = agNULL; #ifdef FDS_SM smRoot_t *smRoot; tdIORequestBody_t *ToBeAbortedtdIORequestBody; smIORequest_t *ToBeAborted = agNULL; #endif TI_DBG2(("tiINIIOAbort: start\n")); if(taskTag == agNULL) { TI_DBG1(("tiINIIOAbort: taskTag is NULL\n")); return tiError; } agRoot = &(tdsaAllShared->agRootNonInt); tdIORequestBody = (tdIORequestBody_t *)taskTag->tdData; agIORequest = &(tdIORequestBody->agIORequest); oneDeviceData = tdIORequestBody->tiDevHandle->tdData; if(oneDeviceData == agNULL) { TI_DBG1(("tiINIIOAbort: DeviceData is NULL\n")); return tiSuccess; } agDevHandle = oneDeviceData->agDevHandle; TI_DBG2(("tiINIIOAbort: did %d\n", oneDeviceData->id)); /* for hotplug */ if (oneDeviceData->valid != agTRUE || oneDeviceData->registered != agTRUE || oneDeviceData->tdPortContext == agNULL ) { TI_DBG1(("tiINIIOAbort: NO Device did %d\n", oneDeviceData->id )); TI_DBG1(("tiINIIOAbort: device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi)); TI_DBG1(("tiINIIOAbort: device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo)); return tiError; } /* allocating agIORequest for abort itself */ memAllocStatus = ostiAllocMemory( tiRoot, &osMemHandle, (void **)&tdAbortIORequestBody, &PhysUpper32, &PhysLower32, 8, sizeof(tdIORequestBody_t), agTRUE ); if (memAllocStatus != tiSuccess) { /* let os process IO */ TI_DBG1(("tiINIIOAbort: ostiAllocMemory failed...\n")); return tiError; } if (tdAbortIORequestBody == agNULL) { /* let os process IO */ TI_DBG1(("tiINIIOAbort: ostiAllocMemory returned NULL tdAbortIORequestBody\n")); return tiError; } /* setup task management structure */ tdAbortIORequestBody->IOType.InitiatorTMIO.osMemHandle = osMemHandle; /* setting callback */ tdAbortIORequestBody->IOCompletionFunc = itdssIOAbortedHandler; tdAbortIORequestBody->tiDevHandle = tdIORequestBody->tiDevHandle; /* initialize agIORequest */ agAbortIORequest = &(tdAbortIORequestBody->agIORequest); agAbortIORequest->osData = (void *) tdAbortIORequestBody; agAbortIORequest->sdkData = agNULL; /* LL takes care of this */ /* remember IO to be aborted */ tdAbortIORequestBody->tiIOToBeAbortedRequest = taskTag; if (oneDeviceData->DeviceType == TD_SAS_DEVICE) { sasStatus = saSSPAbort(agRoot, agAbortIORequest, tdsaRotateQnumber(tiRoot, oneDeviceData), agDevHandle, 0/* flag */, agIORequest, agNULL); if (sasStatus == AGSA_RC_SUCCESS) { return tiSuccess; } else { return tiError; } } else if (oneDeviceData->DeviceType == TD_SATA_DEVICE) { TI_DBG2(("tiINIIOAbort: calling satIOAbort() oneDeviceData=%p\n", oneDeviceData)); #ifdef FDS_SM smRoot = &(tdsaAllShared->smRoot); if ( taskTag != agNULL) { ToBeAbortedtdIORequestBody = (tdIORequestBody_t *)taskTag->tdData; ToBeAborted = &(ToBeAbortedtdIORequestBody->smIORequest); status = smIOAbort(smRoot, ToBeAborted); return status; } else { TI_DBG1(("tiINIIOAbort: taskTag is NULL!!!\n")); return tiError; } #else #ifdef SATA_ENABLE status = satIOAbort(tiRoot, taskTag ); #endif return status; #endif /* else FDS_SM */ } else { return tiError; } } osGLOBAL bit32 tiINIIOAbortAll( tiRoot_t *tiRoot, tiDeviceHandle_t *tiDeviceHandle ) { agsaRoot_t *agRoot = agNULL; tdsaDeviceData_t *oneDeviceData = agNULL; bit32 status = tiError; #ifdef FDS_SM tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; smRoot_t *smRoot = &(tdsaAllShared->smRoot); smDeviceHandle_t *smDeviceHandle; #endif TI_DBG1(("tiINIIOAbortAll: start\n")); if (tiDeviceHandle == agNULL) { TI_DBG1(("tiINIIOAbortAll: tiDeviceHandle is NULL!!!\n")); return tiError; } oneDeviceData = (tdsaDeviceData_t *)tiDeviceHandle->tdData; if (oneDeviceData == agNULL) { TI_DBG1(("tiINIIOAbortAll: oneDeviceData is NULL!!!\n")); return tiError; } /* for hotplug */ if (oneDeviceData->valid != agTRUE || oneDeviceData->registered != agTRUE || oneDeviceData->tdPortContext == agNULL ) { TI_DBG1(("tiINIIOAbortAll: NO Device did %d\n", oneDeviceData->id )); TI_DBG1(("tiINIIOAbortAll: device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi)); TI_DBG1(("tiINIIOAbortAll: device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo)); return tiError; } agRoot = oneDeviceData->agRoot; if (agRoot == agNULL) { TI_DBG1(("tiINIIOAbortAll: agRoot is NULL!!!\n")); return tiError; } /* this is processed in ossaSSPAbortCB, ossaSATAAbortCB, ossaSMPAbortCB */ if (oneDeviceData->OSAbortAll == agTRUE) { TI_DBG1(("tiINIIOAbortAll: already pending!!!\n")); return tiBusy; } else { oneDeviceData->OSAbortAll = agTRUE; } #ifdef FDS_SM if ( DEVICE_IS_SSP_TARGET(oneDeviceData) || DEVICE_IS_SMP_TARGET(oneDeviceData)) { status = tdsaAbortAll(tiRoot, agRoot, oneDeviceData); } else if (DEVICE_IS_SATA_DEVICE(oneDeviceData) || DEVICE_IS_STP_TARGET(oneDeviceData) ) { TI_DBG2(("tiINIIOAbortAll: calling smIOAbortAll\n")); smDeviceHandle = (smDeviceHandle_t *)&(oneDeviceData->smDeviceHandle); smDeviceHandle->tdData = oneDeviceData; status = smIOAbortAll(smRoot, smDeviceHandle); } else { TI_DBG1(("tiINIIOAbortAll: unknow device type!!! 0x%x\n", oneDeviceData->target_ssp_stp_smp)); status = AGSA_RC_FAILURE; } #else status = tdsaAbortAll(tiRoot, agRoot, oneDeviceData); #endif return status; } #endif /* INITIATOR_DRIVER */ /***************************************************************************** *! \brief tdsaAbortAll * * Purpose: This function is called to abort an all pending I/O request on a * device * * \param tiRoot: Pointer to initiator driver/port instance. * \param agRoot: Pointer to chip/driver Instance. * \param oneDeviceData: Pointer to the device * * \return: * * None * *****************************************************************************/ osGLOBAL bit32 tdsaAbortAll( tiRoot_t *tiRoot, agsaRoot_t *agRoot, tdsaDeviceData_t *oneDeviceData ) { agsaIORequest_t *agAbortIORequest = agNULL; tdIORequestBody_t *tdAbortIORequestBody = agNULL; bit32 PhysUpper32; bit32 PhysLower32; bit32 memAllocStatus; void *osMemHandle; bit32 status = AGSA_RC_FAILURE; TI_DBG1(("tdsaAbortAll: did %d\n", oneDeviceData->id)); /* allocating agIORequest for abort itself */ memAllocStatus = ostiAllocMemory( tiRoot, &osMemHandle, (void **)&tdAbortIORequestBody, &PhysUpper32, &PhysLower32, 8, sizeof(tdIORequestBody_t), agTRUE ); if (memAllocStatus != tiSuccess) { /* let os process IO */ TI_DBG1(("tdsaAbortAll: ostiAllocMemory failed...\n")); return tiError; } if (tdAbortIORequestBody == agNULL) { /* let os process IO */ TI_DBG1(("tdsaAbortAll: ostiAllocMemory returned NULL tdAbortIORequestBody\n")); return tiError; } /* setup task management structure */ tdAbortIORequestBody->IOType.InitiatorTMIO.osMemHandle = osMemHandle; /* setting callback but not used later */ tdAbortIORequestBody->IOCompletionFunc = agNULL; //tdAbortIORequestBody->IOCompletionFunc = itdssIOAbortedHandler; tdAbortIORequestBody->tiDevHandle = (tiDeviceHandle_t *)&(oneDeviceData->tiDeviceHandle); /* initialize agIORequest */ agAbortIORequest = &(tdAbortIORequestBody->agIORequest); agAbortIORequest->osData = (void *) tdAbortIORequestBody; agAbortIORequest->sdkData = agNULL; /* LL takes care of this */ if ( DEVICE_IS_SSP_TARGET(oneDeviceData)) { /* SSPAbort */ status = saSSPAbort(agRoot, agAbortIORequest, tdsaRotateQnumber(tiRoot, oneDeviceData), //0, oneDeviceData->agDevHandle, 1, /* abort all */ agNULL, agNULL ); } else if (DEVICE_IS_SATA_DEVICE(oneDeviceData) || DEVICE_IS_STP_TARGET(oneDeviceData) ) { /* SATAAbort*/ if (oneDeviceData->satDevData.IDDeviceValid == agFALSE) { TI_DBG2(("tdsaAbortAll: saSATAAbort\n")); status = saSATAAbort(agRoot, agAbortIORequest, 0, oneDeviceData->agDevHandle, 1, /* abort all */ agNULL, agNULL ); } else { TI_DBG2(("tdsaAbortAll: saSATAAbort IDDeviceValid\n")); status = saSATAAbort(agRoot, agAbortIORequest, tdsaRotateQnumber(tiRoot, oneDeviceData), //0, oneDeviceData->agDevHandle, 1, /* abort all */ agNULL, agNULL ); } } else if (DEVICE_IS_SMP_TARGET(oneDeviceData)) { /* SMPAbort*/ TI_DBG2(("tdsaAbortAll: saSMPAbort \n")); status = saSMPAbort(agRoot, agAbortIORequest, tdsaRotateQnumber(tiRoot, oneDeviceData), //0, oneDeviceData->agDevHandle, 1, /* abort all */ agNULL, agNULL ); } else { TI_DBG1(("tdsaAbortAll: unknown device type!!! 0x%x\n", oneDeviceData->target_ssp_stp_smp)); status = AGSA_RC_FAILURE; } if (status == AGSA_RC_SUCCESS) { return tiSuccess; } else { TI_DBG1(("tdsaAbortAll: failed status=%d\n", status)); //failed to send abort command, we need to free the memory ostiFreeMemory( tiRoot, tdAbortIORequestBody->IOType.InitiatorTMIO.osMemHandle, sizeof(tdIORequestBody_t) ); return tiError; } } /***************************************************************************** *! \brief tiCOMReset * * Purpose: This function is called to trigger soft or hard reset * * \param tiRoot: Pointer to initiator driver/port instance. * \param option: Options * * \return: * * None * *****************************************************************************/ osGLOBAL void tiCOMReset( tiRoot_t *tiRoot, bit32 option ) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; agsaRoot_t *agRoot = agNULL; #ifdef TI_GETFOR_ONRESET agsaControllerStatus_t controllerStatus; agsaForensicData_t forensicData; bit32 once = 1; bit32 status; #endif /* TI_GETFOR_ONRESET */ TI_DBG1(("tiCOMReset: start option 0x%x\n",option)); tdsaAllShared->resetCount++; TI_DBG2(("tiCOMReset: reset count %d\n", tdsaAllShared->resetCount)); agRoot = &(tdsaAllShared->agRootNonInt); if (tdsaAllShared->flags.resetInProgress == agTRUE) { TI_DBG1(("tiCOMReset : Reset is already in progress : \n")); /* don't do anything : just return */ return; } tdsaAllShared->flags.resetInProgress = agTRUE; #ifdef TI_GETFOR_ONRESET saGetControllerStatus(agRoot, &controllerStatus); if(controllerStatus.fatalErrorInfo.errorInfo1) { bit8 * DirectData = (bit8 * )tdsaAllShared->FatalErrorData; forensicData.DataType = TYPE_FATAL; forensicData.dataBuf.directLen = (8 * 1024); forensicData.dataBuf.directOffset = 0; /* current offset */ forensicData.dataBuf.readLen = 0; /* Data read */ getmoreData: forensicData.dataBuf.directData = DirectData; status = saGetForensicData( agRoot, agNULL, &forensicData); TI_DBG1(("tiCOMReset:status %d readLen 0x%x directLen 0x%x directOffset 0x%x\n", status, forensicData.dataBuf.readLen, forensicData.dataBuf.directLen, forensicData.dataBuf.directOffset)); if( forensicData.dataBuf.readLen == forensicData.dataBuf.directLen && !status && once) { DirectData += forensicData.dataBuf.readLen; goto getmoreData; } TI_DBG1(("tiCOMReset:saGetForensicData type %d read 0x%x bytes\n", forensicData.DataType, forensicData.dataBuf.directOffset )); } #endif /* TI_GETFOR_ONRESET */ if (option == tiSoftReset) { /* soft reset */ TI_DBG6(("tiCOMReset: soft reset\n")); saHwReset(agRoot, AGSA_SOFT_RESET, 0); return; } else { saHwReset(agRoot, AGSA_SOFT_RESET, 0); #ifdef NOT_YET /* hard reset */ saHwReset(agRoot, AGSA_CHIP_RESET, 0); #endif } return; } /*****************************************************************************/ /*! \biref tiINIReportErrorToEventLog * * Purpose: This function is called to report errors that needs to be logged * into event log. * * \param tiRoot: Pointer to initiator specific root data structure for this * instance of the driver. * \param agEventData: Event data structure. * * \return None. * */ /*****************************************************************************/ #ifdef INITIATOR_DRIVER osGLOBAL bit32 tiINIReportErrorToEventLog( tiRoot_t *tiRoot, tiEVTData_t *agEventData ) { TI_DBG6(("tiINIReportErrorToEventLog: start\n")); return tiError; } #endif /* INITIATOR_DRIVER */ /*****************************************************************************/ /*! \brief ossaReenableInterrupts * * * Purpose: This routine is called to enable interrupt * * * \param agRoot: Pointer to chip/driver Instance. * \param outboundChannelNum: Zero-base channel number * * * \return None. * * \note - The scope is shared target and initiator. * */ /*****************************************************************************/ #ifndef ossaReenableInterrupts osGLOBAL void ossaReenableInterrupts( agsaRoot_t *agRoot, bit32 outboundChannelNum ) { tdsaRootOsData_t *osData = (tdsaRootOsData_t *) (agRoot->osData); ostiInterruptEnable( osData->tiRoot, outboundChannelNum ); return; } #endif /* 1. initiator send task management call saSSPAbort() 2. Target call saSSPAbort() */ /***************************************************************************** *! \brief tiINITaskManagement * * Purpose: This routine is called to explicitly ask the Transport Dependent * Layer to issue a Task Management command to a device. * * \param tiRoot: Pointer to driver instance * \param tiDeviveHandle: Pointer to the device handle for this session. * \param task: SAM-2 task management request. * \param lun: Pointer to the SCSI-3 LUN information * when applicable. Set to zero when not applicable. * \param taskTag: Pointer to the associated task where the task * management command is to be applied. Set to agNULL * if not applicable for the specific Task Management * task. * \param currentTaskTag: The current context or task tag for this task. This * task tag will be passed back in ostiInitiatorEvent() * when this task management is completed. * * \return: * tiSuccess TM request successfully initiated. * tiBusy No resources available, try again later. * tiIONoDevice Invalid device handle. * tiError Other errors that prevent the TM request to be started. * *****************************************************************************/ /* warm reset->smp phy control(hard reset) or saLocalPhyControl(AGSA_PHY_HARD_RESET) */ #ifdef INITIATOR_DRIVER osGLOBAL bit32 tiINITaskManagement ( tiRoot_t *tiRoot, tiDeviceHandle_t *tiDeviceHandle, bit32 task, tiLUN_t *lun, tiIORequest_t *taskTag, /* being aborted one */ tiIORequest_t *currentTaskTag /* task management itself */ ) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; itdsaIni_t *Initiator = (itdsaIni_t *)tdsaAllShared->itdsaIni; agsaRoot_t *agRoot = agNULL; bit32 tiStatus = tiError; bit32 notImplemented = agFALSE; tdsaDeviceData_t *oneDeviceData = agNULL; void *osMemHandle; tdIORequestBody_t *TMtdIORequestBody; bit32 PhysUpper32; bit32 PhysLower32; bit32 memAllocStatus; bit32 agRequestType; agsaIORequest_t *agIORequest = agNULL; /* task management itself */ agsaIORequest_t *agTMRequest = agNULL; /* IO being task managed */ agsaDevHandle_t *agDevHandle = agNULL; agsaSASRequestBody_t *agSASRequestBody = agNULL; agsaSSPScsiTaskMgntReq_t *agSSPTaskMgntRequest; bit32 saStatus; tdIORequestBody_t *tdIORequestBody; #ifdef FDS_SM smRoot_t *smRoot; smDeviceHandle_t *smDeviceHandle; smIORequest_t *ToBeAborted = agNULL; smIORequest_t *TaskManagement; tdIORequestBody_t *ToBeAbortedtdIORequestBody; tdIORequestBody_t *SMTMtdIORequestBody; void *SMosMemHandle; bit32 SMPhysUpper32; bit32 SMPhysLower32; bit32 SMmemAllocStatus; #endif TI_DBG2(("tiINITaskManagement: start\n")); /* just for testing only */ #ifdef REMOVED //start temp if(tiDeviceHandle == agNULL) { TI_DBG1(("tiINITaskManagement: tiDeviceHandle is NULL\n")); return tiError; } oneDeviceData = (tdsaDeviceData_t *)tiDeviceHandle->tdData; if(oneDeviceData == agNULL) { TI_DBG1(("tiINITaskManagement: tiDeviceHandle=%p DeviceData is NULL\n", tiDeviceHandle)); return tiError; } TI_DBG1(("tiINITaskManagement: did %d\n", oneDeviceData->id )); return tiError; //end temp // just for testing if (task == AG_LOGICAL_UNIT_RESET) { TI_DBG1(("tiINITaskManagement: failing LUN RESET for testing\n")); return tiError; } #endif switch(task) { case AG_ABORT_TASK: TI_DBG6(("tiINITaskManagement: ABORT_TASK\n")); break; case AG_ABORT_TASK_SET: TI_DBG6(("tiINITaskManagement: ABORT_TASK_SET\n")); break; case AG_CLEAR_ACA: TI_DBG6(("tiINITaskManagement: CLEAR_ACA\n")); break; case AG_CLEAR_TASK_SET: TI_DBG6(("tiINITaskManagement: CLEAR_TASK_SET\n")); break; case AG_LOGICAL_UNIT_RESET: TI_DBG6(("tiINITaskManagement: LOGICAL_UNIT_RESET\n")); break; case AG_TARGET_WARM_RESET: TI_DBG6(("tiINITaskManagement: TARGET_WARM_RESET\n")); break; case AG_QUERY_TASK: TI_DBG6(("tiINITaskManagement: QUERY_TASK\n")); break; default: TI_DBG1(("tiINITaskManagement: notImplemented 0x%0x !!!\n",task)); notImplemented = agTRUE; break; } if (notImplemented) { TI_DBG1(("tiINITaskManagement: not implemented 0x%0x !!!\n",task)); return tiStatus; } if(tiDeviceHandle == agNULL) { TI_DBG1(("tiINITaskManagement: tiDeviceHandle is NULL\n")); return tiError; } oneDeviceData = (tdsaDeviceData_t *)tiDeviceHandle->tdData; if(oneDeviceData == agNULL) { TI_DBG1(("tiINITaskManagement: tiDeviceHandle=%p DeviceData is NULL\n", tiDeviceHandle)); return tiIONoDevice; } /* for hotplug */ if (oneDeviceData->valid != agTRUE || oneDeviceData->registered != agTRUE || oneDeviceData->tdPortContext == agNULL ) { TI_DBG1(("tiINITaskManagement: NO Device did %d Addr 0x%08x:0x%08x\n", oneDeviceData->id , oneDeviceData->SASAddressID.sasAddressHi, oneDeviceData->SASAddressID.sasAddressLo)); return tiIONoDevice; } /* 1. call tiINIOAbort() 2. call tdssTaskXmit() */ if (oneDeviceData->DeviceType == TD_SAS_DEVICE) { agRoot = oneDeviceData->agRoot; agDevHandle = oneDeviceData->agDevHandle; TI_DBG1(("tiINITaskManagement: SAS Device\n")); /* WARM_RESET is experimental code. Needs more testing and debugging */ if (task == AG_TARGET_WARM_RESET) { agsaContext_t *agContext; tdsaDeviceData_t *tdsaDeviceData; tdsaDeviceData = (tdsaDeviceData_t *)tiDeviceHandle->tdData; currentTaskTag->tdData = tdsaDeviceData; agContext = &(tdsaDeviceData->agDeviceResetContext); agContext->osData = currentTaskTag; TI_DBG2(("tiINITaskManagement: did %d device reset for SAS\n", oneDeviceData->id)); saSetDeviceState(agRoot, agNULL, tdsaRotateQnumber(tiRoot, oneDeviceData), agDevHandle, SA_DS_IN_RECOVERY); /* warm reset by saLocalPhyControl or SMP PHY control */ if (oneDeviceData->directlyAttached == agTRUE) { TI_DBG2(("tiINITaskManagement: device reset directly attached\n")); saLocalPhyControl(agRoot, agContext, tdsaRotateQnumber(tiRoot, oneDeviceData), oneDeviceData->phyID, AGSA_PHY_HARD_RESET, agNULL ); return tiSuccess; } else { TI_DBG2(("tiINITaskManagement: device reset expander attached\n")); saStatus = tdsaPhyControlSend(tiRoot, oneDeviceData, SMP_PHY_CONTROL_HARD_RESET, currentTaskTag, tdsaRotateQnumber(tiRoot, oneDeviceData) ); return saStatus; } } else { /* task management */ TI_DBG6(("tiINITaskManagement: making task management frame \n")); /* 1. create task management frame 2. sends it using "saSSPStart()" */ /* Allocate memory for task management */ memAllocStatus = ostiAllocMemory( tiRoot, &osMemHandle, (void **)&TMtdIORequestBody, &PhysUpper32, &PhysLower32, 8, sizeof(tdIORequestBody_t), agTRUE ); if (memAllocStatus != tiSuccess) { TI_DBG1(("tiINITaskManagement: ostiAllocMemory failed...\n")); return tiError; } if (TMtdIORequestBody == agNULL) { TI_DBG1(("tiINITaskManagement: ostiAllocMemory returned NULL TMIORequestBody\n")); return tiError; } /* initialize */ osti_memset(TMtdIORequestBody, 0, sizeof(tdIORequestBody_t)); /* setup task management structure */ TMtdIORequestBody->IOType.InitiatorTMIO.osMemHandle = osMemHandle; TMtdIORequestBody->IOType.InitiatorTMIO.CurrentTaskTag = currentTaskTag; TMtdIORequestBody->IOType.InitiatorTMIO.TaskTag = taskTag; /* let's initialize tdIOrequestBody */ /* initialize jump table */ /* direct callback for task management */ TMtdIORequestBody->IOCompletionFunc = itdssTaskCompleted; /* to be removed */ /* TMtdIORequestBody->IOCompletionFunc = itdssIOCompleted; */ /* initialize tiDevhandle */ TMtdIORequestBody->tiDevHandle = tiDeviceHandle; /* initialize tiIORequest */ TMtdIORequestBody->tiIORequest = currentTaskTag; /* save context if we need to abort later */ currentTaskTag->tdData = TMtdIORequestBody; /* initialize agIORequest */ agIORequest = &(TMtdIORequestBody->agIORequest); agIORequest->osData = (void *) TMtdIORequestBody; agIORequest->sdkData = agNULL; /* SA takes care of this */ /* request type */ agRequestType = AGSA_SSP_TASK_MGNT_REQ; TMtdIORequestBody->agRequestType = AGSA_SSP_TASK_MGNT_REQ; /* initialize tdIORequestBody_t tdIORequestBody -> agSASRequestBody */ agSASRequestBody = &(TMtdIORequestBody->transport.SAS.agSASRequestBody); agSSPTaskMgntRequest = &(agSASRequestBody->sspTaskMgntReq); TI_DBG2(("tiINITaskManagement: did %d LUN reset for SAS\n", oneDeviceData->id)); /* fill up LUN field */ if (lun == agNULL) { osti_memset(agSSPTaskMgntRequest->lun, 0, 8); } else { osti_memcpy(agSSPTaskMgntRequest->lun, lun->lun, 8); } /* default: unconditionally set device state to SA_DS_IN_RECOVERY bit1 (DS) bit0 (ADS) bit1: 1 bit0: 0 */ agSSPTaskMgntRequest->tmOption = 2; /* sets taskMgntFunction field */ switch(task) { case AG_ABORT_TASK: agSSPTaskMgntRequest->taskMgntFunction = AGSA_ABORT_TASK; /* For abort task management, unconditionally set device state to SA_DS_IN_RECOVERY and if can't find, set device state to SA_DS_IN_RECOVERY bit1 (DS) bit0 (ADS) bit1: 1; bit0: 1 */ agSSPTaskMgntRequest->tmOption = 3; break; case AG_ABORT_TASK_SET: agSSPTaskMgntRequest->taskMgntFunction = AGSA_ABORT_TASK_SET; break; case AG_CLEAR_ACA: agSSPTaskMgntRequest->taskMgntFunction = AGSA_CLEAR_ACA; break; case AG_CLEAR_TASK_SET: agSSPTaskMgntRequest->taskMgntFunction = AGSA_CLEAR_TASK_SET; break; case AG_LOGICAL_UNIT_RESET: agSSPTaskMgntRequest->taskMgntFunction = AGSA_LOGICAL_UNIT_RESET; break; case AG_QUERY_TASK: agSSPTaskMgntRequest->taskMgntFunction = AGSA_QUERY_TASK; break; default: TI_DBG1(("tiINITaskManagement: notImplemented task\n")); break; } if (task == AGSA_ABORT_TASK || task == AGSA_QUERY_TASK) { /* set agTMRequest, which is IO being task managed */ tdIORequestBody = (tdIORequestBody_t *)taskTag->tdData; if (tdIORequestBody == agNULL) { /* to be aborted IO has been completed. */ /* free up allocated memory */ TI_DBG1(("tiINITaskManagement: IO has been completed\n")); ostiFreeMemory( tiRoot, osMemHandle, sizeof(tdIORequestBody_t) ); return tiIONoDevice; } else { agTMRequest = &(tdIORequestBody->agIORequest); } } else { /* For LUN RESET, WARM_RESET, ABORT_TASK_SET, CLEAR_ACA and CLEAR_TASK_SET no tag to be managed. Therefore, set it to zero. */ agSSPTaskMgntRequest->tagOfTaskToBeManaged = 0; agTMRequest = agNULL; } TDLIST_INIT_HDR(&TMtdIORequestBody->EsglPageList); /* debuggging */ if (TMtdIORequestBody->IOCompletionFunc == agNULL) { TI_DBG1(("tiINITaskManagement: Error!!!!! IOCompletionFunc is NULL\n")); } saStatus = saSSPStart(agRoot, agIORequest, /* task management itself */ tdsaRotateQnumber(tiRoot, oneDeviceData), agDevHandle, agRequestType, agSASRequestBody, /* task management itself */ agTMRequest, /* io to be aborted if exits */ &ossaSSPCompleted); if (saStatus == AGSA_RC_SUCCESS) { Initiator->NumIOsActive++; tiStatus = tiSuccess; } else { TI_DBG1(("tiINITaskManagement: saSSPStart failed 0x%x\n",saStatus)); /* free up allocated memory */ ostiFreeMemory( tiRoot, TMtdIORequestBody->IOType.InitiatorTMIO.osMemHandle, sizeof(tdIORequestBody_t) ); if (saStatus == AGSA_RC_FAILURE) { tiStatus = tiError; } else { /* AGSA_RC_BUSY */ tiStatus = tiBusy; } } } } /* end of sas device */ #ifdef FDS_SM else if (oneDeviceData->DeviceType == TD_SATA_DEVICE) { agsaContext_t *agContext = agNULL; /* save the task tag in tdsaDeviceData_t structure, for handling PORT_RESET_COMPLETE hw event */ agContext = &(oneDeviceData->agDeviceResetContext); agContext->osData = currentTaskTag; #ifdef REMOVED /* for directly attached SATA, do localphycontrol for LUN and target reset, not smTaskManagement*/ if (oneDeviceData->directlyAttached == agTRUE && (task == AG_LOGICAL_UNIT_RESET || task == AG_TARGET_WARM_RESET)) { agRoot = oneDeviceData->agRoot; agDevHandle = oneDeviceData->agDevHandle; currentTaskTag->tdData = oneDeviceData; if (task == AG_LOGICAL_UNIT_RESET) { if ( (lun->lun[0] | lun->lun[1] | lun->lun[2] | lun->lun[3] | lun->lun[4] | lun->lun[5] | lun->lun[6] | lun->lun[7] ) != 0 ) { TI_DBG1(("tiINITaskManagement: *** REJECT *** LUN not zero, tiDeviceHandle=%p\n", tiDeviceHandle)); return tiError; } } saSetDeviceState(agRoot, agNULL, tdsaRotateQnumber(tiRoot, oneDeviceData), agDevHandle, SA_DS_IN_RECOVERY); tiStatus = saLocalPhyControl(agRoot, agContext, tdsaRotateQnumber(tiRoot, oneDeviceData), oneDeviceData->phyID, AGSA_PHY_HARD_RESET, agNULL); } else #endif { smRoot = &(tdsaAllShared->smRoot); smDeviceHandle = &(oneDeviceData->smDeviceHandle); TI_DBG1(("tiINITaskManagement: FDS_SM SATA Device\n")); if ( taskTag != agNULL) { ToBeAbortedtdIORequestBody = (tdIORequestBody_t *)taskTag->tdData; ToBeAborted = &(ToBeAbortedtdIORequestBody->smIORequest); } SMmemAllocStatus = ostiAllocMemory( tiRoot, &SMosMemHandle, (void **)&SMTMtdIORequestBody, &SMPhysUpper32, &SMPhysLower32, 8, sizeof(tdIORequestBody_t), agTRUE ); if (SMmemAllocStatus != tiSuccess) { TI_DBG1(("tiINITaskManagement: ostiAllocMemory failed... loc 2\n")); return tiError; } if (SMTMtdIORequestBody == agNULL) { TI_DBG1(("tiINITaskManagement: ostiAllocMemory returned NULL TMIORequestBody loc 2\n")); return tiError; } /* initialize */ osti_memset(SMTMtdIORequestBody, 0, sizeof(tdIORequestBody_t)); /* setup task management structure */ SMTMtdIORequestBody->IOType.InitiatorTMIO.osMemHandle = SMosMemHandle; SMTMtdIORequestBody->IOType.InitiatorTMIO.CurrentTaskTag = currentTaskTag; SMTMtdIORequestBody->IOType.InitiatorTMIO.TaskTag = taskTag; /* initialize tiDevhandle */ SMTMtdIORequestBody->tiDevHandle = tiDeviceHandle; /* initialize tiIORequest */ SMTMtdIORequestBody->tiIORequest = currentTaskTag; /* save context if we need to abort later */ currentTaskTag->tdData = SMTMtdIORequestBody; TaskManagement = &(SMTMtdIORequestBody->smIORequest); TaskManagement->tdData = SMTMtdIORequestBody; TaskManagement->smData = &SMTMtdIORequestBody->smIORequestBody; tiStatus = smTaskManagement(smRoot, smDeviceHandle, task, (smLUN_t*)lun, ToBeAborted, TaskManagement ); if (tiStatus != SM_RC_SUCCESS) { TI_DBG1(("tiINITaskManagement: smTaskManagement failed... loc 2\n")); /* free up allocated memory */ ostiFreeMemory( tiRoot, SMTMtdIORequestBody->IOType.InitiatorTMIO.osMemHandle, sizeof(tdIORequestBody_t) ); } } /* else */ } #else else if (oneDeviceData->DeviceType == TD_SATA_DEVICE) { agRoot = oneDeviceData->agRoot; agDevHandle = oneDeviceData->agDevHandle; TI_DBG1(("tiINITaskManagement: not FDS_SM SATA Device\n")); /* WARM_RESET is experimental Needs more testing and debugging Soft reset for SATA as LUN RESET tends not to work. Let's do hard reset */ if (task == AG_LOGICAL_UNIT_RESET || task == AG_TARGET_WARM_RESET) { agsaContext_t *agContext; satDeviceData_t *satDevData; tdsaDeviceData_t *tdsaDeviceData; TI_DBG2(("tiINITaskManagement: did %d LUN reset or device reset for SATA\n", oneDeviceData->id)); tdsaDeviceData = (tdsaDeviceData_t *)tiDeviceHandle->tdData; satDevData = &tdsaDeviceData->satDevData; currentTaskTag->tdData = tdsaDeviceData; agContext = &(tdsaDeviceData->agDeviceResetContext); agContext->osData = currentTaskTag; if (task == AG_LOGICAL_UNIT_RESET) { if ( (lun->lun[0] | lun->lun[1] | lun->lun[2] | lun->lun[3] | lun->lun[4] | lun->lun[5] | lun->lun[6] | lun->lun[7] ) != 0 ) { TI_DBG1(("tiINITaskManagement: *** REJECT *** LUN not zero, tiDeviceHandle=%p\n", tiDeviceHandle)); return tiError; } /* * Check if there is other TM request pending */ if (satDevData->satTmTaskTag != agNULL) { TI_DBG1(("tiINITaskManagement: *** REJECT *** other TM pending, tiDeviceHandle=%p\n", tiDeviceHandle)); return tiError; } } satDevData->satDriveState = SAT_DEV_STATE_IN_RECOVERY; satDevData->satAbortAfterReset = agFALSE; saSetDeviceState(agRoot, agNULL, tdsaRotateQnumber(tiRoot, oneDeviceData), agDevHandle, SA_DS_IN_RECOVERY); /* warm reset by saLocalPhyControl or SMP PHY control */ if (oneDeviceData->directlyAttached == agTRUE) { TI_DBG1(("tiINITaskManagement: LUN reset or device reset directly attached\n")); saLocalPhyControl(agRoot, agContext, tdsaRotateQnumber(tiRoot, oneDeviceData), oneDeviceData->phyID, AGSA_PHY_HARD_RESET, agNULL); return tiSuccess; } else { TI_DBG1(("tiINITaskManagement: LUN reset or device reset expander attached\n")); saStatus = tdsaPhyControlSend(tiRoot, oneDeviceData, SMP_PHY_CONTROL_HARD_RESET, currentTaskTag, tdsaRotateQnumber(tiRoot, oneDeviceData) ); return saStatus; } } else { TI_DBG2(("tiINITaskManagement: calling satTM().\n")); /* allocation tdIORequestBody and pass it to satTM() */ memAllocStatus = ostiAllocMemory( tiRoot, &osMemHandle, (void **)&TMtdIORequestBody, &PhysUpper32, &PhysLower32, 8, sizeof(tdIORequestBody_t), agTRUE ); if (memAllocStatus != tiSuccess) { TI_DBG1(("tiINITaskManagement: ostiAllocMemory failed... loc 2\n")); return tiError; } if (TMtdIORequestBody == agNULL) { TI_DBG1(("tiINITaskManagement: ostiAllocMemory returned NULL TMIORequestBody loc 2\n")); return tiError; } /* initialize */ osti_memset(TMtdIORequestBody, 0, sizeof(tdIORequestBody_t)); /* setup task management structure */ TMtdIORequestBody->IOType.InitiatorTMIO.osMemHandle = osMemHandle; TMtdIORequestBody->IOType.InitiatorTMIO.CurrentTaskTag = currentTaskTag; TMtdIORequestBody->IOType.InitiatorTMIO.TaskTag = taskTag; /* initialize tiDevhandle */ TMtdIORequestBody->tiDevHandle = tiDeviceHandle; /* initialize tiIORequest */ TMtdIORequestBody->tiIORequest = currentTaskTag; /* save context if we need to abort later */ currentTaskTag->tdData = TMtdIORequestBody; /* initialize agIORequest */ agIORequest = &(TMtdIORequestBody->agIORequest); agIORequest->osData = (void *) TMtdIORequestBody; agIORequest->sdkData = agNULL; /* SA takes care of this */ #ifdef SATA_ENABLE tiStatus = satTM( tiRoot, tiDeviceHandle, task, lun, taskTag, currentTaskTag, TMtdIORequestBody, agTRUE ); #endif } } #endif /* FDS_SM else*/ return tiStatus; } #endif /* INITIATOR_DRIVER */ #ifdef PASSTHROUGH osGLOBAL bit32 tiCOMPassthroughCmndStart( tiRoot_t *tiRoot, tiPassthroughRequest_t *tiPassthroughRequest, tiDeviceHandle_t *tiDeviceHandle, tiPassthroughCmnd_t *tiPassthroughCmnd, void *tiPassthroughBody, tiPortalContext_t *tiportalContext, ostiPassthroughCmndEvent_t agEventCB ) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; tdsaDeviceData_t *oneDeviceData; agsaRoot_t *agRoot = agNULL; agsaIORequest_t *agIORequest = agNULL; agsaDevHandle_t *agDevHandle = agNULL; bit32 agRequestType; agsaSASRequestBody_t *agSASRequestBody = agNULL; tdPassthroughCmndBody_t *tdPTCmndBody; tdssSMPRequestBody_t *tdssSMPRequestBody; agsaSMPFrame_t *agSMPFrame; agsaSSPVSFrame_t *agSSPVendorFrame; /* RMC */ bit32 SMPFn, SMPFnResult, SMPFrameLen; bit32 tiStatus = tiError; bit32 saStatus = AGSA_RC_FAILURE; tdsaPortStartInfo_t *tdsaPortStartInfo; tdsaPortContext_t *tdsaPortContext; TI_DBG2(("tiCOMPassthroughCmndStart: start\n")); oneDeviceData = (tdsaDeviceData_t *)tiDeviceHandle->tdData; TI_DBG6(("tiCOMPassthroughCmndStart: onedevicedata %p\n", oneDeviceData)); tdPTCmndBody = (tdPassthroughCmndBody_t *)tiPassthroughBody; if (tiPassthroughCmnd->passthroughCmnd != tiSMPCmnd || tiPassthroughCmnd->passthroughCmnd != tiRMCCmnd) { return tiNotSupported; } if (oneDeviceData == agNULL && tiPassthroughCmnd->passthroughCmnd != tiSMPCmnd) { TI_DBG1(("tiCOMPassthroughCmndStart: tiDeviceHandle=%p DeviceData is NULL\n", tiDeviceHandle )); return tiIONoDevice; } /* starting IO with SAS device */ if (oneDeviceData->DeviceType == TD_SAS_DEVICE) { if (tiPassthroughCmnd->passthroughCmnd == tiSMPCmnd) { TI_DBG2(("tiCOMPassthroughCmndStart: SMP\n")); if (oneDeviceData == agNULL) { tdsaPortStartInfo = (tdsaPortStartInfo_t *)tiportalContext->tdData; tdsaPortContext = tdsaPortStartInfo->portContext; agRoot = tdsaPortContext->agRoot; } else { agRoot = oneDeviceData->agRoot; agDevHandle = oneDeviceData->agDevHandle; } tdssSMPRequestBody = &(tdPTCmndBody->protocol.SMP.SMPBody); agSASRequestBody = &(tdssSMPRequestBody->agSASRequestBody); agSMPFrame = &(agSASRequestBody->smpFrame); /* saves callback function */ tdPTCmndBody->EventCB = agEventCB; /* initialize command type */ tdPTCmndBody->tiPassthroughCmndType = tiSMPCmnd; /* initialize tipassthroughrequest */ tdPTCmndBody->tiPassthroughRequest = tiPassthroughRequest; tiPassthroughRequest->tdData = tdPTCmndBody; /* initialize tiDevhandle */ tdPTCmndBody->tiDevHandle = tiDeviceHandle; /* fill in SMP header */ agSMPFrame->frameHeader.smpFrameType = tiPassthroughCmnd->protocol.SMP.SMPHeader.smpFrameType; agSMPFrame->frameHeader.smpFunction = tiPassthroughCmnd->protocol.SMP.SMPHeader.smpFunction; agSMPFrame->frameHeader.smpFunctionResult = tiPassthroughCmnd->protocol.SMP.SMPHeader.smpFunctionResult; agSMPFrame->frameHeader.smpReserved = tiPassthroughCmnd->protocol.SMP.SMPHeader.smpReserved; if (tiPassthroughCmnd->protocol.SMP.IT == SMP_INITIATOR) { agRequestType = AGSA_SMP_INIT_REQ; } else { agRequestType = AGSA_SMP_TGT_RESPONSE; /* this is only for SMP target */ agSMPFrame->phyId = tiPassthroughCmnd->protocol.SMP.phyID; } /* fill in payload */ /* assumption: SMP payload is in tisgl1 */ agSMPFrame->frameAddrUpper32 = tiPassthroughCmnd->tiSgl.upper; agSMPFrame->frameAddrLower32 = tiPassthroughCmnd->tiSgl.lower; /* This length excluding SMP header (4 bytes) and CRC field */ agSMPFrame->frameLen = tiPassthroughCmnd->tiSgl.len; /* initialize agIORequest */ /* Compare: tdIORequestBody = (tdIORequestBody_t *)agIORequest->osData; */ agIORequest = &(tdssSMPRequestBody->agIORequest); agIORequest->osData = (void *) tdPTCmndBody; agIORequest->sdkData = agNULL; /* LL takes care of this */ /* not work yet because of high priority q */ saStatus = saSMPStart( agRoot, agIORequest, agDevHandle, agRequestType, agSASRequestBody, &ossaSMPCompleted ); if (saStatus == AGSA_RC_SUCCESS) { tiStatus = tiSuccess; } else if (saStatus == AGSA_RC_FAILURE) { TI_DBG1(("tiCOMPassthroughCmndStart: saSMPStart failed\n")); tiStatus = tiError; } else { /* AGSA_RC_BUSY */ TI_DBG1(("tiCOMPassthroughCmndStart: saSMPStart busy\n")); tiStatus = tiBusy; } return tiStatus; #ifdef TO_DO /* fill in SMP header */ if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { agSMPFrame->frameHeader.smpFrameType = SMP_REQUEST; /* SMP REQUEST */ agRequestType = AGSA_SMP_INIT_REQ; } else { /* SMP target */ agSMPFrame->frameHeader.smpFrameType = SMP_RESPONSE; /* SMP RESPONSE */ agRequestType = AGSA_SMP_TGT_RESPONSE; switch (tdPTCmndBody->protocol.SMP.SMPFnResult) { case tiSMPFunctionAccepted: SMPFnResult = SMP_FUNCTION_ACCEPTED; break; case tiUnknownSMPFunction: SMPFnResult = UNKNOWN_SMP_FUNCTION; break; case tiSMPFunctionFailed: SMPFnResult = SMP_FUNCTION_FAILED; break; case tiInvalidRequestFrameLength: SMPFnResult = INVALID_REQUEST_FRAME_LENGTH; break; case tiPhyDoesNotExist: SMPFnResult =PHY_DOES_NOT_EXIST; break; case tiIndexDoesNotExist: SMPFnResult = INDEX_DOES_NOT_EXIST; break; case tiPhyDoesNotSupportSATA: SMPFnResult = PHY_DOES_NOT_SUPPORT_SATA; break; case tiUnknownPhyOperation: SMPFnResult = UNKNOWN_PHY_OPERATION; break; case tiUnknownPhyTestFunction: SMPFnResult = UNKNOWN_PHY_TEST_FUNCTION; break; case tiPhyTestFunctionInProgress: SMPFnResult = PHY_TEST_FUNCTION_IN_PROGRESS; break; case tiPhyVacant: SMPFnResult = PHY_VACANT; break; default: TI_DBG1(("tiCOMPassthroughCmndStart: unknown SMP function result %d\n", tdPTCmndBody->protocol.SMP.SMPFnResult)); return tiError; } agSMPFrame->frameHeader.smpFunctionResult = SMPFnResult; } /* common */ switch (tdPTCmndBody->protocol.SMP.SMPFn) { case tiGeneral: SMPFn = SMP_REPORT_GENERAL; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = 0; } else { SMPFrameLen = sizeof(smpRespReportGeneral_t); } break; case tiManufacturerInfo: SMPFn = SMP_REPORT_MANUFACTURE_INFORMATION; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = 0; } else { SMPFrameLen = sizeof(smpRespReportManufactureInfo_t); } break; case tiDiscover: SMPFn = SMP_DISCOVER; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = sizeof(smpReqDiscover_t); } else { SMPFrameLen = sizeof(smpRespDiscover_t); } break; case tiReportPhyErrLog: SMPFn = SMP_REPORT_PHY_ERROR_LOG; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = 8; } else { SMPFrameLen = 24; } break; case tiReportPhySATA: SMPFn = SMP_REPORT_PHY_SATA; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = sizeof(SmpReqReportPhySata_t); } else { SMPFrameLen = sizeof(SmpRespReportPhySata_t); } break; case tiReportRteInfo: SMPFn = SMP_REPORT_ROUTING_INFORMATION; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = sizeof(SmpReqReportRouteTable_t); } else { SMPFrameLen = sizeof(SmpRespReportRouteTable_t); } break; case tiConfigureRteInfo: SMPFn = SMP_CONFIGURE_ROUTING_INFORMATION; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = sizeof(SmpReqConfigureRouteInformation_t); } else { SMPFrameLen = 0; } break; case tiPhyCtrl: SMPFn = SMP_PHY_CONTROL; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = sizeof(SmpReqPhyControl_t); } else { SMPFrameLen = 0; } break; case tiPhyTestFn: SMPFn = SMP_PHY_TEST_FUNCTION; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = 36; } else { SMPFrameLen = 0; } break; case tiPMC: SMPFn = SMP_PMC_SPECIFIC; if (tdPTCmndBody->protocol.SMP.IT == SMP_INITIATOR) { SMPFrameLen = 0; } else { SMPFrameLen = 0; } break; default: TI_DBG1(("tiCOMPassthroughCmndStart: unknown SMP function %d\n", tdPTCmndBody->protocol.SMP.SMPFn)); return tiError; } agSMPFrame->frameHeader.smpFunction = SMPFn; /* assumption: SMP payload is in tisgl1 */ agSMPFrame->frameAddrUpper32 = tdPTCmndBody->tiSgl.upper; agSMPFrame->frameAddrLower32 = tdPTCmndBody->tiSgl.lower; /* This length excluding SMP header (4 bytes) and CRC field */ agSMPFrame->frameLen = SMPFrameLen; #endif } else if (tiPassthroughCmnd->passthroughCmnd == tiRMCCmnd) { TI_DBG2(("tiCOMPassthroughCmndStart: RMC\n")); } else { TI_DBG1(("tiCOMPassthroughCmndStart: unknown protocol %d\n", tiPassthroughCmnd->passthroughCmnd)); } } else if (oneDeviceData->DeviceType == TD_SATA_DEVICE) { TI_DBG1(("tiCOMPassthroughCmndStart: error !!! no SATA support\n")); return tiError; } else { TI_DBG1(("tiCOMPassthroughCmndStart: error !!! unknown devietype %d\n", oneDeviceData->DeviceType)); return tiError; } return tiSuccess; } osGLOBAL bit32 tiCOMPassthroughCmndAbort( tiRoot_t *tiRoot, tiPassthroughRequest_t *taskTag ) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; agsaRoot_t *agRoot = agNULL; tdPassthroughCmndBody_t *tdPTCmndBody = agNULL; tdssSMPRequestBody_t *tdssSMPRequestBody = agNULL; agsaIORequest_t *agIORequest = agNULL; bit32 saStatus, tiStatus = tiError; TI_DBG2(("tiCOMPassthroughCmndAbort: start\n")); agRoot = &(tdsaAllShared->agRootNonInt); tdPTCmndBody = (tdPassthroughCmndBody_t *)taskTag->tdData; if (tdPTCmndBody->tiPassthroughCmndType == tiSMPCmnd) { tdssSMPRequestBody = &(tdPTCmndBody->protocol.SMP.SMPBody); agIORequest = &(tdssSMPRequestBody->agIORequest); saStatus = saSMPAbort(agRoot, agIORequest); if (saStatus == AGSA_RC_SUCCESS) { tiStatus = tiSuccess; } else if (saStatus == AGSA_RC_FAILURE) { TI_DBG1(("tiCOMPassthroughCmndAbort: saSMPAbort failed\n")); tiStatus = tiError; } else { /* AGSA_RC_BUSY */ TI_DBG1(("tiCOMPassthroughCmndAbort: saSMPAbort busy\n")); tiStatus = tiBusy; } return tiStatus; } else if (tdPTCmndBody->tiPassthroughCmndType == tiRMCCmnd) { TI_DBG1(("tiCOMPassthroughCmndAbort: RMC passthrough command type, not yet\n")); } else { TI_DBG1(("tiCOMPassthroughCmndAbort: unknown passthrough command type %d\n", tdPTCmndBody->tiPassthroughCmndType)); return tiStatus; } } osGLOBAL bit32 tiINIPassthroughCmndRemoteAbort( tiRoot_t *tiRoot, tiDeviceHandle_t *tiDeviceHandle, tiPassthroughRequest_t *taskTag, tiPassthroughRequest_t *currentTaskTag, tiPortalContext_t *tiportalContext ) { TI_DBG2(("tiINIPassthroughCmndRemoteAbort: start\n")); /* for SMP, nothing. Can't abot remotely */ return tiSuccess; } #endif /* PASSTHROUGH */ /***************************************************************************** *! \brief tiCOMShutDown * * Purpose: This function is called to shutdown the initiator and/or target * operation. Following the completion of this call, the state is * equivalent to the state prior to tiCOMInit() * * \param tiRoot: Pointer to root data structure. * * \return None * * *****************************************************************************/ osGLOBAL void tiCOMShutDown( tiRoot_t *tiRoot) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; // #define TI_GETFOR_ONSHUTDOWN #ifdef TI_GETFOR_ONSHUTDOWN agsaForensicData_t forensicData; bit32 once = 1; bit32 status; #endif /* TI_GETFOR_ONSHUTDOWN */ agsaRoot_t *agRoot = agNULL; TI_DBG1(("tiCOMShutDown: start\n")); agRoot = &(tdsaAllShared->agRootNonInt); /* 1. free up cardID 2. call saHwShutdown() 3. tdInitEsgl(tiRoot); 4. tdsaResetComMemFlags(tiRoot) 5. ostiPortEvent() */ tdsaFreeCardID(tiRoot, tdsaAllShared->CardID); #ifdef TI_GETFOR_ONSHUTDOWN forensicData.DataType = TYPE_NON_FATAL; forensicData.dataBuf.directLen = (8 * 1024); forensicData.dataBuf.directOffset = 0; /* current offset */ forensicData.dataBuf.directData = agNULL; forensicData.dataBuf.readLen = 0; /* Data read */ getmoreData: status = saGetForensicData( agRoot, agNULL, &forensicData); TI_DBG1(("tiCOMShutDown:readLen 0x%x directLen 0x%x directOffset 0x%x\n", forensicData.dataBuf.readLen, forensicData.dataBuf.directLen, forensicData.dataBuf.directOffset)); if( forensicData.dataBuf.readLen == forensicData.dataBuf.directLen && !status && once) { goto getmoreData; } TI_DBG1(("tiCOMShutDown:saGetForensicData type %d read 0x%x bytes\n", forensicData.DataType, forensicData.dataBuf.directOffset )); #endif /* TI_GETFOR_ONSHUTDOWN */ saHwShutdown(agRoot); /* resets all the relevant flags */ tdsaResetComMemFlags(tiRoot); /* * send an event to the oslayer */ ostiPortEvent ( tiRoot, tiPortShutdown, tiSuccess, agNULL ); return; } #ifdef INITIATOR_DRIVER osGLOBAL void tiINITimerTick( tiRoot_t *tiRoot ) { /* no timer is used in SAS TD layer. Therefore, this function is null. */ // TI_DBG2(("tiINITimerTick: start\n")); /*itdsaProcessTimers(tiRoot);*/ return; } #endif /*****************************************************************************/ /*! \brief ossaDisableInterrupts * * * Purpose: This routine is called to disable interrupt * * * \param agRoot: Pointer to chip/driver Instance. * \param outboundChannelNum: Zero-base channel number * * * \return None. * * \note - The scope is shared target and initiator. * */ /*****************************************************************************/ #ifndef ossaDisableInterrupts osGLOBAL void ossaDisableInterrupts( agsaRoot_t *agRoot, bit32 outboundChannelNum ) { tdsaRootOsData_t *osData = (tdsaRootOsData_t *) (agRoot->osData); ostiInterruptDisable( osData->tiRoot, outboundChannelNum ); return; } #endif osGLOBAL void tiCOMFrameReadBlock( tiRoot_t *tiRoot, void *agFrame, bit32 FrameOffset, void *FrameBuffer, bit32 FrameBufLen ) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; agsaRoot_t *agRoot = agNULL; TI_DBG6(("tiCOMFrameReadBlock: start\n")); agRoot = &(tdsaAllShared->agRootNonInt); TI_DBG6(("tiCOMFrameReadBlock: start\n")); saFrameReadBlock(agRoot, agFrame, FrameOffset, FrameBuffer, FrameBufLen); return; } /***************************************************************************** *! \brief tiINITransportRecovery * * Purpose: This routine is called to explicitly ask the Transport Dependent * Layer to initiate the recovery for the transport/protocol specific * error for a specific device connection. * * \param tiRoot: Pointer to driver instance * \param tiDeviveHandle: Pointer to the device handle for this session. * * \return: None * * *****************************************************************************/ #ifdef INITIATOR_DRIVER osGLOBAL void tiINITransportRecovery ( tiRoot_t *tiRoot, tiDeviceHandle_t *tiDeviceHandle ) { agsaRoot_t *agRoot = agNULL; tdsaDeviceData_t *oneDeviceData = agNULL; tdsaPortContext_t *onePortContext = agNULL; tiPortalContext_t *tiPortalContext = agNULL; tiIORequest_t *currentTaskTag; agsaDevHandle_t *agDevHandle = agNULL; TI_DBG1(("tiINITransportRecovery: start\n")); if (tiDeviceHandle == agNULL) { TI_DBG1(("tiINITransportRecovery: tiDeviceHandle is NULL\n")); return; } oneDeviceData = (tdsaDeviceData_t *)tiDeviceHandle->tdData; if (oneDeviceData == agNULL) { TI_DBG1(("tiINITransportRecovery: oneDeviceData is NULL\n")); return; } /* for hotplug */ if (oneDeviceData->valid != agTRUE || oneDeviceData->registered != agTRUE || oneDeviceData->tdPortContext == agNULL ) { TI_DBG1(("tiINITransportRecovery: NO Device did %d\n", oneDeviceData->id )); TI_DBG1(("tiINITransportRecovery: device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi)); TI_DBG1(("tiINITransportRecovery: device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo)); return; } onePortContext = oneDeviceData->tdPortContext; if (onePortContext == agNULL) { TI_DBG1(("tiINITransportRecovery: onePortContext is NULL\n")); return; } tiPortalContext = onePortContext->tiPortalContext; currentTaskTag = &(oneDeviceData->TransportRecoveryIO); currentTaskTag->osData = agNULL; agRoot = oneDeviceData->agRoot; agDevHandle = oneDeviceData->agDevHandle; if (oneDeviceData->DeviceType == TD_SAS_DEVICE) { agsaContext_t *agContext; currentTaskTag->tdData = oneDeviceData; agContext = &(oneDeviceData->agDeviceResetContext); agContext->osData = currentTaskTag; oneDeviceData->TRflag = agTRUE; TI_DBG2(("tiINITransportRecovery: SAS device\n")); saSetDeviceState(agRoot, agNULL, tdsaRotateQnumber(tiRoot, oneDeviceData), agDevHandle, SA_DS_IN_RECOVERY); if (oneDeviceData->directlyAttached == agTRUE) { TI_DBG2(("tiINITransportRecovery: saLocalPhyControl\n")); saLocalPhyControl(agRoot, agContext, tdsaRotateQnumber(tiRoot, oneDeviceData), oneDeviceData->phyID, AGSA_PHY_HARD_RESET, agNULL); ostiInitiatorEvent(tiRoot, tiPortalContext, tiDeviceHandle, tiIntrEventTypeTransportRecovery, tiRecStarted, agNULL ); return; } else { TI_DBG2(("tiINITransportRecovery: device reset expander attached\n")); tdsaPhyControlSend(tiRoot, oneDeviceData, SMP_PHY_CONTROL_HARD_RESET, currentTaskTag, tdsaRotateQnumber(tiRoot, oneDeviceData) ); ostiInitiatorEvent(tiRoot, tiPortalContext, tiDeviceHandle, tiIntrEventTypeTransportRecovery, tiRecStarted, agNULL ); return; } } else if (oneDeviceData->DeviceType == TD_SATA_DEVICE) { agsaContext_t *agContext; currentTaskTag->tdData = oneDeviceData; agContext = &(oneDeviceData->agDeviceResetContext); agContext->osData = currentTaskTag; oneDeviceData->TRflag = agTRUE; TI_DBG2(("tiINITransportRecovery: SATA device\n")); saSetDeviceState(agRoot, agNULL, tdsaRotateQnumber(tiRoot, oneDeviceData), agDevHandle, SA_DS_IN_RECOVERY); if (oneDeviceData->directlyAttached == agTRUE) { TI_DBG2(("tiINITransportRecovery: saLocalPhyControl\n")); saLocalPhyControl(agRoot, agContext, tdsaRotateQnumber(tiRoot, oneDeviceData), oneDeviceData->phyID, AGSA_PHY_LINK_RESET, agNULL); ostiInitiatorEvent(tiRoot, tiPortalContext, tiDeviceHandle, tiIntrEventTypeTransportRecovery, tiRecStarted, agNULL ); return; } else { TI_DBG2(("tiINITransportRecovery: device reset expander attached\n")); tdsaPhyControlSend(tiRoot, oneDeviceData, SMP_PHY_CONTROL_LINK_RESET, currentTaskTag, tdsaRotateQnumber(tiRoot, oneDeviceData) ); ostiInitiatorEvent(tiRoot, tiPortalContext, tiDeviceHandle, tiIntrEventTypeTransportRecovery, tiRecStarted, agNULL ); return; } } else { TI_DBG1(("tiINITransportRecovery: wrong device type %d\n", oneDeviceData->DeviceType)); } return; } #endif #if defined (INITIATOR_DRIVER) && defined (TARGET_DRIVER) /***************************************************************************** *! \brief tdsaPhyControlSend * * Purpose: This function sends Phy Control to a device. * * \param tiRoot: Pointer to the OS Specific module allocated tiRoot_t * instance. * \param oneDeviceData: Pointer to the device data. * \param phyId: Phy Identifier. * \param queueNumber: bits 0-15: inbound queue number. * bits 16-31: outbound queue number. * * \return: * Status * * \note: * *****************************************************************************/ /* phyop of interest SMP_PHY_CONTROL_HARD_RESET or SMP_PHY_CONTROL_CLEAR_AFFILIATION if CurrentTaskTag == agNULL, clear affiliation if CurrentTaskTag != agNULL, PHY_CONTROL (device reset) */ osGLOBAL bit32 tdsaPhyControlSend( tiRoot_t *tiRoot, tdsaDeviceData_t *oneDeviceData, /* taget disk */ bit8 phyOp, tiIORequest_t *CurrentTaskTag, bit32 queueNumber ) { return 0; } #endif #ifdef TARGET_DRIVER /***************************************************************************** *! \brief tdsaPhyControlSend * * Purpose: This function sends Phy Control to a device. * * \param tiRoot: Pointer to the OS Specific module allocated tiRoot_t * instance. * \param oneDeviceData: Pointer to the device data. * \param phyId: Phy Identifier. * \param queueNumber: bits 0-15: inbound queue number. * bits 16-31: outbound queue number. * * \return: * Status * * \note: * *****************************************************************************/ /* phyop of interest SMP_PHY_CONTROL_HARD_RESET or SMP_PHY_CONTROL_CLEAR_AFFILIATION if CurrentTaskTag == agNULL, clear affiliation if CurrentTaskTag != agNULL, PHY_CONTROL (device reset) */ osGLOBAL bit32 tdsaPhyControlSend( tiRoot_t *tiRoot, tdsaDeviceData_t *oneDeviceData, /* taget disk */ bit8 phyOp, tiIORequest_t *CurrentTaskTag, bit32 queueNumber ) { return 0; } #endif #ifdef INITIATOR_DRIVER /***************************************************************************** *! \brief tdsaPhyControlSend * * Purpose: This function sends Phy Control to a device. * * \param tiRoot: Pointer to the OS Specific module allocated tiRoot_t * instance. * \param oneDeviceData: Pointer to the device data. * \param phyId: Phy Identifier. * \param queueNumber: bits 0-15: inbound queue number. * bits 16-31: outbound queue number. * * \return: * Status * * \note: * *****************************************************************************/ /* phyop of interest SMP_PHY_CONTROL_HARD_RESET or SMP_PHY_CONTROL_CLEAR_AFFILIATION if CurrentTaskTag == agNULL, clear affiliation if CurrentTaskTag != agNULL, PHY_CONTROL (device reset) */ osGLOBAL bit32 tdsaPhyControlSend( tiRoot_t *tiRoot, tdsaDeviceData_t *oneDeviceData, /* taget disk */ bit8 phyOp, tiIORequest_t *CurrentTaskTag, bit32 queueNumber ) { agsaRoot_t *agRoot; tdsaDeviceData_t *oneExpDeviceData; tdsaPortContext_t *onePortContext; smpReqPhyControl_t smpPhyControlReq; bit8 phyID; bit32 status; TI_DBG3(("tdsaPhyControlSend: start\n")); agRoot = oneDeviceData->agRoot; onePortContext = oneDeviceData->tdPortContext; oneExpDeviceData = oneDeviceData->ExpDevice; phyID = oneDeviceData->phyID; if (oneDeviceData->directlyAttached == agTRUE) { TI_DBG1(("tdsaPhyControlSend: Error!!! deivce is directly attached\n")); return AGSA_RC_FAILURE; } if (onePortContext == agNULL) { TI_DBG1(("tdsaPhyControlSend: Error!!! portcontext is NULL\n")); return AGSA_RC_FAILURE; } if (oneExpDeviceData == agNULL) { TI_DBG1(("tdsaPhyControlSend: Error!!! expander is NULL\n")); return AGSA_RC_FAILURE; } if (phyOp == SMP_PHY_CONTROL_HARD_RESET) { TI_DBG3(("tdsaPhyControlSend: SMP_PHY_CONTROL_HARD_RESET\n")); } if (phyOp == SMP_PHY_CONTROL_LINK_RESET) { TI_DBG3(("tdsaPhyControlSend: SMP_PHY_CONTROL_LINK_RESET\n")); } if (phyOp == SMP_PHY_CONTROL_CLEAR_AFFILIATION) { TI_DBG3(("tdsaPhyControlSend: SMP_PHY_CONTROL_CLEAR_AFFILIATION\n")); } TI_DBG3(("tdsaPhyControlSend: target device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi)); TI_DBG3(("tdsaPhyControlSend: target device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo)); TI_DBG3(("tdsaPhyControlSend: expander AddrHi 0x%08x\n", oneExpDeviceData->SASAddressID.sasAddressHi)); TI_DBG3(("tdsaPhyControlSend: expander AddrLo 0x%08x\n", oneExpDeviceData->SASAddressID.sasAddressLo)); TI_DBG3(("tdsaPhyControlSend: did %d expander did %d phyid %d\n", oneDeviceData->id, oneExpDeviceData->id, phyID)); osti_memset(&smpPhyControlReq, 0, sizeof(smpReqPhyControl_t)); /* fill in SMP payload */ smpPhyControlReq.phyIdentifier = phyID; smpPhyControlReq.phyOperation = phyOp; status = tdSMPStart( tiRoot, agRoot, oneExpDeviceData, SMP_PHY_CONTROL, (bit8 *)&smpPhyControlReq, sizeof(smpReqPhyControl_t), AGSA_SMP_INIT_REQ, CurrentTaskTag, queueNumber ); return status; } #endif /***************************************************************************** *! \brief tdsaPhyControlFailureRespRcvd * * Purpose: This function processes the failure of Phy Control response. * * \param tiRoot: Pointer to the OS Specific module allocated tiRoot_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 tdsaPhyControlFailureRespRcvd( tiRoot_t *tiRoot, agsaRoot_t *agRoot, tdsaDeviceData_t *oneDeviceData, tdssSMPFrameHeader_t *frameHeader, agsaFrameHandle_t frameHandle, tiIORequest_t *CurrentTaskTag ) { #if defined(INITIATOR_DRIVER) || defined(TD_DEBUG_ENABLE) tdsaDeviceData_t *TargetDeviceData = agNULL; #endif #ifdef TD_DEBUG_ENABLE satDeviceData_t *pSatDevData = agNULL; #endif // agsaDevHandle_t *agDevHandle = agNULL; TI_DBG1(("tdsaPhyControlFailureRespRcvd: start\n")); TI_DBG3(("tdsaPhyControlFailureRespRcvd: expander device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi)); TI_DBG3(("tdsaPhyControlFailureRespRcvd: expander device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo)); if (CurrentTaskTag != agNULL ) { /* This was set in tiINITaskmanagement() */ #if defined(INITIATOR_DRIVER) || defined(TD_DEBUG_ENABLE) TargetDeviceData = (tdsaDeviceData_t *)CurrentTaskTag->tdData; #endif #ifdef TD_DEBUG_ENABLE pSatDevData = (satDeviceData_t *)&(TargetDeviceData->satDevData); #endif // agDevHandle = TargetDeviceData->agDevHandle; TI_DBG2(("tdsaPhyControlFailureRespRcvd: target AddrHi 0x%08x\n", TargetDeviceData->SASAddressID.sasAddressHi)); TI_DBG2(("tdsaPhyControlFailureRespRcvd: target AddrLo 0x%08x\n", TargetDeviceData->SASAddressID.sasAddressLo)); #ifdef TD_DEBUG_ENABLE TI_DBG2(("tdsaPhyControlFailureRespRcvd: satPendingIO %d satNCQMaxIO %d\n", pSatDevData->satPendingIO, pSatDevData->satNCQMaxIO )); TI_DBG2(("tdsaPhyControlFailureRespRcvd: satPendingNCQIO %d satPendingNONNCQIO %d\n", pSatDevData->satPendingNCQIO, pSatDevData->satPendingNONNCQIO)); #endif } #ifdef INITIATOR_DRIVER if (CurrentTaskTag != agNULL ) { TI_DBG1(("tdsaPhyControlRespRcvd: callback to OS layer with failure\n")); if (TargetDeviceData->TRflag == agTRUE) { TargetDeviceData->TRflag = agFALSE; ostiInitiatorEvent(tiRoot, TargetDeviceData->tdPortContext->tiPortalContext, &(TargetDeviceData->tiDeviceHandle), tiIntrEventTypeTransportRecovery, tiRecFailed , agNULL ); } else { ostiInitiatorEvent( tiRoot, NULL, NULL, tiIntrEventTypeTaskManagement, tiTMFailed, CurrentTaskTag ); } } #endif return; } /***************************************************************************** *! \brief tdsaPhyControlRespRcvd * * Purpose: This function processes Phy Control response. * * \param tiRoot: Pointer to the OS Specific module allocated tiRoot_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 tdsaPhyControlRespRcvd( tiRoot_t *tiRoot, agsaRoot_t *agRoot, agsaIORequest_t *agIORequest, tdsaDeviceData_t *oneDeviceData, tdssSMPFrameHeader_t *frameHeader, agsaFrameHandle_t frameHandle, tiIORequest_t *CurrentTaskTag ) { #if defined(INITIATOR_DRIVER) || defined(TD_DEBUG_ENABLE) tdsaDeviceData_t *TargetDeviceData = agNULL; #endif #ifdef INITIATOR_DRIVER satDeviceData_t *pSatDevData = agNULL; agsaDevHandle_t *agDevHandle = agNULL; #endif TI_DBG3(("tdsaPhyControlRespRcvd: start\n")); TI_DBG3(("tdsaPhyControlRespRcvd: expander device AddrHi 0x%08x\n", oneDeviceData->SASAddressID.sasAddressHi)); TI_DBG3(("tdsaPhyControlRespRcvd: expander device AddrLo 0x%08x\n", oneDeviceData->SASAddressID.sasAddressLo)); if (CurrentTaskTag != agNULL ) { /* This was set in tiINITaskmanagement() */ #if defined(INITIATOR_DRIVER) || defined(TD_DEBUG_ENABLE) TargetDeviceData = (tdsaDeviceData_t *)CurrentTaskTag->tdData; #endif #ifdef INITIATOR_DRIVER pSatDevData = (satDeviceData_t *)&(TargetDeviceData->satDevData); agDevHandle = TargetDeviceData->agDevHandle; #endif TI_DBG2(("tdsaPhyControlRespRcvd: target AddrHi 0x%08x\n", TargetDeviceData->SASAddressID.sasAddressHi)); TI_DBG2(("tdsaPhyControlRespRcvd: target AddrLo 0x%08x\n", TargetDeviceData->SASAddressID.sasAddressLo)); #ifdef INITIATOR_DRIVER TI_DBG2(("tdsaPhyControlRespRcvd: satPendingIO %d satNCQMaxIO %d\n", pSatDevData->satPendingIO, pSatDevData->satNCQMaxIO )); TI_DBG2(("tdsaPhyControlRespRcvd: satPendingNCQIO %d satPendingNONNCQIO %d\n", pSatDevData->satPendingNCQIO, pSatDevData->satPendingNONNCQIO)); #endif } #ifdef INITIATOR_DRIVER /* no payload */ if (frameHeader->smpFunctionResult == SMP_FUNCTION_ACCEPTED) { TI_DBG3(("tdsaPhyControlRespRcvd: SMP success\n")); /* warm reset or clear affiliation is done call ostiInitiatorEvent() */ if (CurrentTaskTag != agNULL ) { TI_DBG3(("tdsaPhyControlRespRcvd: callback to OS layer with success\n")); pSatDevData->satDriveState = SAT_DEV_STATE_NORMAL; saSetDeviceState(agRoot, agNULL, tdsaRotateQnumber(tiRoot, TargetDeviceData), agDevHandle, SA_DS_OPERATIONAL); if (TargetDeviceData->TRflag == agTRUE) { TargetDeviceData->TRflag = agFALSE; ostiInitiatorEvent(tiRoot, TargetDeviceData->tdPortContext->tiPortalContext, &(TargetDeviceData->tiDeviceHandle), tiIntrEventTypeTransportRecovery, tiRecOK, agNULL ); } else { agDevHandle = TargetDeviceData->agDevHandle; if (agDevHandle == agNULL) { TI_DBG1(("tdsaPhyControlRespRcvd: wrong, agDevHandle is NULL\n")); } ostiInitiatorEvent( tiRoot, NULL, NULL, tiIntrEventTypeTaskManagement, tiTMOK, CurrentTaskTag ); } } } else { TI_DBG1(("tdsaPhyControlRespRcvd: SMP failure; result %d\n", frameHeader->smpFunctionResult)); /* warm reset or clear affiliation is done */ if (CurrentTaskTag != agNULL ) { TI_DBG1(("tdsaPhyControlRespRcvd: callback to OS layer with failure\n")); if (TargetDeviceData->TRflag == agTRUE) { TargetDeviceData->TRflag = agFALSE; ostiInitiatorEvent(tiRoot, TargetDeviceData->tdPortContext->tiPortalContext, &(TargetDeviceData->tiDeviceHandle), tiIntrEventTypeTransportRecovery, tiRecFailed , agNULL ); } else { ostiInitiatorEvent( tiRoot, NULL, NULL, tiIntrEventTypeTaskManagement, tiTMFailed, CurrentTaskTag ); } } } #endif return; } #ifdef TARGET_DRIVER /***************************************************************************** *! \brief ttdsaAbortAll * * Purpose: This function is called to abort an all pending I/O request on a * device * * \param tiRoot: Pointer to initiator driver/port instance. * \param agRoot: Pointer to chip/driver Instance. * \param oneDeviceData: Pointer to the device * * \return: * * None * *****************************************************************************/ /* for abort itself, should we allocate tdAbortIORequestBody or get one from ttdsaXchg_t? Currently, we allocate tdAbortIORequestBody. */ osGLOBAL void ttdsaAbortAll( tiRoot_t *tiRoot, agsaRoot_t *agRoot, tdsaDeviceData_t *oneDeviceData ) { agsaIORequest_t *agAbortIORequest = agNULL; tdIORequestBody_t *tdAbortIORequestBody = agNULL; bit32 PhysUpper32; bit32 PhysLower32; bit32 memAllocStatus; void *osMemHandle; TI_DBG3(("tdsaAbortAll: start\n")); TI_DBG3(("tdsaAbortAll: did %d\n", oneDeviceData->id)); /* allocating agIORequest for abort itself */ memAllocStatus = ostiAllocMemory( tiRoot, &osMemHandle, (void **)&tdAbortIORequestBody, &PhysUpper32, &PhysLower32, 8, sizeof(tdIORequestBody_t), agTRUE ); if (memAllocStatus != tiSuccess) { /* let os process IO */ TI_DBG1(("tdsaAbortAll: ostiAllocMemory failed...\n")); return; } if (tdAbortIORequestBody == agNULL) { /* let os process IO */ TI_DBG1(("tdsaAbortAll: ostiAllocMemory returned NULL tdAbortIORequestBody\n")); return; } /* setup task management structure */ tdAbortIORequestBody->IOType.InitiatorTMIO.osMemHandle = osMemHandle; /* setting callback */ /* not needed; it is already set to be ossaSSPAbortCB() */ tdAbortIORequestBody->IOCompletionFunc = ttdssIOAbortedHandler; tdAbortIORequestBody->tiDevHandle = (tiDeviceHandle_t *)&(oneDeviceData->tiDeviceHandle); /* initialize agIORequest */ agAbortIORequest = &(tdAbortIORequestBody->agIORequest); agAbortIORequest->osData = (void *) tdAbortIORequestBody; agAbortIORequest->sdkData = agNULL; /* LL takes care of this */ /* SSPAbort */ saSSPAbort(agRoot, agAbortIORequest, 0, oneDeviceData->agDevHandle, 1, /* abort all */ agNULL, agNULL ); return; } #endif /* TARGET_DRIVER */ osGLOBAL void tdsaDeregisterDevicesInPort( tiRoot_t *tiRoot, tdsaPortContext_t *onePortContext ) { tdsaRoot_t *tdsaRoot = (tdsaRoot_t *) tiRoot->tdData; tdsaContext_t *tdsaAllShared = (tdsaContext_t *)&tdsaRoot->tdsaAllShared; tdsaDeviceData_t *oneDeviceData = agNULL; tdList_t *DeviceListList; agsaRoot_t *agRoot = agNULL; agRoot = &(tdsaAllShared->agRootNonInt); TI_DBG1(("tdsaDeregisterDevicesInPort: start\n")); /* find a device's existence */ DeviceListList = tdsaAllShared->MainDeviceList.flink; while (DeviceListList != &(tdsaAllShared->MainDeviceList)) { oneDeviceData = TDLIST_OBJECT_BASE(tdsaDeviceData_t, MainLink, DeviceListList); if (oneDeviceData == agNULL) { TI_DBG1(("tdsaDeregisterDevicesInPort: oneDeviceData is NULL!!!\n")); return; } if (oneDeviceData->tdPortContext == onePortContext) { TI_DBG3(("tdsaDeregisterDevicesInPort: Found pid %d did %d\n", onePortContext->id, oneDeviceData->id)); if ( !( DEVICE_IS_SMP_TARGET(oneDeviceData) && oneDeviceData->directlyAttached == agTRUE)) { saDeregisterDeviceHandle(agRoot, agNULL, oneDeviceData->agDevHandle, tdsaRotateQnumber(tiRoot, oneDeviceData)); } else { TI_DBG1(("tdsaDeregisterDevicesInPort: keeping\n")); oneDeviceData->registered = agTRUE; } } DeviceListList = DeviceListList->flink; } TI_DBG3(("tdsaDeregisterDevicesInPort: end\n")); return; } /******************** for debugging only ***************************/ osGLOBAL void tdsaPrintSwConfig( agsaSwConfig_t *SwConfig ) { if (SwConfig == agNULL) { TI_DBG6(("tdsaPrintSwConfig: SwConfig is NULL\n")); return; } else { TI_DBG6(("SwConfig->maxActiveIOs %d\n", SwConfig->maxActiveIOs)); TI_DBG6(("SwConfig->smpReqTimeout %d\n", SwConfig->smpReqTimeout)); } return; } osGLOBAL void tdsaPrintHwConfig( agsaHwConfig_t *HwConfig ) { if (HwConfig == agNULL) { TI_DBG6(("tdsaPrintHwConfig: HwConfig is NULL\n")); return; } else { TI_DBG6(("HwConfig->phyCount %d\n", HwConfig->phyCount)); } return; } osGLOBAL void tdssPrintSASIdentify( agsaSASIdentify_t *id ) { if (id == agNULL) { TI_DBG1(("tdsaPrintSASIdentify: ID is NULL\n")); return; } else { TI_DBG6(("SASID->sspTargetPort %d\n", SA_IDFRM_IS_SSP_TARGET(id)?1:0)); TI_DBG6(("SASID->stpTargetPort %d\n", SA_IDFRM_IS_STP_TARGET(id)?1:0)); TI_DBG6(("SASID->smpTargetPort %d\n", SA_IDFRM_IS_SMP_TARGET(id)?1:0)); TI_DBG6(("SASID->sspInitiatorPort %d\n", SA_IDFRM_IS_SSP_INITIATOR(id)?1:0)); TI_DBG6(("SASID->stpInitiatorPort %d\n", SA_IDFRM_IS_STP_INITIATOR(id)?1:0)); TI_DBG6(("SASID->smpInitiatorPort %d\n", SA_IDFRM_IS_SMP_INITIATOR(id)?1:0)); TI_DBG6(("SASID->deviceType %d\n", SA_IDFRM_GET_DEVICETTYPE(id))); TI_DBG6(("SASID->sasAddressHi 0x%x\n", SA_IDFRM_GET_SAS_ADDRESSHI(id))); TI_DBG6(("SASID->sasAddressLo 0x%x\n", SA_IDFRM_GET_SAS_ADDRESSLO(id))); TI_DBG6(("SASID->phyIdentifier 0x%x\n", id->phyIdentifier)); } return; } osGLOBAL void tdsaInitTimerHandler( tiRoot_t *tiRoot, void *timerData ) { TI_DBG6(("tdsaInitTimerHandler: start\n")); return; } /* type: 1 portcontext 2 devicedata flag: 1 FreeLink 2 MainLink */ osGLOBAL void print_tdlist_flink(tdList_t *hdr, int type, int flag) { tdList_t *hdr_tmp1 = NULL; #ifdef TD_DEBUG_ENABLE tdsaPortContext_t *ele1; #endif #ifdef REMOVED tdsaDeviceData_t *ele2; #endif hdr_tmp1 = hdr; if (type == 1 && flag == 1) { TI_DBG6(("PortContext and FreeLink\n")); } else if (type != 1 && flag == 1) { TI_DBG6(("DeviceData and FreeLink\n")); } else if (type == 1 && flag != 1) { TI_DBG6(("PortContext and MainLink\n")); } else { TI_DBG6(("DeviceData and MainLink\n")); } if (type == 1) { do { /* data structure type variable = (data structure type, file name, header of the tdList) */ if (flag == 1) { #ifdef TD_DEBUG_ENABLE ele1 = TDLIST_OBJECT_BASE(tdsaPortContext_t, FreeLink, hdr_tmp1); #endif } else { #ifdef TD_DEBUG_ENABLE ele1 = TDLIST_OBJECT_BASE(tdsaPortContext_t, MainLink, hdr_tmp1); #endif } TI_DBG6(("flist ele %d\n", ele1->id)); TI_DBG6(("flist ele %p\n", ele1)); hdr_tmp1 = hdr_tmp1->flink; } while (hdr_tmp1 != hdr); } else { do { /* data structure type variable = (data structure type, file name, header of the tdList) */ #ifdef REMOVED if (flag == 1) { ele2 = TDLIST_OBJECT_BASE(tdsaDeviceData_t, FreeLink, hdr_tmp1); } else { ele2 = TDLIST_OBJECT_BASE(tdsaDeviceData_t, MainLink, hdr_tmp1); } TI_DBG6(("flist ele %d\n", ele2->id)); TI_DBG6(("flist ele %p\n", ele2)); #endif hdr_tmp1 = hdr_tmp1->flink; } while (hdr_tmp1 != hdr); } TI_DBG6(("\n")); } /* not verified yet. 6/15/2005 */ osGLOBAL void print_tdlist_blink(tdList_t *hdr, int flag) { tdList_t *hdr_tmp1 = NULL; #ifdef REMOVED tdsaPortContext_t *ele1; #endif hdr_tmp1 = hdr; do { /* data structure type variable = (data structure type, file name, header of the tdList) */ #ifdef REMOVED if (flag == 1) { ele1 = TDLIST_OBJECT_BASE(tdsaPortContext_t, FreeLink, hdr_tmp1); } else { ele1 = TDLIST_OBJECT_BASE(tdsaPortContext_t, MainLink, hdr_tmp1); } TI_DBG6(("blist ele %d\n", ele1->id)); #endif hdr_tmp1 = hdr_tmp1->blink; } while (hdr_tmp1 != hdr); } /** hexidecimal dump */ void tdhexdump(const char *ptitle, bit8 *pbuf, int len) { int i; TI_DBG2(("%s - hexdump(len=%d):\n", ptitle, (int)len)); if (!pbuf) { TI_DBG1(("pbuf is NULL\n")); return; } for (i = 0; i < len; ) { if (len - i > 4) { TI_DBG2((" 0x%02x, 0x%02x, 0x%02x, 0x%02x,\n", pbuf[i], pbuf[i+1], pbuf[i+2], pbuf[i+3])); i += 4; } else { TI_DBG2((" 0x%02x,", pbuf[i])); i++; } } TI_DBG2(("\n")); } void tdsaSingleThreadedEnter(tiRoot_t *ptiRoot, bit32 queueId) { tdsaRoot_t * tiroot = agNULL; bit32 offset = 0; TD_ASSERT(ptiRoot,"ptiRoot"); tiroot = ptiRoot->tdData; offset = tiroot->tdsaAllShared.MaxNumLLLocks + tiroot->tdsaAllShared.MaxNumOSLocks; ostiSingleThreadedEnter(ptiRoot, queueId + offset); } void tdsaSingleThreadedLeave(tiRoot_t *ptiRoot, bit32 queueId) { tdsaRoot_t * tiroot = agNULL; bit32 offset = 0; TD_ASSERT(ptiRoot,"ptiRoot"); tiroot = ptiRoot->tdData; offset = tiroot->tdsaAllShared.MaxNumLLLocks + tiroot->tdsaAllShared.MaxNumOSLocks; ostiSingleThreadedLeave(ptiRoot, queueId + offset); } #ifdef PERF_COUNT void tdsaEnter(tiRoot_t *ptiRoot, int io) { ostiEnter(ptiRoot, 1, io); } void tdsaLeave(tiRoot_t *ptiRoot, int io) { ostiLeave(ptiRoot, 1, io); } #endif