drivers/accel/ivpu/vpu_boot_api.h - linux - Git at Google

 /* SPDX-License-Identifier: MIT */
 /*
  * Copyright (C) 2020-2023 Intel Corporation
  */

 #ifndef VPU_BOOT_API_H
 #define VPU_BOOT_API_H

 /*
  * =========== FW API version information beginning ================
  *  The bellow values will be used to construct the version info this way:
  *  fw_bin_header->api_version[VPU_BOOT_API_VER_ID] = (VPU_BOOT_API_VER_MAJOR << 16) |
  *  VPU_BOOT_API_VER_MINOR;
  *  VPU_BOOT_API_VER_PATCH will be ignored. KMD and compatibility is not affected if this changes
  *  This information is collected by using vpuip_2/application/vpuFirmware/make_std_fw_image.py
  *  If a header is missing this info we ignore the header, if a header is missing or contains
  *  partial info a build error will be generated.
  */

 /*
  * Major version changes that break backward compatibility.
  * Major version must start from 1 and can only be incremented.
  */
 #define VPU_BOOT_API_VER_MAJOR 3

 /*
  * Minor version changes when API backward compatibility is preserved.
  * Resets to 0 if Major version is incremented.
  */
 #define VPU_BOOT_API_VER_MINOR 20

 /*
  * API header changed (field names, documentation, formatting) but API itself has not been changed
  */
 #define VPU_BOOT_API_VER_PATCH 4

 /*
  * Index in the API version table
  * Must be unique for each API
  */
 #define VPU_BOOT_API_VER_INDEX 0
 /* ------------ FW API version information end ---------------------*/

 #pragma pack(push, 1)

 /*
  * Firmware image header format
  */
 #define VPU_FW_HEADER_SIZE    4096
 #define VPU_FW_HEADER_VERSION 0x1
 #define VPU_FW_VERSION_SIZE   32
 #define VPU_FW_API_VER_NUM    16

 struct vpu_firmware_header {
 	u32 header_version;
 	u32 image_format;
 	u64 image_load_address;
 	u32 image_size;
 	u64 entry_point;
 	u8 vpu_version[VPU_FW_VERSION_SIZE];
 	u32 compression_type;
 	u64 firmware_version_load_address;
 	u32 firmware_version_size;
 	u64 boot_params_load_address;
 	u32 api_version[VPU_FW_API_VER_NUM];
 	/* Size of memory require for firmware execution */
 	u32 runtime_size;
 	u32 shave_nn_fw_size;
 	/* Size of primary preemption buffer. */
 	u32 preemption_buffer_1_size;
 	/* Size of secondary preemption buffer. */
 	u32 preemption_buffer_2_size;
 	/* Space reserved for future preemption-related fields. */
 	u32 preemption_reserved[6];
 };

 /*
  * Firmware boot parameters format
  */

 #define VPU_BOOT_PLL_COUNT     3
 #define VPU_BOOT_PLL_OUT_COUNT 4

 /** Values for boot_type field */
 #define VPU_BOOT_TYPE_COLDBOOT 0
 #define VPU_BOOT_TYPE_WARMBOOT 1

 /** Value for magic filed */
 #define VPU_BOOT_PARAMS_MAGIC 0x10000

 /** VPU scheduling mode. By default, OS scheduling is used. */
 #define VPU_SCHEDULING_MODE_OS 0
 #define VPU_SCHEDULING_MODE_HW 1

 enum VPU_BOOT_L2_CACHE_CFG_TYPE {
 	VPU_BOOT_L2_CACHE_CFG_UPA = 0,
 	VPU_BOOT_L2_CACHE_CFG_NN = 1,
 	VPU_BOOT_L2_CACHE_CFG_NUM = 2
 };

 /** VPU MCA ECC signalling mode. By default, no signalling is used */
 enum VPU_BOOT_MCA_ECC_SIGNAL_TYPE {
 	VPU_BOOT_MCA_ECC_NONE = 0,
 	VPU_BOOT_MCA_ECC_CORR = 1,
 	VPU_BOOT_MCA_ECC_FATAL = 2,
 	VPU_BOOT_MCA_ECC_BOTH = 3
 };

 /**
  * Logging destinations.
  *
  * Logging output can be directed to different logging destinations. This enum
  * defines the list of logging destinations supported by the VPU firmware (NOTE:
  * a specific VPU FW binary may support only a subset of such output
  * destinations, depending on the target platform and compile options).
  */
 enum vpu_trace_destination {
 	VPU_TRACE_DESTINATION_PIPEPRINT = 0x1,
 	VPU_TRACE_DESTINATION_VERBOSE_TRACING = 0x2,
 	VPU_TRACE_DESTINATION_NORTH_PEAK = 0x4,
 };

 /*
  * Processor bit shifts (for loggable HW components).
  */
 #define VPU_TRACE_PROC_BIT_ARM	     0
 #define VPU_TRACE_PROC_BIT_LRT	     1
 #define VPU_TRACE_PROC_BIT_LNN	     2
 #define VPU_TRACE_PROC_BIT_SHV_0     3
 #define VPU_TRACE_PROC_BIT_SHV_1     4
 #define VPU_TRACE_PROC_BIT_SHV_2     5
 #define VPU_TRACE_PROC_BIT_SHV_3     6
 #define VPU_TRACE_PROC_BIT_SHV_4     7
 #define VPU_TRACE_PROC_BIT_SHV_5     8
 #define VPU_TRACE_PROC_BIT_SHV_6     9
 #define VPU_TRACE_PROC_BIT_SHV_7     10
 #define VPU_TRACE_PROC_BIT_SHV_8     11
 #define VPU_TRACE_PROC_BIT_SHV_9     12
 #define VPU_TRACE_PROC_BIT_SHV_10    13
 #define VPU_TRACE_PROC_BIT_SHV_11    14
 #define VPU_TRACE_PROC_BIT_SHV_12    15
 #define VPU_TRACE_PROC_BIT_SHV_13    16
 #define VPU_TRACE_PROC_BIT_SHV_14    17
 #define VPU_TRACE_PROC_BIT_SHV_15    18
 #define VPU_TRACE_PROC_BIT_ACT_SHV_0 19
 #define VPU_TRACE_PROC_BIT_ACT_SHV_1 20
 #define VPU_TRACE_PROC_BIT_ACT_SHV_2 21
 #define VPU_TRACE_PROC_BIT_ACT_SHV_3 22
 #define VPU_TRACE_PROC_NO_OF_HW_DEVS 23

 /* VPU 30xx HW component IDs are sequential, so define first and last IDs. */
 #define VPU_TRACE_PROC_BIT_30XX_FIRST VPU_TRACE_PROC_BIT_LRT
 #define VPU_TRACE_PROC_BIT_30XX_LAST  VPU_TRACE_PROC_BIT_SHV_15
 #define VPU_TRACE_PROC_BIT_KMB_FIRST  VPU_TRACE_PROC_BIT_30XX_FIRST
 #define VPU_TRACE_PROC_BIT_KMB_LAST   VPU_TRACE_PROC_BIT_30XX_LAST

 struct vpu_boot_l2_cache_config {
 	u8 use;
 	u8 cfg;
 };

 struct vpu_warm_boot_section {
 	u32 src;
 	u32 dst;
 	u32 size;
 	u32 core_id;
 	u32 is_clear_op;
 };

 /*
  * When HW scheduling mode is enabled, a present period is defined.
  * It will be used by VPU to swap between normal and focus priorities
  * to prevent starving of normal priority band (when implemented).
  * Host must provide a valid value at boot time in
  * `vpu_focus_present_timer_ms`. If the value provided by the host is not within the
  * defined range a default value will be used. Here we define the min. and max.
  * allowed values and the and default value of the present period. Units are milliseconds.
  */
 #define VPU_PRESENT_CALL_PERIOD_MS_DEFAULT 50
 #define VPU_PRESENT_CALL_PERIOD_MS_MIN	   16
 #define VPU_PRESENT_CALL_PERIOD_MS_MAX	   10000

 /**
  * Macros to enable various operation modes within the VPU.
  * To be defined as part of 32 bit mask.
  */
 #define VPU_OP_MODE_SURVIVABILITY 0x1

 struct vpu_boot_params {
 	u32 magic;
 	u32 vpu_id;
 	u32 vpu_count;
 	u32 pad0[5];
 	/* Clock frequencies: 0x20 - 0xFF */
 	u32 frequency;
 	u32 pll[VPU_BOOT_PLL_COUNT][VPU_BOOT_PLL_OUT_COUNT];
 	u32 perf_clk_frequency;
 	u32 pad1[42];
 	/* Memory regions: 0x100 - 0x1FF */
 	u64 ipc_header_area_start;
 	u32 ipc_header_area_size;
 	u64 shared_region_base;
 	u32 shared_region_size;
 	u64 ipc_payload_area_start;
 	u32 ipc_payload_area_size;
 	u64 global_aliased_pio_base;
 	u32 global_aliased_pio_size;
 	u32 autoconfig;
 	struct vpu_boot_l2_cache_config cache_defaults[VPU_BOOT_L2_CACHE_CFG_NUM];
 	u64 global_memory_allocator_base;
 	u32 global_memory_allocator_size;
 	/**
 	 * ShaveNN FW section VPU base address
 	 * On VPU2.7 HW this address must be within 2GB range starting from L2C_PAGE_TABLE base
 	 */
 	u64 shave_nn_fw_base;
 	u64 save_restore_ret_address; /* stores the address of FW's restore entry point */
 	u32 pad2[43];
 	/* IRQ re-direct numbers: 0x200 - 0x2FF */
 	s32 watchdog_irq_mss;
 	s32 watchdog_irq_nce;
 	/* ARM -> VPU doorbell interrupt. ARM is notifying VPU of async command or compute job. */
 	u32 host_to_vpu_irq;
 	/* VPU -> ARM job done interrupt. VPU is notifying ARM of compute job completion. */
 	u32 job_done_irq;
 	/* VPU -> ARM IRQ line to use to request MMU update. */
 	u32 mmu_update_request_irq;
 	/* ARM -> VPU IRQ line to use to notify of MMU update completion. */
 	u32 mmu_update_done_irq;
 	/* ARM -> VPU IRQ line to use to request power level change. */
 	u32 set_power_level_irq;
 	/* VPU -> ARM IRQ line to use to notify of power level change completion. */
 	u32 set_power_level_done_irq;
 	/* VPU -> ARM IRQ line to use to notify of VPU idle state change */
 	u32 set_vpu_idle_update_irq;
 	/* VPU -> ARM IRQ line to use to request counter reset. */
 	u32 metric_query_event_irq;
 	/* ARM -> VPU IRQ line to use to notify of counter reset completion. */
 	u32 metric_query_event_done_irq;
 	/* VPU -> ARM IRQ line to use to notify of preemption completion. */
 	u32 preemption_done_irq;
 	/* Padding. */
 	u32 pad3[52];
 	/* Silicon information: 0x300 - 0x3FF */
 	u32 host_version_id;
 	u32 si_stepping;
 	u64 device_id;
 	u64 feature_exclusion;
 	u64 sku;
 	/** PLL ratio for minimum clock frequency */
 	u32 min_freq_pll_ratio;
 	/** PLL ratio for maximum clock frequency */
 	u32 max_freq_pll_ratio;
 	/**
 	 * Initial log level threshold (messages with log level severity less than
 	 * the threshold will not be logged); applies to every enabled logging
 	 * destination and loggable HW component. See 'mvLog_t' enum for acceptable
 	 * values.
 	 * TODO: EISW-33556: Move log level definition (mvLog_t) to this file.
 	 */
 	u32 default_trace_level;
 	u32 boot_type;
 	u64 punit_telemetry_sram_base;
 	u64 punit_telemetry_sram_size;
 	u32 vpu_telemetry_enable;
 	u64 crit_tracing_buff_addr;
 	u32 crit_tracing_buff_size;
 	u64 verbose_tracing_buff_addr;
 	u32 verbose_tracing_buff_size;
 	u64 verbose_tracing_sw_component_mask; /* TO BE REMOVED */
 	/**
 	 * Mask of destinations to which logging messages are delivered; bitwise OR
 	 * of values defined in vpu_trace_destination enum.
 	 */
 	u32 trace_destination_mask;
 	/**
 	 * Mask of hardware components for which logging is enabled; bitwise OR of
 	 * bits defined by the VPU_TRACE_PROC_BIT_* macros.
 	 */
 	u64 trace_hw_component_mask;
 	/** Mask of trace message formats supported by the driver */
 	u64 tracing_buff_message_format_mask;
 	u64 trace_reserved_1[2];
 	/**
 	 * Period at which the VPU reads the temp sensor values into MMIO, on
 	 * platforms where that is necessary (in ms). 0 to disable reads.
 	 */
 	u32 temp_sensor_period_ms;
 	/** PLL ratio for efficient clock frequency */
 	u32 pn_freq_pll_ratio;
 	/** DVFS Mode: Default: 0, Max Performance: 1, On Demand: 2, Power Save: 3 */
 	u32 dvfs_mode;
 	/**
 	 * Depending on DVFS Mode:
 	 * On-demand: Default if 0.
 	 *    Bit 0-7   - uint8_t: Highest residency percent
 	 *    Bit 8-15  - uint8_t: High residency percent
 	 *    Bit 16-23 - uint8_t: Low residency percent
 	 *    Bit 24-31 - uint8_t: Lowest residency percent
 	 *    Bit 32-35 - unsigned 4b: PLL Ratio increase amount on highest residency
 	 *    Bit 36-39 - unsigned 4b: PLL Ratio increase amount on high residency
 	 *    Bit 40-43 - unsigned 4b: PLL Ratio decrease amount on low residency
 	 *    Bit 44-47 - unsigned 4b: PLL Ratio decrease amount on lowest frequency
 	 *    Bit 48-55 - uint8_t: Period (ms) for residency decisions
 	 *    Bit 56-63 - uint8_t: Averaging windows (as multiples of period. Max: 30 decimal)
 	 * Power Save/Max Performance: Unused
 	 */
 	u64 dvfs_param;
 	/**
 	 * D0i3 delayed entry
 	 * Bit0: Disable CPU state save on D0i2 entry flow.
 	 *       0: Every D0i2 entry saves state. Save state IPC message ignored.
 	 *       1: IPC message required to save state on D0i3 entry flow.
 	 */
 	u32 d0i3_delayed_entry;
 	/* Time spent by VPU in D0i3 state */
 	u64 d0i3_residency_time_us;
 	/* Value of VPU perf counter at the time of entering D0i3 state . */
 	u64 d0i3_entry_vpu_ts;
 	u32 pad4[20];
 	/* Warm boot information: 0x400 - 0x43F */
 	u32 warm_boot_sections_count;
 	u32 warm_boot_start_address_reference;
 	u32 warm_boot_section_info_address_offset;
 	u32 pad5[13];
 	/* Power States transitions timestamps: 0x440 - 0x46F*/
 	struct {
 		/* VPU_IDLE -> VPU_ACTIVE transition initiated timestamp */
 		u64 vpu_active_state_requested;
 		/* VPU_IDLE -> VPU_ACTIVE transition completed timestamp */
 		u64 vpu_active_state_achieved;
 		/* VPU_ACTIVE -> VPU_IDLE transition initiated timestamp */
 		u64 vpu_idle_state_requested;
 		/* VPU_ACTIVE -> VPU_IDLE transition completed timestamp */
 		u64 vpu_idle_state_achieved;
 		/* VPU_IDLE -> VPU_STANDBY transition initiated timestamp */
 		u64 vpu_standby_state_requested;
 		/* VPU_IDLE -> VPU_STANDBY transition completed timestamp */
 		u64 vpu_standby_state_achieved;
 	} power_states_timestamps;
 	/* VPU scheduling mode. Values defined by VPU_SCHEDULING_MODE_* macros. */
 	u32 vpu_scheduling_mode;
 	/* Present call period in milliseconds. */
 	u32 vpu_focus_present_timer_ms;
 	/* VPU ECC Signaling */
 	u32 vpu_uses_ecc_mca_signal;
 	/* Values defined by VPU_OP_MODE* macros */
 	u32 vpu_operation_mode;
 	/* Unused/reserved: 0x480 - 0xFFF */
 	u32 pad6[736];
 };

 /*
  * Magic numbers set between host and vpu to detect corruptio of tracing init
  */

 #define VPU_TRACING_BUFFER_CANARY (0xCAFECAFE)

 /* Tracing buffer message format definitions */
 #define VPU_TRACING_FORMAT_STRING 0
 #define VPU_TRACING_FORMAT_MIPI	  2
 /*
  * Header of the tracing buffer.
  * The below defined header will be stored at the beginning of
  * each allocated tracing buffer, followed by a series of 256b
  * of ASCII trace message entries.
  */
 struct vpu_tracing_buffer_header {
 	/**
 	 * Magic number set by host to detect corruption
 	 * @see VPU_TRACING_BUFFER_CANARY
 	 */
 	u32 host_canary_start;
 	/* offset from start of buffer for trace entries */
 	u32 read_index;
 	u32 pad_to_cache_line_size_0[14];
 	/* End of first cache line */

 	/**
 	 * Magic number set by host to detect corruption
 	 * @see VPU_TRACING_BUFFER_CANARY
 	 */
 	u32 vpu_canary_start;
 	/* offset from start of buffer from write start */
 	u32 write_index;
 	/* counter for buffer wrapping */
 	u32 wrap_count;
 	/* legacy field - do not use */
 	u32 reserved_0;
 	/**
 	 * Size of the log buffer include this header (@header_size) and space
 	 * reserved for all messages. If @alignment` is greater that 0 the @Size
 	 * must be multiple of @Alignment.
 	 */
 	u32 size;
 	/* Header version */
 	u16 header_version;
 	/* Header size */
 	u16 header_size;
 	/*
 	 * Format of the messages in the trace buffer
 	 * 0 - null terminated string
 	 * 1 - size + null terminated string
 	 * 2 - MIPI-SysT encoding
 	 */
 	u32 format;
 	/*
 	 * Message alignment
 	 * 0 - messages are place 1 after another
 	 * n - every message starts and multiple on offset
 	 */
 	u32 alignment; /* 64, 128, 256 */
 	/* Name of the logging entity, i.e "LRT", "LNN", "SHV0", etc */
 	char name[16];
 	u32 pad_to_cache_line_size_1[4];
 	/* End of second cache line */
 };

 #pragma pack(pop)

 #endif
	/* SPDX-License-Identifier: MIT */
	/*
	* Copyright (C) 2020-2023 Intel Corporation
	*/

	#ifndef VPU_BOOT_API_H
	#define VPU_BOOT_API_H

	/*
	* =========== FW API version information beginning ================
	* The bellow values will be used to construct the version info this way:
	* fw_bin_header->api_version[VPU_BOOT_API_VER_ID] = (VPU_BOOT_API_VER_MAJOR << 16) \|
	* VPU_BOOT_API_VER_MINOR;
	* VPU_BOOT_API_VER_PATCH will be ignored. KMD and compatibility is not affected if this changes
	* This information is collected by using vpuip_2/application/vpuFirmware/make_std_fw_image.py
	* If a header is missing this info we ignore the header, if a header is missing or contains
	* partial info a build error will be generated.
	*/

	/*
	* Major version changes that break backward compatibility.
	* Major version must start from 1 and can only be incremented.
	*/
	#define VPU_BOOT_API_VER_MAJOR 3

	/*
	* Minor version changes when API backward compatibility is preserved.
	* Resets to 0 if Major version is incremented.
	*/
	#define VPU_BOOT_API_VER_MINOR 20

	/*
	* API header changed (field names, documentation, formatting) but API itself has not been changed
	*/
	#define VPU_BOOT_API_VER_PATCH 4

	/*
	* Index in the API version table
	* Must be unique for each API
	*/
	#define VPU_BOOT_API_VER_INDEX 0
	/* ------------ FW API version information end ---------------------*/

	#pragma pack(push, 1)

	/*
	* Firmware image header format
	*/
	#define VPU_FW_HEADER_SIZE 4096
	#define VPU_FW_HEADER_VERSION 0x1
	#define VPU_FW_VERSION_SIZE 32
	#define VPU_FW_API_VER_NUM 16

	struct vpu_firmware_header {
	u32 header_version;
	u32 image_format;
	u64 image_load_address;
	u32 image_size;
	u64 entry_point;
	u8 vpu_version[VPU_FW_VERSION_SIZE];
	u32 compression_type;
	u64 firmware_version_load_address;
	u32 firmware_version_size;
	u64 boot_params_load_address;
	u32 api_version[VPU_FW_API_VER_NUM];
	/* Size of memory require for firmware execution */
	u32 runtime_size;
	u32 shave_nn_fw_size;
	/* Size of primary preemption buffer. */
	u32 preemption_buffer_1_size;
	/* Size of secondary preemption buffer. */
	u32 preemption_buffer_2_size;
	/* Space reserved for future preemption-related fields. */
	u32 preemption_reserved[6];
	};

	/*
	* Firmware boot parameters format
	*/

	#define VPU_BOOT_PLL_COUNT 3
	#define VPU_BOOT_PLL_OUT_COUNT 4

	/** Values for boot_type field */
	#define VPU_BOOT_TYPE_COLDBOOT 0
	#define VPU_BOOT_TYPE_WARMBOOT 1

	/** Value for magic filed */
	#define VPU_BOOT_PARAMS_MAGIC 0x10000

	/** VPU scheduling mode. By default, OS scheduling is used. */
	#define VPU_SCHEDULING_MODE_OS 0
	#define VPU_SCHEDULING_MODE_HW 1

	enum VPU_BOOT_L2_CACHE_CFG_TYPE {
	VPU_BOOT_L2_CACHE_CFG_UPA = 0,
	VPU_BOOT_L2_CACHE_CFG_NN = 1,
	VPU_BOOT_L2_CACHE_CFG_NUM = 2
	};

	/** VPU MCA ECC signalling mode. By default, no signalling is used */
	enum VPU_BOOT_MCA_ECC_SIGNAL_TYPE {
	VPU_BOOT_MCA_ECC_NONE = 0,
	VPU_BOOT_MCA_ECC_CORR = 1,
	VPU_BOOT_MCA_ECC_FATAL = 2,
	VPU_BOOT_MCA_ECC_BOTH = 3
	};

	/**
	* Logging destinations.
	*
	* Logging output can be directed to different logging destinations. This enum
	* defines the list of logging destinations supported by the VPU firmware (NOTE:
	* a specific VPU FW binary may support only a subset of such output
	* destinations, depending on the target platform and compile options).
	*/
	enum vpu_trace_destination {
	VPU_TRACE_DESTINATION_PIPEPRINT = 0x1,
	VPU_TRACE_DESTINATION_VERBOSE_TRACING = 0x2,
	VPU_TRACE_DESTINATION_NORTH_PEAK = 0x4,
	};

	/*
	* Processor bit shifts (for loggable HW components).
	*/
	#define VPU_TRACE_PROC_BIT_ARM 0
	#define VPU_TRACE_PROC_BIT_LRT 1
	#define VPU_TRACE_PROC_BIT_LNN 2
	#define VPU_TRACE_PROC_BIT_SHV_0 3
	#define VPU_TRACE_PROC_BIT_SHV_1 4
	#define VPU_TRACE_PROC_BIT_SHV_2 5
	#define VPU_TRACE_PROC_BIT_SHV_3 6
	#define VPU_TRACE_PROC_BIT_SHV_4 7
	#define VPU_TRACE_PROC_BIT_SHV_5 8
	#define VPU_TRACE_PROC_BIT_SHV_6 9
	#define VPU_TRACE_PROC_BIT_SHV_7 10
	#define VPU_TRACE_PROC_BIT_SHV_8 11
	#define VPU_TRACE_PROC_BIT_SHV_9 12
	#define VPU_TRACE_PROC_BIT_SHV_10 13
	#define VPU_TRACE_PROC_BIT_SHV_11 14
	#define VPU_TRACE_PROC_BIT_SHV_12 15
	#define VPU_TRACE_PROC_BIT_SHV_13 16
	#define VPU_TRACE_PROC_BIT_SHV_14 17
	#define VPU_TRACE_PROC_BIT_SHV_15 18
	#define VPU_TRACE_PROC_BIT_ACT_SHV_0 19
	#define VPU_TRACE_PROC_BIT_ACT_SHV_1 20
	#define VPU_TRACE_PROC_BIT_ACT_SHV_2 21
	#define VPU_TRACE_PROC_BIT_ACT_SHV_3 22
	#define VPU_TRACE_PROC_NO_OF_HW_DEVS 23

	/* VPU 30xx HW component IDs are sequential, so define first and last IDs. */
	#define VPU_TRACE_PROC_BIT_30XX_FIRST VPU_TRACE_PROC_BIT_LRT
	#define VPU_TRACE_PROC_BIT_30XX_LAST VPU_TRACE_PROC_BIT_SHV_15
	#define VPU_TRACE_PROC_BIT_KMB_FIRST VPU_TRACE_PROC_BIT_30XX_FIRST
	#define VPU_TRACE_PROC_BIT_KMB_LAST VPU_TRACE_PROC_BIT_30XX_LAST

	struct vpu_boot_l2_cache_config {
	u8 use;
	u8 cfg;
	};

	struct vpu_warm_boot_section {
	u32 src;
	u32 dst;
	u32 size;
	u32 core_id;
	u32 is_clear_op;
	};

	/*
	* When HW scheduling mode is enabled, a present period is defined.
	* It will be used by VPU to swap between normal and focus priorities
	* to prevent starving of normal priority band (when implemented).
	* Host must provide a valid value at boot time in
	* `vpu_focus_present_timer_ms`. If the value provided by the host is not within the
	* defined range a default value will be used. Here we define the min. and max.
	* allowed values and the and default value of the present period. Units are milliseconds.
	*/
	#define VPU_PRESENT_CALL_PERIOD_MS_DEFAULT 50
	#define VPU_PRESENT_CALL_PERIOD_MS_MIN 16
	#define VPU_PRESENT_CALL_PERIOD_MS_MAX 10000

	/**
	* Macros to enable various operation modes within the VPU.
	* To be defined as part of 32 bit mask.
	*/
	#define VPU_OP_MODE_SURVIVABILITY 0x1

	struct vpu_boot_params {
	u32 magic;
	u32 vpu_id;
	u32 vpu_count;
	u32 pad0[5];
	/* Clock frequencies: 0x20 - 0xFF */
	u32 frequency;
	u32 pll[VPU_BOOT_PLL_COUNT][VPU_BOOT_PLL_OUT_COUNT];
	u32 perf_clk_frequency;
	u32 pad1[42];
	/* Memory regions: 0x100 - 0x1FF */
	u64 ipc_header_area_start;
	u32 ipc_header_area_size;
	u64 shared_region_base;
	u32 shared_region_size;
	u64 ipc_payload_area_start;
	u32 ipc_payload_area_size;
	u64 global_aliased_pio_base;
	u32 global_aliased_pio_size;
	u32 autoconfig;
	struct vpu_boot_l2_cache_config cache_defaults[VPU_BOOT_L2_CACHE_CFG_NUM];
	u64 global_memory_allocator_base;
	u32 global_memory_allocator_size;
	/**
	* ShaveNN FW section VPU base address
	* On VPU2.7 HW this address must be within 2GB range starting from L2C_PAGE_TABLE base
	*/
	u64 shave_nn_fw_base;
	u64 save_restore_ret_address; /* stores the address of FW's restore entry point */
	u32 pad2[43];
	/* IRQ re-direct numbers: 0x200 - 0x2FF */
	s32 watchdog_irq_mss;
	s32 watchdog_irq_nce;
	/* ARM -> VPU doorbell interrupt. ARM is notifying VPU of async command or compute job. */
	u32 host_to_vpu_irq;
	/* VPU -> ARM job done interrupt. VPU is notifying ARM of compute job completion. */
	u32 job_done_irq;
	/* VPU -> ARM IRQ line to use to request MMU update. */
	u32 mmu_update_request_irq;
	/* ARM -> VPU IRQ line to use to notify of MMU update completion. */
	u32 mmu_update_done_irq;
	/* ARM -> VPU IRQ line to use to request power level change. */
	u32 set_power_level_irq;
	/* VPU -> ARM IRQ line to use to notify of power level change completion. */
	u32 set_power_level_done_irq;
	/* VPU -> ARM IRQ line to use to notify of VPU idle state change */
	u32 set_vpu_idle_update_irq;
	/* VPU -> ARM IRQ line to use to request counter reset. */
	u32 metric_query_event_irq;
	/* ARM -> VPU IRQ line to use to notify of counter reset completion. */
	u32 metric_query_event_done_irq;
	/* VPU -> ARM IRQ line to use to notify of preemption completion. */
	u32 preemption_done_irq;
	/* Padding. */
	u32 pad3[52];
	/* Silicon information: 0x300 - 0x3FF */
	u32 host_version_id;
	u32 si_stepping;
	u64 device_id;
	u64 feature_exclusion;
	u64 sku;
	/** PLL ratio for minimum clock frequency */
	u32 min_freq_pll_ratio;
	/** PLL ratio for maximum clock frequency */
	u32 max_freq_pll_ratio;
	/**
	* Initial log level threshold (messages with log level severity less than
	* the threshold will not be logged); applies to every enabled logging
	* destination and loggable HW component. See 'mvLog_t' enum for acceptable
	* values.
	* TODO: EISW-33556: Move log level definition (mvLog_t) to this file.
	*/
	u32 default_trace_level;
	u32 boot_type;
	u64 punit_telemetry_sram_base;
	u64 punit_telemetry_sram_size;
	u32 vpu_telemetry_enable;
	u64 crit_tracing_buff_addr;
	u32 crit_tracing_buff_size;
	u64 verbose_tracing_buff_addr;
	u32 verbose_tracing_buff_size;
	u64 verbose_tracing_sw_component_mask; /* TO BE REMOVED */
	/**
	* Mask of destinations to which logging messages are delivered; bitwise OR
	* of values defined in vpu_trace_destination enum.
	*/
	u32 trace_destination_mask;
	/**
	* Mask of hardware components for which logging is enabled; bitwise OR of
	* bits defined by the VPU_TRACE_PROC_BIT_* macros.
	*/
	u64 trace_hw_component_mask;
	/** Mask of trace message formats supported by the driver */
	u64 tracing_buff_message_format_mask;
	u64 trace_reserved_1[2];
	/**
	* Period at which the VPU reads the temp sensor values into MMIO, on
	* platforms where that is necessary (in ms). 0 to disable reads.
	*/
	u32 temp_sensor_period_ms;
	/** PLL ratio for efficient clock frequency */
	u32 pn_freq_pll_ratio;
	/** DVFS Mode: Default: 0, Max Performance: 1, On Demand: 2, Power Save: 3 */
	u32 dvfs_mode;
	/**
	* Depending on DVFS Mode:
	* On-demand: Default if 0.
	* Bit 0-7 - uint8_t: Highest residency percent
	* Bit 8-15 - uint8_t: High residency percent
	* Bit 16-23 - uint8_t: Low residency percent
	* Bit 24-31 - uint8_t: Lowest residency percent
	* Bit 32-35 - unsigned 4b: PLL Ratio increase amount on highest residency
	* Bit 36-39 - unsigned 4b: PLL Ratio increase amount on high residency
	* Bit 40-43 - unsigned 4b: PLL Ratio decrease amount on low residency
	* Bit 44-47 - unsigned 4b: PLL Ratio decrease amount on lowest frequency
	* Bit 48-55 - uint8_t: Period (ms) for residency decisions
	* Bit 56-63 - uint8_t: Averaging windows (as multiples of period. Max: 30 decimal)
	* Power Save/Max Performance: Unused
	*/
	u64 dvfs_param;
	/**
	* D0i3 delayed entry
	* Bit0: Disable CPU state save on D0i2 entry flow.
	* 0: Every D0i2 entry saves state. Save state IPC message ignored.
	* 1: IPC message required to save state on D0i3 entry flow.
	*/
	u32 d0i3_delayed_entry;
	/* Time spent by VPU in D0i3 state */
	u64 d0i3_residency_time_us;
	/* Value of VPU perf counter at the time of entering D0i3 state . */
	u64 d0i3_entry_vpu_ts;
	u32 pad4[20];
	/* Warm boot information: 0x400 - 0x43F */
	u32 warm_boot_sections_count;
	u32 warm_boot_start_address_reference;
	u32 warm_boot_section_info_address_offset;
	u32 pad5[13];
	/* Power States transitions timestamps: 0x440 - 0x46F*/
	struct {
	/* VPU_IDLE -> VPU_ACTIVE transition initiated timestamp */
	u64 vpu_active_state_requested;
	/* VPU_IDLE -> VPU_ACTIVE transition completed timestamp */
	u64 vpu_active_state_achieved;
	/* VPU_ACTIVE -> VPU_IDLE transition initiated timestamp */
	u64 vpu_idle_state_requested;
	/* VPU_ACTIVE -> VPU_IDLE transition completed timestamp */
	u64 vpu_idle_state_achieved;
	/* VPU_IDLE -> VPU_STANDBY transition initiated timestamp */
	u64 vpu_standby_state_requested;
	/* VPU_IDLE -> VPU_STANDBY transition completed timestamp */
	u64 vpu_standby_state_achieved;
	} power_states_timestamps;
	/* VPU scheduling mode. Values defined by VPU_SCHEDULING_MODE_* macros. */
	u32 vpu_scheduling_mode;
	/* Present call period in milliseconds. */
	u32 vpu_focus_present_timer_ms;
	/* VPU ECC Signaling */
	u32 vpu_uses_ecc_mca_signal;
	/* Values defined by VPU_OP_MODE* macros */
	u32 vpu_operation_mode;
	/* Unused/reserved: 0x480 - 0xFFF */
	u32 pad6[736];
	};

	/*
	* Magic numbers set between host and vpu to detect corruptio of tracing init
	*/

	#define VPU_TRACING_BUFFER_CANARY (0xCAFECAFE)

	/* Tracing buffer message format definitions */
	#define VPU_TRACING_FORMAT_STRING 0
	#define VPU_TRACING_FORMAT_MIPI 2
	/*
	* Header of the tracing buffer.
	* The below defined header will be stored at the beginning of
	* each allocated tracing buffer, followed by a series of 256b
	* of ASCII trace message entries.
	*/
	struct vpu_tracing_buffer_header {
	/**
	* Magic number set by host to detect corruption
	* @see VPU_TRACING_BUFFER_CANARY
	*/
	u32 host_canary_start;
	/* offset from start of buffer for trace entries */
	u32 read_index;
	u32 pad_to_cache_line_size_0[14];
	/* End of first cache line */

	/**
	* Magic number set by host to detect corruption
	* @see VPU_TRACING_BUFFER_CANARY
	*/
	u32 vpu_canary_start;
	/* offset from start of buffer from write start */
	u32 write_index;
	/* counter for buffer wrapping */
	u32 wrap_count;
	/* legacy field - do not use */
	u32 reserved_0;
	/**
	* Size of the log buffer include this header (@header_size) and space
	* reserved for all messages. If @alignment` is greater that 0 the @Size
	* must be multiple of @Alignment.
	*/
	u32 size;
	/* Header version */
	u16 header_version;
	/* Header size */
	u16 header_size;
	/*
	* Format of the messages in the trace buffer
	* 0 - null terminated string
	* 1 - size + null terminated string
	* 2 - MIPI-SysT encoding
	*/
	u32 format;
	/*
	* Message alignment
	* 0 - messages are place 1 after another
	* n - every message starts and multiple on offset
	*/
	u32 alignment; /* 64, 128, 256 */
	/* Name of the logging entity, i.e "LRT", "LNN", "SHV0", etc */
	char name[16];
	u32 pad_to_cache_line_size_1[4];
	/* End of second cache line */
	};

	#pragma pack(pop)

	#endif