示例#1
0
void resolveMcs(uint64_t i_mcs, void * i_data)
{
    ResolveMcsArgs * args = static_cast<ResolveMcsArgs *>(i_data);

    uint64_t mciFirScomData;

    TargetHandle_t mcs = getTargetService().getMcs(args->proc, i_mcs);

    // read the MCI fir to determine what type of attention
    // centaur reporting

    errlHndl_t err = getScom(mcs, MCI::address, mciFirScomData);

    if(err)
    {
        errlCommit(err, ATTN_COMP_ID);
    }
    else
    {
        // pick the highest priority attention

        for(uint64_t type = INVALID_ATTENTION_TYPE;
                type != END_ATTENTION_TYPE;
                ++type)
        {
            uint64_t mask;

            if(!MCI::getCheckbits(type, mask))
            {
                // this object doesn't support
                // this attention type

                continue;
            }

            if(mask & mciFirScomData)
            {
                AttnData d;
                d.targetHndl = getTargetService().getMembuf(mcs);

                if(!d.targetHndl)
                {
                    // this membuf not functional
                    // or nothing is attached to this MCS

                    break;
                }

                d.attnType = static_cast<ATTENTION_VALUE_TYPE>(type);

                args->list->add(Attention(d, args->ops));
                break;
            }
        }
    }
}
示例#2
0
errlHndl_t MemInjectSink::putAttention(const AttnData & i_attn)
{
    return putScom(
            getTargetService().getMcs(i_attn.targetHndl),
            MCI::address,
            ~0);
}
示例#3
0
void* Service::prdTask(void * i_svc)
{
    // prd task loop

    Service & svc = *static_cast<Service *>(i_svc);
    bool shutdown = false;

    TargetHandleList procs;
    getTargetService().getAllChips(procs, TYPE_PROC);

    // wait for a wakeup

    while(true)
    {
        shutdown = svc.prdTaskWait();

        if(shutdown)
        {
            // this was a shutdown wakeup.
            // tell the prd task loop to exit

            break;
        }

        // new attentions for prd to handle

        svc.processAttentions(procs);
    }

    return NULL;
}
示例#4
0
文件: attn.C 项目: bjwyman/hostboot
errlHndl_t checkForIplAttentions()
{
    errlHndl_t err = NULL;

    assert(!Singleton<Service>::instance().running());

    TargetHandleList list;

    getTargetService().getAllChips(list, TYPE_PROC);

    TargetHandleList::iterator tit = list.begin();

    while(tit != list.end())
    {
        err = Singleton<Service>::instance().handleAttentions(*tit);

        if(err)
        {
            errlCommit(err, ATTN_COMP_ID);
        }

        tit = list.erase(tit);
    }

    return 0;
}
示例#5
0
TargetServiceImpl::~TargetServiceImpl()
{
    // restore the default

    getTargetService().setImpl(Singleton<TargetServiceImpl>::instance());

    TargetService & wrapper = getTargetService();
    TargetServiceImpl * defaultImpl = &Singleton<TargetServiceImpl>::instance();

    if(wrapper.iv_impl == this)
    {
        if(this != defaultImpl)
        {
            wrapper.setImpl(*defaultImpl);
        }
    }
}
void initGSSAPIContext( const char *		inServiceName,
						gss_ctx_id_t * 		outContext,
						gss_buffer_desc *	outToken,
						PAPIStatus *		outStatus )
{
	gss_name_t theServiceName;

	getTargetService( inServiceName, &theServiceName, outStatus );
	if ( *outStatus == PAPISuccess )
	{
		OM_uint32		theMajorStatus;
		OM_uint32		theMinorStatus;
		gss_buffer_desc	theServiceNameBuf;
		OM_uint32		theReqFlags = GSS_C_DELEG_FLAG;
		OM_uint32		theRetFlags;
		gss_OID			theMech;
#ifdef SOLARIS
		gss_OID_desc	theMechArr =
			{ 9, "\052\206\110\206\367\022\001\002\002"};
		theMech = &theMechArr;
#else
		theMech = GSS_KRB5_MECHANISM;
#endif
		
		outToken->length = 0;
		theMajorStatus = gss_init_sec_context( &theMinorStatus,
											   GSS_C_NO_CREDENTIAL,
											   outContext,
										  	   theServiceName,
											   GSS_C_NO_OID,
											   0,
											   0,
											   NULL,
											   GSS_C_NO_BUFFER,
											   0,
											   outToken,
											   &theRetFlags,
											   0 );
		if ( theMajorStatus == GSS_S_COMPLETE )
		{
			*outStatus = PAPISuccess;
		}
		else
		{
			*outStatus = PAPIAuthenticationFailure;
		}
	}
}
示例#7
0
errlHndl_t FakeGp1::processPutReg(
            FakeSystem & i_sys,
            TargetHandle_t i_target,
            uint64_t i_address,
            uint64_t i_new,
            uint64_t i_old)
{
    errlHndl_t err = 0;
    uint64_t mcsPos;

    TargetHandle_t membuf = getTargetService().getMembuf(i_target);
    TargetHandle_t proc = getTargetService().getProc(membuf);

    getTargetService().getMcsPos(i_target, mcsPos);

    uint64_t gp1Content = i_sys.getReg(proc, GP1::address);

    bool set = false, cleared = false, on = false;

    // these mci bits turned on
    MCI::forEach(i_new & ~i_old, &set, &setFlag);

    // these mci bits turned off
    MCI::forEach(~i_new & i_old, &cleared, &setFlag);

    // these mci bits are on
    MCI::forEach(i_new, &on, &setFlag);

    // whether or not the mcs is reporting

    FindMcsArgs args;

    args.reporting = false;
    args.pos = mcsPos;
    GP1::forEach(gp1Content, &args, &findMcs);

    uint64_t writebits;
    GP1::getCheckbits(mcsPos, writebits);

    if(args.reporting && cleared && !on)
    {
        // this mcs is reporting, but all the bits in the MCI FIR
        // have turned off.

        err = i_sys.modifyReg(
                proc,
                GP1::address,
                ~writebits,
                SCOM_AND);
    }

    else if(!args.reporting && set)
    {
        // this mcs wasn't reporting before, but now a bit is on

        err = i_sys.modifyReg(
                proc,
                GP1::address,
                writebits,
                SCOM_OR);
    }

    return err;
}
示例#8
0
void Service::processIntrQMsgPreAck(const msg_t & i_msg)
{
    // this function should do as little as possible
    // since the hw can't generate additional interrupts
    // until the msg is acknowledged

    TargetHandle_t proc = NULL;

    INTR::XISR_t xisr;

    xisr.u32 = i_msg.data[0];

    TargetHandleList procs;
    getTargetService().getAllChips(procs, TYPE_PROC);

    TargetHandleList::iterator it = procs.begin();

    // resolve the xisr to a proc target

    while(it != procs.end())
    {
        uint64_t node = 0, chip = 0;

        getTargetService().getAttribute(ATTR_FABRIC_NODE_ID, *it, node);
        getTargetService().getAttribute(ATTR_FABRIC_CHIP_ID, *it, chip);

        if(node == xisr.node
                && chip == xisr.chip)
        {
            proc = *it;
            break;
        }

        ++it;
    }

    uint64_t hostMask = HostMask::host();
    uint64_t nonHostMask = HostMask::nonHost();
    uint64_t data = 0;

    // do the minimum that is required
    // for sending EOI without getting
    // another interrupt.  for host attentions
    // this is clearing the gpio interrupt
    // type status register
    // and for xstp,rec,spcl this is
    // masking the appropriate bit in
    // ipoll mask

    // read the ipoll status register
    // to determine the interrupt was
    // caused by host attn or something
    // else (xstp,rec,spcl)

    errlHndl_t err = getScom(proc, IPOLL_STATUS_REG, data);

    if(err)
    {
        errlCommit(err, ATTN_COMP_ID);

        // assume everything is on

        data = hostMask | nonHostMask;
    }

    if(data & hostMask)
    {
        // if host attention, clear the ITR macro gpio interrupt
        // type status register.

        err = putScom(proc, INTR_TYPE_LCL_ERR_STATUS_AND_REG, 0);

        if(err)
        {
            errlCommit(err, ATTN_COMP_ID);
        }
    }

    if(data & nonHostMask)
    {
        // mask local proc xstp,rec and/or special attns if on.

        // the other thread might be trying to unmask
        // on the same target.  The mutex ensures
        // neither thread corrupts the register.

        mutex_lock(&iv_mutex);

        err = modifyScom(proc, IPOLL::address, data & nonHostMask, SCOM_OR);

        mutex_unlock(&iv_mutex);

        if(err)
        {
            errlCommit(err, ATTN_COMP_ID);
        }
    }
}
示例#9
0
errlHndl_t Service::configureInterrupts(
        msg_q_t i_q,
        ConfigureMode i_mode)
{
    errlHndl_t err = NULL;

    // First register for Q
    // This will set up the psi host bridge logic for
    // lcl_err interrupt on all chips

    if(i_mode == UP)
    {
        err = INTR::registerMsgQ(i_q,
                                 ATTENTION,
                                 INTR::ISN_LCL_ERR);
    }

    // setup the ITR macro for GPIO type host attentions,
    // on all procs

    if(!err)
    {
        TargetHandleList procs;
        getTargetService().getAllChips(procs, TYPE_PROC);
        TargetHandleList::iterator it = procs.begin();

        while(it != procs.end())
        {
            uint64_t mask = 0;

            // clear GPIO interrupt type status register

            if(i_mode == UP)
            {
                err = putScom(*it, INTR_TYPE_LCL_ERR_STATUS_AND_REG,
                              0);
            }

            if(err)
            {
                break;
            }

            // unmask GPIO interrupt type

            mask = 0x8000000000000000ull;

            err = putScom(
                    *it,
                    (i_mode == UP
                     ? INTR_TYPE_MASK_AND_REG
                     : INTR_TYPE_MASK_OR_REG),
                    i_mode == UP ? ~mask : mask);

            if(err)
            {
                break;
            }

            // set GPIO interrupt type mode - or

            if(i_mode == UP)
            {
                err = putScom(*it, INTR_TYPE_CONFIG_AND_REG,
                                 ~mask);
            }

            if(err)
            {
                break;
            }

            // enable/disable MCSes

            mask = 0;

            GP1::forEach(~0, &mask, &getPbGp2Mask);

            err = modifyScom(
                             *it,
                             GP2_REG,
                             i_mode == UP ? mask : ~mask,
                             i_mode == UP ? SCOM_OR : SCOM_AND);

            if(err)
            {
                break;
            }

            // enable attentions in ipoll mask

            mask = HostMask::nonHost();
            mask |= HostMask::host();

            // this doesn't have an and/or reg for some reason...

            err = modifyScom(
                    *it,
                    IPOLL::address,
                    i_mode == UP ? ~mask : mask,
                    i_mode == UP ? SCOM_AND : SCOM_OR);

            if(err)
            {
                break;
            }

            ++it;
        }

        if(!err && i_mode == DOWN)
        {
            if(NULL == INTR::unRegisterMsgQ(INTR::ISN_LCL_ERR))
            {
                ATTN_ERR("INTR did not find isn: 0x%07x",
                        INTR::ISN_LCL_ERR);
            }
        }
    }
    return err;
}
示例#10
0
errlHndl_t ServiceCommon::configureInterrupts(
        ConfigureMode i_mode)
{
    errlHndl_t err = NULL;

    TargetHandleList procs;
    getTargetService().getAllChips(procs, TYPE_PROC);
    TargetHandleList::iterator it = procs.begin();

    while(it != procs.end())
    {
        uint64_t mask = 0;

        // clear GPIO interrupt type status register

        if(i_mode == UP)
        {
            err = putScom(*it, INTR_TYPE_LCL_ERR_STATUS_AND_REG,
                          0);
        }

        if(err)
        {
            break;
        }

        // unmask GPIO interrupt type

        mask = 0x8000000000000000ull;

        err = putScom(*it,
                      (i_mode == UP
                       ? INTR_TYPE_MASK_AND_REG
                       : INTR_TYPE_MASK_OR_REG),
                      i_mode == UP ? ~mask : mask);

        if(err)
        {
            break;
        }

        // set GPIO interrupt type mode - or

        if(i_mode == UP)
        {
            err = putScom(*it, INTR_TYPE_CONFIG_AND_REG,
                          ~mask);
        }

        if(err)
        {
            break;
        }

        // enable/disable MCSes

        mask = 0;

        GP1::forEach(~0, &mask, &getPbGp2Mask);

        err = modifyScom(*it,
                         GP2_REG,
                         i_mode == UP ? mask : ~mask,
                         i_mode == UP ? SCOM_OR : SCOM_AND);

        if(err)
        {
            break;
        }

        // enable attentions in ipoll mask

        mask = HostMask::nonHost();
        mask |= HostMask::host();

        // this doesn't have an and/or reg for some reason...

        err = modifyScom(*it,
                         IPOLL::address,
                         i_mode == UP ? ~mask : mask,
                         i_mode == UP ? SCOM_AND : SCOM_OR);

        if(err)
        {
            break;
        }

        ++it;
    }

    return err;
}