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|
// IBM_PROLOG_BEGIN_TAG
// This is an automatically generated prolog.
//
// $Source: src/usr/intr/intrrp.C $
//
// IBM CONFIDENTIAL
//
// COPYRIGHT International Business Machines Corp. 2011
//
// p1
//
// Object Code Only (OCO) source materials
// Licensed Internal Code Source Materials
// IBM HostBoot Licensed Internal Code
//
// The source code for this program is not published or other-
// wise divested of its trade secrets, irrespective of what has
// been deposited with the U.S. Copyright Office.
//
// Origin: 30
//
// IBM_PROLOG_END
/**
* @file intrrp.C
* @brief Interrupt Resource Provider
*/
#include "intrrp.H"
#include <trace/interface.H>
#include <errno.h>
#include <initservice/taskargs.H>
#include <initservice/initserviceif.H>
#include <util/singleton.H>
#include <intr/intr_reasoncodes.H>
#include <sys/mmio.h>
#include <sys/misc.h>
#include <kernel/console.H>
#include <sys/task.h>
#include <targeting/common/targetservice.H>
#include <vmmconst.h>
#include <targeting/common/attributes.H>
#include <devicefw/userif.H>
#define INTR_TRACE_NAME INTR_COMP_NAME
using namespace INTR;
trace_desc_t * g_trac_intr = NULL;
TRAC_INIT(&g_trac_intr, INTR_TRACE_NAME, 2 * 1024);
/**
* setup _start and handle barrier
*/
TASK_ENTRY_MACRO( IntrRp::init );
void IntrRp::init( errlHndl_t &io_errlHndl_t )
{
errlHndl_t err = NULL;
err = Singleton<IntrRp>::instance()._init();
// pass task error back to parent
task_end2( err );
}
// ICPBAR = INTP.ICP_BAR[0:25] in P7 = 0x3FBFF90 + (8*node) + procPos
// P7 Scom address 0x02011C09 P8 = 0x020109c9
// BaseAddress P7:
// BA[18:43] = ICPBAR (P8 says [14:43] (30 bits))
// BA[47:49] = COREid (0-7)
// BA[50:51] = cpu thread (0-3)
//
// BaseAddress P8:
// BA[14:43] = ICPBAR (30 bits)
// BA[45:48] = coreID (1-6,9-14) (12 cores)
// BA[49:51] = thread (0-7)
//
// BA+0 = XIRR (poll - Read/Write has no side effects))
// BA+4 = XIRR (Read locks HW, Write -> EOI to HW))
// BA+12 = MFRR (1 byte)
// BA+16 = LINKA (4 bytes)
// BA+20 = LINKB (4 bytes)
// BA+24 = LINKC (4 bytes)
errlHndl_t IntrRp::_init()
{
errlHndl_t err = NULL;
// get the PIR
// Which ever cpu core this is running on is the MASTER cpu
// Make master thread 0
uint32_t cpuid = task_getcpuid();
iv_masterCpu = cpuid;
// If P7 or P7+ core -- need to tweak fields in PIR
if(cpu_core_type() == CORE_POWER7 ||
cpu_core_type() == CORE_POWER7_PLUS)
{
iv_masterCpu = P7PIR_t(cpuid);
}
iv_masterCpu.threadId = 0;
TRACFCOMP(g_trac_intr,"Master cpu node[%d], chip[%d], core[%d], thread[%d]",
iv_masterCpu.nodeId, iv_masterCpu.chipId, iv_masterCpu.coreId,
iv_masterCpu.threadId);
// The base realAddr is the base address for the whole system.
// Therefore the realAddr must be based on the processor
// that would have the lowest BAR value in the system,
// whether it exists or not. In this case n0p0
// [14:43] is BAR field in address to shift by (34 - 14)
uint64_t realAddr = (static_cast<uint64_t>(ICPBAR_VAL)) << 20;
TRACFCOMP(g_trac_intr,"INTR: realAddr = %lx",realAddr);
// VADDR_SIZE is 1MB per chip - max 32 -> 32MB
iv_baseAddr = reinterpret_cast<uint64_t>
(mmio_dev_map(reinterpret_cast<void*>(realAddr),THIRTYTWO_MB));
TRACFCOMP(g_trac_intr,"INTR: vAddr = %lx",iv_baseAddr);
// Set the BAR scom reg
TARGETING::Target* procTarget = NULL;
TARGETING::targetService().masterProcChipTargetHandle( procTarget );
err = setBAR(procTarget,iv_masterCpu);
if(!err)
{
err = checkAddress(iv_baseAddr);
}
if(!err)
{
// Set up the interrupt provider registers
// NOTE: It's only possible to set up the master core at this point.
//
// Set up link registers to forward all intrpts to master cpu.
//
// There is one register set per cpu thread.
size_t threads = cpu_thread_count();
PIR_t pir = iv_masterCpu;
for(size_t thread = 0; thread < threads; ++thread)
{
pir.threadId = thread;
initInterruptPresenter(pir);
}
// Get the kernel msg queue for ext intr
// Create a task to handle the messages
iv_msgQ = msg_q_create();
msg_q_register(iv_msgQ, INTR_MSGQ);
task_create(IntrRp::msg_handler, NULL);
// Register event to be called on shutdown
INITSERVICE::registerShutdownEvent(iv_msgQ,
MSG_INTR_SHUTDOWN,
INITSERVICE::LOWEST_PRIORITY);
}
return err;
}
errlHndl_t IntrRp::enableInterrupts()
{
errlHndl_t err = NULL;
// Enable the interrupt on master processor core, thread 0
uint64_t baseAddr = iv_baseAddr + cpuOffsetAddr(iv_masterCpu);
err = checkAddress(baseAddr);
if(!err)
{
uint8_t * cppr = reinterpret_cast<uint8_t*>(baseAddr+CPPR_OFFSET);
*cppr = 0xff;
}
return err;
}
errlHndl_t IntrRp::disableInterrupts()
{
errlHndl_t err = NULL;
// Disable the interrupt on master processor core, thread 0
uint64_t baseAddr = iv_baseAddr + cpuOffsetAddr(iv_masterCpu);
err = checkAddress(baseAddr);
if(!err)
{
uint8_t * cppr = reinterpret_cast<uint8_t*>(baseAddr+CPPR_OFFSET);
*cppr = 0;
}
return err;
}
/**
* Helper function to start the messge handler
*/
void IntrRp::msg_handler(void * unused)
{
Singleton<IntrRp>::instance().msgHandler();
}
void IntrRp::msgHandler()
{
while(1)
{
msg_t* msg = msg_wait(iv_msgQ); // wait for interrupt msg
switch(msg->type)
{
case MSG_INTR_EXTERN:
{
ext_intr_t type = NO_INTERRUPT;
// xirr was read by interrupt message handler.
// Passed in as data[0]
uint32_t xirr = static_cast<uint32_t>(msg->data[0]);
PIR_t pir = static_cast<PIR_t>(msg->data[1]);
// data[1] has the PIR
uint32_t * xirrAddress =
reinterpret_cast<uint32_t*>(iv_baseAddr + XIRR_OFFSET +
cpuOffsetAddr(pir));
// type = XISR = XIRR[8:31]
// priority = XIRR[0:7]
// Use the XISR as the type (for now)
type = static_cast<ext_intr_t>(xirr & XISR_MASK);
TRACDCOMP(g_trac_intr,"External Interrupt recieved, Type=%x",type);
// Acknowlege msg
msg->data[1] = 0;
msg_respond(iv_msgQ, msg);
Registry_t::iterator r = iv_registry.find(type);
if(r != iv_registry.end())
{
msg_q_t msgQ = r->second;
msg_t * rmsg = msg_allocate();
rmsg->type = type;
int rc = msg_sendrecv(msgQ,rmsg);
if(rc)
{
TRACFCOMP(g_trac_intr,ERR_MRK
"External Interrupt recieved type = %d, "
"but could not send message to registered"
" handler. Ignorming it. rc = %d",
(uint32_t) type, rc);
}
msg_free(rmsg);
}
else // no queue registered for this interrupt type
{
// Throw it away for now.
TRACFCOMP(g_trac_intr,ERR_MRK
"External Interrupt recieved type = %d, but "
"nothing registered to handle it. "
"Ignoreing it.",
(uint32_t)type);
}
// Writing the XIRR with the same value read earlier
// tells the interrupt presenter hardware to signal an EOI.
*xirrAddress = xirr;
}
break;
case MSG_INTR_REGISTER_MSGQ:
{
msg_q_t l_msgQ = reinterpret_cast<msg_q_t>(msg->data[0]);
ext_intr_t l_t = static_cast<ext_intr_t>(msg->data[1]);
errlHndl_t err = registerInterrupt(l_msgQ,l_t);
msg->data[1] = reinterpret_cast<uint64_t>(err);
msg_respond(iv_msgQ,msg);
}
break;
case MSG_INTR_UNREGISTER_MSGQ:
{
TRACDCOMP(g_trac_intr,
"UNREG: msg type = 0x%lx",
msg->data[0]);
msg_q_t msgQ = NULL;
ext_intr_t type = static_cast<ext_intr_t>(msg->data[0]);
Registry_t::iterator r = iv_registry.find(type);
if(r != iv_registry.end())
{
msgQ = r->second;
iv_registry.erase(r);
}
msg->data[1] = reinterpret_cast<uint64_t>(msgQ);
TRACDCOMP(g_trac_intr,
"UNREG: msgQ = 0x%lx",
msg->data[1]);
msg_respond(iv_msgQ,msg);
}
break;
case MSG_INTR_ENABLE:
{
errlHndl_t err = enableInterrupts();
msg->data[1] = reinterpret_cast<uint64_t>(err);
msg_respond(iv_msgQ,msg);
}
break;
case MSG_INTR_DISABLE:
{
errlHndl_t err =disableInterrupts();
msg->data[1] = reinterpret_cast<uint64_t>(err);
msg_respond(iv_msgQ,msg);
}
break;
// Called when a new cpu becomes active other than the master
// Expect a call for each new core
case MSG_INTR_ADD_CPU_USR:
case MSG_INTR_ADD_CPU:
{
PIR_t pir = msg->data[0];
// If P7 or P7+ core -- need to tweak fields in PIR
if(cpu_core_type() == CORE_POWER7 ||
cpu_core_type() == CORE_POWER7_PLUS)
{
pir = P7PIR_t(msg->data[0]);
}
TRACFCOMP(g_trac_intr,"Add CPU node[%d], chip[%d],"
"core[%d], thread[%d]",
pir.nodeId, pir.chipId, pir.coreId,
pir.threadId);
size_t threads = cpu_thread_count();
for(size_t thread = 0; thread < threads; ++thread)
{
pir.threadId = thread;
initInterruptPresenter(pir);
}
msg->data[1] = 0;
msg_respond(iv_msgQ, msg);
}
break;
case MSG_INTR_REMOVE_CPU:
{
PIR_t pir = msg->data[0];
if(cpu_core_type() == CORE_POWER7 ||
cpu_core_type() == CORE_POWER7_PLUS)
{
pir = P7PIR_t(msg->data[0]);
}
TRACFCOMP(g_trac_intr,"Remove CPU node[%d], chip[%d],"
"core[%d], thread[%d]",
pir.nodeId, pir.chipId, pir.coreId,
pir.threadId);
size_t threads = cpu_thread_count();
for(size_t thread = 0; thread < threads; ++thread)
{
pir.threadId = thread;
deconfigureInterruptPresenter(pir);
}
msg->data[1] = 0;
msg_respond(iv_msgQ, msg);
}
break;
case MSG_INTR_SHUTDOWN:
{
TRACFCOMP(g_trac_intr,"Shutdown event received");
// TODO rtc story 39878 for content
msg_respond(iv_msgQ, msg);
}
break;
default:
msg->data[1] = -EINVAL;
msg_respond(iv_msgQ, msg);
}
}
}
errlHndl_t IntrRp::setBAR(TARGETING::Target * i_target,
const PIR_t i_pir)
{
errlHndl_t err = NULL;
uint64_t barValue = static_cast<uint64_t>(ICPBAR_VAL) +
(8 * i_pir.nodeId) + i_pir.chipId;
barValue <<= 34;
TRACFCOMP(g_trac_intr,"INTR: Target %p. ICPBAR value: 0x%016lx",
i_target,barValue);
uint64_t size = sizeof(barValue);
err = deviceWrite(i_target,
&barValue,
size,
DEVICE_SCOM_ADDRESS(ICPBAR_SCOM_ADDR));
if(err)
{
TRACFCOMP(g_trac_intr,ERR_MRK"Unable to set IPCBAR");
}
return err;
}
errlHndl_t IntrRp::registerInterrupt(msg_q_t i_msgQ, ext_intr_t i_type)
{
errlHndl_t err = NULL;
Registry_t::iterator r = iv_registry.find(i_type);
if(r == iv_registry.end())
{
iv_registry[i_type] = i_msgQ;
}
else
{
if(r->second != i_msgQ)
{
/*@ errorlog tag
* @errortype ERRL_SEV_INFORMATIONAL
* @moduleid INTR::MOD_INTRRP_REGISTERINTERRUPT
* @reasoncode INTR::RC_ALREADY_REGISTERED
* @userdata1 Interrupt type
* @userdata2 0
*
* @defdesc Interrupt type already registered
*
*/
err = new ERRORLOG::ErrlEntry
(
ERRORLOG::ERRL_SEV_INFORMATIONAL, // severity
INTR::MOD_INTRRP_REGISTERINTERRUPT, // moduleid
INTR::RC_ALREADY_REGISTERED, // reason code
i_type,
0
);
}
}
return err;
}
void IntrRp::initInterruptPresenter(const PIR_t i_pir) const
{
uint64_t baseAddr = iv_baseAddr + cpuOffsetAddr(i_pir);
uint8_t * cppr =
reinterpret_cast<uint8_t*>(baseAddr + CPPR_OFFSET);
uint32_t * plinkReg =
reinterpret_cast<uint32_t *>(baseAddr + LINKA_OFFSET);
TRACDCOMP(g_trac_intr,"PIR 0x%x offset: 0x%lx",
i_pir.word,
cpuOffsetAddr(i_pir));
if(i_pir.word == iv_masterCpu.word)
{
*cppr = 0xff;
}
else
{
*cppr = 0; // no interrupts allowed except on master
}
// Links are intended to be set up in rings. If an interrupt ends up
// where it started, it gets rejected by hardware.
//
// According to BOOK IV, The links regs are setup by firmware.
//
// Should be possible to link all interrupt forwarding directly to
// the master core and either make them direct (lspec = 0) or by setting
// the LOOPTRIP bit to stop the forwarding at the masterProc.
//
LinkReg_t linkReg;
linkReg.word = 0;
linkReg.loopTrip = 1; // needed?
linkReg.node = iv_masterCpu.nodeId;
linkReg.pchip= iv_masterCpu.chipId;
linkReg.pcore= iv_masterCpu.coreId;
linkReg.tspec= iv_masterCpu.threadId;
*(plinkReg) = linkReg.word;
*(plinkReg + 1) = linkReg.word;
linkReg.last = 1;
*(plinkReg + 2) = linkReg.word;
}
void IntrRp::deconfigureInterruptPresenter(const PIR_t i_pir) const
{
uint64_t baseAddr = iv_baseAddr + cpuOffsetAddr(i_pir);
uint8_t * cppr =
reinterpret_cast<uint8_t*>(baseAddr + CPPR_OFFSET);
uint32_t * plinkReg =
reinterpret_cast<uint32_t *>(baseAddr + LINKA_OFFSET);
// non- side effect xirr register
uint32_t * xirrAddr =
reinterpret_cast<uint32_t *>(baseAddr) + XIRR_RO_OFFSET;
uint32_t xirr = *xirrAddr & 0x00FFFFFF;
TRACDCOMP(g_trac_intr,"PIR 0x%x offset: 0x%lx",
i_pir.word,
cpuOffsetAddr(i_pir));
// Not sure if this will ever happen, but squawk alittle if it does
if(xirr)
{
TRACFCOMP(g_trac_intr,
ERR_MRK
"Pending interrupt found on shutdown. CpuId:0x%x XIRR:0x%x",
i_pir.word,
xirr);
}
*cppr = 0; // Set priority to most favored (off)
*plinkReg = 0; // Reset link registers - clear all forwarding
*(plinkReg + 1) = 0;
*(plinkReg + 2) = 0;
}
errlHndl_t IntrRp::checkAddress(uint64_t i_addr)
{
errlHndl_t err = NULL;
if(i_addr < VMM_VADDR_DEVICE_SEGMENT_FIRST)
{
/*@ errorlog tag
* @errortype ERRL_SEV_INFORMATIONAL
* @moduleid INTR::MOD_INTRRP_CHECKADDRESS
* @reasoncode INTR::RC_BAD_VIRTUAL_IO_ADDRESS
* @userdata1 The bad virtual address
* @userdata2 0
*
* @defdesc The virutal address is not a valid IO address
*
*/
err = new ERRORLOG::ErrlEntry
(
ERRORLOG::ERRL_SEV_INFORMATIONAL,
INTR::MOD_INTRRP_CHECKADDRESS,
INTR::RC_BAD_VIRTUAL_IO_ADDRESS,
i_addr,
0
);
}
return err;
}
// Register a message queue with a particular intr type
errlHndl_t INTR::registerMsgQ(msg_q_t i_msgQ, ext_intr_t i_type)
{
errlHndl_t err = NULL;
// Can't add while handling an interrupt, so
// send msg instead of direct call
msg_q_t intr_msgQ = msg_q_resolve(INTR_MSGQ);
if(intr_msgQ)
{
msg_t * msg = msg_allocate();
msg->type = MSG_INTR_REGISTER_MSGQ;
msg->data[0] = reinterpret_cast<uint64_t>(i_msgQ);
msg->data[1] = static_cast<uint64_t>(i_type);
int rc = msg_sendrecv(intr_msgQ, msg);
if(!rc)
{
err = reinterpret_cast<errlHndl_t>(msg->data[1]);
}
else
{
TRACFCOMP(g_trac_intr,ERR_MRK
"INTR::registerMsgQ - msg_sendrecv failed. errno = %d",
rc);
}
msg_free(msg);
}
else
{
/*@ errorlog tag
* @errortype ERRL_SEV_INFORMATIONAL
* @moduleid INTR::MOD_INTR_REGISTER
* @reasoncode INTR::RC_REGISTRY_NOT_READY
* @userdata1 Interrupt type to register
* @userdata2 0
*
* @defdesc Interrupt resource provider not initialized yet.
*
*/
err = new ERRORLOG::ErrlEntry
(
ERRORLOG::ERRL_SEV_INFORMATIONAL, // severity
INTR::MOD_INTR_REGISTER, // moduleid
INTR::RC_REGISTRY_NOT_READY, // reason code
static_cast<uint64_t>(i_type),
0
);
}
return err;
}
// Unregister message queue from interrupt handler
msg_q_t INTR::unRegisterMsgQ(ext_intr_t i_type)
{
msg_q_t msgQ = NULL;
msg_q_t intr_msgQ = msg_q_resolve(INTR_MSGQ);
if(intr_msgQ)
{
msg_t * msg = msg_allocate();
msg->type = MSG_INTR_UNREGISTER_MSGQ;
msg->data[0] = static_cast<uint64_t>(i_type);
int rc = msg_sendrecv(intr_msgQ,msg);
if(!rc)
{
msgQ = reinterpret_cast<msg_q_t>(msg->data[1]);
}
else
{
TRACFCOMP(g_trac_intr,ERR_MRK
"INTR::unRegisterMsgQ - msg_sendrecv failed. errno = %d",
rc);
}
msg_free(msg);
}
return msgQ;
}
/*
* Enable hardware to report external interrupts
*/
errlHndl_t INTR::enableExternalInterrupts()
{
errlHndl_t err = NULL;
msg_q_t intr_msgQ = msg_q_resolve(INTR_MSGQ);
if(intr_msgQ)
{
msg_t * msg = msg_allocate();
msg->type = MSG_INTR_ENABLE;
msg_sendrecv(intr_msgQ, msg);
err = reinterpret_cast<errlHndl_t>(msg->data[1]);
msg_free(msg);
}
else
{
/*@ errorlog tag
* @errortype ERRL_SEV_INFORMATIONAL
* @moduleid INTR::MOD_INTR_ENABLE
* @reasoncode INTR::RC_RP_NOT_INITIALIZED
* @userdata1 MSG_INTR_ENABLE
* @userdata2 0
*
* @defdesc Interrupt resource provider not initialized yet.
*
*/
err = new ERRORLOG::ErrlEntry
(
ERRORLOG::ERRL_SEV_INFORMATIONAL, // severity
INTR::MOD_INTR_ENABLE, // moduleid
INTR::RC_RP_NOT_INITIALIZED, // reason code
static_cast<uint64_t>(MSG_INTR_ENABLE),
0
);
}
return err;
}
/*
* Disable hardware from reporting external interrupts
*/
errlHndl_t INTR::disableExternalInterrupts()
{
errlHndl_t err = NULL;
// Can't disable while handling interrupt, so send msg to serialize
msg_q_t intr_msgQ = msg_q_resolve(INTR_MSGQ);
if(intr_msgQ)
{
msg_t * msg = msg_allocate();
msg->type = MSG_INTR_DISABLE;
msg_sendrecv(intr_msgQ, msg);
err = reinterpret_cast<errlHndl_t>(msg->data[1]);
msg_free(msg);
}
else
{
/*@ errorlog tag
* @errortype ERRL_SEV_INFORMATIONAL
* @moduleid INTR::MOD_INTR_DISABLE
* @reasoncode INTR::RC_RP_NOT_INITIALIZED
* @userdata1 MSG_INTR_DISABLE
* @userdata2 0
*
* @defdesc Interrupt resource provider not initialized yet.
*
*/
err = new ERRORLOG::ErrlEntry
(
ERRORLOG::ERRL_SEV_INFORMATIONAL, // severity
INTR::MOD_INTR_DISABLE, // moduleid
INTR::RC_RP_NOT_INITIALIZED, // reason code
static_cast<uint64_t>(MSG_INTR_DISABLE),
0
);
}
return err;
}
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