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|
/* SPDX-License-Identifier: GPL-2.0
*
* Copyright 2020-2023 HabanaLabs, Ltd.
* All Rights Reserved.
*
*/
#ifndef CPUCP_IF_H
#define CPUCP_IF_H
#include <linux/types.h>
#include <linux/if_ether.h>
#include "hl_boot_if.h"
#define NUM_HBM_PSEUDO_CH 2
#define NUM_HBM_CH_PER_DEV 8
#define CPUCP_PKT_HBM_ECC_INFO_WR_PAR_SHIFT 0
#define CPUCP_PKT_HBM_ECC_INFO_WR_PAR_MASK 0x00000001
#define CPUCP_PKT_HBM_ECC_INFO_RD_PAR_SHIFT 1
#define CPUCP_PKT_HBM_ECC_INFO_RD_PAR_MASK 0x00000002
#define CPUCP_PKT_HBM_ECC_INFO_CA_PAR_SHIFT 2
#define CPUCP_PKT_HBM_ECC_INFO_CA_PAR_MASK 0x00000004
#define CPUCP_PKT_HBM_ECC_INFO_DERR_SHIFT 3
#define CPUCP_PKT_HBM_ECC_INFO_DERR_MASK 0x00000008
#define CPUCP_PKT_HBM_ECC_INFO_SERR_SHIFT 4
#define CPUCP_PKT_HBM_ECC_INFO_SERR_MASK 0x00000010
#define CPUCP_PKT_HBM_ECC_INFO_TYPE_SHIFT 5
#define CPUCP_PKT_HBM_ECC_INFO_TYPE_MASK 0x00000020
#define CPUCP_PKT_HBM_ECC_INFO_HBM_CH_SHIFT 6
#define CPUCP_PKT_HBM_ECC_INFO_HBM_CH_MASK 0x000007C0
#define PLL_MAP_MAX_BITS 128
#define PLL_MAP_LEN (PLL_MAP_MAX_BITS / 8)
enum eq_event_id {
EQ_EVENT_NIC_STS_REQUEST = 0,
EQ_EVENT_PWR_MODE_0,
EQ_EVENT_PWR_MODE_1,
EQ_EVENT_PWR_MODE_2,
EQ_EVENT_PWR_MODE_3,
EQ_EVENT_PWR_BRK_ENTRY,
EQ_EVENT_PWR_BRK_EXIT,
EQ_EVENT_HEARTBEAT,
};
/*
* info of the pkt queue pointers in the first async occurrence
*/
struct cpucp_pkt_sync_err {
__le32 pi;
__le32 ci;
};
struct hl_eq_hbm_ecc_data {
/* SERR counter */
__le32 sec_cnt;
/* DERR counter */
__le32 dec_cnt;
/* Supplemental Information according to the mask bits */
__le32 hbm_ecc_info;
/* Address in hbm where the ecc happened */
__le32 first_addr;
/* SERR continuous address counter */
__le32 sec_cont_cnt;
__le32 pad;
};
/*
* EVENT QUEUE
*/
struct hl_eq_header {
__le32 reserved;
__le32 ctl;
};
struct hl_eq_ecc_data {
__le64 ecc_address;
__le64 ecc_syndrom;
__u8 memory_wrapper_idx;
__u8 is_critical;
__le16 block_id;
__u8 pad[4];
};
enum hl_sm_sei_cause {
SM_SEI_SO_OVERFLOW,
SM_SEI_LBW_4B_UNALIGNED,
SM_SEI_AXI_RESPONSE_ERR
};
struct hl_eq_sm_sei_data {
__le32 sei_log;
/* enum hl_sm_sei_cause */
__u8 sei_cause;
__u8 pad[3];
};
enum hl_fw_alive_severity {
FW_ALIVE_SEVERITY_MINOR,
FW_ALIVE_SEVERITY_CRITICAL
};
struct hl_eq_fw_alive {
__le64 uptime_seconds;
__le32 process_id;
__le32 thread_id;
/* enum hl_fw_alive_severity */
__u8 severity;
__u8 pad[7];
};
struct hl_eq_intr_cause {
__le64 intr_cause_data;
};
struct hl_eq_pcie_drain_ind_data {
struct hl_eq_intr_cause intr_cause;
__le64 drain_wr_addr_lbw;
__le64 drain_rd_addr_lbw;
__le64 drain_wr_addr_hbw;
__le64 drain_rd_addr_hbw;
};
struct hl_eq_razwi_lbw_info_regs {
__le32 rr_aw_razwi_reg;
__le32 rr_aw_razwi_id_reg;
__le32 rr_ar_razwi_reg;
__le32 rr_ar_razwi_id_reg;
};
struct hl_eq_razwi_hbw_info_regs {
__le32 rr_aw_razwi_hi_reg;
__le32 rr_aw_razwi_lo_reg;
__le32 rr_aw_razwi_id_reg;
__le32 rr_ar_razwi_hi_reg;
__le32 rr_ar_razwi_lo_reg;
__le32 rr_ar_razwi_id_reg;
};
/* razwi_happened masks */
#define RAZWI_HAPPENED_HBW 0x1
#define RAZWI_HAPPENED_LBW 0x2
#define RAZWI_HAPPENED_AW 0x4
#define RAZWI_HAPPENED_AR 0x8
struct hl_eq_razwi_info {
__le32 razwi_happened_mask;
union {
struct hl_eq_razwi_lbw_info_regs lbw;
struct hl_eq_razwi_hbw_info_regs hbw;
};
__le32 pad;
};
struct hl_eq_razwi_with_intr_cause {
struct hl_eq_razwi_info razwi_info;
struct hl_eq_intr_cause intr_cause;
};
#define HBM_CA_ERR_CMD_LIFO_LEN 8
#define HBM_RD_ERR_DATA_LIFO_LEN 8
#define HBM_WR_PAR_CMD_LIFO_LEN 11
enum hl_hbm_sei_cause {
/* Command/address parity error event is split into 2 events due to
* size limitation: ODD suffix for odd HBM CK_t cycles and EVEN suffix
* for even HBM CK_t cycles
*/
HBM_SEI_CMD_PARITY_EVEN,
HBM_SEI_CMD_PARITY_ODD,
/* Read errors can be reflected as a combination of SERR/DERR/parity
* errors. Therefore, we define one event for all read error types.
* LKD will perform further proccessing.
*/
HBM_SEI_READ_ERR,
HBM_SEI_WRITE_DATA_PARITY_ERR,
HBM_SEI_CATTRIP,
HBM_SEI_MEM_BIST_FAIL,
HBM_SEI_DFI,
HBM_SEI_INV_TEMP_READ_OUT,
HBM_SEI_BIST_FAIL,
};
/* Masks for parsing hl_hbm_sei_headr fields */
#define HBM_ECC_SERR_CNTR_MASK 0xFF
#define HBM_ECC_DERR_CNTR_MASK 0xFF00
#define HBM_RD_PARITY_CNTR_MASK 0xFF0000
/* HBM index and MC index are known by the event_id */
struct hl_hbm_sei_header {
union {
/* relevant only in case of HBM read error */
struct {
__u8 ecc_serr_cnt;
__u8 ecc_derr_cnt;
__u8 read_par_cnt;
__u8 reserved;
};
/* All other cases */
__le32 cnt;
};
__u8 sei_cause; /* enum hl_hbm_sei_cause */
__u8 mc_channel; /* range: 0-3 */
__u8 mc_pseudo_channel; /* range: 0-7 */
__u8 is_critical;
};
#define HBM_RD_ADDR_SID_SHIFT 0
#define HBM_RD_ADDR_SID_MASK 0x1
#define HBM_RD_ADDR_BG_SHIFT 1
#define HBM_RD_ADDR_BG_MASK 0x6
#define HBM_RD_ADDR_BA_SHIFT 3
#define HBM_RD_ADDR_BA_MASK 0x18
#define HBM_RD_ADDR_COL_SHIFT 5
#define HBM_RD_ADDR_COL_MASK 0x7E0
#define HBM_RD_ADDR_ROW_SHIFT 11
#define HBM_RD_ADDR_ROW_MASK 0x3FFF800
struct hbm_rd_addr {
union {
/* bit fields are only for FW use */
struct {
u32 dbg_rd_err_addr_sid:1;
u32 dbg_rd_err_addr_bg:2;
u32 dbg_rd_err_addr_ba:2;
u32 dbg_rd_err_addr_col:6;
u32 dbg_rd_err_addr_row:15;
u32 reserved:6;
};
__le32 rd_addr_val;
};
};
#define HBM_RD_ERR_BEAT_SHIFT 2
/* dbg_rd_err_misc fields: */
/* Read parity is calculated per DW on every beat */
#define HBM_RD_ERR_PAR_ERR_BEAT0_SHIFT 0
#define HBM_RD_ERR_PAR_ERR_BEAT0_MASK 0x3
#define HBM_RD_ERR_PAR_DATA_BEAT0_SHIFT 8
#define HBM_RD_ERR_PAR_DATA_BEAT0_MASK 0x300
/* ECC is calculated per PC on every beat */
#define HBM_RD_ERR_SERR_BEAT0_SHIFT 16
#define HBM_RD_ERR_SERR_BEAT0_MASK 0x10000
#define HBM_RD_ERR_DERR_BEAT0_SHIFT 24
#define HBM_RD_ERR_DERR_BEAT0_MASK 0x100000
struct hl_eq_hbm_sei_read_err_intr_info {
/* DFI_RD_ERR_REP_ADDR */
struct hbm_rd_addr dbg_rd_err_addr;
/* DFI_RD_ERR_REP_ERR */
union {
struct {
/* bit fields are only for FW use */
u32 dbg_rd_err_par:8;
u32 dbg_rd_err_par_data:8;
u32 dbg_rd_err_serr:4;
u32 dbg_rd_err_derr:4;
u32 reserved:8;
};
__le32 dbg_rd_err_misc;
};
/* DFI_RD_ERR_REP_DM */
__le32 dbg_rd_err_dm;
/* DFI_RD_ERR_REP_SYNDROME */
__le32 dbg_rd_err_syndrome;
/* DFI_RD_ERR_REP_DATA */
__le32 dbg_rd_err_data[HBM_RD_ERR_DATA_LIFO_LEN];
};
struct hl_eq_hbm_sei_ca_par_intr_info {
/* 14 LSBs */
__le16 dbg_row[HBM_CA_ERR_CMD_LIFO_LEN];
/* 18 LSBs */
__le32 dbg_col[HBM_CA_ERR_CMD_LIFO_LEN];
};
#define WR_PAR_LAST_CMD_COL_SHIFT 0
#define WR_PAR_LAST_CMD_COL_MASK 0x3F
#define WR_PAR_LAST_CMD_BG_SHIFT 6
#define WR_PAR_LAST_CMD_BG_MASK 0xC0
#define WR_PAR_LAST_CMD_BA_SHIFT 8
#define WR_PAR_LAST_CMD_BA_MASK 0x300
#define WR_PAR_LAST_CMD_SID_SHIFT 10
#define WR_PAR_LAST_CMD_SID_MASK 0x400
/* Row address isn't latched */
struct hbm_sei_wr_cmd_address {
/* DFI_DERR_LAST_CMD */
union {
struct {
/* bit fields are only for FW use */
u32 col:6;
u32 bg:2;
u32 ba:2;
u32 sid:1;
u32 reserved:21;
};
__le32 dbg_wr_cmd_addr;
};
};
struct hl_eq_hbm_sei_wr_par_intr_info {
/* entry 0: WR command address from the 1st cycle prior to the error
* entry 1: WR command address from the 2nd cycle prior to the error
* and so on...
*/
struct hbm_sei_wr_cmd_address dbg_last_wr_cmds[HBM_WR_PAR_CMD_LIFO_LEN];
/* derr[0:1] - 1st HBM cycle DERR output
* derr[2:3] - 2nd HBM cycle DERR output
*/
__u8 dbg_derr;
/* extend to reach 8B */
__u8 pad[3];
};
/*
* this struct represents the following sei causes:
* command parity, ECC double error, ECC single error, dfi error, cattrip,
* temperature read-out, read parity error and write parity error.
* some only use the header while some have extra data.
*/
struct hl_eq_hbm_sei_data {
struct hl_hbm_sei_header hdr;
union {
struct hl_eq_hbm_sei_ca_par_intr_info ca_parity_even_info;
struct hl_eq_hbm_sei_ca_par_intr_info ca_parity_odd_info;
struct hl_eq_hbm_sei_read_err_intr_info read_err_info;
struct hl_eq_hbm_sei_wr_par_intr_info wr_parity_info;
};
};
/* Engine/farm arc interrupt type */
enum hl_engine_arc_interrupt_type {
/* Qman/farm ARC DCCM QUEUE FULL interrupt type */
ENGINE_ARC_DCCM_QUEUE_FULL_IRQ = 1
};
/* Data structure specifies details of payload of DCCM QUEUE FULL interrupt */
struct hl_engine_arc_dccm_queue_full_irq {
/* Queue index value which caused DCCM QUEUE FULL */
__le32 queue_index;
__le32 pad;
};
/* Data structure specifies details of QM/FARM ARC interrupt */
struct hl_eq_engine_arc_intr_data {
/* ARC engine id e.g. DCORE0_TPC0_QM_ARC, DCORE0_TCP1_QM_ARC */
__le32 engine_id;
__le32 intr_type; /* enum hl_engine_arc_interrupt_type */
/* More info related to the interrupt e.g. queue index
* incase of DCCM_QUEUE_FULL interrupt.
*/
__le64 payload;
__le64 pad[5];
};
#define ADDR_DEC_ADDRESS_COUNT_MAX 4
/* Data structure specifies details of ADDR_DEC interrupt */
struct hl_eq_addr_dec_intr_data {
struct hl_eq_intr_cause intr_cause;
__le64 addr[ADDR_DEC_ADDRESS_COUNT_MAX];
__u8 addr_cnt;
__u8 pad[7];
};
struct hl_eq_entry {
struct hl_eq_header hdr;
union {
__le64 data_placeholder;
struct hl_eq_ecc_data ecc_data;
struct hl_eq_hbm_ecc_data hbm_ecc_data; /* Obsolete */
struct hl_eq_sm_sei_data sm_sei_data;
struct cpucp_pkt_sync_err pkt_sync_err;
struct hl_eq_fw_alive fw_alive;
struct hl_eq_intr_cause intr_cause;
struct hl_eq_pcie_drain_ind_data pcie_drain_ind_data;
struct hl_eq_razwi_info razwi_info;
struct hl_eq_razwi_with_intr_cause razwi_with_intr_cause;
struct hl_eq_hbm_sei_data sei_data; /* Gaudi2 HBM */
struct hl_eq_engine_arc_intr_data arc_data;
struct hl_eq_addr_dec_intr_data addr_dec;
__le64 data[7];
};
};
#define HL_EQ_ENTRY_SIZE sizeof(struct hl_eq_entry)
#define EQ_CTL_READY_SHIFT 31
#define EQ_CTL_READY_MASK 0x80000000
#define EQ_CTL_EVENT_TYPE_SHIFT 16
#define EQ_CTL_EVENT_TYPE_MASK 0x0FFF0000
#define EQ_CTL_INDEX_SHIFT 0
#define EQ_CTL_INDEX_MASK 0x0000FFFF
enum pq_init_status {
PQ_INIT_STATUS_NA = 0,
PQ_INIT_STATUS_READY_FOR_CP,
PQ_INIT_STATUS_READY_FOR_HOST,
PQ_INIT_STATUS_READY_FOR_CP_SINGLE_MSI,
PQ_INIT_STATUS_LEN_NOT_POWER_OF_TWO_ERR,
PQ_INIT_STATUS_ILLEGAL_Q_ADDR_ERR
};
/*
* CpuCP Primary Queue Packets
*
* During normal operation, the host's kernel driver needs to send various
* messages to CpuCP, usually either to SET some value into a H/W periphery or
* to GET the current value of some H/W periphery. For example, SET the
* frequency of MME/TPC and GET the value of the thermal sensor.
*
* These messages can be initiated either by the User application or by the
* host's driver itself, e.g. power management code. In either case, the
* communication from the host's driver to CpuCP will *always* be in
* synchronous mode, meaning that the host will send a single message and poll
* until the message was acknowledged and the results are ready (if results are
* needed).
*
* This means that only a single message can be sent at a time and the host's
* driver must wait for its result before sending the next message. Having said
* that, because these are control messages which are sent in a relatively low
* frequency, this limitation seems acceptable. It's important to note that
* in case of multiple devices, messages to different devices *can* be sent
* at the same time.
*
* The message, inputs/outputs (if relevant) and fence object will be located
* on the device DDR at an address that will be determined by the host's driver.
* During device initialization phase, the host will pass to CpuCP that address.
* Most of the message types will contain inputs/outputs inside the message
* itself. The common part of each message will contain the opcode of the
* message (its type) and a field representing a fence object.
*
* When the host's driver wishes to send a message to CPU CP, it will write the
* message contents to the device DDR, clear the fence object and then write to
* the PSOC_ARC1_AUX_SW_INTR, to issue interrupt 121 to ARC Management CPU.
*
* Upon receiving the interrupt (#121), CpuCP will read the message from the
* DDR. In case the message is a SET operation, CpuCP will first perform the
* operation and then write to the fence object on the device DDR. In case the
* message is a GET operation, CpuCP will first fill the results section on the
* device DDR and then write to the fence object. If an error occurred, CpuCP
* will fill the rc field with the right error code.
*
* In the meantime, the host's driver will poll on the fence object. Once the
* host sees that the fence object is signaled, it will read the results from
* the device DDR (if relevant) and resume the code execution in the host's
* driver.
*
* To use QMAN packets, the opcode must be the QMAN opcode, shifted by 8
* so the value being put by the host's driver matches the value read by CpuCP
*
* Non-QMAN packets should be limited to values 1 through (2^8 - 1)
*
* Detailed description:
*
* CPUCP_PACKET_DISABLE_PCI_ACCESS -
* After receiving this packet the embedded CPU must NOT issue PCI
* transactions (read/write) towards the Host CPU. This also include
* sending MSI-X interrupts.
* This packet is usually sent before the device is moved to D3Hot state.
*
* CPUCP_PACKET_ENABLE_PCI_ACCESS -
* After receiving this packet the embedded CPU is allowed to issue PCI
* transactions towards the Host CPU, including sending MSI-X interrupts.
* This packet is usually send after the device is moved to D0 state.
*
* CPUCP_PACKET_TEMPERATURE_GET -
* Fetch the current temperature / Max / Max Hyst / Critical /
* Critical Hyst of a specified thermal sensor. The packet's
* arguments specify the desired sensor and the field to get.
*
* CPUCP_PACKET_VOLTAGE_GET -
* Fetch the voltage / Max / Min of a specified sensor. The packet's
* arguments specify the sensor and type.
*
* CPUCP_PACKET_CURRENT_GET -
* Fetch the current / Max / Min of a specified sensor. The packet's
* arguments specify the sensor and type.
*
* CPUCP_PACKET_FAN_SPEED_GET -
* Fetch the speed / Max / Min of a specified fan. The packet's
* arguments specify the sensor and type.
*
* CPUCP_PACKET_PWM_GET -
* Fetch the pwm value / mode of a specified pwm. The packet's
* arguments specify the sensor and type.
*
* CPUCP_PACKET_PWM_SET -
* Set the pwm value / mode of a specified pwm. The packet's
* arguments specify the sensor, type and value.
*
* CPUCP_PACKET_FREQUENCY_SET -
* Set the frequency of a specified PLL. The packet's arguments specify
* the PLL and the desired frequency. The actual frequency in the device
* might differ from the requested frequency.
*
* CPUCP_PACKET_FREQUENCY_GET -
* Fetch the frequency of a specified PLL. The packet's arguments specify
* the PLL.
*
* CPUCP_PACKET_LED_SET -
* Set the state of a specified led. The packet's arguments
* specify the led and the desired state.
*
* CPUCP_PACKET_I2C_WR -
* Write 32-bit value to I2C device. The packet's arguments specify the
* I2C bus, address and value.
*
* CPUCP_PACKET_I2C_RD -
* Read 32-bit value from I2C device. The packet's arguments specify the
* I2C bus and address.
*
* CPUCP_PACKET_INFO_GET -
* Fetch information from the device as specified in the packet's
* structure. The host's driver passes the max size it allows the CpuCP to
* write to the structure, to prevent data corruption in case of
* mismatched driver/FW versions.
*
* CPUCP_PACKET_FLASH_PROGRAM_REMOVED - this packet was removed
*
* CPUCP_PACKET_UNMASK_RAZWI_IRQ -
* Unmask the given IRQ. The IRQ number is specified in the value field.
* The packet is sent after receiving an interrupt and printing its
* relevant information.
*
* CPUCP_PACKET_UNMASK_RAZWI_IRQ_ARRAY -
* Unmask the given IRQs. The IRQs numbers are specified in an array right
* after the cpucp_packet structure, where its first element is the array
* length. The packet is sent after a soft reset was done in order to
* handle any interrupts that were sent during the reset process.
*
* CPUCP_PACKET_TEST -
* Test packet for CpuCP connectivity. The CPU will put the fence value
* in the result field.
*
* CPUCP_PACKET_FREQUENCY_CURR_GET -
* Fetch the current frequency of a specified PLL. The packet's arguments
* specify the PLL.
*
* CPUCP_PACKET_MAX_POWER_GET -
* Fetch the maximal power of the device.
*
* CPUCP_PACKET_MAX_POWER_SET -
* Set the maximal power of the device. The packet's arguments specify
* the power.
*
* CPUCP_PACKET_EEPROM_DATA_GET -
* Get EEPROM data from the CpuCP kernel. The buffer is specified in the
* addr field. The CPU will put the returned data size in the result
* field. In addition, the host's driver passes the max size it allows the
* CpuCP to write to the structure, to prevent data corruption in case of
* mismatched driver/FW versions.
*
* CPUCP_PACKET_NIC_INFO_GET -
* Fetch information from the device regarding the NIC. the host's driver
* passes the max size it allows the CpuCP to write to the structure, to
* prevent data corruption in case of mismatched driver/FW versions.
*
* CPUCP_PACKET_TEMPERATURE_SET -
* Set the value of the offset property of a specified thermal sensor.
* The packet's arguments specify the desired sensor and the field to
* set.
*
* CPUCP_PACKET_VOLTAGE_SET -
* Trigger the reset_history property of a specified voltage sensor.
* The packet's arguments specify the desired sensor and the field to
* set.
*
* CPUCP_PACKET_CURRENT_SET -
* Trigger the reset_history property of a specified current sensor.
* The packet's arguments specify the desired sensor and the field to
* set.
*
* CPUCP_PACKET_PCIE_THROUGHPUT_GET -
* Get throughput of PCIe.
* The packet's arguments specify the transaction direction (TX/RX).
* The window measurement is 10[msec], and the return value is in KB/sec.
*
* CPUCP_PACKET_PCIE_REPLAY_CNT_GET
* Replay count measures number of "replay" events, which is basicly
* number of retries done by PCIe.
*
* CPUCP_PACKET_TOTAL_ENERGY_GET -
* Total Energy is measurement of energy from the time FW Linux
* is loaded. It is calculated by multiplying the average power
* by time (passed from armcp start). The units are in MilliJouls.
*
* CPUCP_PACKET_PLL_INFO_GET -
* Fetch frequencies of PLL from the required PLL IP.
* The packet's arguments specify the device PLL type
* Pll type is the PLL from device pll_index enum.
* The result is composed of 4 outputs, each is 16-bit
* frequency in MHz.
*
* CPUCP_PACKET_POWER_GET -
* Fetch the present power consumption of the device (Current * Voltage).
*
* CPUCP_PACKET_NIC_PFC_SET -
* Enable/Disable the NIC PFC feature. The packet's arguments specify the
* NIC port, relevant lanes to configure and one bit indication for
* enable/disable.
*
* CPUCP_PACKET_NIC_FAULT_GET -
* Fetch the current indication for local/remote faults from the NIC MAC.
* The result is 32-bit value of the relevant register.
*
* CPUCP_PACKET_NIC_LPBK_SET -
* Enable/Disable the MAC loopback feature. The packet's arguments specify
* the NIC port, relevant lanes to configure and one bit indication for
* enable/disable.
*
* CPUCP_PACKET_NIC_MAC_INIT -
* Configure the NIC MAC channels. The packet's arguments specify the
* NIC port and the speed.
*
* CPUCP_PACKET_MSI_INFO_SET -
* set the index number for each supported msi type going from
* host to device
*
* CPUCP_PACKET_NIC_XPCS91_REGS_GET -
* Fetch the un/correctable counters values from the NIC MAC.
*
* CPUCP_PACKET_NIC_STAT_REGS_GET -
* Fetch various NIC MAC counters from the NIC STAT.
*
* CPUCP_PACKET_NIC_STAT_REGS_CLR -
* Clear the various NIC MAC counters in the NIC STAT.
*
* CPUCP_PACKET_NIC_STAT_REGS_ALL_GET -
* Fetch all NIC MAC counters from the NIC STAT.
*
* CPUCP_PACKET_IS_IDLE_CHECK -
* Check if the device is IDLE in regard to the DMA/compute engines
* and QMANs. The f/w will return a bitmask where each bit represents
* a different engine or QMAN according to enum cpucp_idle_mask.
* The bit will be 1 if the engine is NOT idle.
*
* CPUCP_PACKET_HBM_REPLACED_ROWS_INFO_GET -
* Fetch all HBM replaced-rows and prending to be replaced rows data.
*
* CPUCP_PACKET_HBM_PENDING_ROWS_STATUS -
* Fetch status of HBM rows pending replacement and need a reboot to
* be replaced.
*
* CPUCP_PACKET_POWER_SET -
* Resets power history of device to 0
*
* CPUCP_PACKET_ENGINE_CORE_ASID_SET -
* Packet to perform engine core ASID configuration
*
* CPUCP_PACKET_SEC_ATTEST_GET -
* Get the attestaion data that is collected during various stages of the
* boot sequence. the attestation data is also hashed with some unique
* number (nonce) provided by the host to prevent replay attacks.
* public key and certificate also provided as part of the FW response.
*
* CPUCP_PACKET_INFO_SIGNED_GET -
* Get the device information signed by the Trusted Platform device.
* device info data is also hashed with some unique number (nonce) provided
* by the host to prevent replay attacks. public key and certificate also
* provided as part of the FW response.
*
* CPUCP_PACKET_MONITOR_DUMP_GET -
* Get monitors registers dump from the CpuCP kernel.
* The CPU will put the registers dump in the a buffer allocated by the driver
* which address is passed via the CpuCp packet. In addition, the host's driver
* passes the max size it allows the CpuCP to write to the structure, to prevent
* data corruption in case of mismatched driver/FW versions.
* Obsolete.
*
* CPUCP_PACKET_GENERIC_PASSTHROUGH -
* Generic opcode for all firmware info that is only passed to host
* through the LKD, without getting parsed there.
*
* CPUCP_PACKET_ACTIVE_STATUS_SET -
* LKD sends FW indication whether device is free or in use, this indication is reported
* also to the BMC.
*
* CPUCP_PACKET_SOFT_RESET -
* Packet to perform soft-reset.
*
* CPUCP_PACKET_INTS_REGISTER -
* Packet to inform FW that queues have been established and LKD is ready to receive
* EQ events.
*/
enum cpucp_packet_id {
CPUCP_PACKET_DISABLE_PCI_ACCESS = 1, /* internal */
CPUCP_PACKET_ENABLE_PCI_ACCESS, /* internal */
CPUCP_PACKET_TEMPERATURE_GET, /* sysfs */
CPUCP_PACKET_VOLTAGE_GET, /* sysfs */
CPUCP_PACKET_CURRENT_GET, /* sysfs */
CPUCP_PACKET_FAN_SPEED_GET, /* sysfs */
CPUCP_PACKET_PWM_GET, /* sysfs */
CPUCP_PACKET_PWM_SET, /* sysfs */
CPUCP_PACKET_FREQUENCY_SET, /* sysfs */
CPUCP_PACKET_FREQUENCY_GET, /* sysfs */
CPUCP_PACKET_LED_SET, /* debugfs */
CPUCP_PACKET_I2C_WR, /* debugfs */
CPUCP_PACKET_I2C_RD, /* debugfs */
CPUCP_PACKET_INFO_GET, /* IOCTL */
CPUCP_PACKET_FLASH_PROGRAM_REMOVED,
CPUCP_PACKET_UNMASK_RAZWI_IRQ, /* internal */
CPUCP_PACKET_UNMASK_RAZWI_IRQ_ARRAY, /* internal */
CPUCP_PACKET_TEST, /* internal */
CPUCP_PACKET_FREQUENCY_CURR_GET, /* sysfs */
CPUCP_PACKET_MAX_POWER_GET, /* sysfs */
CPUCP_PACKET_MAX_POWER_SET, /* sysfs */
CPUCP_PACKET_EEPROM_DATA_GET, /* sysfs */
CPUCP_PACKET_NIC_INFO_GET, /* internal */
CPUCP_PACKET_TEMPERATURE_SET, /* sysfs */
CPUCP_PACKET_VOLTAGE_SET, /* sysfs */
CPUCP_PACKET_CURRENT_SET, /* sysfs */
CPUCP_PACKET_PCIE_THROUGHPUT_GET, /* internal */
CPUCP_PACKET_PCIE_REPLAY_CNT_GET, /* internal */
CPUCP_PACKET_TOTAL_ENERGY_GET, /* internal */
CPUCP_PACKET_PLL_INFO_GET, /* internal */
CPUCP_PACKET_NIC_STATUS, /* internal */
CPUCP_PACKET_POWER_GET, /* internal */
CPUCP_PACKET_NIC_PFC_SET, /* internal */
CPUCP_PACKET_NIC_FAULT_GET, /* internal */
CPUCP_PACKET_NIC_LPBK_SET, /* internal */
CPUCP_PACKET_NIC_MAC_CFG, /* internal */
CPUCP_PACKET_MSI_INFO_SET, /* internal */
CPUCP_PACKET_NIC_XPCS91_REGS_GET, /* internal */
CPUCP_PACKET_NIC_STAT_REGS_GET, /* internal */
CPUCP_PACKET_NIC_STAT_REGS_CLR, /* internal */
CPUCP_PACKET_NIC_STAT_REGS_ALL_GET, /* internal */
CPUCP_PACKET_IS_IDLE_CHECK, /* internal */
CPUCP_PACKET_HBM_REPLACED_ROWS_INFO_GET,/* internal */
CPUCP_PACKET_HBM_PENDING_ROWS_STATUS, /* internal */
CPUCP_PACKET_POWER_SET, /* internal */
CPUCP_PACKET_RESERVED, /* not used */
CPUCP_PACKET_ENGINE_CORE_ASID_SET, /* internal */
CPUCP_PACKET_RESERVED2, /* not used */
CPUCP_PACKET_SEC_ATTEST_GET, /* internal */
CPUCP_PACKET_INFO_SIGNED_GET, /* internal */
CPUCP_PACKET_RESERVED4, /* not used */
CPUCP_PACKET_MONITOR_DUMP_GET, /* debugfs */
CPUCP_PACKET_RESERVED5, /* not used */
CPUCP_PACKET_RESERVED6, /* not used */
CPUCP_PACKET_RESERVED7, /* not used */
CPUCP_PACKET_GENERIC_PASSTHROUGH, /* IOCTL */
CPUCP_PACKET_RESERVED8, /* not used */
CPUCP_PACKET_ACTIVE_STATUS_SET, /* internal */
CPUCP_PACKET_RESERVED9, /* not used */
CPUCP_PACKET_RESERVED10, /* not used */
CPUCP_PACKET_RESERVED11, /* not used */
CPUCP_PACKET_RESERVED12, /* internal */
CPUCP_PACKET_RESERVED13, /* internal */
CPUCP_PACKET_SOFT_RESET, /* internal */
CPUCP_PACKET_INTS_REGISTER, /* internal */
CPUCP_PACKET_ID_MAX /* must be last */
};
#define CPUCP_PACKET_FENCE_VAL 0xFE8CE7A5
#define CPUCP_PKT_CTL_RC_SHIFT 12
#define CPUCP_PKT_CTL_RC_MASK 0x0000F000
#define CPUCP_PKT_CTL_OPCODE_SHIFT 16
#define CPUCP_PKT_CTL_OPCODE_MASK 0x1FFF0000
#define CPUCP_PKT_RES_PLL_OUT0_SHIFT 0
#define CPUCP_PKT_RES_PLL_OUT0_MASK 0x000000000000FFFFull
#define CPUCP_PKT_RES_PLL_OUT1_SHIFT 16
#define CPUCP_PKT_RES_PLL_OUT1_MASK 0x00000000FFFF0000ull
#define CPUCP_PKT_RES_PLL_OUT2_SHIFT 32
#define CPUCP_PKT_RES_PLL_OUT2_MASK 0x0000FFFF00000000ull
#define CPUCP_PKT_RES_PLL_OUT3_SHIFT 48
#define CPUCP_PKT_RES_PLL_OUT3_MASK 0xFFFF000000000000ull
#define CPUCP_PKT_RES_EEPROM_OUT0_SHIFT 0
#define CPUCP_PKT_RES_EEPROM_OUT0_MASK 0x000000000000FFFFull
#define CPUCP_PKT_RES_EEPROM_OUT1_SHIFT 16
#define CPUCP_PKT_RES_EEPROM_OUT1_MASK 0x0000000000FF0000ull
#define CPUCP_PKT_VAL_PFC_IN1_SHIFT 0
#define CPUCP_PKT_VAL_PFC_IN1_MASK 0x0000000000000001ull
#define CPUCP_PKT_VAL_PFC_IN2_SHIFT 1
#define CPUCP_PKT_VAL_PFC_IN2_MASK 0x000000000000001Eull
#define CPUCP_PKT_VAL_LPBK_IN1_SHIFT 0
#define CPUCP_PKT_VAL_LPBK_IN1_MASK 0x0000000000000001ull
#define CPUCP_PKT_VAL_LPBK_IN2_SHIFT 1
#define CPUCP_PKT_VAL_LPBK_IN2_MASK 0x000000000000001Eull
#define CPUCP_PKT_VAL_MAC_CNT_IN1_SHIFT 0
#define CPUCP_PKT_VAL_MAC_CNT_IN1_MASK 0x0000000000000001ull
#define CPUCP_PKT_VAL_MAC_CNT_IN2_SHIFT 1
#define CPUCP_PKT_VAL_MAC_CNT_IN2_MASK 0x00000000FFFFFFFEull
/* heartbeat status bits */
#define CPUCP_PKT_HB_STATUS_EQ_FAULT_SHIFT 0
#define CPUCP_PKT_HB_STATUS_EQ_FAULT_MASK 0x00000001
struct cpucp_packet {
union {
__le64 value; /* For SET packets */
__le64 result; /* For GET packets */
__le64 addr; /* For PQ */
};
__le32 ctl;
__le32 fence; /* Signal to host that message is completed */
union {
struct {/* For temperature/current/voltage/fan/pwm get/set */
__le16 sensor_index;
__le16 type;
};
struct { /* For I2C read/write */
__u8 i2c_bus;
__u8 i2c_addr;
__u8 i2c_reg;
/*
* In legacy implemetations, i2c_len was not present,
* was unused and just added as pad.
* So if i2c_len is 0, it is treated as legacy
* and r/w 1 Byte, else if i2c_len is specified,
* its treated as new multibyte r/w support.
*/
__u8 i2c_len;
};
struct {/* For PLL info fetch */
__le16 pll_type;
/* TODO pll_reg is kept temporary before removal */
__le16 pll_reg;
};
/* For any general request */
__le32 index;
/* For frequency get/set */
__le32 pll_index;
/* For led set */
__le32 led_index;
/* For get CpuCP info/EEPROM data/NIC info */
__le32 data_max_size;
/*
* For any general status bitmask. Shall be used whenever the
* result cannot be used to hold general purpose data.
*/
__le32 status_mask;
/* random, used once number, for security packets */
__le32 nonce;
};
union {
/* For NIC requests */
__le32 port_index;
/* For Generic packet sub index */
__le32 pkt_subidx;
};
};
struct cpucp_unmask_irq_arr_packet {
struct cpucp_packet cpucp_pkt;
__le32 length;
__le32 irqs[];
};
struct cpucp_nic_status_packet {
struct cpucp_packet cpucp_pkt;
__le32 length;
__le32 data[];
};
struct cpucp_array_data_packet {
struct cpucp_packet cpucp_pkt;
__le32 length;
__le32 data[];
};
enum cpucp_led_index {
CPUCP_LED0_INDEX = 0,
CPUCP_LED1_INDEX,
CPUCP_LED2_INDEX,
CPUCP_LED_MAX_INDEX = CPUCP_LED2_INDEX
};
/*
* enum cpucp_packet_rc - Error return code
* @cpucp_packet_success -> in case of success.
* @cpucp_packet_invalid -> this is to support first generation platforms.
* @cpucp_packet_fault -> in case of processing error like failing to
* get device binding or semaphore etc.
* @cpucp_packet_invalid_pkt -> when cpucp packet is un-supported.
* @cpucp_packet_invalid_params -> when checking parameter like length of buffer
* or attribute value etc.
* @cpucp_packet_rc_max -> It indicates size of enum so should be at last.
*/
enum cpucp_packet_rc {
cpucp_packet_success,
cpucp_packet_invalid,
cpucp_packet_fault,
cpucp_packet_invalid_pkt,
cpucp_packet_invalid_params,
cpucp_packet_rc_max
};
/*
* cpucp_temp_type should adhere to hwmon_temp_attributes
* defined in Linux kernel hwmon.h file
*/
enum cpucp_temp_type {
cpucp_temp_input,
cpucp_temp_min = 4,
cpucp_temp_min_hyst,
cpucp_temp_max = 6,
cpucp_temp_max_hyst,
cpucp_temp_crit,
cpucp_temp_crit_hyst,
cpucp_temp_offset = 19,
cpucp_temp_lowest = 21,
cpucp_temp_highest = 22,
cpucp_temp_reset_history = 23,
cpucp_temp_warn = 24,
cpucp_temp_max_crit = 25,
cpucp_temp_max_warn = 26,
};
enum cpucp_in_attributes {
cpucp_in_input,
cpucp_in_min,
cpucp_in_max,
cpucp_in_lowest = 6,
cpucp_in_highest = 7,
cpucp_in_reset_history,
cpucp_in_intr_alarm_a,
cpucp_in_intr_alarm_b,
};
enum cpucp_curr_attributes {
cpucp_curr_input,
cpucp_curr_min,
cpucp_curr_max,
cpucp_curr_lowest = 6,
cpucp_curr_highest = 7,
cpucp_curr_reset_history
};
enum cpucp_fan_attributes {
cpucp_fan_input,
cpucp_fan_min = 2,
cpucp_fan_max
};
enum cpucp_pwm_attributes {
cpucp_pwm_input,
cpucp_pwm_enable
};
enum cpucp_pcie_throughput_attributes {
cpucp_pcie_throughput_tx,
cpucp_pcie_throughput_rx
};
/* TODO temporary kept before removal */
enum cpucp_pll_reg_attributes {
cpucp_pll_nr_reg,
cpucp_pll_nf_reg,
cpucp_pll_od_reg,
cpucp_pll_div_factor_reg,
cpucp_pll_div_sel_reg
};
/* TODO temporary kept before removal */
enum cpucp_pll_type_attributes {
cpucp_pll_cpu,
cpucp_pll_pci,
};
/*
* cpucp_power_type aligns with hwmon_power_attributes
* defined in Linux kernel hwmon.h file
*/
enum cpucp_power_type {
CPUCP_POWER_INPUT = 8,
CPUCP_POWER_INPUT_HIGHEST = 9,
CPUCP_POWER_RESET_INPUT_HISTORY = 11
};
/*
* MSI type enumeration table for all ASICs and future SW versions.
* For future ASIC-LKD compatibility, we can only add new enumerations.
* at the end of the table (before CPUCP_NUM_OF_MSI_TYPES).
* Changing the order of entries or removing entries is not allowed.
*/
enum cpucp_msi_type {
CPUCP_EVENT_QUEUE_MSI_TYPE,
CPUCP_NIC_PORT1_MSI_TYPE,
CPUCP_NIC_PORT3_MSI_TYPE,
CPUCP_NIC_PORT5_MSI_TYPE,
CPUCP_NIC_PORT7_MSI_TYPE,
CPUCP_NIC_PORT9_MSI_TYPE,
CPUCP_EVENT_QUEUE_ERR_MSI_TYPE,
CPUCP_NUM_OF_MSI_TYPES
};
/*
* PLL enumeration table used for all ASICs and future SW versions.
* For future ASIC-LKD compatibility, we can only add new enumerations.
* at the end of the table.
* Changing the order of entries or removing entries is not allowed.
*/
enum pll_index {
CPU_PLL = 0,
PCI_PLL = 1,
NIC_PLL = 2,
DMA_PLL = 3,
MESH_PLL = 4,
MME_PLL = 5,
TPC_PLL = 6,
IF_PLL = 7,
SRAM_PLL = 8,
NS_PLL = 9,
HBM_PLL = 10,
MSS_PLL = 11,
DDR_PLL = 12,
VID_PLL = 13,
BANK_PLL = 14,
MMU_PLL = 15,
IC_PLL = 16,
MC_PLL = 17,
EMMC_PLL = 18,
D2D_PLL = 19,
CS_PLL = 20,
C2C_PLL = 21,
NCH_PLL = 22,
C2M_PLL = 23,
PLL_MAX
};
enum rl_index {
TPC_RL = 0,
MME_RL,
EDMA_RL,
};
enum pvt_index {
PVT_SW,
PVT_SE,
PVT_NW,
PVT_NE
};
/* Event Queue Packets */
struct eq_generic_event {
__le64 data[7];
};
/*
* CpuCP info
*/
#define CARD_NAME_MAX_LEN 16
#define CPUCP_MAX_SENSORS 128
#define CPUCP_MAX_NICS 128
#define CPUCP_LANES_PER_NIC 4
#define CPUCP_NIC_QSFP_EEPROM_MAX_LEN 1024
#define CPUCP_MAX_NIC_LANES (CPUCP_MAX_NICS * CPUCP_LANES_PER_NIC)
#define CPUCP_NIC_MASK_ARR_LEN ((CPUCP_MAX_NICS + 63) / 64)
#define CPUCP_NIC_POLARITY_ARR_LEN ((CPUCP_MAX_NIC_LANES + 63) / 64)
#define CPUCP_HBM_ROW_REPLACE_MAX 32
struct cpucp_sensor {
__le32 type;
__le32 flags;
};
/**
* struct cpucp_card_types - ASIC card type.
* @cpucp_card_type_pci: PCI card.
* @cpucp_card_type_pmc: PCI Mezzanine Card.
*/
enum cpucp_card_types {
cpucp_card_type_pci,
cpucp_card_type_pmc
};
#define CPUCP_SEC_CONF_ENABLED_SHIFT 0
#define CPUCP_SEC_CONF_ENABLED_MASK 0x00000001
#define CPUCP_SEC_CONF_FLASH_WP_SHIFT 1
#define CPUCP_SEC_CONF_FLASH_WP_MASK 0x00000002
#define CPUCP_SEC_CONF_EEPROM_WP_SHIFT 2
#define CPUCP_SEC_CONF_EEPROM_WP_MASK 0x00000004
/**
* struct cpucp_security_info - Security information.
* @config: configuration bit field
* @keys_num: number of stored keys
* @revoked_keys: revoked keys bit field
* @min_svn: minimal security version
*/
struct cpucp_security_info {
__u8 config;
__u8 keys_num;
__u8 revoked_keys;
__u8 min_svn;
};
/**
* struct cpucp_info - Info from CpuCP that is necessary to the host's driver
* @sensors: available sensors description.
* @kernel_version: CpuCP linux kernel version.
* @reserved: reserved field.
* @card_type: card configuration type.
* @card_location: in a server, each card has different connections topology
* depending on its location (relevant for PMC card type)
* @cpld_version: CPLD programmed F/W version.
* @infineon_version: Infineon main DC-DC version.
* @fuse_version: silicon production FUSE information.
* @thermal_version: thermald S/W version.
* @cpucp_version: CpuCP S/W version.
* @infineon_second_stage_version: Infineon 2nd stage DC-DC version.
* @dram_size: available DRAM size.
* @card_name: card name that will be displayed in HWMON subsystem on the host
* @tpc_binning_mask: TPC binning mask, 1 bit per TPC instance
* (0 = functional, 1 = binned)
* @decoder_binning_mask: Decoder binning mask, 1 bit per decoder instance
* (0 = functional, 1 = binned), maximum 1 per dcore
* @sram_binning: Categorize SRAM functionality
* (0 = fully functional, 1 = lower-half is not functional,
* 2 = upper-half is not functional)
* @sec_info: security information
* @pll_map: Bit map of supported PLLs for current ASIC version.
* @mme_binning_mask: MME binning mask,
* bits [0:6] <==> dcore0 mme fma
* bits [7:13] <==> dcore1 mme fma
* bits [14:20] <==> dcore0 mme ima
* bits [21:27] <==> dcore1 mme ima
* For each group, if the 6th bit is set then first 5 bits
* represent the col's idx [0-31], otherwise these bits are
* ignored, and col idx 32 is binned. 7th bit is don't care.
* @dram_binning_mask: DRAM binning mask, 1 bit per dram instance
* (0 = functional 1 = binned)
* @memory_repair_flag: eFuse flag indicating memory repair
* @edma_binning_mask: EDMA binning mask, 1 bit per EDMA instance
* (0 = functional 1 = binned)
* @xbar_binning_mask: Xbar binning mask, 1 bit per Xbar instance
* (0 = functional 1 = binned)
* @interposer_version: Interposer version programmed in eFuse
* @substrate_version: Substrate version programmed in eFuse
* @eq_health_check_supported: eq health check feature supported in FW.
* @fw_hbm_region_size: Size in bytes of FW reserved region in HBM.
* @fw_os_version: Firmware OS Version
*/
struct cpucp_info {
struct cpucp_sensor sensors[CPUCP_MAX_SENSORS];
__u8 kernel_version[VERSION_MAX_LEN];
__le32 reserved;
__le32 card_type;
__le32 card_location;
__le32 cpld_version;
__le32 infineon_version;
__u8 fuse_version[VERSION_MAX_LEN];
__u8 thermal_version[VERSION_MAX_LEN];
__u8 cpucp_version[VERSION_MAX_LEN];
__le32 infineon_second_stage_version;
__le64 dram_size;
char card_name[CARD_NAME_MAX_LEN];
__le64 tpc_binning_mask;
__le64 decoder_binning_mask;
__u8 sram_binning;
__u8 dram_binning_mask;
__u8 memory_repair_flag;
__u8 edma_binning_mask;
__u8 xbar_binning_mask;
__u8 interposer_version;
__u8 substrate_version;
__u8 eq_health_check_supported;
struct cpucp_security_info sec_info;
__le32 fw_hbm_region_size;
__u8 pll_map[PLL_MAP_LEN];
__le64 mme_binning_mask;
__u8 fw_os_version[VERSION_MAX_LEN];
};
struct cpucp_mac_addr {
__u8 mac_addr[ETH_ALEN];
};
enum cpucp_serdes_type {
TYPE_1_SERDES_TYPE,
TYPE_2_SERDES_TYPE,
HLS1_SERDES_TYPE,
HLS1H_SERDES_TYPE,
HLS2_SERDES_TYPE,
HLS2_TYPE_1_SERDES_TYPE,
MAX_NUM_SERDES_TYPE, /* number of types */
UNKNOWN_SERDES_TYPE = 0xFFFF /* serdes_type is u16 */
};
struct cpucp_nic_info {
struct cpucp_mac_addr mac_addrs[CPUCP_MAX_NICS];
__le64 link_mask[CPUCP_NIC_MASK_ARR_LEN];
__le64 pol_tx_mask[CPUCP_NIC_POLARITY_ARR_LEN];
__le64 pol_rx_mask[CPUCP_NIC_POLARITY_ARR_LEN];
__le64 link_ext_mask[CPUCP_NIC_MASK_ARR_LEN];
__u8 qsfp_eeprom[CPUCP_NIC_QSFP_EEPROM_MAX_LEN];
__le64 auto_neg_mask[CPUCP_NIC_MASK_ARR_LEN];
__le16 serdes_type; /* enum cpucp_serdes_type */
__le16 tx_swap_map[CPUCP_MAX_NICS];
__u8 reserved[6];
};
#define PAGE_DISCARD_MAX 64
struct page_discard_info {
__u8 num_entries;
__u8 reserved[7];
__le32 mmu_page_idx[PAGE_DISCARD_MAX];
};
/*
* struct frac_val - fracture value represented by "integer.frac".
* @integer: the integer part of the fracture value;
* @frac: the fracture part of the fracture value.
*/
struct frac_val {
union {
struct {
__le16 integer;
__le16 frac;
};
__le32 val;
};
};
/*
* struct ser_val - the SER (symbol error rate) value is represented by "integer * 10 ^ -exp".
* @integer: the integer part of the SER value;
* @exp: the exponent part of the SER value.
*/
struct ser_val {
__le16 integer;
__le16 exp;
};
/*
* struct cpucp_nic_status - describes the status of a NIC port.
* @port: NIC port index.
* @bad_format_cnt: e.g. CRC.
* @responder_out_of_sequence_psn_cnt: e.g NAK.
* @high_ber_reinit_cnt: link reinit due to high BER.
* @correctable_err_cnt: e.g. bit-flip.
* @uncorrectable_err_cnt: e.g. MAC errors.
* @retraining_cnt: re-training counter.
* @up: is port up.
* @pcs_link: has PCS link.
* @phy_ready: is PHY ready.
* @auto_neg: is Autoneg enabled.
* @timeout_retransmission_cnt: timeout retransmission events.
* @high_ber_cnt: high ber events.
* @pre_fec_ser: pre FEC SER value.
* @post_fec_ser: post FEC SER value.
* @throughput: measured throughput.
* @latency: measured latency.
*/
struct cpucp_nic_status {
__le32 port;
__le32 bad_format_cnt;
__le32 responder_out_of_sequence_psn_cnt;
__le32 high_ber_reinit;
__le32 correctable_err_cnt;
__le32 uncorrectable_err_cnt;
__le32 retraining_cnt;
__u8 up;
__u8 pcs_link;
__u8 phy_ready;
__u8 auto_neg;
__le32 timeout_retransmission_cnt;
__le32 high_ber_cnt;
struct ser_val pre_fec_ser;
struct ser_val post_fec_ser;
struct frac_val bandwidth;
struct frac_val lat;
};
enum cpucp_hbm_row_replace_cause {
REPLACE_CAUSE_DOUBLE_ECC_ERR,
REPLACE_CAUSE_MULTI_SINGLE_ECC_ERR,
};
struct cpucp_hbm_row_info {
__u8 hbm_idx;
__u8 pc;
__u8 sid;
__u8 bank_idx;
__le16 row_addr;
__u8 replaced_row_cause; /* enum cpucp_hbm_row_replace_cause */
__u8 pad;
};
struct cpucp_hbm_row_replaced_rows_info {
__le16 num_replaced_rows;
__u8 pad[6];
struct cpucp_hbm_row_info replaced_rows[CPUCP_HBM_ROW_REPLACE_MAX];
};
enum cpu_reset_status {
CPU_RST_STATUS_NA = 0,
CPU_RST_STATUS_SOFT_RST_DONE = 1,
};
#define SEC_PCR_DATA_BUF_SZ 256
#define SEC_PCR_QUOTE_BUF_SZ 510 /* (512 - 2) 2 bytes used for size */
#define SEC_SIGNATURE_BUF_SZ 255 /* (256 - 1) 1 byte used for size */
#define SEC_PUB_DATA_BUF_SZ 510 /* (512 - 2) 2 bytes used for size */
#define SEC_CERTIFICATE_BUF_SZ 2046 /* (2048 - 2) 2 bytes used for size */
/*
* struct cpucp_sec_attest_info - attestation report of the boot
* @pcr_data: raw values of the PCR registers
* @pcr_num_reg: number of PCR registers in the pcr_data array
* @pcr_reg_len: length of each PCR register in the pcr_data array (bytes)
* @nonce: number only used once. random number provided by host. this also
* passed to the quote command as a qualifying data.
* @pcr_quote_len: length of the attestation quote data (bytes)
* @pcr_quote: attestation report data structure
* @quote_sig_len: length of the attestation report signature (bytes)
* @quote_sig: signature structure of the attestation report
* @pub_data_len: length of the public data (bytes)
* @public_data: public key for the signed attestation
* (outPublic + name + qualifiedName)
* @certificate_len: length of the certificate (bytes)
* @certificate: certificate for the attestation signing key
*/
struct cpucp_sec_attest_info {
__u8 pcr_data[SEC_PCR_DATA_BUF_SZ];
__u8 pcr_num_reg;
__u8 pcr_reg_len;
__le16 pad0;
__le32 nonce;
__le16 pcr_quote_len;
__u8 pcr_quote[SEC_PCR_QUOTE_BUF_SZ];
__u8 quote_sig_len;
__u8 quote_sig[SEC_SIGNATURE_BUF_SZ];
__le16 pub_data_len;
__u8 public_data[SEC_PUB_DATA_BUF_SZ];
__le16 certificate_len;
__u8 certificate[SEC_CERTIFICATE_BUF_SZ];
};
/*
* struct cpucp_dev_info_signed - device information signed by a secured device
* @info: device information structure as defined above
* @nonce: number only used once. random number provided by host. this number is
* hashed and signed along with the device information.
* @info_sig_len: length of the attestation signature (bytes)
* @info_sig: signature of the info + nonce data.
* @pub_data_len: length of the public data (bytes)
* @public_data: public key info signed info data
* (outPublic + name + qualifiedName)
* @certificate_len: length of the certificate (bytes)
* @certificate: certificate for the signing key
*/
struct cpucp_dev_info_signed {
struct cpucp_info info; /* assumed to be 64bit aligned */
__le32 nonce;
__le32 pad0;
__u8 info_sig_len;
__u8 info_sig[SEC_SIGNATURE_BUF_SZ];
__le16 pub_data_len;
__u8 public_data[SEC_PUB_DATA_BUF_SZ];
__le16 certificate_len;
__u8 certificate[SEC_CERTIFICATE_BUF_SZ];
};
#define DCORE_MON_REGS_SZ 512
/*
* struct dcore_monitor_regs_data - DCORE monitor regs data.
* the structure follows sync manager block layout. Obsolete.
* @mon_pay_addrl: array of payload address low bits.
* @mon_pay_addrh: array of payload address high bits.
* @mon_pay_data: array of payload data.
* @mon_arm: array of monitor arm.
* @mon_status: array of monitor status.
*/
struct dcore_monitor_regs_data {
__le32 mon_pay_addrl[DCORE_MON_REGS_SZ];
__le32 mon_pay_addrh[DCORE_MON_REGS_SZ];
__le32 mon_pay_data[DCORE_MON_REGS_SZ];
__le32 mon_arm[DCORE_MON_REGS_SZ];
__le32 mon_status[DCORE_MON_REGS_SZ];
};
/* contains SM data for each SYNC_MNGR (Obsolete) */
struct cpucp_monitor_dump {
struct dcore_monitor_regs_data sync_mngr_w_s;
struct dcore_monitor_regs_data sync_mngr_e_s;
struct dcore_monitor_regs_data sync_mngr_w_n;
struct dcore_monitor_regs_data sync_mngr_e_n;
};
/*
* The Type of the generic request (and other input arguments) will be fetched from user by reading
* from "pkt_subidx" field in struct cpucp_packet.
*
* HL_PASSTHROUGHT_VERSIONS - Fetch all firmware versions.
*/
enum hl_passthrough_type {
HL_PASSTHROUGH_VERSIONS,
};
#endif /* CPUCP_IF_H */
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