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qemu / skiboot / refs/tags/v6.8.1 / . / include / occ.h
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// SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
/* Copyright 2017-2019 IBM Corp. */
#include <chip.h>
/* OCC Functions */
extern void occ_pstates_init(void);
extern void occ_fsp_init(void);
int find_master_and_slave_occ(uint64_t **master, uint64_t **slave,
int *nr_masters, int *nr_slaves);
/* OCC interrupt for P8 */
extern void occ_p8_interrupt(uint32_t chip_id);
extern void occ_send_dummy_interrupt(void);
/* OCC interrupt for P9 */
extern void occ_p9_interrupt(uint32_t chip_id);
/* OCC load support */
extern void occ_poke_load_queue(void);
/* OCC/Host PNOR ownership */
enum pnor_owner {
PNOR_OWNER_HOST,
PNOR_OWNER_EXTERNAL,
};
extern void occ_pnor_set_owner(enum pnor_owner owner);
/* GPU presence detection */
bool occ_get_gpu_presence(struct proc_chip *chip, int gpu_num);
/* OCC Inband Sensors */
extern bool occ_sensors_init(void);
extern int occ_sensor_read(u32 handle, __be64 *data);
extern int occ_sensor_group_clear(u32 group_hndl, int token);
extern void occ_add_sensor_groups(struct dt_node *sg, __be32 *phandles,
u32 *ptype, int nr_phandles, int chipid);
extern int occ_sensor_group_enable(u32 group_hndl, int token, bool enable);
extern bool is_occ_reset(void);
/*
* OCC Sensor Data
*
* OCC sensor data will use BAR2 (OCC Common is per physical drawer).
* Starting address is at offset 0x00580000 from BAR2 base address.
* Maximum size is 1.5MB.
*
* -------------------------------------------------------------------------
* | Start (Offset from | End | Size |Description |
* | BAR2 base address) | | | |
* -------------------------------------------------------------------------
* | 0x00580000 | 0x005A57FF |150kB |OCC 0 Sensor Data Block|
* | 0x005A5800 | 0x005CAFFF |150kB |OCC 1 Sensor Data Block|
* | : | : | : | : |
* | 0x00686800 | 0x006ABFFF |150kB |OCC 7 Sensor Data Block|
* | 0x006AC000 | 0x006FFFFF |336kB |Reserved |
* -------------------------------------------------------------------------
*
*
* OCC N Sensor Data Block Layout (150kB)
*
* The sensor data block layout is the same for each OCC N. It contains
* sensor-header-block, sensor-names buffer, sensor-readings-ping buffer and
* sensor-readings-pong buffer.
*
* ----------------------------------------------------------------------------
* | Start (Offset from OCC | End | Size |Description |
* | N Sensor Data Block) | | | |
* ----------------------------------------------------------------------------
* | 0x00000000 | 0x000003FF |1kB |Sensor Data Header Block |
* | 0x00000400 | 0x0000CBFF |50kB |Sensor Names |
* | 0x0000CC00 | 0x0000DBFF |4kB |Reserved |
* | 0x0000DC00 | 0x00017BFF |40kB |Sensor Readings ping buffer|
* | 0x00017C00 | 0x00018BFF |4kB |Reserved |
* | 0x00018C00 | 0x00022BFF |40kB |Sensor Readings pong buffer|
* | 0x00022C00 | 0x000257FF |11kB |Reserved |
* ----------------------------------------------------------------------------
*
* Sensor Data Header Block : This is written once by the OCC during
* initialization after a load or reset. Layout is defined in 'struct
* occ_sensor_data_header'
*
* Sensor Names : This is written once by the OCC during initialization after a
* load or reset. It contains static information for each sensor. The number of
* sensors, format version and length of each sensor is defined in
* 'Sensor Data Header Block'. Format of each sensor name is defined in
* 'struct occ_sensor_name'. The first sensor starts at offset 0 followed
* immediately by the next sensor.
*
* Sensor Readings Ping/Pong Buffer:
* There are two 40kB buffers to store the sensor readings. One buffer that
* is currently being updated by the OCC and one that is available to be read.
* Each of these buffers will be of the same format. The number of sensors and
* the format version of the ping and pong buffers is defined in the
* 'Sensor Data Header Block'.
*
* Each sensor within the ping and pong buffers may be of a different format
* and length. For each sensor the length and format is determined by its
* 'struct occ_sensor_name.structure_type' in the Sensor Names buffer.
*
* --------------------------------------------------------------------------
* | Offset | Byte0 | Byte1 | Byte2 | Byte3 | Byte4 | Byte5 | Byte6 | Byte7 |
* --------------------------------------------------------------------------
* | 0x0000 |Valid | Reserved |
* | |(0x01) | |
* --------------------------------------------------------------------------
* | 0x0008 | Sensor Readings |
* --------------------------------------------------------------------------
* | : | : |
* --------------------------------------------------------------------------
* | 0xA000 | End of Data |
* --------------------------------------------------------------------------
*
*/
#define MAX_OCCS 8
#define MAX_CHARS_SENSOR_NAME 16
#define MAX_CHARS_SENSOR_UNIT 4
#define OCC_SENSOR_DATA_BLOCK_OFFSET 0x00580000
#define OCC_SENSOR_DATA_BLOCK_SIZE 0x00025800
/*
* These should match the definitions inside the OCC source:
* occ/src/occ_405/sensor/sensor_info.c
*/
enum occ_sensor_type {
OCC_SENSOR_TYPE_GENERIC = 0x0001,
OCC_SENSOR_TYPE_CURRENT = 0x0002,
OCC_SENSOR_TYPE_VOLTAGE = 0x0004,
OCC_SENSOR_TYPE_TEMPERATURE = 0x0008,
OCC_SENSOR_TYPE_UTILIZATION = 0x0010,
OCC_SENSOR_TYPE_TIME = 0x0020,
OCC_SENSOR_TYPE_FREQUENCY = 0x0040,
OCC_SENSOR_TYPE_POWER = 0x0080,
OCC_SENSOR_TYPE_PERFORMANCE = 0x0200,
};
#define OCC_ENABLED_SENSOR_MASK (OCC_SENSOR_TYPE_GENERIC | \
OCC_SENSOR_TYPE_CURRENT | \
OCC_SENSOR_TYPE_VOLTAGE | \
OCC_SENSOR_TYPE_TIME | \
OCC_SENSOR_TYPE_TEMPERATURE | \
OCC_SENSOR_TYPE_POWER | \
OCC_SENSOR_TYPE_UTILIZATION | \
OCC_SENSOR_TYPE_FREQUENCY | \
OCC_SENSOR_TYPE_PERFORMANCE);
enum occ_sensor_location {
OCC_SENSOR_LOC_SYSTEM = 0x0001,
OCC_SENSOR_LOC_PROCESSOR = 0x0002,
OCC_SENSOR_LOC_PARTITION = 0x0004,
OCC_SENSOR_LOC_MEMORY = 0x0008,
OCC_SENSOR_LOC_VRM = 0x0010,
OCC_SENSOR_LOC_OCC = 0x0020,
OCC_SENSOR_LOC_CORE = 0x0040,
OCC_SENSOR_LOC_GPU = 0x0080,
OCC_SENSOR_LOC_QUAD = 0x0100,
};
enum sensor_struct_type {
OCC_SENSOR_READING_FULL = 0x01,
OCC_SENSOR_READING_COUNTER = 0x02,
};
/**
* struct occ_sensor_data_header - Sensor Data Header Block
* @valid: When the value is 0x01 it indicates
* that this header block and the sensor
* names buffer are ready
* @version: Format version of this block
* @nr_sensors: Number of sensors in names, ping and
* pong buffer
* @reading_version: Format version of the Ping/Pong buffer
* @names_offset: Offset to the location of names buffer
* @names_version: Format version of names buffer
* @names_length: Length of each sensor in names buffer
* @reading_ping_offset: Offset to the location of Ping buffer
* @reading_pong_offset: Offset to the location of Pong buffer
* @pad/reserved: Unused data
*/
struct occ_sensor_data_header {
u8 valid;
u8 version;
__be16 nr_sensors;
u8 reading_version;
u8 pad[3];
__be32 names_offset;
u8 names_version;
u8 name_length;
u16 reserved;
__be32 reading_ping_offset;
__be32 reading_pong_offset;
} __attribute__((__packed__));
/**
* struct occ_sensor_name - Format of Sensor Name
* @name: Sensor name
* @units: Sensor units of measurement
* @gsid: Global sensor id (OCC)
* @freq: Update frequency
* @scale_factor: Scaling factor
* @type: Sensor type as defined in
* 'enum occ_sensor_type'
* @location: Sensor location as defined in
* 'enum occ_sensor_location'
* @structure_type: Indicates type of data structure used
* for the sensor readings in the ping and
* pong buffers for this sensor as defined
* in 'enum sensor_struct_type'
* @reading_offset: Offset from the start of the ping/pong
* reading buffers for this sensor
* @sensor_data: Sensor specific info
* @pad: Padding to fit the size of 48 bytes.
*/
struct occ_sensor_name {
char name[MAX_CHARS_SENSOR_NAME];
char units[MAX_CHARS_SENSOR_UNIT];
__be16 gsid;
__be32 freq;
__be32 scale_factor;
__be16 type;
__be16 location;
u8 structure_type;
__be32 reading_offset;
u8 sensor_data;
u8 pad[8];
} __attribute__((__packed__));
/**
* struct occ_sensor_record - Sensor Reading Full
* @gsid: Global sensor id (OCC)
* @timestamp: Time base counter value while updating
* the sensor
* @sample: Latest sample of this sensor
* @sample_min: Minimum value since last OCC reset
* @sample_max: Maximum value since last OCC reset
* @csm_min: Minimum value since last reset request
* by CSM (CORAL)
* @csm_max: Maximum value since last reset request
* by CSM (CORAL)
* @profiler_min: Minimum value since last reset request
* by profiler (CORAL)
* @profiler_max: Maximum value since last reset request
* by profiler (CORAL)
* @job_scheduler_min: Minimum value since last reset request
* by job scheduler(CORAL)
* @job_scheduler_max: Maximum value since last reset request
* by job scheduler (CORAL)
* @accumulator: Accumulator for this sensor
* @update_tag: Count of the number of ticks that have
* passed between updates
* @pad: Padding to fit the size of 48 bytes
*/
struct occ_sensor_record {
u16 gsid;
__be64 timestamp;
__be16 sample;
__be16 sample_min;
__be16 sample_max;
__be16 csm_min;
__be16 csm_max;
__be16 profiler_min;
__be16 profiler_max;
__be16 job_scheduler_min;
__be16 job_scheduler_max;
__be64 accumulator;
__be32 update_tag;
u8 pad[8];
} __attribute__((__packed__));
/**
* struct occ_sensor_counter - Sensor Reading Counter
* @gsid: Global sensor id (OCC)
* @timestamp: Time base counter value while updating
* the sensor
* @accumulator: Accumulator/Counter
* @sample: Latest sample of this sensor (0/1)
* @pad: Padding to fit the size of 24 bytes
*/
struct occ_sensor_counter {
u16 gsid;
__be64 timestamp;
__be64 accumulator;
u8 sample;
u8 pad[5];
} __attribute__((__packed__));