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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/ipmi/ipmisel.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2014,2016 */
/* [+] International Business Machines Corp. */
/* */
/* */
/* Licensed under the Apache License, Version 2.0 (the "License"); */
/* you may not use this file except in compliance with the License. */
/* You may obtain a copy of the License at */
/* */
/* http://www.apache.org/licenses/LICENSE-2.0 */
/* */
/* Unless required by applicable law or agreed to in writing, software */
/* distributed under the License is distributed on an "AS IS" BASIS, */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
/* implied. See the License for the specific language governing */
/* permissions and limitations under the License. */
/* */
/* IBM_PROLOG_END_TAG */
/**
* @file ipmisel.C
* @brief IPMI system error log transport definition
*/
#include <algorithm>
#include <sys/time.h>
#include <ipmi/ipmisel.H>
#include "ipmiconfig.H"
#include <ipmi/ipmi_reasoncodes.H>
#include <ipmi/ipmisensor.H>
#include <ipmi/ipmiif.H>
#include <sys/task.h>
#include <initservice/taskargs.H>
#include <initservice/initserviceif.H>
#include <targeting/common/commontargeting.H>
#include <targeting/common/util.H>
#include <targeting/common/utilFilter.H>
#include <errl/errlmanager.H>
using namespace TARGETING;
//Defined in ipmidd.C
extern trace_desc_t * g_trac_ipmi;
#define IPMI_TRAC(printf_string,args...) \
TRACFCOMP(g_trac_ipmi,"sel: " printf_string,##args)
// local functions
/*
* @brief Store either Record/Reserve ID from given data
*/
void storeReserveRecord(uint8_t* o_RData, uint8_t* i_data)
{
o_RData[0] = i_data[0];
o_RData[1] = i_data[1];
return;
}
/*
* @brief Create Partial Add eSEL Header from inputs
*/
void createPartialAddHeader(uint8_t* i_reserveID, uint8_t* i_recordID,
uint16_t i_offset, uint8_t i_isLastEntry,
uint8_t* o_header)
{
o_header[0] = i_reserveID[0];
o_header[1] = i_reserveID[1];
o_header[2] = i_recordID[0];
o_header[3] = i_recordID[1];
o_header[4] = (uint8_t)(i_offset & 0x00FF);
o_header[5] = (uint8_t)((i_offset & 0xFF00) >> 8);
o_header[6] = i_isLastEntry;
return;
}
enum esel_retry
{
MAX_SEND_COUNT = 4,
SLEEP_BASE = 2 * NS_PER_MSEC,
};
namespace IPMISEL
{
void sendESEL(uint8_t* i_eselData, uint32_t i_dataSize,
uint32_t i_eid, std::vector<sel_info_t*>&i_selEventList)
{
IPMI_TRAC(ENTER_MRK "sendESEL() %d",i_selEventList.size());
#ifdef __HOSTBOOT_RUNTIME
// HBRT doesn't send a msg, but use the msg structure to pass the data
msg_t l_msg;
msg_t *msg = &l_msg;
memset(msg, 0, sizeof(msg_t));
#else
msg_t *msg = msg_allocate();
#endif
msg->type = MSG_SEND_ESEL;
msg->data[0] = i_eid;
eselInitData *eselData =
new eselInitData(i_selEventList, i_eselData, i_dataSize);
msg->extra_data = eselData;
#ifdef __HOSTBOOT_RUNTIME
process_esel(msg);
#else
// one message queue to the SEL thread
static msg_q_t mq = Singleton<IpmiSEL>::instance().msgQueue();
//Send the msg to the sel thread
int rc = msg_send(mq,msg);
if(rc)
{
IPMI_TRAC(ERR_MRK "Failed (rc=%d) to send message",rc);
delete eselData;
}
#endif
IPMI_TRAC(EXIT_MRK "sendESEL");
return;
}
/*
* @brief process esel msg
*/
void process_esel(msg_t *i_msg)
{
errlHndl_t l_err = NULL;
IPMI::completion_code l_cc = IPMI::CC_UNKBAD;
const uint32_t l_eid = i_msg->data[0];
eselInitData * l_data =
(eselInitData*)(i_msg->extra_data);
IPMI_TRAC(ENTER_MRK "process_esel");
selRecord l_eSel;
oemSelRecord l_oemSel;
do
{
IPMI_TRAC(ENTER_MRK"sel list size %d", l_data->selInfoList.size());
std::vector<sel_info_t*>::iterator it;
for (it = l_data->selInfoList.begin(); it != l_data->selInfoList.end();
++it)
{
sel_info_t *l_sel = *it;
memset(l_data->oemSel,0,sizeof(oemSelRecord));
memset(l_data->eSel,0,sizeof(selRecord));
l_data->selEvent = true;
//If sensor type is sys event then need to send the oem sel
//to handle procedure callout
if (l_sel->sensorType == TARGETING::SENSOR_TYPE_SYS_EVENT)
{
//oem sel data
l_data->selEvent = false;
l_oemSel.record_type =
record_type_oem_sel_for_procedure_callout;
l_oemSel.event_data1 = l_sel->eventOffset;
l_sel->eventOffset = SENSOR::UNDETERMINED_SYSTEM_HW_FAILURE;
memcpy(l_data->oemSel,&l_oemSel,sizeof(oemSelRecord));
}
//sel data
l_eSel.record_type = record_type_system_event;
l_eSel.generator_id = generator_id_ami;
l_eSel.evm_format_version = format_ipmi_version_2_0;
l_eSel.sensor_type = l_sel->sensorType;
l_eSel.sensor_number = l_sel->sensorNumber;
l_eSel.event_dir_type = l_sel->eventDirType;
l_eSel.event_data1 = l_sel->eventOffset;
memcpy(l_data->eSel,&l_eSel,sizeof(selRecord));
uint32_t l_send_count = MAX_SEND_COUNT;
while (l_send_count > 0)
{
// try to send the eles to the bmc
send_esel(l_data, l_err, l_cc);
// if no error but last completion code was:
if ((l_err == NULL) &&
((l_cc == IPMI::CC_BADRESV) || // lost reservation
(l_cc == IPMI::CC_TIMEOUT))) // timeout
{
// update our count and pause
l_send_count--;
if (l_send_count)
{
IPMI_TRAC("process_esel: sleeping; retry_count %d",
l_send_count);
// sleep 3 times - 2ms, 32ms, 512ms. if we can't get this
// through by then, the system must really be busy...
nanosleep(0,
SLEEP_BASE << (4 * (MAX_SEND_COUNT - l_send_count - 1)));
continue;
}
}
else
{
//if we enter this, then pel data has logged successfully,
//so we don't need to log again, make the size to zero.
l_data->dataSize = 0;
}
// else it did get sent down OR it didn't because of a bad error
break;
} // while
} // for
}while(0);
if(l_err)
{
#ifdef __HOSTBOOT_RUNTIME
// HBRT can't commit an error, since this could already be in the
// errlCommit path since HBRT is single threaded
IPMI_TRAC(ERR_MRK "DELETING l_err 0x%.8X", l_err->eid());
delete l_err;
l_err = NULL;
#else
l_err->collectTrace(IPMI_COMP_NAME);
errlCommit(l_err, IPMI_COMP_ID);
#endif
}
else if((l_cc == IPMI::CC_OK) && // no error
(l_eid != 0)) // and it's an errorlog
{
// eSEL successfully sent to the BMC - have errlmanager do the ack
IPMI_TRAC(INFO_MRK "Doing ack for eid 0x%.8X", l_eid);
ERRORLOG::ErrlManager::errlAckErrorlog(l_eid);
}
delete l_data;
IPMI_TRAC(EXIT_MRK "process_esel");
return;
} // process_esel
/*
* @brief Send esel data to bmc
*/
void send_esel(eselInitData * i_data,
errlHndl_t &o_err, IPMI::completion_code &o_cc)
{
IPMI_TRAC(ENTER_MRK "send_esel");
uint8_t* data = NULL;
size_t len = 0;
uint8_t sel_recordID[2] = {0,0};
uint8_t esel_recordID[2] = {0,0};
do
{
const size_t l_eSELlen = i_data->dataSize;
if (l_eSELlen == 0)
{
IPMI_TRAC(INFO_MRK "no eSEL data present, skipping to SEL");
// sending sensor SELs only, not the eSEL
o_cc = IPMI::CC_OK;
break;
}
uint8_t reserveID[2] = {0,0};
// we need to send down the extended sel data (eSEL), which is
// longer than the protocol buffer, so we need to do a reservation and
// call the AMI partial_add_esel command multiple times
// put a reservation on the SEL Device since we're doing a partial_add
len = 0;
delete [] data;
data = NULL;
o_cc = IPMI::CC_UNKBAD;
o_err = IPMI::sendrecv(IPMI::reserve_sel(),o_cc,len,data);
if(o_err)
{
IPMI_TRAC(ERR_MRK "error from reserve_sel");
break;
}
if(o_cc != IPMI::CC_OK)
{
IPMI_TRAC(ERR_MRK "Failed to reserve_sel, o_cc %02x",o_cc);
break;
}
storeReserveRecord(reserveID,data);
// first send down the SEL Event Record data
size_t eSELindex = 0;
uint8_t l_lastEntry = 0;
len = PARTIAL_ADD_ESEL_REQ + sizeof(selRecord);
delete [] data;
data = new uint8_t[len];
// fill in the partial_add_esel request (command) data
createPartialAddHeader(reserveID,esel_recordID,eSELindex,l_lastEntry,data);
// copy in the SEL event record data
memcpy(&data[PARTIAL_ADD_ESEL_REQ], i_data->eSel,
sizeof(selRecord));
// update to make this what AMI eSEL wants
data[PARTIAL_ADD_ESEL_REQ + offsetof(selRecord,record_type)] = record_type_ami_esel;
data[PARTIAL_ADD_ESEL_REQ + offsetof(selRecord,event_data1)] = event_data1_ami;
o_cc = IPMI::CC_UNKBAD;
TRACFBIN( g_trac_ipmi, INFO_MRK"1st partial_add_esel:", data, len);
o_err = IPMI::sendrecv(IPMI::partial_add_esel(),o_cc,len,data);
if(o_err)
{
IPMI_TRAC(ERR_MRK "error from first partial_add_esel");
break;
}
// as long as we continue to get CC_OK, the reserve sel is good.
// if the reservation is lost (ie, because something else tried to
// create a SEL) then the BMC just discards all this data. the
// errorlog will still be in PNOR and won't get ACKed, so it'll get
// resent on the next IPL.
if (o_cc != IPMI::CC_OK)
{
IPMI_TRAC(ERR_MRK "failed first partial_add_esel, o_cc %02x, eSELindex %02x",
o_cc, eSELindex);
break;
}
// BMC returns the recordID, it's always the same (unless
// there's a major BMC bug...)
storeReserveRecord(esel_recordID,data);
// now send down the eSEL data in chunks.
const size_t l_maxBuffer = IPMI::max_buffer();
while(eSELindex<l_eSELlen)
{
//if the index + the maximum buffer is less than what we still
//have left in the eSEL, this is not the last entry (data[6] = 0)
//otherwise, it is and data[6] = 1
if(eSELindex + (l_maxBuffer - PARTIAL_ADD_ESEL_REQ)
< l_eSELlen)
{
len = l_maxBuffer;
l_lastEntry = 0x00;
}
else
{
len = l_eSELlen - eSELindex + PARTIAL_ADD_ESEL_REQ;
l_lastEntry = 0x01;
}
delete [] data;
data = new uint8_t[len];
// fill in the partial_add_esel request (command) data
createPartialAddHeader(reserveID, esel_recordID,
eSELindex + sizeof(selRecord),
l_lastEntry, data);
uint8_t dataCpyLen = len - PARTIAL_ADD_ESEL_REQ;
memcpy(&data[PARTIAL_ADD_ESEL_REQ],
&i_data->eSelExtra[eSELindex],
dataCpyLen);
// update the offset into the data
eSELindex = eSELindex + dataCpyLen;
o_cc = IPMI::CC_UNKBAD;
TRACFBIN( g_trac_ipmi, INFO_MRK"partial_add_esel:", data, len);
o_err = IPMI::sendrecv(IPMI::partial_add_esel(),o_cc,len,data);
if(o_err)
{
IPMI_TRAC(ERR_MRK "error from partial_add_esel");
break;
}
// as long as we continue to get CC_OK, the reserve sel is good.
// if the reservation is lost (ie, because something else tried to
// create a SEL) then the BMC just discards all this data. the
// errorlog will still be in PNOR and won't get ACKed, so it'll get
// resent on the next IPL.
if (o_cc != IPMI::CC_OK)
{
IPMI_TRAC(ERR_MRK "failed partial_add_esel, o_cc %02x, eSELindex %02x",
o_cc, eSELindex);
break;
}
// BMC returns the recordID, it's always the same (unless
// there's a major BMC bug...)
storeReserveRecord(esel_recordID,data);
} // while eSELindex
if (o_cc == IPMI::CC_OK)
{
memcpy(i_data->eselRecord,esel_recordID,sizeof(esel_recordID));
}
}while(0);
// if eSEL wasn't created due to an error, we don't want to continue
if ((o_err == NULL) && (o_cc == IPMI::CC_OK))
{
// caller wants us to NOT create sensor SEL
if ((i_data->eSel[offsetof(selRecord,sensor_type)] == SENSOR::INVALID_TYPE) &&
(i_data->eSel[offsetof(selRecord,sensor_number)] == TARGETING::UTIL::INVALID_IPMI_SENSOR)
)
{
IPMI_TRAC(INFO_MRK "Invalid sensor type/number - NOT sending sensor SELs");
}
else
{
// if the eSEL wasn't created due to a bad completion code, we will
// still try to send down a SEL that we create, which will contain
// the eSEL recordID (if it was successful)
if (data)
{
delete [] data;
}
len = sizeof(IPMISEL::selRecord);
data = new uint8_t[len];
// send standard SEL event
if (i_data->selEvent)
{
// copy in the SEL event record data
memcpy(data, i_data->eSel, len);
// copy the eSEL recordID (if it was created) into the extra data area
// and mark the event_data1 to indicate this is OEM data
data[offsetof(selRecord,event_data1)] |= 0xA0;
data[offsetof(selRecord,event_data2)] = i_data->eselRecord[1];
data[offsetof(selRecord,event_data3)] = i_data->eselRecord[0];
}
else //send OEM SEL event
{
// copy in the SEL event record data
memcpy(data, i_data->oemSel, len);
data[offsetof(oemSelRecord,event_data5)] = i_data->eselRecord[1];
data[offsetof(oemSelRecord,event_data6)] =i_data->eselRecord[0];
}
// use local cc so that we don't corrupt the esel from above
IPMI::completion_code l_cc = IPMI::CC_UNKBAD;
TRACFBIN( g_trac_ipmi, INFO_MRK"add_sel:", data, len);
o_err = IPMI::sendrecv(IPMI::add_sel(),l_cc,len,data);
if(o_err)
{
IPMI_TRAC(ERR_MRK "error from add_sel");
}
else if (l_cc != IPMI::CC_OK)
{
IPMI_TRAC(ERR_MRK "failed add_sel, l_cc %02x", l_cc);
}
else
{
// if CC_OK, then len=2 and data contains the recordID of the new SEL
storeReserveRecord(sel_recordID,data);
}
}
}
if (data)
{
delete [] data;
}
IPMI_TRAC(EXIT_MRK
"send_esel o_err=%.8X, o_cc=x%.2x, sel recID=x%x%x, esel recID=x%x%x",
o_err ? o_err->plid() : NULL, o_cc, sel_recordID[1], sel_recordID[0],
esel_recordID[1], esel_recordID[0]);
return;
} // send_esel
} // IPMISEL
#ifndef __HOSTBOOT_RUNTIME
/**
* @brief Constructor
*/
IpmiSEL::IpmiSEL(void)
:iv_msgQ(msg_q_create())
{
IPMI_TRAC(ENTER_MRK "IpmiSEL ctor");
task_create(&IpmiSEL::start,NULL);
}
/**
* @brief Destructor
*/
IpmiSEL::~IpmiSEL(void)
{
msg_q_destroy(iv_msgQ);
}
void* IpmiSEL::start(void* unused)
{
Singleton<IpmiSEL>::instance().execute();
return NULL;
}
/**
* @brief Entry point of the sel ipmi thread
*/
//@todo: RTC 119832
void IpmiSEL::execute(void)
{
//Mark as an independent daemon so if it crashes we terminate.
task_detach();
while(true)
{
msg_t* msg = msg_wait(iv_msgQ);
const IPMISEL::msg_type msg_type =
static_cast<IPMISEL::msg_type>(msg->type);
// Invert the "default" by checking here. This allows the compiler
// to warn us if the enum has an unhadled case but still catch
// runtime errors where msg_type is set out of bounds.
assert(msg_type <= IPMISEL::MSG_LAST_TYPE,
"msg_type %d not handled", msg_type);
switch(msg_type)
{
case IPMISEL::MSG_SEND_ESEL:
IPMISEL::process_esel(msg);
//done with msg
msg_free(msg);
break;
case IPMISEL::MSG_STATE_SHUTDOWN:
IPMI_TRAC(INFO_MRK "ipmisel shutdown event");
//Respond that we are done shutting down.
msg_respond(iv_msgQ, msg);
break;
case IPMISEL::MSG_STATE_SHUTDOWN_SEL:
IPMI_TRAC(INFO_MRK "ipmisel "
"shutdown message from ipmirp");
msg->type = IPMI::MSG_STATE_SHUTDOWN_SEL;
//Respond that we are done shutting down.
msg_respond(iv_msgQ, msg);
break;
}
} // while(1)
IPMI_TRAC(EXIT_MRK "message loop");
return;
} // execute
#endif
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