| /* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */ |
| /* |
| * |
| * (C) COPYRIGHT 2019-2021 ARM Limited. All rights reserved. |
| * |
| * This program is free software and is provided to you under the terms of the |
| * GNU General Public License version 2 as published by the Free Software |
| * Foundation, and any use by you of this program is subject to the terms |
| * of such GNU license. |
| * |
| * This program is distributed in the hope that it will be useful, |
| * but WITHOUT ANY WARRANTY; without even the implied warranty of |
| * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
| * GNU General Public License for more details. |
| * |
| * You should have received a copy of the GNU General Public License |
| * along with this program; if not, you can access it online at |
| * http://www.gnu.org/licenses/gpl-2.0.html. |
| * |
| */ |
| |
| #ifndef _UAPI_BASE_JM_KERNEL_H_ |
| #define _UAPI_BASE_JM_KERNEL_H_ |
| |
| #include <linux/types.h> |
| |
| /* Memory allocation, access/hint flags. |
| * |
| * See base_mem_alloc_flags. |
| */ |
| |
| /* IN */ |
| /* Read access CPU side |
| */ |
| #define BASE_MEM_PROT_CPU_RD ((base_mem_alloc_flags)1 << 0) |
| |
| /* Write access CPU side |
| */ |
| #define BASE_MEM_PROT_CPU_WR ((base_mem_alloc_flags)1 << 1) |
| |
| /* Read access GPU side |
| */ |
| #define BASE_MEM_PROT_GPU_RD ((base_mem_alloc_flags)1 << 2) |
| |
| /* Write access GPU side |
| */ |
| #define BASE_MEM_PROT_GPU_WR ((base_mem_alloc_flags)1 << 3) |
| |
| /* Execute allowed on the GPU side |
| */ |
| #define BASE_MEM_PROT_GPU_EX ((base_mem_alloc_flags)1 << 4) |
| |
| /* Will be permanently mapped in kernel space. |
| * Flag is only allowed on allocations originating from kbase. |
| */ |
| #define BASEP_MEM_PERMANENT_KERNEL_MAPPING ((base_mem_alloc_flags)1 << 5) |
| |
| /* The allocation will completely reside within the same 4GB chunk in the GPU |
| * virtual space. |
| * Since this flag is primarily required only for the TLS memory which will |
| * not be used to contain executable code and also not used for Tiler heap, |
| * it can't be used along with BASE_MEM_PROT_GPU_EX and TILER_ALIGN_TOP flags. |
| */ |
| #define BASE_MEM_GPU_VA_SAME_4GB_PAGE ((base_mem_alloc_flags)1 << 6) |
| |
| /* Userspace is not allowed to free this memory. |
| * Flag is only allowed on allocations originating from kbase. |
| */ |
| #define BASEP_MEM_NO_USER_FREE ((base_mem_alloc_flags)1 << 7) |
| |
| #define BASE_MEM_RESERVED_BIT_8 ((base_mem_alloc_flags)1 << 8) |
| |
| /* Grow backing store on GPU Page Fault |
| */ |
| #define BASE_MEM_GROW_ON_GPF ((base_mem_alloc_flags)1 << 9) |
| |
| /* Page coherence Outer shareable, if available |
| */ |
| #define BASE_MEM_COHERENT_SYSTEM ((base_mem_alloc_flags)1 << 10) |
| |
| /* Page coherence Inner shareable |
| */ |
| #define BASE_MEM_COHERENT_LOCAL ((base_mem_alloc_flags)1 << 11) |
| |
| /* IN/OUT */ |
| /* Should be cached on the CPU, returned if actually cached |
| */ |
| #define BASE_MEM_CACHED_CPU ((base_mem_alloc_flags)1 << 12) |
| |
| /* IN/OUT */ |
| /* Must have same VA on both the GPU and the CPU |
| */ |
| #define BASE_MEM_SAME_VA ((base_mem_alloc_flags)1 << 13) |
| |
| /* OUT */ |
| /* Must call mmap to acquire a GPU address for the allocation |
| */ |
| #define BASE_MEM_NEED_MMAP ((base_mem_alloc_flags)1 << 14) |
| |
| /* IN */ |
| /* Page coherence Outer shareable, required. |
| */ |
| #define BASE_MEM_COHERENT_SYSTEM_REQUIRED ((base_mem_alloc_flags)1 << 15) |
| |
| /* Protected memory |
| */ |
| #define BASE_MEM_PROTECTED ((base_mem_alloc_flags)1 << 16) |
| |
| /* Not needed physical memory |
| */ |
| #define BASE_MEM_DONT_NEED ((base_mem_alloc_flags)1 << 17) |
| |
| /* Must use shared CPU/GPU zone (SAME_VA zone) but doesn't require the |
| * addresses to be the same |
| */ |
| #define BASE_MEM_IMPORT_SHARED ((base_mem_alloc_flags)1 << 18) |
| |
| /** |
| * Bit 19 is reserved. |
| * |
| * Do not remove, use the next unreserved bit for new flags |
| */ |
| #define BASE_MEM_RESERVED_BIT_19 ((base_mem_alloc_flags)1 << 19) |
| |
| /** |
| * Memory starting from the end of the initial commit is aligned to 'extension' |
| * pages, where 'extension' must be a power of 2 and no more than |
| * BASE_MEM_TILER_ALIGN_TOP_EXTENSION_MAX_PAGES |
| */ |
| #define BASE_MEM_TILER_ALIGN_TOP ((base_mem_alloc_flags)1 << 20) |
| |
| /* Should be uncached on the GPU, will work only for GPUs using AARCH64 mmu |
| * mode. Some components within the GPU might only be able to access memory |
| * that is GPU cacheable. Refer to the specific GPU implementation for more |
| * details. The 3 shareability flags will be ignored for GPU uncached memory. |
| * If used while importing USER_BUFFER type memory, then the import will fail |
| * if the memory is not aligned to GPU and CPU cache line width. |
| */ |
| #define BASE_MEM_UNCACHED_GPU ((base_mem_alloc_flags)1 << 21) |
| |
| /* |
| * Bits [22:25] for group_id (0~15). |
| * |
| * base_mem_group_id_set() should be used to pack a memory group ID into a |
| * base_mem_alloc_flags value instead of accessing the bits directly. |
| * base_mem_group_id_get() should be used to extract the memory group ID from |
| * a base_mem_alloc_flags value. |
| */ |
| #define BASEP_MEM_GROUP_ID_SHIFT 22 |
| #define BASE_MEM_GROUP_ID_MASK \ |
| ((base_mem_alloc_flags)0xF << BASEP_MEM_GROUP_ID_SHIFT) |
| |
| /* Must do CPU cache maintenance when imported memory is mapped/unmapped |
| * on GPU. Currently applicable to dma-buf type only. |
| */ |
| #define BASE_MEM_IMPORT_SYNC_ON_MAP_UNMAP ((base_mem_alloc_flags)1 << 26) |
| |
| /* Use the GPU VA chosen by the kernel client */ |
| #define BASE_MEM_FLAG_MAP_FIXED ((base_mem_alloc_flags)1 << 27) |
| |
| /* OUT */ |
| /* Kernel side cache sync ops required */ |
| #define BASE_MEM_KERNEL_SYNC ((base_mem_alloc_flags)1 << 28) |
| |
| /* Force trimming of JIT allocations when creating a new allocation */ |
| #define BASEP_MEM_PERFORM_JIT_TRIM ((base_mem_alloc_flags)1 << 29) |
| |
| /* Number of bits used as flags for base memory management |
| * |
| * Must be kept in sync with the base_mem_alloc_flags flags |
| */ |
| #define BASE_MEM_FLAGS_NR_BITS 30 |
| |
| /* A mask of all the flags which are only valid for allocations within kbase, |
| * and may not be passed from user space. |
| */ |
| #define BASEP_MEM_FLAGS_KERNEL_ONLY \ |
| (BASEP_MEM_PERMANENT_KERNEL_MAPPING | BASEP_MEM_NO_USER_FREE | \ |
| BASE_MEM_FLAG_MAP_FIXED | BASEP_MEM_PERFORM_JIT_TRIM) |
| |
| /* A mask for all output bits, excluding IN/OUT bits. |
| */ |
| #define BASE_MEM_FLAGS_OUTPUT_MASK BASE_MEM_NEED_MMAP |
| |
| /* A mask for all input bits, including IN/OUT bits. |
| */ |
| #define BASE_MEM_FLAGS_INPUT_MASK \ |
| (((1 << BASE_MEM_FLAGS_NR_BITS) - 1) & ~BASE_MEM_FLAGS_OUTPUT_MASK) |
| |
| /* A mask of all currently reserved flags |
| */ |
| #define BASE_MEM_FLAGS_RESERVED \ |
| (BASE_MEM_RESERVED_BIT_8 | BASE_MEM_RESERVED_BIT_19) |
| |
| #define BASEP_MEM_INVALID_HANDLE (0ull << 12) |
| #define BASE_MEM_MMU_DUMP_HANDLE (1ull << 12) |
| #define BASE_MEM_TRACE_BUFFER_HANDLE (2ull << 12) |
| #define BASE_MEM_MAP_TRACKING_HANDLE (3ull << 12) |
| #define BASEP_MEM_WRITE_ALLOC_PAGES_HANDLE (4ull << 12) |
| /* reserved handles ..-47<<PAGE_SHIFT> for future special handles */ |
| #define BASE_MEM_COOKIE_BASE (64ul << 12) |
| #define BASE_MEM_FIRST_FREE_ADDRESS ((BITS_PER_LONG << 12) + \ |
| BASE_MEM_COOKIE_BASE) |
| |
| /* Similar to BASE_MEM_TILER_ALIGN_TOP, memory starting from the end of the |
| * initial commit is aligned to 'extension' pages, where 'extension' must be a power |
| * of 2 and no more than BASE_MEM_TILER_ALIGN_TOP_EXTENSION_MAX_PAGES |
| */ |
| #define BASE_JIT_ALLOC_MEM_TILER_ALIGN_TOP (1 << 0) |
| |
| /** |
| * If set, the heap info address points to a __u32 holding the used size in bytes; |
| * otherwise it points to a __u64 holding the lowest address of unused memory. |
| */ |
| #define BASE_JIT_ALLOC_HEAP_INFO_IS_SIZE (1 << 1) |
| |
| /** |
| * Valid set of just-in-time memory allocation flags |
| * |
| * Note: BASE_JIT_ALLOC_HEAP_INFO_IS_SIZE cannot be set if heap_info_gpu_addr |
| * in %base_jit_alloc_info is 0 (atom with BASE_JIT_ALLOC_HEAP_INFO_IS_SIZE set |
| * and heap_info_gpu_addr being 0 will be rejected). |
| */ |
| #define BASE_JIT_ALLOC_VALID_FLAGS \ |
| (BASE_JIT_ALLOC_MEM_TILER_ALIGN_TOP | BASE_JIT_ALLOC_HEAP_INFO_IS_SIZE) |
| |
| /** |
| * typedef base_context_create_flags - Flags to pass to ::base_context_init. |
| * |
| * Flags can be ORed together to enable multiple things. |
| * |
| * These share the same space as BASEP_CONTEXT_FLAG_*, and so must |
| * not collide with them. |
| */ |
| typedef __u32 base_context_create_flags; |
| |
| /* No flags set */ |
| #define BASE_CONTEXT_CREATE_FLAG_NONE ((base_context_create_flags)0) |
| |
| /* Base context is embedded in a cctx object (flag used for CINSTR |
| * software counter macros) |
| */ |
| #define BASE_CONTEXT_CCTX_EMBEDDED ((base_context_create_flags)1 << 0) |
| |
| /* Base context is a 'System Monitor' context for Hardware counters. |
| * |
| * One important side effect of this is that job submission is disabled. |
| */ |
| #define BASE_CONTEXT_SYSTEM_MONITOR_SUBMIT_DISABLED \ |
| ((base_context_create_flags)1 << 1) |
| |
| /* Bit-shift used to encode a memory group ID in base_context_create_flags |
| */ |
| #define BASEP_CONTEXT_MMU_GROUP_ID_SHIFT (3) |
| |
| /* Bitmask used to encode a memory group ID in base_context_create_flags |
| */ |
| #define BASEP_CONTEXT_MMU_GROUP_ID_MASK \ |
| ((base_context_create_flags)0xF << BASEP_CONTEXT_MMU_GROUP_ID_SHIFT) |
| |
| /* Bitpattern describing the base_context_create_flags that can be |
| * passed to the kernel |
| */ |
| #define BASEP_CONTEXT_CREATE_KERNEL_FLAGS \ |
| (BASE_CONTEXT_SYSTEM_MONITOR_SUBMIT_DISABLED | \ |
| BASEP_CONTEXT_MMU_GROUP_ID_MASK) |
| |
| /* Bitpattern describing the ::base_context_create_flags that can be |
| * passed to base_context_init() |
| */ |
| #define BASEP_CONTEXT_CREATE_ALLOWED_FLAGS \ |
| (BASE_CONTEXT_CCTX_EMBEDDED | BASEP_CONTEXT_CREATE_KERNEL_FLAGS) |
| |
| /* |
| * Private flags used on the base context |
| * |
| * These start at bit 31, and run down to zero. |
| * |
| * They share the same space as base_context_create_flags, and so must |
| * not collide with them. |
| */ |
| |
| /* Private flag tracking whether job descriptor dumping is disabled */ |
| #define BASEP_CONTEXT_FLAG_JOB_DUMP_DISABLED \ |
| ((base_context_create_flags)(1 << 31)) |
| |
| /* Enable additional tracepoints for latency measurements (TL_ATOM_READY, |
| * TL_ATOM_DONE, TL_ATOM_PRIO_CHANGE, TL_ATOM_EVENT_POST) |
| */ |
| #define BASE_TLSTREAM_ENABLE_LATENCY_TRACEPOINTS (1 << 0) |
| |
| /* Indicate that job dumping is enabled. This could affect certain timers |
| * to account for the performance impact. |
| */ |
| #define BASE_TLSTREAM_JOB_DUMPING_ENABLED (1 << 1) |
| |
| #define BASE_TLSTREAM_FLAGS_MASK (BASE_TLSTREAM_ENABLE_LATENCY_TRACEPOINTS | \ |
| BASE_TLSTREAM_JOB_DUMPING_ENABLED) |
| /* |
| * Dependency stuff, keep it private for now. May want to expose it if |
| * we decide to make the number of semaphores a configurable |
| * option. |
| */ |
| #define BASE_JD_ATOM_COUNT 256 |
| |
| /* Maximum number of concurrent render passes. |
| */ |
| #define BASE_JD_RP_COUNT (256) |
| |
| /* Set/reset values for a software event */ |
| #define BASE_JD_SOFT_EVENT_SET ((unsigned char)1) |
| #define BASE_JD_SOFT_EVENT_RESET ((unsigned char)0) |
| |
| /** |
| * struct base_jd_udata - Per-job data |
| * |
| * This structure is used to store per-job data, and is completely unused |
| * by the Base driver. It can be used to store things such as callback |
| * function pointer, data to handle job completion. It is guaranteed to be |
| * untouched by the Base driver. |
| * |
| * @blob: per-job data array |
| */ |
| struct base_jd_udata { |
| __u64 blob[2]; |
| }; |
| |
| /** |
| * typedef base_jd_dep_type - Job dependency type. |
| * |
| * A flags field will be inserted into the atom structure to specify whether a |
| * dependency is a data or ordering dependency (by putting it before/after |
| * 'core_req' in the structure it should be possible to add without changing |
| * the structure size). |
| * When the flag is set for a particular dependency to signal that it is an |
| * ordering only dependency then errors will not be propagated. |
| */ |
| typedef __u8 base_jd_dep_type; |
| |
| #define BASE_JD_DEP_TYPE_INVALID (0) /**< Invalid dependency */ |
| #define BASE_JD_DEP_TYPE_DATA (1U << 0) /**< Data dependency */ |
| #define BASE_JD_DEP_TYPE_ORDER (1U << 1) /**< Order dependency */ |
| |
| /** |
| * typedef base_jd_core_req - Job chain hardware requirements. |
| * |
| * A job chain must specify what GPU features it needs to allow the |
| * driver to schedule the job correctly. By not specifying the |
| * correct settings can/will cause an early job termination. Multiple |
| * values can be ORed together to specify multiple requirements. |
| * Special case is ::BASE_JD_REQ_DEP, which is used to express complex |
| * dependencies, and that doesn't execute anything on the hardware. |
| */ |
| typedef __u32 base_jd_core_req; |
| |
| /* Requirements that come from the HW */ |
| |
| /* No requirement, dependency only |
| */ |
| #define BASE_JD_REQ_DEP ((base_jd_core_req)0) |
| |
| /* Requires fragment shaders |
| */ |
| #define BASE_JD_REQ_FS ((base_jd_core_req)1 << 0) |
| |
| /* Requires compute shaders |
| * |
| * This covers any of the following GPU job types: |
| * - Vertex Shader Job |
| * - Geometry Shader Job |
| * - An actual Compute Shader Job |
| * |
| * Compare this with BASE_JD_REQ_ONLY_COMPUTE, which specifies that the |
| * job is specifically just the "Compute Shader" job type, and not the "Vertex |
| * Shader" nor the "Geometry Shader" job type. |
| */ |
| #define BASE_JD_REQ_CS ((base_jd_core_req)1 << 1) |
| |
| /* Requires tiling */ |
| #define BASE_JD_REQ_T ((base_jd_core_req)1 << 2) |
| |
| /* Requires cache flushes */ |
| #define BASE_JD_REQ_CF ((base_jd_core_req)1 << 3) |
| |
| /* Requires value writeback */ |
| #define BASE_JD_REQ_V ((base_jd_core_req)1 << 4) |
| |
| /* SW-only requirements - the HW does not expose these as part of the job slot |
| * capabilities |
| */ |
| |
| /* Requires fragment job with AFBC encoding */ |
| #define BASE_JD_REQ_FS_AFBC ((base_jd_core_req)1 << 13) |
| |
| /* SW-only requirement: coalesce completion events. |
| * If this bit is set then completion of this atom will not cause an event to |
| * be sent to userspace, whether successful or not; completion events will be |
| * deferred until an atom completes which does not have this bit set. |
| * |
| * This bit may not be used in combination with BASE_JD_REQ_EXTERNAL_RESOURCES. |
| */ |
| #define BASE_JD_REQ_EVENT_COALESCE ((base_jd_core_req)1 << 5) |
| |
| /* SW Only requirement: the job chain requires a coherent core group. We don't |
| * mind which coherent core group is used. |
| */ |
| #define BASE_JD_REQ_COHERENT_GROUP ((base_jd_core_req)1 << 6) |
| |
| /* SW Only requirement: The performance counters should be enabled only when |
| * they are needed, to reduce power consumption. |
| */ |
| #define BASE_JD_REQ_PERMON ((base_jd_core_req)1 << 7) |
| |
| /* SW Only requirement: External resources are referenced by this atom. |
| * |
| * This bit may not be used in combination with BASE_JD_REQ_EVENT_COALESCE and |
| * BASE_JD_REQ_SOFT_EVENT_WAIT. |
| */ |
| #define BASE_JD_REQ_EXTERNAL_RESOURCES ((base_jd_core_req)1 << 8) |
| |
| /* SW Only requirement: Software defined job. Jobs with this bit set will not be |
| * submitted to the hardware but will cause some action to happen within the |
| * driver |
| */ |
| #define BASE_JD_REQ_SOFT_JOB ((base_jd_core_req)1 << 9) |
| |
| #define BASE_JD_REQ_SOFT_DUMP_CPU_GPU_TIME (BASE_JD_REQ_SOFT_JOB | 0x1) |
| #define BASE_JD_REQ_SOFT_FENCE_TRIGGER (BASE_JD_REQ_SOFT_JOB | 0x2) |
| #define BASE_JD_REQ_SOFT_FENCE_WAIT (BASE_JD_REQ_SOFT_JOB | 0x3) |
| |
| /* 0x4 RESERVED for now */ |
| |
| /* SW only requirement: event wait/trigger job. |
| * |
| * - BASE_JD_REQ_SOFT_EVENT_WAIT: this job will block until the event is set. |
| * - BASE_JD_REQ_SOFT_EVENT_SET: this job sets the event, thus unblocks the |
| * other waiting jobs. It completes immediately. |
| * - BASE_JD_REQ_SOFT_EVENT_RESET: this job resets the event, making it |
| * possible for other jobs to wait upon. It completes immediately. |
| */ |
| #define BASE_JD_REQ_SOFT_EVENT_WAIT (BASE_JD_REQ_SOFT_JOB | 0x5) |
| #define BASE_JD_REQ_SOFT_EVENT_SET (BASE_JD_REQ_SOFT_JOB | 0x6) |
| #define BASE_JD_REQ_SOFT_EVENT_RESET (BASE_JD_REQ_SOFT_JOB | 0x7) |
| |
| #define BASE_JD_REQ_SOFT_DEBUG_COPY (BASE_JD_REQ_SOFT_JOB | 0x8) |
| |
| /* SW only requirement: Just In Time allocation |
| * |
| * This job requests a single or multiple just-in-time allocations through a |
| * list of base_jit_alloc_info structure which is passed via the jc element of |
| * the atom. The number of base_jit_alloc_info structures present in the |
| * list is passed via the nr_extres element of the atom |
| * |
| * It should be noted that the id entry in base_jit_alloc_info must not |
| * be reused until it has been released via BASE_JD_REQ_SOFT_JIT_FREE. |
| * |
| * Should this soft job fail it is expected that a BASE_JD_REQ_SOFT_JIT_FREE |
| * soft job to free the JIT allocation is still made. |
| * |
| * The job will complete immediately. |
| */ |
| #define BASE_JD_REQ_SOFT_JIT_ALLOC (BASE_JD_REQ_SOFT_JOB | 0x9) |
| |
| /* SW only requirement: Just In Time free |
| * |
| * This job requests a single or multiple just-in-time allocations created by |
| * BASE_JD_REQ_SOFT_JIT_ALLOC to be freed. The ID list of the just-in-time |
| * allocations is passed via the jc element of the atom. |
| * |
| * The job will complete immediately. |
| */ |
| #define BASE_JD_REQ_SOFT_JIT_FREE (BASE_JD_REQ_SOFT_JOB | 0xa) |
| |
| /* SW only requirement: Map external resource |
| * |
| * This job requests external resource(s) are mapped once the dependencies |
| * of the job have been satisfied. The list of external resources are |
| * passed via the jc element of the atom which is a pointer to a |
| * base_external_resource_list. |
| */ |
| #define BASE_JD_REQ_SOFT_EXT_RES_MAP (BASE_JD_REQ_SOFT_JOB | 0xb) |
| |
| /* SW only requirement: Unmap external resource |
| * |
| * This job requests external resource(s) are unmapped once the dependencies |
| * of the job has been satisfied. The list of external resources are |
| * passed via the jc element of the atom which is a pointer to a |
| * base_external_resource_list. |
| */ |
| #define BASE_JD_REQ_SOFT_EXT_RES_UNMAP (BASE_JD_REQ_SOFT_JOB | 0xc) |
| |
| /* HW Requirement: Requires Compute shaders (but not Vertex or Geometry Shaders) |
| * |
| * This indicates that the Job Chain contains GPU jobs of the 'Compute |
| * Shaders' type. |
| * |
| * In contrast to BASE_JD_REQ_CS, this does not indicate that the Job |
| * Chain contains 'Geometry Shader' or 'Vertex Shader' jobs. |
| */ |
| #define BASE_JD_REQ_ONLY_COMPUTE ((base_jd_core_req)1 << 10) |
| |
| /* HW Requirement: Use the base_jd_atom::device_nr field to specify a |
| * particular core group |
| * |
| * If both BASE_JD_REQ_COHERENT_GROUP and this flag are set, this flag |
| * takes priority |
| * |
| * This is only guaranteed to work for BASE_JD_REQ_ONLY_COMPUTE atoms. |
| * |
| * If the core availability policy is keeping the required core group turned |
| * off, then the job will fail with a BASE_JD_EVENT_PM_EVENT error code. |
| */ |
| #define BASE_JD_REQ_SPECIFIC_COHERENT_GROUP ((base_jd_core_req)1 << 11) |
| |
| /* SW Flag: If this bit is set then the successful completion of this atom |
| * will not cause an event to be sent to userspace |
| */ |
| #define BASE_JD_REQ_EVENT_ONLY_ON_FAILURE ((base_jd_core_req)1 << 12) |
| |
| /* SW Flag: If this bit is set then completion of this atom will not cause an |
| * event to be sent to userspace, whether successful or not. |
| */ |
| #define BASEP_JD_REQ_EVENT_NEVER ((base_jd_core_req)1 << 14) |
| |
| /* SW Flag: Skip GPU cache clean and invalidation before starting a GPU job. |
| * |
| * If this bit is set then the GPU's cache will not be cleaned and invalidated |
| * until a GPU job starts which does not have this bit set or a job completes |
| * which does not have the BASE_JD_REQ_SKIP_CACHE_END bit set. Do not use |
| * if the CPU may have written to memory addressed by the job since the last job |
| * without this bit set was submitted. |
| */ |
| #define BASE_JD_REQ_SKIP_CACHE_START ((base_jd_core_req)1 << 15) |
| |
| /* SW Flag: Skip GPU cache clean and invalidation after a GPU job completes. |
| * |
| * If this bit is set then the GPU's cache will not be cleaned and invalidated |
| * until a GPU job completes which does not have this bit set or a job starts |
| * which does not have the BASE_JD_REQ_SKIP_CACHE_START bit set. Do not use |
| * if the CPU may read from or partially overwrite memory addressed by the job |
| * before the next job without this bit set completes. |
| */ |
| #define BASE_JD_REQ_SKIP_CACHE_END ((base_jd_core_req)1 << 16) |
| |
| /* Request the atom be executed on a specific job slot. |
| * |
| * When this flag is specified, it takes precedence over any existing job slot |
| * selection logic. |
| */ |
| #define BASE_JD_REQ_JOB_SLOT ((base_jd_core_req)1 << 17) |
| |
| /* SW-only requirement: The atom is the start of a renderpass. |
| * |
| * If this bit is set then the job chain will be soft-stopped if it causes the |
| * GPU to write beyond the end of the physical pages backing the tiler heap, and |
| * committing more memory to the heap would exceed an internal threshold. It may |
| * be resumed after running one of the job chains attached to an atom with |
| * BASE_JD_REQ_END_RENDERPASS set and the same renderpass ID. It may be |
| * resumed multiple times until it completes without memory usage exceeding the |
| * threshold. |
| * |
| * Usually used with BASE_JD_REQ_T. |
| */ |
| #define BASE_JD_REQ_START_RENDERPASS ((base_jd_core_req)1 << 18) |
| |
| /* SW-only requirement: The atom is the end of a renderpass. |
| * |
| * If this bit is set then the atom incorporates the CPU address of a |
| * base_jd_fragment object instead of the GPU address of a job chain. |
| * |
| * Which job chain is run depends upon whether the atom with the same renderpass |
| * ID and the BASE_JD_REQ_START_RENDERPASS bit set completed normally or |
| * was soft-stopped when it exceeded an upper threshold for tiler heap memory |
| * usage. |
| * |
| * It also depends upon whether one of the job chains attached to the atom has |
| * already been run as part of the same renderpass (in which case it would have |
| * written unresolved multisampled and otherwise-discarded output to temporary |
| * buffers that need to be read back). The job chain for doing a forced read and |
| * forced write (from/to temporary buffers) is run as many times as necessary. |
| * |
| * Usually used with BASE_JD_REQ_FS. |
| */ |
| #define BASE_JD_REQ_END_RENDERPASS ((base_jd_core_req)1 << 19) |
| |
| /* SW-only requirement: The atom needs to run on a limited core mask affinity. |
| * |
| * If this bit is set then the kbase_context.limited_core_mask will be applied |
| * to the affinity. |
| */ |
| #define BASE_JD_REQ_LIMITED_CORE_MASK ((base_jd_core_req)1 << 20) |
| |
| /* These requirement bits are currently unused in base_jd_core_req |
| */ |
| #define BASEP_JD_REQ_RESERVED \ |
| (~(BASE_JD_REQ_ATOM_TYPE | BASE_JD_REQ_EXTERNAL_RESOURCES | \ |
| BASE_JD_REQ_EVENT_ONLY_ON_FAILURE | BASEP_JD_REQ_EVENT_NEVER | \ |
| BASE_JD_REQ_EVENT_COALESCE | \ |
| BASE_JD_REQ_COHERENT_GROUP | BASE_JD_REQ_SPECIFIC_COHERENT_GROUP | \ |
| BASE_JD_REQ_FS_AFBC | BASE_JD_REQ_PERMON | \ |
| BASE_JD_REQ_SKIP_CACHE_START | BASE_JD_REQ_SKIP_CACHE_END | \ |
| BASE_JD_REQ_JOB_SLOT | BASE_JD_REQ_START_RENDERPASS | \ |
| BASE_JD_REQ_END_RENDERPASS | BASE_JD_REQ_LIMITED_CORE_MASK)) |
| |
| /* Mask of all bits in base_jd_core_req that control the type of the atom. |
| * |
| * This allows dependency only atoms to have flags set |
| */ |
| #define BASE_JD_REQ_ATOM_TYPE \ |
| (BASE_JD_REQ_FS | BASE_JD_REQ_CS | BASE_JD_REQ_T | BASE_JD_REQ_CF | \ |
| BASE_JD_REQ_V | BASE_JD_REQ_SOFT_JOB | BASE_JD_REQ_ONLY_COMPUTE) |
| |
| /** |
| * Mask of all bits in base_jd_core_req that control the type of a soft job. |
| */ |
| #define BASE_JD_REQ_SOFT_JOB_TYPE (BASE_JD_REQ_SOFT_JOB | 0x1f) |
| |
| /* Returns non-zero value if core requirements passed define a soft job or |
| * a dependency only job. |
| */ |
| #define BASE_JD_REQ_SOFT_JOB_OR_DEP(core_req) \ |
| (((core_req) & BASE_JD_REQ_SOFT_JOB) || \ |
| ((core_req) & BASE_JD_REQ_ATOM_TYPE) == BASE_JD_REQ_DEP) |
| |
| /** |
| * enum kbase_jd_atom_state |
| * |
| * @KBASE_JD_ATOM_STATE_UNUSED: Atom is not used. |
| * @KBASE_JD_ATOM_STATE_QUEUED: Atom is queued in JD. |
| * @KBASE_JD_ATOM_STATE_IN_JS: Atom has been given to JS (is runnable/running). |
| * @KBASE_JD_ATOM_STATE_HW_COMPLETED: Atom has been completed, but not yet |
| * handed back to job dispatcher for |
| * dependency resolution. |
| * @KBASE_JD_ATOM_STATE_COMPLETED: Atom has been completed, but not yet handed |
| * back to userspace. |
| */ |
| enum kbase_jd_atom_state { |
| KBASE_JD_ATOM_STATE_UNUSED, |
| KBASE_JD_ATOM_STATE_QUEUED, |
| KBASE_JD_ATOM_STATE_IN_JS, |
| KBASE_JD_ATOM_STATE_HW_COMPLETED, |
| KBASE_JD_ATOM_STATE_COMPLETED |
| }; |
| |
| /** |
| * typedef base_atom_id - Type big enough to store an atom number in. |
| */ |
| typedef __u8 base_atom_id; |
| |
| /** |
| * struct base_dependency - |
| * |
| * @atom_id: An atom number |
| * @dependency_type: Dependency type |
| */ |
| struct base_dependency { |
| base_atom_id atom_id; |
| base_jd_dep_type dependency_type; |
| }; |
| |
| /** |
| * struct base_jd_fragment - Set of GPU fragment job chains used for rendering. |
| * |
| * @norm_read_norm_write: Job chain for full rendering. |
| * GPU address of a fragment job chain to render in the |
| * circumstance where the tiler job chain did not exceed |
| * its memory usage threshold and no fragment job chain |
| * was previously run for the same renderpass. |
| * It is used no more than once per renderpass. |
| * @norm_read_forced_write: Job chain for starting incremental |
| * rendering. |
| * GPU address of a fragment job chain to render in |
| * the circumstance where the tiler job chain exceeded |
| * its memory usage threshold for the first time and |
| * no fragment job chain was previously run for the |
| * same renderpass. |
| * Writes unresolved multisampled and normally- |
| * discarded output to temporary buffers that must be |
| * read back by a subsequent forced_read job chain |
| * before the renderpass is complete. |
| * It is used no more than once per renderpass. |
| * @forced_read_forced_write: Job chain for continuing incremental |
| * rendering. |
| * GPU address of a fragment job chain to render in |
| * the circumstance where the tiler job chain |
| * exceeded its memory usage threshold again |
| * and a fragment job chain was previously run for |
| * the same renderpass. |
| * Reads unresolved multisampled and |
| * normally-discarded output from temporary buffers |
| * written by a previous forced_write job chain and |
| * writes the same to temporary buffers again. |
| * It is used as many times as required until |
| * rendering completes. |
| * @forced_read_norm_write: Job chain for ending incremental rendering. |
| * GPU address of a fragment job chain to render in the |
| * circumstance where the tiler job chain did not |
| * exceed its memory usage threshold this time and a |
| * fragment job chain was previously run for the same |
| * renderpass. |
| * Reads unresolved multisampled and normally-discarded |
| * output from temporary buffers written by a previous |
| * forced_write job chain in order to complete a |
| * renderpass. |
| * It is used no more than once per renderpass. |
| * |
| * This structure is referenced by the main atom structure if |
| * BASE_JD_REQ_END_RENDERPASS is set in the base_jd_core_req. |
| */ |
| struct base_jd_fragment { |
| __u64 norm_read_norm_write; |
| __u64 norm_read_forced_write; |
| __u64 forced_read_forced_write; |
| __u64 forced_read_norm_write; |
| }; |
| |
| /** |
| * typedef base_jd_prio - Base Atom priority. |
| * |
| * Only certain priority levels are actually implemented, as specified by the |
| * BASE_JD_PRIO_<...> definitions below. It is undefined to use a priority |
| * level that is not one of those defined below. |
| * |
| * Priority levels only affect scheduling after the atoms have had dependencies |
| * resolved. For example, a low priority atom that has had its dependencies |
| * resolved might run before a higher priority atom that has not had its |
| * dependencies resolved. |
| * |
| * In general, fragment atoms do not affect non-fragment atoms with |
| * lower priorities, and vice versa. One exception is that there is only one |
| * priority value for each context. So a high-priority (e.g.) fragment atom |
| * could increase its context priority, causing its non-fragment atoms to also |
| * be scheduled sooner. |
| * |
| * The atoms are scheduled as follows with respect to their priorities: |
| * * Let atoms 'X' and 'Y' be for the same job slot who have dependencies |
| * resolved, and atom 'X' has a higher priority than atom 'Y' |
| * * If atom 'Y' is currently running on the HW, then it is interrupted to |
| * allow atom 'X' to run soon after |
| * * If instead neither atom 'Y' nor atom 'X' are running, then when choosing |
| * the next atom to run, atom 'X' will always be chosen instead of atom 'Y' |
| * * Any two atoms that have the same priority could run in any order with |
| * respect to each other. That is, there is no ordering constraint between |
| * atoms of the same priority. |
| * |
| * The sysfs file 'js_ctx_scheduling_mode' is used to control how atoms are |
| * scheduled between contexts. The default value, 0, will cause higher-priority |
| * atoms to be scheduled first, regardless of their context. The value 1 will |
| * use a round-robin algorithm when deciding which context's atoms to schedule |
| * next, so higher-priority atoms can only preempt lower priority atoms within |
| * the same context. See KBASE_JS_SYSTEM_PRIORITY_MODE and |
| * KBASE_JS_PROCESS_LOCAL_PRIORITY_MODE for more details. |
| */ |
| typedef __u8 base_jd_prio; |
| |
| /* Medium atom priority. This is a priority higher than BASE_JD_PRIO_LOW */ |
| #define BASE_JD_PRIO_MEDIUM ((base_jd_prio)0) |
| /* High atom priority. This is a priority higher than BASE_JD_PRIO_MEDIUM and |
| * BASE_JD_PRIO_LOW |
| */ |
| #define BASE_JD_PRIO_HIGH ((base_jd_prio)1) |
| /* Low atom priority. */ |
| #define BASE_JD_PRIO_LOW ((base_jd_prio)2) |
| /* Real-Time atom priority. This is a priority higher than BASE_JD_PRIO_HIGH, |
| * BASE_JD_PRIO_MEDIUM, and BASE_JD_PRIO_LOW |
| */ |
| #define BASE_JD_PRIO_REALTIME ((base_jd_prio)3) |
| |
| /* Count of the number of priority levels. This itself is not a valid |
| * base_jd_prio setting |
| */ |
| #define BASE_JD_NR_PRIO_LEVELS 4 |
| |
| /** |
| * struct base_jd_atom_v2 - Node of a dependency graph used to submit a |
| * GPU job chain or soft-job to the kernel driver. |
| * |
| * @jc: GPU address of a job chain or (if BASE_JD_REQ_END_RENDERPASS |
| * is set in the base_jd_core_req) the CPU address of a |
| * base_jd_fragment object. |
| * @udata: User data. |
| * @extres_list: List of external resources. |
| * @nr_extres: Number of external resources or JIT allocations. |
| * @jit_id: Zero-terminated array of IDs of just-in-time memory |
| * allocations written to by the atom. When the atom |
| * completes, the value stored at the |
| * &struct_base_jit_alloc_info.heap_info_gpu_addr of |
| * each allocation is read in order to enforce an |
| * overall physical memory usage limit. |
| * @pre_dep: Pre-dependencies. One need to use SETTER function to assign |
| * this field; this is done in order to reduce possibility of |
| * improper assignment of a dependency field. |
| * @atom_number: Unique number to identify the atom. |
| * @prio: Atom priority. Refer to base_jd_prio for more details. |
| * @device_nr: Core group when BASE_JD_REQ_SPECIFIC_COHERENT_GROUP |
| * specified. |
| * @jobslot: Job slot to use when BASE_JD_REQ_JOB_SLOT is specified. |
| * @core_req: Core requirements. |
| * @renderpass_id: Renderpass identifier used to associate an atom that has |
| * BASE_JD_REQ_START_RENDERPASS set in its core requirements |
| * with an atom that has BASE_JD_REQ_END_RENDERPASS set. |
| * @padding: Unused. Must be zero. |
| * |
| * This structure has changed since UK 10.2 for which base_jd_core_req was a |
| * __u16 value. |
| * |
| * In UK 10.3 a core_req field of a __u32 type was added to the end of the |
| * structure, and the place in the structure previously occupied by __u16 |
| * core_req was kept but renamed to compat_core_req. |
| * |
| * From UK 11.20 - compat_core_req is now occupied by __u8 jit_id[2]. |
| * Compatibility with UK 10.x from UK 11.y is not handled because |
| * the major version increase prevents this. |
| * |
| * For UK 11.20 jit_id[2] must be initialized to zero. |
| */ |
| struct base_jd_atom_v2 { |
| __u64 jc; |
| struct base_jd_udata udata; |
| __u64 extres_list; |
| __u16 nr_extres; |
| __u8 jit_id[2]; |
| struct base_dependency pre_dep[2]; |
| base_atom_id atom_number; |
| base_jd_prio prio; |
| __u8 device_nr; |
| __u8 jobslot; |
| base_jd_core_req core_req; |
| __u8 renderpass_id; |
| __u8 padding[7]; |
| }; |
| |
| /** |
| * struct base_jd_atom - Same as base_jd_atom_v2, but has an extra seq_nr |
| * at the beginning. |
| * |
| * @seq_nr: Sequence number of logical grouping of atoms. |
| * @jc: GPU address of a job chain or (if BASE_JD_REQ_END_RENDERPASS |
| * is set in the base_jd_core_req) the CPU address of a |
| * base_jd_fragment object. |
| * @udata: User data. |
| * @extres_list: List of external resources. |
| * @nr_extres: Number of external resources or JIT allocations. |
| * @jit_id: Zero-terminated array of IDs of just-in-time memory |
| * allocations written to by the atom. When the atom |
| * completes, the value stored at the |
| * &struct_base_jit_alloc_info.heap_info_gpu_addr of |
| * each allocation is read in order to enforce an |
| * overall physical memory usage limit. |
| * @pre_dep: Pre-dependencies. One need to use SETTER function to assign |
| * this field; this is done in order to reduce possibility of |
| * improper assignment of a dependency field. |
| * @atom_number: Unique number to identify the atom. |
| * @prio: Atom priority. Refer to base_jd_prio for more details. |
| * @device_nr: Core group when BASE_JD_REQ_SPECIFIC_COHERENT_GROUP |
| * specified. |
| * @jobslot: Job slot to use when BASE_JD_REQ_JOB_SLOT is specified. |
| * @core_req: Core requirements. |
| * @renderpass_id: Renderpass identifier used to associate an atom that has |
| * BASE_JD_REQ_START_RENDERPASS set in its core requirements |
| * with an atom that has BASE_JD_REQ_END_RENDERPASS set. |
| * @padding: Unused. Must be zero. |
| */ |
| typedef struct base_jd_atom { |
| __u64 seq_nr; |
| __u64 jc; |
| struct base_jd_udata udata; |
| __u64 extres_list; |
| __u16 nr_extres; |
| __u8 jit_id[2]; |
| struct base_dependency pre_dep[2]; |
| base_atom_id atom_number; |
| base_jd_prio prio; |
| __u8 device_nr; |
| __u8 jobslot; |
| base_jd_core_req core_req; |
| __u8 renderpass_id; |
| __u8 padding[7]; |
| } base_jd_atom; |
| |
| /* Job chain event code bits |
| * Defines the bits used to create ::base_jd_event_code |
| */ |
| enum { |
| BASE_JD_SW_EVENT_KERNEL = (1u << 15), /* Kernel side event */ |
| BASE_JD_SW_EVENT = (1u << 14), /* SW defined event */ |
| /* Event indicates success (SW events only) */ |
| BASE_JD_SW_EVENT_SUCCESS = (1u << 13), |
| BASE_JD_SW_EVENT_JOB = (0u << 11), /* Job related event */ |
| BASE_JD_SW_EVENT_BAG = (1u << 11), /* Bag related event */ |
| BASE_JD_SW_EVENT_INFO = (2u << 11), /* Misc/info event */ |
| BASE_JD_SW_EVENT_RESERVED = (3u << 11), /* Reserved event type */ |
| /* Mask to extract the type from an event code */ |
| BASE_JD_SW_EVENT_TYPE_MASK = (3u << 11) |
| }; |
| |
| /** |
| * enum base_jd_event_code - Job chain event codes |
| * |
| * @BASE_JD_EVENT_RANGE_HW_NONFAULT_START: Start of hardware non-fault status |
| * codes. |
| * Obscurely, BASE_JD_EVENT_TERMINATED |
| * indicates a real fault, because the |
| * job was hard-stopped. |
| * @BASE_JD_EVENT_NOT_STARTED: Can't be seen by userspace, treated as |
| * 'previous job done'. |
| * @BASE_JD_EVENT_STOPPED: Can't be seen by userspace, becomes |
| * TERMINATED, DONE or JOB_CANCELLED. |
| * @BASE_JD_EVENT_TERMINATED: This is actually a fault status code - the job |
| * was hard stopped. |
| * @BASE_JD_EVENT_ACTIVE: Can't be seen by userspace, jobs only returned on |
| * complete/fail/cancel. |
| * @BASE_JD_EVENT_RANGE_HW_NONFAULT_END: End of hardware non-fault status codes. |
| * Obscurely, BASE_JD_EVENT_TERMINATED |
| * indicates a real fault, |
| * because the job was hard-stopped. |
| * @BASE_JD_EVENT_RANGE_HW_FAULT_OR_SW_ERROR_START: Start of hardware fault and |
| * software error status codes. |
| * @BASE_JD_EVENT_RANGE_HW_FAULT_OR_SW_ERROR_END: End of hardware fault and |
| * software error status codes. |
| * @BASE_JD_EVENT_RANGE_SW_SUCCESS_START: Start of software success status |
| * codes. |
| * @BASE_JD_EVENT_RANGE_SW_SUCCESS_END: End of software success status codes. |
| * @BASE_JD_EVENT_RANGE_KERNEL_ONLY_START: Start of kernel-only status codes. |
| * Such codes are never returned to |
| * user-space. |
| * @BASE_JD_EVENT_RANGE_KERNEL_ONLY_END: End of kernel-only status codes. |
| * @BASE_JD_EVENT_DONE: atom has completed successfull |
| * @BASE_JD_EVENT_JOB_CONFIG_FAULT: Atom dependencies configuration error which |
| * shall result in a failed atom |
| * @BASE_JD_EVENT_JOB_POWER_FAULT: The job could not be executed because the |
| * part of the memory system required to access |
| * job descriptors was not powered on |
| * @BASE_JD_EVENT_JOB_READ_FAULT: Reading a job descriptor into the Job |
| * manager failed |
| * @BASE_JD_EVENT_JOB_WRITE_FAULT: Writing a job descriptor from the Job |
| * manager failed |
| * @BASE_JD_EVENT_JOB_AFFINITY_FAULT: The job could not be executed because the |
| * specified affinity mask does not intersect |
| * any available cores |
| * @BASE_JD_EVENT_JOB_BUS_FAULT: A bus access failed while executing a job |
| * @BASE_JD_EVENT_INSTR_INVALID_PC: A shader instruction with an illegal program |
| * counter was executed. |
| * @BASE_JD_EVENT_INSTR_INVALID_ENC: A shader instruction with an illegal |
| * encoding was executed. |
| * @BASE_JD_EVENT_INSTR_TYPE_MISMATCH: A shader instruction was executed where |
| * the instruction encoding did not match the |
| * instruction type encoded in the program |
| * counter. |
| * @BASE_JD_EVENT_INSTR_OPERAND_FAULT: A shader instruction was executed that |
| * contained invalid combinations of operands. |
| * @BASE_JD_EVENT_INSTR_TLS_FAULT: A shader instruction was executed that tried |
| * to access the thread local storage section |
| * of another thread. |
| * @BASE_JD_EVENT_INSTR_ALIGN_FAULT: A shader instruction was executed that |
| * tried to do an unsupported unaligned memory |
| * access. |
| * @BASE_JD_EVENT_INSTR_BARRIER_FAULT: A shader instruction was executed that |
| * failed to complete an instruction barrier. |
| * @BASE_JD_EVENT_DATA_INVALID_FAULT: Any data structure read as part of the job |
| * contains invalid combinations of data. |
| * @BASE_JD_EVENT_TILE_RANGE_FAULT: Tile or fragment shading was asked to |
| * process a tile that is entirely outside the |
| * bounding box of the frame. |
| * @BASE_JD_EVENT_STATE_FAULT: Matches ADDR_RANGE_FAULT. A virtual address |
| * has been found that exceeds the virtual |
| * address range. |
| * @BASE_JD_EVENT_OUT_OF_MEMORY: The tiler ran out of memory when executing a job. |
| * @BASE_JD_EVENT_UNKNOWN: If multiple jobs in a job chain fail, only |
| * the first one the reports an error will set |
| * and return full error information. |
| * Subsequent failing jobs will not update the |
| * error status registers, and may write an |
| * error status of UNKNOWN. |
| * @BASE_JD_EVENT_DELAYED_BUS_FAULT: The GPU received a bus fault for access to |
| * physical memory where the original virtual |
| * address is no longer available. |
| * @BASE_JD_EVENT_SHAREABILITY_FAULT: Matches GPU_SHAREABILITY_FAULT. A cache |
| * has detected that the same line has been |
| * accessed as both shareable and non-shareable |
| * memory from inside the GPU. |
| * @BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL1: A memory access hit an invalid table |
| * entry at level 1 of the translation table. |
| * @BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL2: A memory access hit an invalid table |
| * entry at level 2 of the translation table. |
| * @BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL3: A memory access hit an invalid table |
| * entry at level 3 of the translation table. |
| * @BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL4: A memory access hit an invalid table |
| * entry at level 4 of the translation table. |
| * @BASE_JD_EVENT_PERMISSION_FAULT: A memory access could not be allowed due to |
| * the permission flags set in translation |
| * table |
| * @BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL1: A bus fault occurred while reading |
| * level 0 of the translation tables. |
| * @BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL2: A bus fault occurred while reading |
| * level 1 of the translation tables. |
| * @BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL3: A bus fault occurred while reading |
| * level 2 of the translation tables. |
| * @BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL4: A bus fault occurred while reading |
| * level 3 of the translation tables. |
| * @BASE_JD_EVENT_ACCESS_FLAG: Matches ACCESS_FLAG_0. A memory access hit a |
| * translation table entry with the ACCESS_FLAG |
| * bit set to zero in level 0 of the |
| * page table, and the DISABLE_AF_FAULT flag |
| * was not set. |
| * @BASE_JD_EVENT_MEM_GROWTH_FAILED: raised for JIT_ALLOC atoms that failed to |
| * grow memory on demand |
| * @BASE_JD_EVENT_JOB_CANCELLED: raised when this atom was hard-stopped or its |
| * dependencies failed |
| * @BASE_JD_EVENT_JOB_INVALID: raised for many reasons, including invalid data |
| * in the atom which overlaps with |
| * BASE_JD_EVENT_JOB_CONFIG_FAULT, or if the |
| * platform doesn't support the feature specified in |
| * the atom. |
| * @BASE_JD_EVENT_PM_EVENT: TODO: remove as it's not used |
| * @BASE_JD_EVENT_TIMED_OUT: TODO: remove as it's not used |
| * @BASE_JD_EVENT_BAG_INVALID: TODO: remove as it's not used |
| * @BASE_JD_EVENT_PROGRESS_REPORT: TODO: remove as it's not used |
| * @BASE_JD_EVENT_BAG_DONE: TODO: remove as it's not used |
| * @BASE_JD_EVENT_DRV_TERMINATED: this is a special event generated to indicate |
| * to userspace that the KBase context has been |
| * destroyed and Base should stop listening for |
| * further events |
| * @BASE_JD_EVENT_REMOVED_FROM_NEXT: raised when an atom that was configured in |
| * the GPU has to be retried (but it has not |
| * started) due to e.g., GPU reset |
| * @BASE_JD_EVENT_END_RP_DONE: this is used for incremental rendering to signal |
| * the completion of a renderpass. This value |
| * shouldn't be returned to userspace but I haven't |
| * seen where it is reset back to JD_EVENT_DONE. |
| * |
| * HW and low-level SW events are represented by event codes. |
| * The status of jobs which succeeded are also represented by |
| * an event code (see @BASE_JD_EVENT_DONE). |
| * Events are usually reported as part of a &struct base_jd_event. |
| * |
| * The event codes are encoded in the following way: |
| * * 10:0 - subtype |
| * * 12:11 - type |
| * * 13 - SW success (only valid if the SW bit is set) |
| * * 14 - SW event (HW event if not set) |
| * * 15 - Kernel event (should never be seen in userspace) |
| * |
| * Events are split up into ranges as follows: |
| * * BASE_JD_EVENT_RANGE_<description>_START |
| * * BASE_JD_EVENT_RANGE_<description>_END |
| * |
| * code is in <description>'s range when: |
| * BASE_JD_EVENT_RANGE_<description>_START <= code < |
| * BASE_JD_EVENT_RANGE_<description>_END |
| * |
| * Ranges can be asserted for adjacency by testing that the END of the previous |
| * is equal to the START of the next. This is useful for optimizing some tests |
| * for range. |
| * |
| * A limitation is that the last member of this enum must explicitly be handled |
| * (with an assert-unreachable statement) in switch statements that use |
| * variables of this type. Otherwise, the compiler warns that we have not |
| * handled that enum value. |
| */ |
| enum base_jd_event_code { |
| /* HW defined exceptions */ |
| BASE_JD_EVENT_RANGE_HW_NONFAULT_START = 0, |
| |
| /* non-fatal exceptions */ |
| BASE_JD_EVENT_NOT_STARTED = 0x00, |
| BASE_JD_EVENT_DONE = 0x01, |
| BASE_JD_EVENT_STOPPED = 0x03, |
| BASE_JD_EVENT_TERMINATED = 0x04, |
| BASE_JD_EVENT_ACTIVE = 0x08, |
| |
| BASE_JD_EVENT_RANGE_HW_NONFAULT_END = 0x40, |
| BASE_JD_EVENT_RANGE_HW_FAULT_OR_SW_ERROR_START = 0x40, |
| |
| /* job exceptions */ |
| BASE_JD_EVENT_JOB_CONFIG_FAULT = 0x40, |
| BASE_JD_EVENT_JOB_POWER_FAULT = 0x41, |
| BASE_JD_EVENT_JOB_READ_FAULT = 0x42, |
| BASE_JD_EVENT_JOB_WRITE_FAULT = 0x43, |
| BASE_JD_EVENT_JOB_AFFINITY_FAULT = 0x44, |
| BASE_JD_EVENT_JOB_BUS_FAULT = 0x48, |
| BASE_JD_EVENT_INSTR_INVALID_PC = 0x50, |
| BASE_JD_EVENT_INSTR_INVALID_ENC = 0x51, |
| BASE_JD_EVENT_INSTR_TYPE_MISMATCH = 0x52, |
| BASE_JD_EVENT_INSTR_OPERAND_FAULT = 0x53, |
| BASE_JD_EVENT_INSTR_TLS_FAULT = 0x54, |
| BASE_JD_EVENT_INSTR_BARRIER_FAULT = 0x55, |
| BASE_JD_EVENT_INSTR_ALIGN_FAULT = 0x56, |
| BASE_JD_EVENT_DATA_INVALID_FAULT = 0x58, |
| BASE_JD_EVENT_TILE_RANGE_FAULT = 0x59, |
| BASE_JD_EVENT_STATE_FAULT = 0x5A, |
| BASE_JD_EVENT_OUT_OF_MEMORY = 0x60, |
| BASE_JD_EVENT_UNKNOWN = 0x7F, |
| |
| /* GPU exceptions */ |
| BASE_JD_EVENT_DELAYED_BUS_FAULT = 0x80, |
| BASE_JD_EVENT_SHAREABILITY_FAULT = 0x88, |
| |
| /* MMU exceptions */ |
| BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL1 = 0xC1, |
| BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL2 = 0xC2, |
| BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL3 = 0xC3, |
| BASE_JD_EVENT_TRANSLATION_FAULT_LEVEL4 = 0xC4, |
| BASE_JD_EVENT_PERMISSION_FAULT = 0xC8, |
| BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL1 = 0xD1, |
| BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL2 = 0xD2, |
| BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL3 = 0xD3, |
| BASE_JD_EVENT_TRANSTAB_BUS_FAULT_LEVEL4 = 0xD4, |
| BASE_JD_EVENT_ACCESS_FLAG = 0xD8, |
| |
| /* SW defined exceptions */ |
| BASE_JD_EVENT_MEM_GROWTH_FAILED = |
| BASE_JD_SW_EVENT | BASE_JD_SW_EVENT_JOB | 0x000, |
| BASE_JD_EVENT_TIMED_OUT = |
| BASE_JD_SW_EVENT | BASE_JD_SW_EVENT_JOB | 0x001, |
| BASE_JD_EVENT_JOB_CANCELLED = |
| BASE_JD_SW_EVENT | BASE_JD_SW_EVENT_JOB | 0x002, |
| BASE_JD_EVENT_JOB_INVALID = |
| BASE_JD_SW_EVENT | BASE_JD_SW_EVENT_JOB | 0x003, |
| BASE_JD_EVENT_PM_EVENT = |
| BASE_JD_SW_EVENT | BASE_JD_SW_EVENT_JOB | 0x004, |
| |
| BASE_JD_EVENT_BAG_INVALID = |
| BASE_JD_SW_EVENT | BASE_JD_SW_EVENT_BAG | 0x003, |
| |
| BASE_JD_EVENT_RANGE_HW_FAULT_OR_SW_ERROR_END = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_RESERVED | 0x3FF, |
| |
| BASE_JD_EVENT_RANGE_SW_SUCCESS_START = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_SUCCESS | 0x000, |
| |
| BASE_JD_EVENT_PROGRESS_REPORT = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_SUCCESS | BASE_JD_SW_EVENT_JOB | 0x000, |
| BASE_JD_EVENT_BAG_DONE = BASE_JD_SW_EVENT | BASE_JD_SW_EVENT_SUCCESS | |
| BASE_JD_SW_EVENT_BAG | 0x000, |
| BASE_JD_EVENT_DRV_TERMINATED = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_SUCCESS | BASE_JD_SW_EVENT_INFO | 0x000, |
| |
| BASE_JD_EVENT_RANGE_SW_SUCCESS_END = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_SUCCESS | BASE_JD_SW_EVENT_RESERVED | 0x3FF, |
| |
| BASE_JD_EVENT_RANGE_KERNEL_ONLY_START = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_KERNEL | 0x000, |
| BASE_JD_EVENT_REMOVED_FROM_NEXT = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_KERNEL | BASE_JD_SW_EVENT_JOB | 0x000, |
| BASE_JD_EVENT_END_RP_DONE = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_KERNEL | BASE_JD_SW_EVENT_JOB | 0x001, |
| |
| BASE_JD_EVENT_RANGE_KERNEL_ONLY_END = BASE_JD_SW_EVENT | |
| BASE_JD_SW_EVENT_KERNEL | BASE_JD_SW_EVENT_RESERVED | 0x3FF |
| }; |
| |
| /** |
| * struct base_jd_event_v2 - Event reporting structure |
| * |
| * @event_code: event code. |
| * @atom_number: the atom number that has completed. |
| * @udata: user data. |
| * |
| * This structure is used by the kernel driver to report information |
| * about GPU events. They can either be HW-specific events or low-level |
| * SW events, such as job-chain completion. |
| * |
| * The event code contains an event type field which can be extracted |
| * by ANDing with BASE_JD_SW_EVENT_TYPE_MASK. |
| */ |
| struct base_jd_event_v2 { |
| enum base_jd_event_code event_code; |
| base_atom_id atom_number; |
| struct base_jd_udata udata; |
| }; |
| |
| /** |
| * struct base_dump_cpu_gpu_counters - Structure for |
| * BASE_JD_REQ_SOFT_DUMP_CPU_GPU_COUNTERS |
| * jobs. |
| * @system_time: gpu timestamp |
| * @cycle_counter: gpu cycle count |
| * @sec: cpu time(sec) |
| * @usec: cpu time(usec) |
| * @padding: padding |
| * |
| * This structure is stored into the memory pointed to by the @jc field |
| * of &struct base_jd_atom. |
| * |
| * It must not occupy the same CPU cache line(s) as any neighboring data. |
| * This is to avoid cases where access to pages containing the structure |
| * is shared between cached and un-cached memory regions, which would |
| * cause memory corruption. |
| */ |
| |
| struct base_dump_cpu_gpu_counters { |
| __u64 system_time; |
| __u64 cycle_counter; |
| __u64 sec; |
| __u32 usec; |
| __u8 padding[36]; |
| }; |
| |
| #endif /* _UAPI_BASE_JM_KERNEL_H_ */ |