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/*
* Copyright (c) 2016-2017, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef __MCE_PRIVATE_H__
#define __MCE_PRIVATE_H__
#include <mmio.h>
#include <tegra_def.h>
/*******************************************************************************
* Macros to prepare CSTATE info request
******************************************************************************/
/* Description of the parameters for UPDATE_CSTATE_INFO request */
#define CLUSTER_CSTATE_MASK 0x7ULL
#define CLUSTER_CSTATE_SHIFT 0U
#define CLUSTER_CSTATE_UPDATE_BIT (1ULL << 7)
#define CCPLEX_CSTATE_MASK 0x3ULL
#define CCPLEX_CSTATE_SHIFT 8ULL
#define CCPLEX_CSTATE_UPDATE_BIT (1ULL << 15)
#define SYSTEM_CSTATE_MASK 0xFULL
#define SYSTEM_CSTATE_SHIFT 16ULL
#define SYSTEM_CSTATE_FORCE_UPDATE_SHIFT 22ULL
#define SYSTEM_CSTATE_FORCE_UPDATE_BIT (1ULL << 22)
#define SYSTEM_CSTATE_UPDATE_BIT (1ULL << 23)
#define CSTATE_WAKE_MASK_UPDATE_BIT (1ULL << 31)
#define CSTATE_WAKE_MASK_SHIFT 32ULL
#define CSTATE_WAKE_MASK_CLEAR 0xFFFFFFFFU
/*******************************************************************************
* Auto-CC3 control macros
******************************************************************************/
#define MCE_AUTO_CC3_FREQ_MASK 0x1FFU
#define MCE_AUTO_CC3_FREQ_SHIFT 0U
#define MCE_AUTO_CC3_VTG_MASK 0x7FU
#define MCE_AUTO_CC3_VTG_SHIFT 16U
#define MCE_AUTO_CC3_ENABLE_BIT (1U << 31)
/*******************************************************************************
* Macros for the 'IS_SC7_ALLOWED' command
******************************************************************************/
#define MCE_SC7_ALLOWED_MASK 0x7U
#define MCE_SC7_WAKE_TIME_SHIFT 32U
/*******************************************************************************
* Macros for 'read/write ctats' commands
******************************************************************************/
#define MCE_CSTATE_STATS_TYPE_SHIFT 32ULL
#define MCE_CSTATE_WRITE_DATA_LO_MASK 0xFU
/*******************************************************************************
* Macros for 'update crossover threshold' command
******************************************************************************/
#define MCE_CROSSOVER_THRESHOLD_TIME_SHIFT 32U
/*******************************************************************************
* MCA command struct
******************************************************************************/
typedef union mca_cmd {
struct command {
uint8_t cmd;
uint8_t idx;
uint8_t subidx;
} command;
struct input {
uint32_t low;
uint32_t high;
} input;
uint64_t data;
} mca_cmd_t;
/*******************************************************************************
* MCA argument struct
******************************************************************************/
typedef union mca_arg {
struct err {
uint32_t error:8;
uint32_t unused:24;
uint32_t unused2:24;
uint32_t finish:8;
} err;
struct arg {
uint32_t low;
uint32_t high;
} arg;
uint64_t data;
} mca_arg_t;
/*******************************************************************************
* Uncore PERFMON ARI struct
******************************************************************************/
typedef union uncore_perfmon_req {
struct perfmon_command {
/*
* Commands: 0 = READ, 1 = WRITE
*/
uint32_t cmd:8;
/*
* The unit group: L2=0, L3=1, ROC=2, MC=3, IOB=4
*/
uint32_t grp:4;
/*
* Unit selector: Selects the unit instance, with 0 = Unit
* = (number of units in group) - 1.
*/
uint32_t unit:4;
/*
* Selects the uncore perfmon register to access
*/
uint32_t reg:8;
/*
* Counter number. Selects which counter to use for
* registers NV_PMEVCNTR and NV_PMEVTYPER.
*/
uint32_t counter:8;
} perfmon_command;
struct perfmon_status {
/*
* Resulting command status
*/
uint32_t val:8;
uint32_t unused:24;
} perfmon_status;
uint64_t data;
} uncore_perfmon_req_t;
#define UNCORE_PERFMON_CMD_READ 0U
#define UNCORE_PERFMON_CMD_WRITE 1U
#define UNCORE_PERFMON_CMD_MASK 0xFFU
#define UNCORE_PERFMON_UNIT_GRP_MASK 0xFU
#define UNCORE_PERFMON_SELECTOR_MASK 0xFU
#define UNCORE_PERFMON_REG_MASK 0xFFU
#define UNCORE_PERFMON_CTR_MASK 0xFFU
#define UNCORE_PERFMON_RESP_STATUS_MASK 0xFFU
/*******************************************************************************
* Structure populated by arch specific code to export routines which perform
* common low level MCE functions
******************************************************************************/
typedef struct arch_mce_ops {
/*
* This ARI request sets up the MCE to start execution on assertion
* of STANDBYWFI, update the core power state and expected wake time,
* then determine the proper power state to enter.
*/
int (*enter_cstate)(uint32_t ari_base, uint32_t state,
uint32_t wake_time);
/*
* This ARI request allows updating of the CLUSTER_CSTATE,
* CCPLEX_CSTATE, and SYSTEM_CSTATE register values.
*/
int (*update_cstate_info)(uint32_t ari_base,
uint32_t cluster,
uint32_t ccplex,
uint32_t system,
uint8_t sys_state_force,
uint32_t wake_mask,
uint8_t update_wake_mask);
/*
* This ARI request allows updating of power state crossover
* threshold times. An index value specifies which crossover
* state is being updated.
*/
int (*update_crossover_time)(uint32_t ari_base,
uint32_t type,
uint32_t time);
/*
* This ARI request allows read access to statistical information
* related to power states.
*/
uint64_t (*read_cstate_stats)(uint32_t ari_base,
uint32_t state);
/*
* This ARI request allows write access to statistical information
* related to power states.
*/
int (*write_cstate_stats)(uint32_t ari_base,
uint32_t state,
uint32_t stats);
/*
* This ARI request allows the CPU to understand the features
* supported by the MCE firmware.
*/
uint64_t (*call_enum_misc)(uint32_t ari_base, uint32_t cmd,
uint32_t data);
/*
* This ARI request allows querying the CCPLEX to determine if
* the CCx state is allowed given a target core C-state and wake
* time. If the CCx state is allowed, the response indicates CCx
* must be entered. If the CCx state is not allowed, the response
* indicates CC6/CC7 can't be entered
*/
int (*is_ccx_allowed)(uint32_t ari_base, uint32_t state,
uint32_t wake_time);
/*
* This ARI request allows querying the CCPLEX to determine if
* the SC7 state is allowed given a target core C-state and wake
* time. If the SC7 state is allowed, all cores but the associated
* core are offlined (WAKE_EVENTS are set to 0) and the response
* indicates SC7 must be entered. If the SC7 state is not allowed,
* the response indicates SC7 can't be entered
*/
int (*is_sc7_allowed)(uint32_t ari_base, uint32_t state,
uint32_t wake_time);
/*
* This ARI request allows a core to bring another offlined core
* back online to the C0 state. Note that a core is offlined by
* entering a C-state where the WAKE_MASK is all 0.
*/
int (*online_core)(uint32_t ari_base, uint32_t cpuid);
/*
* This ARI request allows the CPU to enable/disable Auto-CC3 idle
* state.
*/
int (*cc3_ctrl)(uint32_t ari_base,
uint32_t freq,
uint32_t volt,
uint8_t enable);
/*
* This ARI request allows updating the reset vector register for
* D15 and A57 CPUs.
*/
int (*update_reset_vector)(uint32_t ari_base);
/*
* This ARI request instructs the ROC to flush A57 data caches in
* order to maintain coherency with the Denver cluster.
*/
int (*roc_flush_cache)(uint32_t ari_base);
/*
* This ARI request instructs the ROC to flush A57 data caches along
* with the caches covering ARM code in order to maintain coherency
* with the Denver cluster.
*/
int (*roc_flush_cache_trbits)(uint32_t ari_base);
/*
* This ARI request instructs the ROC to clean A57 data caches along
* with the caches covering ARM code in order to maintain coherency
* with the Denver cluster.
*/
int (*roc_clean_cache)(uint32_t ari_base);
/*
* This ARI request reads/writes the Machine Check Arch. (MCA)
* registers.
*/
uint64_t (*read_write_mca)(uint32_t ari_base,
mca_cmd_t cmd,
uint64_t *data);
/*
* Some MC GSC (General Security Carveout) register values are
* expected to be changed by TrustZone secure ARM code after boot.
* Since there is no hardware mechanism for the CCPLEX to know
* that an MC GSC register has changed to allow it to update its
* own internal GSC register, there needs to be a mechanism that
* can be used by ARM code to cause the CCPLEX to update its GSC
* register value. This ARI request allows updating the GSC register
* value for a certain carveout in the CCPLEX.
*/
int (*update_ccplex_gsc)(uint32_t ari_base, uint32_t gsc_idx);
/*
* This ARI request instructs the CCPLEX to either shutdown or
* reset the entire system
*/
void (*enter_ccplex_state)(uint32_t ari_base, uint32_t state_idx);
/*
* This ARI request reads/writes data from/to Uncore PERFMON
* registers
*/
int (*read_write_uncore_perfmon)(uint32_t ari_base,
uncore_perfmon_req_t req, uint64_t *data);
/*
* This ARI implements ARI_MISC_CCPLEX commands. This can be
* used to enable/disable coresight clock gating.
*/
void (*misc_ccplex)(uint32_t ari_base, uint32_t index,
uint32_t value);
} arch_mce_ops_t;
/* declarations for ARI/NVG handler functions */
int ari_enter_cstate(uint32_t ari_base, uint32_t state, uint32_t wake_time);
int ari_update_cstate_info(uint32_t ari_base, uint32_t cluster, uint32_t ccplex,
uint32_t system, uint8_t sys_state_force, uint32_t wake_mask,
uint8_t update_wake_mask);
int ari_update_crossover_time(uint32_t ari_base, uint32_t type, uint32_t time);
uint64_t ari_read_cstate_stats(uint32_t ari_base, uint32_t state);
int ari_write_cstate_stats(uint32_t ari_base, uint32_t state, uint32_t stats);
uint64_t ari_enumeration_misc(uint32_t ari_base, uint32_t cmd, uint32_t data);
int ari_is_ccx_allowed(uint32_t ari_base, uint32_t state, uint32_t wake_time);
int ari_is_sc7_allowed(uint32_t ari_base, uint32_t state, uint32_t wake_time);
int ari_online_core(uint32_t ari_base, uint32_t core);
int ari_cc3_ctrl(uint32_t ari_base, uint32_t freq, uint32_t volt, uint8_t enable);
int ari_reset_vector_update(uint32_t ari_base);
int ari_roc_flush_cache_trbits(uint32_t ari_base);
int ari_roc_flush_cache(uint32_t ari_base);
int ari_roc_clean_cache(uint32_t ari_base);
uint64_t ari_read_write_mca(uint32_t ari_base, mca_cmd_t cmd, uint64_t *data);
int ari_update_ccplex_gsc(uint32_t ari_base, uint32_t gsc_idx);
void ari_enter_ccplex_state(uint32_t ari_base, uint32_t state_idx);
int ari_read_write_uncore_perfmon(uint32_t ari_base,
uncore_perfmon_req_t req, uint64_t *data);
void ari_misc_ccplex(uint32_t ari_base, uint32_t index, uint32_t value);
int nvg_enter_cstate(uint32_t ari_base, uint32_t state, uint32_t wake_time);
int nvg_update_cstate_info(uint32_t ari_base, uint32_t cluster, uint32_t ccplex,
uint32_t system, uint8_t sys_state_force, uint32_t wake_mask,
uint8_t update_wake_mask);
int nvg_update_crossover_time(uint32_t ari_base, uint32_t type, uint32_t time);
uint64_t nvg_read_cstate_stats(uint32_t ari_base, uint32_t state);
int nvg_write_cstate_stats(uint32_t ari_base, uint32_t state, uint32_t val);
int nvg_is_ccx_allowed(uint32_t ari_base, uint32_t state, uint32_t wake_time);
int nvg_is_sc7_allowed(uint32_t ari_base, uint32_t state, uint32_t wake_time);
int nvg_online_core(uint32_t ari_base, uint32_t core);
int nvg_cc3_ctrl(uint32_t ari_base, uint32_t freq, uint32_t volt, uint8_t enable);
#endif /* __MCE_PRIVATE_H__ */