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|
/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note
*
* Copyright 2016-2019 HabanaLabs, Ltd.
* All Rights Reserved.
*
*/
#ifndef HABANALABS_H_
#define HABANALABS_H_
#include <linux/types.h>
#include <linux/ioctl.h>
/*
* Defines that are asic-specific but constitutes as ABI between kernel driver
* and userspace
*/
#define GOYA_KMD_SRAM_RESERVED_SIZE_FROM_START 0x8000 /* 32KB */
/*
* Queue Numbering
*
* The external queues (PCI DMA channels) MUST be before the internal queues
* and each group (PCI DMA channels and internal) must be contiguous inside
* itself but there can be a gap between the two groups (although not
* recommended)
*/
enum goya_queue_id {
GOYA_QUEUE_ID_DMA_0 = 0,
GOYA_QUEUE_ID_DMA_1 = 1,
GOYA_QUEUE_ID_DMA_2 = 2,
GOYA_QUEUE_ID_DMA_3 = 3,
GOYA_QUEUE_ID_DMA_4 = 4,
GOYA_QUEUE_ID_CPU_PQ = 5,
GOYA_QUEUE_ID_MME = 6, /* Internal queues start here */
GOYA_QUEUE_ID_TPC0 = 7,
GOYA_QUEUE_ID_TPC1 = 8,
GOYA_QUEUE_ID_TPC2 = 9,
GOYA_QUEUE_ID_TPC3 = 10,
GOYA_QUEUE_ID_TPC4 = 11,
GOYA_QUEUE_ID_TPC5 = 12,
GOYA_QUEUE_ID_TPC6 = 13,
GOYA_QUEUE_ID_TPC7 = 14,
GOYA_QUEUE_ID_SIZE
};
/*
* Engine Numbering
*
* Used in the "busy_engines_mask" field in `struct hl_info_hw_idle'
*/
enum goya_engine_id {
GOYA_ENGINE_ID_DMA_0 = 0,
GOYA_ENGINE_ID_DMA_1,
GOYA_ENGINE_ID_DMA_2,
GOYA_ENGINE_ID_DMA_3,
GOYA_ENGINE_ID_DMA_4,
GOYA_ENGINE_ID_MME_0,
GOYA_ENGINE_ID_TPC_0,
GOYA_ENGINE_ID_TPC_1,
GOYA_ENGINE_ID_TPC_2,
GOYA_ENGINE_ID_TPC_3,
GOYA_ENGINE_ID_TPC_4,
GOYA_ENGINE_ID_TPC_5,
GOYA_ENGINE_ID_TPC_6,
GOYA_ENGINE_ID_TPC_7,
GOYA_ENGINE_ID_SIZE
};
enum hl_device_status {
HL_DEVICE_STATUS_OPERATIONAL,
HL_DEVICE_STATUS_IN_RESET,
HL_DEVICE_STATUS_MALFUNCTION
};
/* Opcode for management ioctl
*
* HW_IP_INFO - Receive information about different IP blocks in the
* device.
* HL_INFO_HW_EVENTS - Receive an array describing how many times each event
* occurred since the last hard reset.
* HL_INFO_DRAM_USAGE - Retrieve the dram usage inside the device and of the
* specific context. This is relevant only for devices
* where the dram is managed by the kernel driver
* HL_INFO_HW_IDLE - Retrieve information about the idle status of each
* internal engine.
* HL_INFO_DEVICE_STATUS - Retrieve the device's status. This opcode doesn't
* require an open context.
* HL_INFO_DEVICE_UTILIZATION - Retrieve the total utilization of the device
* over the last period specified by the user.
* The period can be between 100ms to 1s, in
* resolution of 100ms. The return value is a
* percentage of the utilization rate.
* HL_INFO_HW_EVENTS_AGGREGATE - Receive an array describing how many times each
* event occurred since the driver was loaded.
* HL_INFO_CLK_RATE - Retrieve the current and maximum clock rate
* of the device in MHz. The maximum clock rate is
* configurable via sysfs parameter
*/
#define HL_INFO_HW_IP_INFO 0
#define HL_INFO_HW_EVENTS 1
#define HL_INFO_DRAM_USAGE 2
#define HL_INFO_HW_IDLE 3
#define HL_INFO_DEVICE_STATUS 4
#define HL_INFO_DEVICE_UTILIZATION 6
#define HL_INFO_HW_EVENTS_AGGREGATE 7
#define HL_INFO_CLK_RATE 8
#define HL_INFO_VERSION_MAX_LEN 128
#define HL_INFO_CARD_NAME_MAX_LEN 16
struct hl_info_hw_ip_info {
__u64 sram_base_address;
__u64 dram_base_address;
__u64 dram_size;
__u32 sram_size;
__u32 num_of_events;
__u32 device_id; /* PCI Device ID */
__u32 reserved[3];
__u32 armcp_cpld_version;
__u32 psoc_pci_pll_nr;
__u32 psoc_pci_pll_nf;
__u32 psoc_pci_pll_od;
__u32 psoc_pci_pll_div_factor;
__u8 tpc_enabled_mask;
__u8 dram_enabled;
__u8 pad[2];
__u8 armcp_version[HL_INFO_VERSION_MAX_LEN];
__u8 card_name[HL_INFO_CARD_NAME_MAX_LEN];
};
struct hl_info_dram_usage {
__u64 dram_free_mem;
__u64 ctx_dram_mem;
};
struct hl_info_hw_idle {
__u32 is_idle;
/*
* Bitmask of busy engines.
* Bits definition is according to `enum <chip>_enging_id'.
*/
__u32 busy_engines_mask;
};
struct hl_info_device_status {
__u32 status;
__u32 pad;
};
struct hl_info_device_utilization {
__u32 utilization;
__u32 pad;
};
struct hl_info_clk_rate {
__u32 cur_clk_rate_mhz;
__u32 max_clk_rate_mhz;
};
struct hl_info_args {
/* Location of relevant struct in userspace */
__u64 return_pointer;
/*
* The size of the return value. Just like "size" in "snprintf",
* it limits how many bytes the kernel can write
*
* For hw_events array, the size should be
* hl_info_hw_ip_info.num_of_events * sizeof(__u32)
*/
__u32 return_size;
/* HL_INFO_* */
__u32 op;
union {
/* Context ID - Currently not in use */
__u32 ctx_id;
/* Period value for utilization rate (100ms - 1000ms, in 100ms
* resolution.
*/
__u32 period_ms;
};
__u32 pad;
};
/* Opcode to create a new command buffer */
#define HL_CB_OP_CREATE 0
/* Opcode to destroy previously created command buffer */
#define HL_CB_OP_DESTROY 1
#define HL_MAX_CB_SIZE 0x200000 /* 2MB */
struct hl_cb_in {
/* Handle of CB or 0 if we want to create one */
__u64 cb_handle;
/* HL_CB_OP_* */
__u32 op;
/* Size of CB. Maximum size is HL_MAX_CB_SIZE. The minimum size that
* will be allocated, regardless of this parameter's value, is PAGE_SIZE
*/
__u32 cb_size;
/* Context ID - Currently not in use */
__u32 ctx_id;
__u32 pad;
};
struct hl_cb_out {
/* Handle of CB */
__u64 cb_handle;
};
union hl_cb_args {
struct hl_cb_in in;
struct hl_cb_out out;
};
/*
* This structure size must always be fixed to 64-bytes for backward
* compatibility
*/
struct hl_cs_chunk {
/*
* For external queue, this represents a Handle of CB on the Host
* For internal queue, this represents an SRAM or DRAM address of the
* internal CB
*/
__u64 cb_handle;
/* Index of queue to put the CB on */
__u32 queue_index;
/*
* Size of command buffer with valid packets
* Can be smaller then actual CB size
*/
__u32 cb_size;
/* HL_CS_CHUNK_FLAGS_* */
__u32 cs_chunk_flags;
/* Align structure to 64 bytes */
__u32 pad[11];
};
#define HL_CS_FLAGS_FORCE_RESTORE 0x1
#define HL_CS_STATUS_SUCCESS 0
#define HL_MAX_JOBS_PER_CS 512
struct hl_cs_in {
/* this holds address of array of hl_cs_chunk for restore phase */
__u64 chunks_restore;
/* this holds address of array of hl_cs_chunk for execution phase */
__u64 chunks_execute;
/* this holds address of array of hl_cs_chunk for store phase -
* Currently not in use
*/
__u64 chunks_store;
/* Number of chunks in restore phase array. Maximum number is
* HL_MAX_JOBS_PER_CS
*/
__u32 num_chunks_restore;
/* Number of chunks in execution array. Maximum number is
* HL_MAX_JOBS_PER_CS
*/
__u32 num_chunks_execute;
/* Number of chunks in restore phase array - Currently not in use */
__u32 num_chunks_store;
/* HL_CS_FLAGS_* */
__u32 cs_flags;
/* Context ID - Currently not in use */
__u32 ctx_id;
};
struct hl_cs_out {
/*
* seq holds the sequence number of the CS to pass to wait ioctl. All
* values are valid except for 0 and ULLONG_MAX
*/
__u64 seq;
/* HL_CS_STATUS_* */
__u32 status;
__u32 pad;
};
union hl_cs_args {
struct hl_cs_in in;
struct hl_cs_out out;
};
struct hl_wait_cs_in {
/* Command submission sequence number */
__u64 seq;
/* Absolute timeout to wait in microseconds */
__u64 timeout_us;
/* Context ID - Currently not in use */
__u32 ctx_id;
__u32 pad;
};
#define HL_WAIT_CS_STATUS_COMPLETED 0
#define HL_WAIT_CS_STATUS_BUSY 1
#define HL_WAIT_CS_STATUS_TIMEDOUT 2
#define HL_WAIT_CS_STATUS_ABORTED 3
#define HL_WAIT_CS_STATUS_INTERRUPTED 4
struct hl_wait_cs_out {
/* HL_WAIT_CS_STATUS_* */
__u32 status;
__u32 pad;
};
union hl_wait_cs_args {
struct hl_wait_cs_in in;
struct hl_wait_cs_out out;
};
/* Opcode to alloc device memory */
#define HL_MEM_OP_ALLOC 0
/* Opcode to free previously allocated device memory */
#define HL_MEM_OP_FREE 1
/* Opcode to map host memory */
#define HL_MEM_OP_MAP 2
/* Opcode to unmap previously mapped host memory */
#define HL_MEM_OP_UNMAP 3
/* Memory flags */
#define HL_MEM_CONTIGUOUS 0x1
#define HL_MEM_SHARED 0x2
#define HL_MEM_USERPTR 0x4
struct hl_mem_in {
union {
/* HL_MEM_OP_ALLOC- allocate device memory */
struct {
/* Size to alloc */
__u64 mem_size;
} alloc;
/* HL_MEM_OP_FREE - free device memory */
struct {
/* Handle returned from HL_MEM_OP_ALLOC */
__u64 handle;
} free;
/* HL_MEM_OP_MAP - map device memory */
struct {
/*
* Requested virtual address of mapped memory.
* The driver will try to map the requested region to
* this hint address, as long as the address is valid
* and not already mapped. The user should check the
* returned address of the IOCTL to make sure he got
* the hint address. Passing 0 here means that the
* driver will choose the address itself.
*/
__u64 hint_addr;
/* Handle returned from HL_MEM_OP_ALLOC */
__u64 handle;
} map_device;
/* HL_MEM_OP_MAP - map host memory */
struct {
/* Address of allocated host memory */
__u64 host_virt_addr;
/*
* Requested virtual address of mapped memory.
* The driver will try to map the requested region to
* this hint address, as long as the address is valid
* and not already mapped. The user should check the
* returned address of the IOCTL to make sure he got
* the hint address. Passing 0 here means that the
* driver will choose the address itself.
*/
__u64 hint_addr;
/* Size of allocated host memory */
__u64 mem_size;
} map_host;
/* HL_MEM_OP_UNMAP - unmap host memory */
struct {
/* Virtual address returned from HL_MEM_OP_MAP */
__u64 device_virt_addr;
} unmap;
};
/* HL_MEM_OP_* */
__u32 op;
/* HL_MEM_* flags */
__u32 flags;
/* Context ID - Currently not in use */
__u32 ctx_id;
__u32 pad;
};
struct hl_mem_out {
union {
/*
* Used for HL_MEM_OP_MAP as the virtual address that was
* assigned in the device VA space.
* A value of 0 means the requested operation failed.
*/
__u64 device_virt_addr;
/*
* Used for HL_MEM_OP_ALLOC. This is the assigned
* handle for the allocated memory
*/
__u64 handle;
};
};
union hl_mem_args {
struct hl_mem_in in;
struct hl_mem_out out;
};
#define HL_DEBUG_MAX_AUX_VALUES 10
struct hl_debug_params_etr {
/* Address in memory to allocate buffer */
__u64 buffer_address;
/* Size of buffer to allocate */
__u64 buffer_size;
/* Sink operation mode: SW fifo, HW fifo, Circular buffer */
__u32 sink_mode;
__u32 pad;
};
struct hl_debug_params_etf {
/* Address in memory to allocate buffer */
__u64 buffer_address;
/* Size of buffer to allocate */
__u64 buffer_size;
/* Sink operation mode: SW fifo, HW fifo, Circular buffer */
__u32 sink_mode;
__u32 pad;
};
struct hl_debug_params_stm {
/* Two bit masks for HW event and Stimulus Port */
__u64 he_mask;
__u64 sp_mask;
/* Trace source ID */
__u32 id;
/* Frequency for the timestamp register */
__u32 frequency;
};
struct hl_debug_params_bmon {
/* Two address ranges that the user can request to filter */
__u64 start_addr0;
__u64 addr_mask0;
__u64 start_addr1;
__u64 addr_mask1;
/* Capture window configuration */
__u32 bw_win;
__u32 win_capture;
/* Trace source ID */
__u32 id;
__u32 pad;
};
struct hl_debug_params_spmu {
/* Event types selection */
__u64 event_types[HL_DEBUG_MAX_AUX_VALUES];
/* Number of event types selection */
__u32 event_types_num;
__u32 pad;
};
/* Opcode for ETR component */
#define HL_DEBUG_OP_ETR 0
/* Opcode for ETF component */
#define HL_DEBUG_OP_ETF 1
/* Opcode for STM component */
#define HL_DEBUG_OP_STM 2
/* Opcode for FUNNEL component */
#define HL_DEBUG_OP_FUNNEL 3
/* Opcode for BMON component */
#define HL_DEBUG_OP_BMON 4
/* Opcode for SPMU component */
#define HL_DEBUG_OP_SPMU 5
/* Opcode for timestamp (deprecated) */
#define HL_DEBUG_OP_TIMESTAMP 6
/* Opcode for setting the device into or out of debug mode. The enable
* variable should be 1 for enabling debug mode and 0 for disabling it
*/
#define HL_DEBUG_OP_SET_MODE 7
struct hl_debug_args {
/*
* Pointer to user input structure.
* This field is relevant to specific opcodes.
*/
__u64 input_ptr;
/* Pointer to user output structure */
__u64 output_ptr;
/* Size of user input structure */
__u32 input_size;
/* Size of user output structure */
__u32 output_size;
/* HL_DEBUG_OP_* */
__u32 op;
/*
* Register index in the component, taken from the debug_regs_index enum
* in the various ASIC header files
*/
__u32 reg_idx;
/* Enable/disable */
__u32 enable;
/* Context ID - Currently not in use */
__u32 ctx_id;
};
/*
* Various information operations such as:
* - H/W IP information
* - Current dram usage
*
* The user calls this IOCTL with an opcode that describes the required
* information. The user should supply a pointer to a user-allocated memory
* chunk, which will be filled by the driver with the requested information.
*
* The user supplies the maximum amount of size to copy into the user's memory,
* in order to prevent data corruption in case of differences between the
* definitions of structures in kernel and userspace, e.g. in case of old
* userspace and new kernel driver
*/
#define HL_IOCTL_INFO \
_IOWR('H', 0x01, struct hl_info_args)
/*
* Command Buffer
* - Request a Command Buffer
* - Destroy a Command Buffer
*
* The command buffers are memory blocks that reside in DMA-able address
* space and are physically contiguous so they can be accessed by the device
* directly. They are allocated using the coherent DMA API.
*
* When creating a new CB, the IOCTL returns a handle of it, and the user-space
* process needs to use that handle to mmap the buffer so it can access them.
*
*/
#define HL_IOCTL_CB \
_IOWR('H', 0x02, union hl_cb_args)
/*
* Command Submission
*
* To submit work to the device, the user need to call this IOCTL with a set
* of JOBS. That set of JOBS constitutes a CS object.
* Each JOB will be enqueued on a specific queue, according to the user's input.
* There can be more then one JOB per queue.
*
* The CS IOCTL will receive three sets of JOBS. One set is for "restore" phase,
* a second set is for "execution" phase and a third set is for "store" phase.
* The JOBS on the "restore" phase are enqueued only after context-switch
* (or if its the first CS for this context). The user can also order the
* driver to run the "restore" phase explicitly
*
* There are two types of queues - external and internal. External queues
* are DMA queues which transfer data from/to the Host. All other queues are
* internal. The driver will get completion notifications from the device only
* on JOBS which are enqueued in the external queues.
*
* For jobs on external queues, the user needs to create command buffers
* through the CB ioctl and give the CB's handle to the CS ioctl. For jobs on
* internal queues, the user needs to prepare a "command buffer" with packets
* on either the SRAM or DRAM, and give the device address of that buffer to
* the CS ioctl.
*
* This IOCTL is asynchronous in regard to the actual execution of the CS. This
* means it returns immediately after ALL the JOBS were enqueued on their
* relevant queues. Therefore, the user mustn't assume the CS has been completed
* or has even started to execute.
*
* Upon successful enqueue, the IOCTL returns a sequence number which the user
* can use with the "Wait for CS" IOCTL to check whether the handle's CS
* external JOBS have been completed. Note that if the CS has internal JOBS
* which can execute AFTER the external JOBS have finished, the driver might
* report that the CS has finished executing BEFORE the internal JOBS have
* actually finish executing.
*
* Even though the sequence number increments per CS, the user can NOT
* automatically assume that if CS with sequence number N finished, then CS
* with sequence number N-1 also finished. The user can make this assumption if
* and only if CS N and CS N-1 are exactly the same (same CBs for the same
* queues).
*/
#define HL_IOCTL_CS \
_IOWR('H', 0x03, union hl_cs_args)
/*
* Wait for Command Submission
*
* The user can call this IOCTL with a handle it received from the CS IOCTL
* to wait until the handle's CS has finished executing. The user will wait
* inside the kernel until the CS has finished or until the user-requested
* timeout has expired.
*
* The return value of the IOCTL is a standard Linux error code. The possible
* values are:
*
* EINTR - Kernel waiting has been interrupted, e.g. due to OS signal
* that the user process received
* ETIMEDOUT - The CS has caused a timeout on the device
* EIO - The CS was aborted (usually because the device was reset)
* ENODEV - The device wants to do hard-reset (so user need to close FD)
*
* The driver also returns a custom define inside the IOCTL which can be:
*
* HL_WAIT_CS_STATUS_COMPLETED - The CS has been completed successfully (0)
* HL_WAIT_CS_STATUS_BUSY - The CS is still executing (0)
* HL_WAIT_CS_STATUS_TIMEDOUT - The CS has caused a timeout on the device
* (ETIMEDOUT)
* HL_WAIT_CS_STATUS_ABORTED - The CS was aborted, usually because the
* device was reset (EIO)
* HL_WAIT_CS_STATUS_INTERRUPTED - Waiting for the CS was interrupted (EINTR)
*
*/
#define HL_IOCTL_WAIT_CS \
_IOWR('H', 0x04, union hl_wait_cs_args)
/*
* Memory
* - Map host memory to device MMU
* - Unmap host memory from device MMU
*
* This IOCTL allows the user to map host memory to the device MMU
*
* For host memory, the IOCTL doesn't allocate memory. The user is supposed
* to allocate the memory in user-space (malloc/new). The driver pins the
* physical pages (up to the allowed limit by the OS), assigns a virtual
* address in the device VA space and initializes the device MMU.
*
* There is an option for the user to specify the requested virtual address.
*
*/
#define HL_IOCTL_MEMORY \
_IOWR('H', 0x05, union hl_mem_args)
/*
* Debug
* - Enable/disable the ETR/ETF/FUNNEL/STM/BMON/SPMU debug traces
*
* This IOCTL allows the user to get debug traces from the chip.
*
* Before the user can send configuration requests of the various
* debug/profile engines, it needs to set the device into debug mode.
* This is because the debug/profile infrastructure is shared component in the
* device and we can't allow multiple users to access it at the same time.
*
* Once a user set the device into debug mode, the driver won't allow other
* users to "work" with the device, i.e. open a FD. If there are multiple users
* opened on the device, the driver won't allow any user to debug the device.
*
* For each configuration request, the user needs to provide the register index
* and essential data such as buffer address and size.
*
* Once the user has finished using the debug/profile engines, he should
* set the device into non-debug mode, i.e. disable debug mode.
*
* The driver can decide to "kick out" the user if he abuses this interface.
*
*/
#define HL_IOCTL_DEBUG \
_IOWR('H', 0x06, struct hl_debug_args)
#define HL_COMMAND_START 0x01
#define HL_COMMAND_END 0x07
#endif /* HABANALABS_H_ */
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