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|
/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/htmgt/htmgt_occ.H $ */
/* */
/* 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 */
#ifndef HTMGT_OCC_H
#define HTMGT_OCC_H
#include <stdint.h>
#include <vector>
#if defined(CONFIG_BMC_IPMI)
#include <ipmi/ipmisensor.H>
#endif
namespace HTMGT
{
const uint8_t MASTER_OCC = 0xFF;
const uint32_t OCC_POLL_DATA_MIN_SIZE = 40;
const uint16_t OCC_COMM_INIT_COMPLETE = 0x0EFF;
const uint16_t OCC_INIT_FAILURE = 0xE000;
const uint16_t OCC_TRACE_BUFFER_SIZE = 0x2000;
enum occStateId
{
OCC_STATE_NO_CHANGE = 0x00,
OCC_STATE_STANDBY = 0x01,
OCC_STATE_OBSERVATION = 0x02,
OCC_STATE_ACTIVE = 0x03,
OCC_STATE_SAFE = 0x04,
OCC_STATE_RESET = 0x05,
OCC_STATE_IN_TRANSITION = 0x07,
OCC_STATE_LOADING = 0x08,
OCC_STATE_UNKNOWN = 0x09,
};
enum occRole
{
OCC_ROLE_SLAVE = 0x00,
OCC_ROLE_MASTER = 0x01,
OCC_ROLE_BACKUP_MASTER = 0x02,
OCC_ROLE_FIR_MASTER = 0x80
};
enum
{
OCC_RESET_COUNT_THRESHOLD = 3,
};
enum occResetReason
{
OCC_RESET_REASON_NONE = 0x00,
OCC_RESET_REASON_CRIT_FAILURE = 0x01,
OCC_RESET_REASON_PWR_ON_FAIL = 0x02,
OCC_RESET_REASON_ERROR = 0x03,
OCC_RESET_REASON_POWER_FAULT = 0x04,
OCC_RESET_REASON_DIFF_OCC = 0x05,
OCC_RESET_REASON_OCC_REQUEST = 0x06,
};
// OCC Callout Structure
struct occErrlCallout
{
uint8_t type;
uint64_t calloutValue;
uint8_t priority;
uint16_t reserved1;
} __attribute__ ((__packed__));
typedef struct occErrlCallout occErrlCallout_t;
/**
* @class Occ
*
* @brief OCC data class
*
* @par Detailed Description:
* Provides configuration data for a specific OCC.
* Data will be saved during IPL so it can be used
* at runtime.
*/
class Occ
{
friend class OccManager;
friend class OccCmd;
public:
/**
* @brief Constructor
*
* @param[in] i_instance OCC instance number
* @param[in] i_masterCapable Is OCC capable of being master
* @param[in] i_homer Virtual address of HOMER
* @param[in] i_target OCC target pointer
* @param[in] i_role The role of this OCC
*/
Occ(const uint8_t i_instance,
const bool i_masterCapable,
uint8_t * i_homer,
TARGETING::TargetHandle_t i_target,
const occRole i_role);
/**
* @brief Destructor
*/
~Occ();
/**
* @brief Return the instance nubmer
*
* @return instance number for this OCC
*/
uint8_t getInstance() { return iv_instance; };
/**
* @brief Return pointer to the last poll response
*
* @param[out] o_pollRspPtr pointer to last poll rsp data
*
* @return true if data is valid, else false
*/
bool getLastPollRsp(const uint8_t * & o_pollRspPtr)
{
o_pollRspPtr = iv_lastPollResponse;
return iv_lastPollValid;
};
/**
* @brief Return pointer OCC target
*
* @return pointer to last poll response
*/
TARGETING::TargetHandle_t getTarget() { return iv_target; };
/**
* @brief Poll for Errors
*
* @param[in] i_flushAllErrors:
* If set to true, HTMGT will send poll cmds
* to the OCC as long as the OCC continues
* to report errors. If false, only one
* poll will be sent.
*
* @return NULL on success, else error handle
*/
errlHndl_t pollForErrors(const bool i_flushAllErrors = false);
/**
* @brief Return true if the specified status bit was set in
* the last poll response
*
* @param[in] i_statusBit Bit(s) to check in the poll response
*
* @return true if the bit(s) are set, else false
*/
bool statusBitSet(const uint8_t i_statusBit);
/**
* @brief Set the state of the OCC.
* This is only allowed on the master OCC
*
* @param[in] i_state Desired OCC state
*
* @return NULL on success, or error handle on failure
*/
errlHndl_t setState(const occStateId i_state);
/**
* @brief Return OCC role
*
* @return role of this OCC
*/
occRole getRole() { return iv_role; };
/**
* @brief Return OCC state
*
* @return state of this OCC
*/
occStateId getState() { return iv_state; };
/**
* @brief Prepare this OCC for reset
* @return return true if at threshold otherwise false
*/
bool resetPrep();
/**
* @brief Set IPMI OCC sensor state
* @param i_activate: true - set active
* false - set inactive
*
* @return error log on error
*/
errlHndl_t ipmiSensor(bool i_activate)
{
#if !defined(CONFIG_BMC_IPMI)
return NULL;
#else
return SENSOR::OCCActiveSensor(iv_target).setState
(i_activate ? SENSOR::OCCActiveSensor::OCC_ACTIVE :
SENSOR::OCCActiveSensor::OCC_NOT_ACTIVE);
#endif
}
/**
* @brief Set failed state
* @param[in] failed state
*/
void failed(bool i_state) { iv_failed = i_state; }
/**
* @brief Determine if OCC needs to be reset
*
* @return true if this OCC needs to be reset
*/
bool needsReset() { return iv_needsReset; }
/**
* @brief Return OCCs present bits
*
* @return bitmask representing this OCC position
*/
uint8_t getPresentBits() { return iv_occsPresent; };
/**
* @brief Update OCCs present bits in the master OCC
*
* @note Should only be called for Maseter OCC. This is
* used to ensure the master can see all Slave OCCs
* and that no two slaves have same chip id.
*
* @param[in] i_slavePresent Bitmask for slave OCC to add
*/
void updateOccPresentBits(uint8_t i_slavePresent);
/**
* @brief Add channel 1 (circular buffer) SCOM data to elog
*
* @param[in,out] i_err Error log to add data to
*/
void collectCheckpointScomData(errlHndl_t i_err);
/**
* @brief Add OCC trace buffers to given error log (ERR, IMP, INF)
*
* @param[in,out] - the error log handle to add user data for
*/
void addOccTrace( errlHndl_t & io_errl );
private: // functions
/**
* @brief Process an OCC poll response
*
* @param[in] i_pollResponse pointer to the response
* @param[in] i_pollResponseSize length of the poll response
*/
void pollRspHandler(const uint8_t * i_pollResponse,
const uint16_t i_pollResponseSize);
/**
* @brief Collect, Commit and Clear error log from the OCC
*
* @param[in] i_id OCC elog id to retrieve
* @param[in] i_address SRAM address for elog entry
* @param[in] i_length size of the elog entry
*/
void occProcessElog(const uint8_t i_id,
const uint32_t i_address,
const uint16_t i_length);
/**
* @brief Determine what actions are required for elog
*
* @param[in] i_actions Action requested by OCC
* @param[out] o_occReset returns true if OCC reset is needed
* @param[out] o_errlSeverity severity to use for elog commit
*/
void elogProcessActions(const uint8_t i_actions,
bool & o_occReset,
ERRORLOG::errlSeverity_t & o_errlSeverity);
/**
* @brief Add specified callout to the error log
*
* @param[in,out] io_errlHndl elog to add callout
* @param[in] i_priority priority for callout
* @param[in] i_callout callout from OCC
* @param[in,out] io_numCallouts number of callouts in elog,
* incremented if new callout added
* */
bool elogAddCallout(errlHndl_t & io_errlHndl,
HWAS::callOutPriority & i_priority,
const occErrlCallout_t i_callout,
uint8_t & io_callout_num);
protected:
// Instance number of this OCC: 0 = first physical OCC
uint8_t iv_instance;
// true if this OCC is capable of Master role (wired to APSS)
bool iv_masterCapable;
// Role of this OCC
occRole iv_role;
// State of this OCC
occStateId iv_state;
// true if communication to this OCC has been established
bool iv_commEstablished;
// true if OCC needs to be reset
bool iv_needsReset;
// true if OCC failed
bool iv_failed;
// Sequence number of last/current OCC command
uint8_t iv_seqNumber;
// HOMER base address
uint8_t * iv_homer;
// OCC target
TARGETING::TargetHandle_t iv_target;
// Last poll response (excluding sensor data)
uint8_t iv_lastPollResponse[OCC_POLL_DATA_MIN_SIZE];
// true if lastPollResponse contains valid data
bool iv_lastPollValid;
// expected occsPresent byte in POLL response
uint8_t iv_occsPresent;
occResetReason iv_resetReason;
// Value of last exception committed (to prevent duplicates)
uint8_t iv_exceptionLogged;
/**
* @brief Clear flags after OCC has been reset
*/
void postResetClear();
private:
// Reset count
uint8_t iv_resetCount;
// Version of data stored (0 = not written)
uint8_t iv_version;
};
/**
* @class OccManager
*
* @brief System / Node class
*
* @par Detailed Description:
* Manages all Occ classes and contains data specific to
* this system / node.
*/
class OccManager
{
friend class Occ;
public:
/**
* @brief Constructor
*/
OccManager();
/**
* @brief Destructor
*/
~OccManager();
/**
* @brief Query the functional OCCs and build OCC objects
*
* @return NULL on success, or error handle on failure
*/
static errlHndl_t buildOccs();
/**
* @brief Get number of functional OCCs
*
* @return number of OCCs
*/
static uint8_t getNumOccs();
/**
* @brief Return array of current OCCs
*
* @return vector of OCC objects
*/
static std::vector<Occ*> getOccArray();
/**
* @brief Return pointer to master OCC
*
* @return pointer to master OCC
*/
static Occ * getMasterOcc();
/**
* @brief Return pointer to specified OCC
*
* @return pointer to specified OCC or NULL if not found
*/
static Occ * getOcc(const uint8_t i_instance);
/**
* @brief Reset the OCCs
*
* @param[in] Failing occ target
* @param[in] i_skipCountIncrement true will prevent incrementing
* the system reset count
* @param[in] i_skipComm true will prevent attempts to
* communicate with OCC before reset (poll/resetPrep)
* Used when exiting safe mode.
* @return Error Log | NULL
*/
static errlHndl_t resetOccs(TARGETING::Target * i_failedOccTarget,
bool i_skipCountIncrement = false,
bool i_skipComm = false);
/**
* @brief Set the state of the OCCs. If i_state is
* not specified (NO_CHANGE), OCCs will be set
* to the target state (last requested state
* or if not requested the default is ACTIVE)
*
* @param[in] i_state Desired OCC state
*
* @return NULL on success, or error handle on failure
*/
static errlHndl_t setOccState(const occStateId i_state =
OCC_STATE_NO_CHANGE);
/**
* @brief Get the OCC state that should be used after the OCCs
* have been loaded or reset
*
* @note Target state will default to ACTIVE, but
* can be changed with HTMGT::enableOccActuation()
*
* @return target state
*/
static occStateId getTargetState();
/**
* @brief Wait for all of the OCCs to reach their checkpoint
* state. That indicates that the OCCs are ready to
* communicate and start handling commands. This
* function will wait up to 10 seconds for all OCCs
* before returning to the caller.
*
* @return NULL on success, or error handle for the first OCC
* that did not reach its checkpoint. If additional OCCs
* do not reach their checkpoint an elog will be committed
* for each.
*/
static errlHndl_t waitForOccCheckpoint();
/**
* @brief Send a poll command to one or all OCCs
*
* @param[in] i_flushAllErrors:
* If set to true, HTMGT will send poll cmds
* to each OCC that is selected as long as that OCC
* continues to report errors. If false, only one
* poll will be send to each OCC.
* @param[in] i_occTarget: The Selected OCC or NULL for all OCCs
*
* @return NULL on success, else error handle
*/
static errlHndl_t
sendOccPoll(const bool i_flushAllErrors = false,
TARGETING::Target * i_occTarget = NULL);
/**
* @brief Save the reason that the system is entering safe mode
*
* @param[in] i_src SRC which triggered safe mode
* @param[in] i_instance OCC which triggered safe mode
*/
static void updateSafeModeReason(uint32_t i_src,
uint32_t i_instance);
/**
* @brief Return the reason the system entered safe mode
*
* @param[out] o_instance OCC instance
*
* @return SRC which triggered safe mode
*/
static uint32_t getSafeModeReason(uint32_t & o_instance);
/**
* @brief Check if any OCCs need to be reset
*
* @return true if any OCC needs to be reset
*/
static bool occNeedsReset();
/**
* @brief Collect FFDC debug data for HTMGT and OCCs
*
* @param[out] o_length Length of data returned in o_data
* @param[out] o_data Buffer of 256 bytes where data will
* be copied
*/
static void getOccData(uint16_t & o_length, uint8_t *o_data);
/**
* @brief Load specified pstate tables for all OCCs.
* This will reset all OCCs so they pick up the new
* tables.
*
* @param[in] i_normalPstates true to generate normal pstate tables
* false to generate mfg pstate tables
*
* @return NULL on success, else error handle
*/
static errlHndl_t loadPstates(bool i_normalPstates);
/**
* @brief Determine if normal pstate tables should be used
*
* @return true if normal pstates should be used
*/
static bool isNormalPstate();
/**
* @brief Determine if normal pstate tables should be used
*
* @param[in] i_useNormal Set to true if normal pstate table
* should be used (vs MFG table)
*/
static void setPstateTable(bool i_useNormal);
/**
* @brief Update error log with safe mode callouts and set
* attribute indicating system is in safe mode.
*
* @param[in,out] io_err Error log to be updated
* */
void updateForSafeMode(errlHndl_t & io_err);
/**
* @brief Check if any OCC has failed
*
* @return true if any OCC has been marked as failed
*/
static bool occFailed();
/**
* @brief Update OCC manager state with consolidated OCC state
*
*/
static void syncOccStates();
/**
* @brief Clear all OCC reset counts
*
*/
static void clearResetCounts();
private:
typedef std::vector<Occ*> occList_t;
Occ * iv_occMaster;
occList_t iv_occArray;
occStateId iv_state;
occStateId iv_targetState;
uint8_t iv_resetCount;
bool iv_normalPstateTables;
/**
* @brief SRC that caused system to enter safe mode
*/
static uint32_t cv_safeReturnCode;
/**
* @brief OCC instance that triggered safe mode
*/
static uint32_t cv_safeOccInstance;
/* See buildOccs() above */
errlHndl_t _buildOccs();
/* See getNumOccs() above */
uint8_t _getNumOccs() { return iv_occArray.size(); };
/* See getOccArray() above */
std::vector<Occ*> _getOccArray() { return iv_occArray; };
/* See getTargetState() above */
occStateId _getTargetState() { return iv_targetState; };
/**
* @brief Remove all OCC objects
*/
void _removeAllOccs();
/**
* @brief Add a functional OCC to be monitored
*
* @param[in] i_instance OCC instance number
* @param[in] i_masterCapable Is OCC capable of being master
* @param[in] i_homer Virtual address of HOMER
* @param[in] i_target OCC target pointer
* @param[in] i_role OCC role
*/
void _addOcc(const uint8_t i_instance,
const bool i_masterCapable,
uint8_t * i_homer,
TARGETING::TargetHandle_t i_target);
/* See getMasterOcc() above */
Occ * _getMasterOcc() { return iv_occMaster; };
/* See getOcc() above */
Occ * _getOcc(const uint8_t i_instance);
/* See setOccState() above */
errlHndl_t _setOccState(const occStateId i_state);
/* See waitForOccCheckpoint() above */
errlHndl_t _waitForOccCheckpoint();
/* See resetOccs() above */
errlHndl_t _resetOccs(TARGETING::Target * i_failedOccTarget,
bool i_skipCountIncrement = false,
bool i_skipComm = false);
/** See sendOccPoll() above */
errlHndl_t
_sendOccPoll(const bool i_flushAllErrors,
TARGETING::Target * i_occTarget);
/** See updateSafeModeReason() above */
void _updateSafeModeReason(uint32_t i_src,
uint32_t i_instance);
/** See getSafeModeReason() above */
uint32_t _getSafeModeReason(uint32_t & o_instance);
/** See occNeedsReset() above */
bool _occNeedsReset();
/** See occFailed() above */
bool _occFailed();
/** See getOccData() above */
void _getOccData(uint16_t & o_length, uint8_t *o_data);
/** See loadPstates() above */
errlHndl_t _loadPstates(bool i_normalPstates);
/** See isNormalPstate() above */
bool _isNormalPstate()
{
return(true == iv_normalPstateTables);
};
/** See setPstateTable() above */
void _setPstateTable(bool i_useNormal)
{
iv_normalPstateTables = i_useNormal;
};
/** See syncOccStates() above */
void _syncOccStates();
/** See clearResetCounts() above */
void _clearResetCounts();
};
typedef Singleton<OccManager> occMgr;
} // end namespace
#endif
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