// SPDX-License-Identifier: MIT /* * Copyright © 2022 Intel Corporation */ #include "xe_ring_ops.h" #include #include "instructions/xe_mi_commands.h" #include "regs/xe_engine_regs.h" #include "regs/xe_gpu_commands.h" #include "regs/xe_gt_regs.h" #include "regs/xe_lrc_layout.h" #include "xe_exec_queue_types.h" #include "xe_gt.h" #include "xe_lrc.h" #include "xe_macros.h" #include "xe_sched_job.h" #include "xe_sriov.h" #include "xe_vm_types.h" #include "xe_vm.h" #include "xe_wa.h" /* * 3D-related flags that can't be set on _engines_ that lack access to the 3D * pipeline (i.e., CCS engines). */ #define PIPE_CONTROL_3D_ENGINE_FLAGS (\ PIPE_CONTROL_RENDER_TARGET_CACHE_FLUSH | \ PIPE_CONTROL_DEPTH_CACHE_FLUSH | \ PIPE_CONTROL_TILE_CACHE_FLUSH | \ PIPE_CONTROL_DEPTH_STALL | \ PIPE_CONTROL_STALL_AT_SCOREBOARD | \ PIPE_CONTROL_PSD_SYNC | \ PIPE_CONTROL_AMFS_FLUSH | \ PIPE_CONTROL_VF_CACHE_INVALIDATE | \ PIPE_CONTROL_GLOBAL_SNAPSHOT_RESET) /* 3D-related flags that can't be set on _platforms_ that lack a 3D pipeline */ #define PIPE_CONTROL_3D_ARCH_FLAGS ( \ PIPE_CONTROL_3D_ENGINE_FLAGS | \ PIPE_CONTROL_INDIRECT_STATE_DISABLE | \ PIPE_CONTROL_FLUSH_ENABLE | \ PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE | \ PIPE_CONTROL_DC_FLUSH_ENABLE) static u32 preparser_disable(bool state) { return MI_ARB_CHECK | BIT(8) | state; } static int emit_aux_table_inv(struct xe_gt *gt, struct xe_reg reg, u32 *dw, int i) { dw[i++] = MI_LOAD_REGISTER_IMM | MI_LRI_NUM_REGS(1) | MI_LRI_MMIO_REMAP_EN; dw[i++] = reg.addr + gt->mmio.adj_offset; dw[i++] = AUX_INV; dw[i++] = MI_NOOP; return i; } static int emit_user_interrupt(u32 *dw, int i) { dw[i++] = MI_USER_INTERRUPT; dw[i++] = MI_ARB_ON_OFF | MI_ARB_ENABLE; dw[i++] = MI_ARB_CHECK; return i; } static int emit_store_imm_ggtt(u32 addr, u32 value, u32 *dw, int i) { dw[i++] = MI_STORE_DATA_IMM | MI_SDI_GGTT | MI_SDI_NUM_DW(1); dw[i++] = addr; dw[i++] = 0; dw[i++] = value; return i; } static int emit_flush_dw(u32 *dw, int i) { dw[i++] = MI_FLUSH_DW | MI_FLUSH_IMM_DW; dw[i++] = 0; dw[i++] = 0; dw[i++] = 0; return i; } static int emit_flush_imm_ggtt(u32 addr, u32 value, bool invalidate_tlb, u32 *dw, int i) { dw[i++] = MI_FLUSH_DW | MI_FLUSH_DW_OP_STOREDW | MI_FLUSH_IMM_DW | (invalidate_tlb ? MI_INVALIDATE_TLB : 0); dw[i++] = addr | MI_FLUSH_DW_USE_GTT; dw[i++] = 0; dw[i++] = value; return i; } static int emit_bb_start(u64 batch_addr, u32 ppgtt_flag, u32 *dw, int i) { dw[i++] = MI_BATCH_BUFFER_START | ppgtt_flag | XE_INSTR_NUM_DW(3); dw[i++] = lower_32_bits(batch_addr); dw[i++] = upper_32_bits(batch_addr); return i; } static int emit_flush_invalidate(u32 flag, u32 *dw, int i) { dw[i] = MI_FLUSH_DW; dw[i] |= flag; dw[i++] |= MI_INVALIDATE_TLB | MI_FLUSH_DW_OP_STOREDW | MI_FLUSH_IMM_DW | MI_FLUSH_DW_STORE_INDEX; dw[i++] = LRC_PPHWSP_SCRATCH_ADDR | MI_FLUSH_DW_USE_GTT; dw[i++] = 0; dw[i++] = ~0U; return i; } static int emit_pipe_control(u32 *dw, int i, u32 bit_group_0, u32 bit_group_1, u32 offset, u32 value) { dw[i++] = GFX_OP_PIPE_CONTROL(6) | bit_group_0; dw[i++] = bit_group_1; dw[i++] = offset; dw[i++] = 0; dw[i++] = value; dw[i++] = 0; return i; } static int emit_pipe_invalidate(u32 mask_flags, bool invalidate_tlb, u32 *dw, int i) { u32 flags = PIPE_CONTROL_CS_STALL | PIPE_CONTROL_COMMAND_CACHE_INVALIDATE | PIPE_CONTROL_INSTRUCTION_CACHE_INVALIDATE | PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE | PIPE_CONTROL_VF_CACHE_INVALIDATE | PIPE_CONTROL_CONST_CACHE_INVALIDATE | PIPE_CONTROL_STATE_CACHE_INVALIDATE | PIPE_CONTROL_QW_WRITE | PIPE_CONTROL_STORE_DATA_INDEX; if (invalidate_tlb) flags |= PIPE_CONTROL_TLB_INVALIDATE; flags &= ~mask_flags; return emit_pipe_control(dw, i, 0, flags, LRC_PPHWSP_SCRATCH_ADDR, 0); } static int emit_store_imm_ppgtt_posted(u64 addr, u64 value, u32 *dw, int i) { dw[i++] = MI_STORE_DATA_IMM | MI_SDI_NUM_QW(1); dw[i++] = lower_32_bits(addr); dw[i++] = upper_32_bits(addr); dw[i++] = lower_32_bits(value); dw[i++] = upper_32_bits(value); return i; } static int emit_render_cache_flush(struct xe_sched_job *job, u32 *dw, int i) { struct xe_gt *gt = job->q->gt; bool lacks_render = !(gt->info.engine_mask & XE_HW_ENGINE_RCS_MASK); u32 flags; flags = (PIPE_CONTROL_CS_STALL | PIPE_CONTROL_TILE_CACHE_FLUSH | PIPE_CONTROL_RENDER_TARGET_CACHE_FLUSH | PIPE_CONTROL_DEPTH_CACHE_FLUSH | PIPE_CONTROL_DC_FLUSH_ENABLE | PIPE_CONTROL_FLUSH_ENABLE); if (XE_WA(gt, 1409600907)) flags |= PIPE_CONTROL_DEPTH_STALL; if (lacks_render) flags &= ~PIPE_CONTROL_3D_ARCH_FLAGS; else if (job->q->class == XE_ENGINE_CLASS_COMPUTE) flags &= ~PIPE_CONTROL_3D_ENGINE_FLAGS; return emit_pipe_control(dw, i, PIPE_CONTROL0_HDC_PIPELINE_FLUSH, flags, 0, 0); } static int emit_pipe_control_to_ring_end(struct xe_hw_engine *hwe, u32 *dw, int i) { if (hwe->class != XE_ENGINE_CLASS_RENDER) return i; if (XE_WA(hwe->gt, 16020292621)) i = emit_pipe_control(dw, i, 0, PIPE_CONTROL_LRI_POST_SYNC, RING_NOPID(hwe->mmio_base).addr, 0); return i; } static int emit_pipe_imm_ggtt(u32 addr, u32 value, bool stall_only, u32 *dw, int i) { u32 flags = PIPE_CONTROL_CS_STALL | PIPE_CONTROL_GLOBAL_GTT_IVB | PIPE_CONTROL_QW_WRITE; if (!stall_only) flags |= PIPE_CONTROL_FLUSH_ENABLE; return emit_pipe_control(dw, i, 0, flags, addr, value); } static u32 get_ppgtt_flag(struct xe_sched_job *job) { return job->q->vm ? BIT(8) : 0; } /* for engines that don't require any special HW handling (no EUs, no aux inval, etc) */ static void __emit_job_gen12_simple(struct xe_sched_job *job, struct xe_lrc *lrc, u64 batch_addr, u32 seqno) { u32 dw[MAX_JOB_SIZE_DW], i = 0; u32 ppgtt_flag = get_ppgtt_flag(job); struct xe_gt *gt = job->q->gt; if (job->ring_ops_flush_tlb) { dw[i++] = preparser_disable(true); i = emit_flush_imm_ggtt(xe_lrc_start_seqno_ggtt_addr(lrc), seqno, true, dw, i); dw[i++] = preparser_disable(false); } else { i = emit_store_imm_ggtt(xe_lrc_start_seqno_ggtt_addr(lrc), seqno, dw, i); } i = emit_bb_start(batch_addr, ppgtt_flag, dw, i); if (job->user_fence.used) { i = emit_flush_dw(dw, i); i = emit_store_imm_ppgtt_posted(job->user_fence.addr, job->user_fence.value, dw, i); } i = emit_flush_imm_ggtt(xe_lrc_seqno_ggtt_addr(lrc), seqno, false, dw, i); i = emit_user_interrupt(dw, i); xe_gt_assert(gt, i <= MAX_JOB_SIZE_DW); xe_lrc_write_ring(lrc, dw, i * sizeof(*dw)); } static bool has_aux_ccs(struct xe_device *xe) { /* * PVC is a special case that has no compression of either type * (FlatCCS or AuxCCS). Also, AuxCCS is no longer used from Xe2 * onward, so any future platforms with no FlatCCS will not have * AuxCCS either. */ if (GRAPHICS_VER(xe) >= 20 || xe->info.platform == XE_PVC) return false; return !xe->info.has_flat_ccs; } static void __emit_job_gen12_video(struct xe_sched_job *job, struct xe_lrc *lrc, u64 batch_addr, u32 seqno) { u32 dw[MAX_JOB_SIZE_DW], i = 0; u32 ppgtt_flag = get_ppgtt_flag(job); struct xe_gt *gt = job->q->gt; struct xe_device *xe = gt_to_xe(gt); bool decode = job->q->class == XE_ENGINE_CLASS_VIDEO_DECODE; dw[i++] = preparser_disable(true); /* hsdes: 1809175790 */ if (has_aux_ccs(xe)) { if (decode) i = emit_aux_table_inv(gt, VD0_AUX_INV, dw, i); else i = emit_aux_table_inv(gt, VE0_AUX_INV, dw, i); } if (job->ring_ops_flush_tlb) i = emit_flush_imm_ggtt(xe_lrc_start_seqno_ggtt_addr(lrc), seqno, true, dw, i); dw[i++] = preparser_disable(false); if (!job->ring_ops_flush_tlb) i = emit_store_imm_ggtt(xe_lrc_start_seqno_ggtt_addr(lrc), seqno, dw, i); i = emit_bb_start(batch_addr, ppgtt_flag, dw, i); if (job->user_fence.used) { i = emit_flush_dw(dw, i); i = emit_store_imm_ppgtt_posted(job->user_fence.addr, job->user_fence.value, dw, i); } i = emit_flush_imm_ggtt(xe_lrc_seqno_ggtt_addr(lrc), seqno, false, dw, i); i = emit_user_interrupt(dw, i); xe_gt_assert(gt, i <= MAX_JOB_SIZE_DW); xe_lrc_write_ring(lrc, dw, i * sizeof(*dw)); } static void __emit_job_gen12_render_compute(struct xe_sched_job *job, struct xe_lrc *lrc, u64 batch_addr, u32 seqno) { u32 dw[MAX_JOB_SIZE_DW], i = 0; u32 ppgtt_flag = get_ppgtt_flag(job); struct xe_gt *gt = job->q->gt; struct xe_device *xe = gt_to_xe(gt); bool lacks_render = !(gt->info.engine_mask & XE_HW_ENGINE_RCS_MASK); u32 mask_flags = 0; dw[i++] = preparser_disable(true); if (lacks_render) mask_flags = PIPE_CONTROL_3D_ARCH_FLAGS; else if (job->q->class == XE_ENGINE_CLASS_COMPUTE) mask_flags = PIPE_CONTROL_3D_ENGINE_FLAGS; /* See __xe_pt_bind_vma() for a discussion on TLB invalidations. */ i = emit_pipe_invalidate(mask_flags, job->ring_ops_flush_tlb, dw, i); /* hsdes: 1809175790 */ if (has_aux_ccs(xe)) i = emit_aux_table_inv(gt, CCS_AUX_INV, dw, i); dw[i++] = preparser_disable(false); i = emit_store_imm_ggtt(xe_lrc_start_seqno_ggtt_addr(lrc), seqno, dw, i); i = emit_bb_start(batch_addr, ppgtt_flag, dw, i); i = emit_render_cache_flush(job, dw, i); if (job->user_fence.used) i = emit_store_imm_ppgtt_posted(job->user_fence.addr, job->user_fence.value, dw, i); i = emit_pipe_imm_ggtt(xe_lrc_seqno_ggtt_addr(lrc), seqno, lacks_render, dw, i); i = emit_user_interrupt(dw, i); i = emit_pipe_control_to_ring_end(job->q->hwe, dw, i); xe_gt_assert(gt, i <= MAX_JOB_SIZE_DW); xe_lrc_write_ring(lrc, dw, i * sizeof(*dw)); } static void emit_migration_job_gen12(struct xe_sched_job *job, struct xe_lrc *lrc, u32 seqno) { u32 dw[MAX_JOB_SIZE_DW], i = 0; i = emit_store_imm_ggtt(xe_lrc_start_seqno_ggtt_addr(lrc), seqno, dw, i); dw[i++] = MI_ARB_ON_OFF | MI_ARB_DISABLE; /* Enabled again below */ i = emit_bb_start(job->batch_addr[0], BIT(8), dw, i); if (!IS_SRIOV_VF(gt_to_xe(job->q->gt))) { /* XXX: Do we need this? Leaving for now. */ dw[i++] = preparser_disable(true); i = emit_flush_invalidate(0, dw, i); dw[i++] = preparser_disable(false); } i = emit_bb_start(job->batch_addr[1], BIT(8), dw, i); dw[i++] = MI_FLUSH_DW | MI_INVALIDATE_TLB | job->migrate_flush_flags | MI_FLUSH_DW_OP_STOREDW | MI_FLUSH_IMM_DW; dw[i++] = xe_lrc_seqno_ggtt_addr(lrc) | MI_FLUSH_DW_USE_GTT; dw[i++] = 0; dw[i++] = seqno; /* value */ i = emit_user_interrupt(dw, i); xe_gt_assert(job->q->gt, i <= MAX_JOB_SIZE_DW); xe_lrc_write_ring(lrc, dw, i * sizeof(*dw)); } static void emit_job_gen12_gsc(struct xe_sched_job *job) { struct xe_gt *gt = job->q->gt; xe_gt_assert(gt, job->q->width <= 1); /* no parallel submission for GSCCS */ __emit_job_gen12_simple(job, job->q->lrc, job->batch_addr[0], xe_sched_job_seqno(job)); } static void emit_job_gen12_copy(struct xe_sched_job *job) { int i; if (xe_sched_job_is_migration(job->q)) { emit_migration_job_gen12(job, job->q->lrc, xe_sched_job_seqno(job)); return; } for (i = 0; i < job->q->width; ++i) __emit_job_gen12_simple(job, job->q->lrc + i, job->batch_addr[i], xe_sched_job_seqno(job)); } static void emit_job_gen12_video(struct xe_sched_job *job) { int i; /* FIXME: Not doing parallel handshake for now */ for (i = 0; i < job->q->width; ++i) __emit_job_gen12_video(job, job->q->lrc + i, job->batch_addr[i], xe_sched_job_seqno(job)); } static void emit_job_gen12_render_compute(struct xe_sched_job *job) { int i; for (i = 0; i < job->q->width; ++i) __emit_job_gen12_render_compute(job, job->q->lrc + i, job->batch_addr[i], xe_sched_job_seqno(job)); } static const struct xe_ring_ops ring_ops_gen12_gsc = { .emit_job = emit_job_gen12_gsc, }; static const struct xe_ring_ops ring_ops_gen12_copy = { .emit_job = emit_job_gen12_copy, }; static const struct xe_ring_ops ring_ops_gen12_video = { .emit_job = emit_job_gen12_video, }; static const struct xe_ring_ops ring_ops_gen12_render_compute = { .emit_job = emit_job_gen12_render_compute, }; const struct xe_ring_ops * xe_ring_ops_get(struct xe_gt *gt, enum xe_engine_class class) { switch (class) { case XE_ENGINE_CLASS_OTHER: return &ring_ops_gen12_gsc; case XE_ENGINE_CLASS_COPY: return &ring_ops_gen12_copy; case XE_ENGINE_CLASS_VIDEO_DECODE: case XE_ENGINE_CLASS_VIDEO_ENHANCE: return &ring_ops_gen12_video; case XE_ENGINE_CLASS_RENDER: case XE_ENGINE_CLASS_COMPUTE: return &ring_ops_gen12_render_compute; default: return NULL; } }