/* * Copyright (C) 2017-2019 Lima Project * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * */ #include #include #include "xf86drm.h" #include "drm-uapi/lima_drm.h" #include "util/u_math.h" #include "util/ralloc.h" #include "util/os_time.h" #include "util/hash_table.h" #include "util/format/u_format.h" #include "util/u_upload_mgr.h" #include "util/u_inlines.h" #include "lima_screen.h" #include "lima_context.h" #include "lima_job.h" #include "lima_bo.h" #include "lima_util.h" #include "lima_format.h" #include "lima_resource.h" #include "lima_texture.h" #include "lima_fence.h" #include "lima_gpu.h" #define VOID2U64(x) ((uint64_t)(unsigned long)(x)) static void lima_get_fb_info(struct lima_job *job) { struct lima_context *ctx = job->ctx; struct lima_job_fb_info *fb = &job->fb; fb->width = ctx->framebuffer.base.width; fb->height = ctx->framebuffer.base.height; int width = align(fb->width, 16) >> 4; int height = align(fb->height, 16) >> 4; struct lima_screen *screen = lima_screen(ctx->base.screen); fb->tiled_w = width; fb->tiled_h = height; fb->shift_h = 0; fb->shift_w = 0; int limit = screen->plb_max_blk; while ((width * height) > limit) { if (width >= height) { width = (width + 1) >> 1; fb->shift_w++; } else { height = (height + 1) >> 1; fb->shift_h++; } } fb->block_w = width; fb->block_h = height; fb->shift_min = MIN3(fb->shift_w, fb->shift_h, 2); } static struct lima_job * lima_job_create(struct lima_context *ctx) { struct lima_job *s; s = rzalloc(ctx, struct lima_job); if (!s) return NULL; s->fd = lima_screen(ctx->base.screen)->fd; s->ctx = ctx; s->damage_rect.minx = s->damage_rect.miny = 0xffff; s->damage_rect.maxx = s->damage_rect.maxy = 0; s->draws = 0; s->clear.depth = 0x00ffffff; for (int i = 0; i < 2; i++) { util_dynarray_init(s->gem_bos + i, s); util_dynarray_init(s->bos + i, s); } util_dynarray_init(&s->vs_cmd_array, s); util_dynarray_init(&s->plbu_cmd_array, s); util_dynarray_init(&s->plbu_cmd_head, s); struct lima_context_framebuffer *fb = &ctx->framebuffer; pipe_surface_reference(&s->key.cbuf, fb->base.cbufs[0]); pipe_surface_reference(&s->key.zsbuf, fb->base.zsbuf); lima_get_fb_info(s); s->dump = lima_dump_create(); return s; } static void lima_job_free(struct lima_job *job) { struct lima_context *ctx = job->ctx; _mesa_hash_table_remove_key(ctx->jobs, &job->key); if (job->key.cbuf && (job->resolve & PIPE_CLEAR_COLOR0)) _mesa_hash_table_remove_key(ctx->write_jobs, job->key.cbuf->texture); if (job->key.zsbuf && (job->resolve & (PIPE_CLEAR_DEPTH | PIPE_CLEAR_STENCIL))) _mesa_hash_table_remove_key(ctx->write_jobs, job->key.zsbuf->texture); pipe_surface_reference(&job->key.cbuf, NULL); pipe_surface_reference(&job->key.zsbuf, NULL); lima_dump_free(job->dump); job->dump = NULL; /* TODO: do we need a cache for job? */ ralloc_free(job); } static struct lima_job * _lima_job_get(struct lima_context *ctx) { struct lima_context_framebuffer *fb = &ctx->framebuffer; struct lima_job_key local_key = { .cbuf = fb->base.cbufs[0], .zsbuf = fb->base.zsbuf, }; struct hash_entry *entry = _mesa_hash_table_search(ctx->jobs, &local_key); if (entry) return entry->data; struct lima_job *job = lima_job_create(ctx); if (!job) return NULL; _mesa_hash_table_insert(ctx->jobs, &job->key, job); return job; } /* * Note: this function can only be called in draw code path, * must not exist in flush code path. */ struct lima_job * lima_job_get(struct lima_context *ctx) { if (ctx->job) return ctx->job; ctx->job = _lima_job_get(ctx); return ctx->job; } bool lima_job_add_bo(struct lima_job *job, int pipe, struct lima_bo *bo, uint32_t flags) { util_dynarray_foreach(job->gem_bos + pipe, struct drm_lima_gem_submit_bo, gem_bo) { if (bo->handle == gem_bo->handle) { gem_bo->flags |= flags; return true; } } struct drm_lima_gem_submit_bo *job_bo = util_dynarray_grow(job->gem_bos + pipe, struct drm_lima_gem_submit_bo, 1); job_bo->handle = bo->handle; job_bo->flags = flags; struct lima_bo **jbo = util_dynarray_grow(job->bos + pipe, struct lima_bo *, 1); *jbo = bo; /* prevent bo from being freed when job start */ lima_bo_reference(bo); return true; } static bool lima_job_start(struct lima_job *job, int pipe, void *frame, uint32_t size) { struct lima_context *ctx = job->ctx; struct drm_lima_gem_submit req = { .ctx = ctx->id, .pipe = pipe, .nr_bos = job->gem_bos[pipe].size / sizeof(struct drm_lima_gem_submit_bo), .bos = VOID2U64(util_dynarray_begin(job->gem_bos + pipe)), .frame = VOID2U64(frame), .frame_size = size, .out_sync = ctx->out_sync[pipe], }; if (ctx->in_sync_fd >= 0) { int err = drmSyncobjImportSyncFile(job->fd, ctx->in_sync[pipe], ctx->in_sync_fd); if (err) return false; req.in_sync[0] = ctx->in_sync[pipe]; close(ctx->in_sync_fd); ctx->in_sync_fd = -1; } bool ret = drmIoctl(job->fd, DRM_IOCTL_LIMA_GEM_SUBMIT, &req) == 0; util_dynarray_foreach(job->bos + pipe, struct lima_bo *, bo) { lima_bo_unreference(*bo); } return ret; } static bool lima_job_wait(struct lima_job *job, int pipe, uint64_t timeout_ns) { int64_t abs_timeout = os_time_get_absolute_timeout(timeout_ns); if (abs_timeout == OS_TIMEOUT_INFINITE) abs_timeout = INT64_MAX; struct lima_context *ctx = job->ctx; return !drmSyncobjWait(job->fd, ctx->out_sync + pipe, 1, abs_timeout, 0, NULL); } static bool lima_job_has_bo(struct lima_job *job, struct lima_bo *bo, bool all) { for (int i = 0; i < 2; i++) { util_dynarray_foreach(job->gem_bos + i, struct drm_lima_gem_submit_bo, gem_bo) { if (bo->handle == gem_bo->handle) { if (all || gem_bo->flags & LIMA_SUBMIT_BO_WRITE) return true; else break; } } } return false; } void * lima_job_create_stream_bo(struct lima_job *job, int pipe, unsigned size, uint32_t *va) { struct lima_context *ctx = job->ctx; void *cpu; unsigned offset; struct pipe_resource *pres = NULL; u_upload_alloc(ctx->uploader, 0, size, 0x40, &offset, &pres, &cpu); struct lima_resource *res = lima_resource(pres); *va = res->bo->va + offset; lima_job_add_bo(job, pipe, res->bo, LIMA_SUBMIT_BO_READ); pipe_resource_reference(&pres, NULL); return cpu; } static inline struct lima_damage_region * lima_job_get_damage(struct lima_job *job) { if (!(job->key.cbuf && (job->resolve & PIPE_CLEAR_COLOR0))) return NULL; struct lima_surface *surf = lima_surface(job->key.cbuf); struct lima_resource *res = lima_resource(surf->base.texture); return &res->damage; } static bool lima_fb_cbuf_needs_reload(struct lima_job *job) { if (!job->key.cbuf) return false; struct lima_surface *surf = lima_surface(job->key.cbuf); struct lima_resource *res = lima_resource(surf->base.texture); if (res->damage.region) { /* for EGL_KHR_partial_update, when EGL_EXT_buffer_age is enabled, * we need to reload damage region, otherwise just want to reload * the region not aligned to tile boundary */ //if (!res->damage.aligned) // return true; return true; } else if (surf->reload & PIPE_CLEAR_COLOR0) return true; return false; } static bool lima_fb_zsbuf_needs_reload(struct lima_job *job) { if (!job->key.zsbuf) return false; struct lima_surface *surf = lima_surface(job->key.zsbuf); if (surf->reload & (PIPE_CLEAR_DEPTH | PIPE_CLEAR_STENCIL)) return true; return false; } static void lima_pack_reload_plbu_cmd(struct lima_job *job, struct pipe_surface *psurf) { #define lima_reload_render_state_offset 0x0000 #define lima_reload_gl_pos_offset 0x0040 #define lima_reload_varying_offset 0x0080 #define lima_reload_tex_desc_offset 0x00c0 #define lima_reload_tex_array_offset 0x0100 #define lima_reload_buffer_size 0x0140 struct lima_context *ctx = job->ctx; struct lima_surface *surf = lima_surface(psurf); int level = psurf->u.tex.level; unsigned first_layer = psurf->u.tex.first_layer; uint32_t va; void *cpu = lima_job_create_stream_bo( job, LIMA_PIPE_PP, lima_reload_buffer_size, &va); struct lima_screen *screen = lima_screen(ctx->base.screen); uint32_t reload_shader_first_instr_size = ((uint32_t *)(screen->pp_buffer->map + pp_reload_program_offset))[0] & 0x1f; uint32_t reload_shader_va = screen->pp_buffer->va + pp_reload_program_offset; struct lima_render_state reload_render_state = { .alpha_blend = 0xf03b1ad2, .depth_test = 0x0000000e, .depth_range = 0xffff0000, .stencil_front = 0x00000007, .stencil_back = 0x00000007, .multi_sample = 0x0000f007, .shader_address = reload_shader_va | reload_shader_first_instr_size, .varying_types = 0x00000001, .textures_address = va + lima_reload_tex_array_offset, .aux0 = 0x00004021, .varyings_address = va + lima_reload_varying_offset, }; if (util_format_is_depth_or_stencil(psurf->format)) { reload_render_state.alpha_blend &= 0x0fffffff; if (psurf->format != PIPE_FORMAT_Z16_UNORM) reload_render_state.depth_test |= 0x400; if (surf->reload & PIPE_CLEAR_DEPTH) reload_render_state.depth_test |= 0x801; if (surf->reload & PIPE_CLEAR_STENCIL) { reload_render_state.depth_test |= 0x1000; reload_render_state.stencil_front = 0x0000024f; reload_render_state.stencil_back = 0x0000024f; reload_render_state.stencil_test = 0x0000ffff; } } memcpy(cpu + lima_reload_render_state_offset, &reload_render_state, sizeof(reload_render_state)); lima_tex_desc *td = cpu + lima_reload_tex_desc_offset; memset(td, 0, lima_min_tex_desc_size); lima_texture_desc_set_res(ctx, td, psurf->texture, level, level, first_layer); td->format = lima_format_get_texel_reload(psurf->format); td->unnorm_coords = 1; td->texture_type = LIMA_TEXTURE_TYPE_2D; td->min_img_filter_nearest = 1; td->mag_img_filter_nearest = 1; td->wrap_s_clamp_to_edge = 1; td->wrap_t_clamp_to_edge = 1; td->unknown_2_2 = 0x1; uint32_t *ta = cpu + lima_reload_tex_array_offset; ta[0] = va + lima_reload_tex_desc_offset; struct lima_job_fb_info *fb = &job->fb; float reload_gl_pos[] = { fb->width, 0, 0, 1, 0, 0, 0, 1, 0, fb->height, 0, 1, }; memcpy(cpu + lima_reload_gl_pos_offset, reload_gl_pos, sizeof(reload_gl_pos)); float reload_varying[] = { fb->width, 0, 0, 0, 0, fb->height, 0, 0, }; memcpy(cpu + lima_reload_varying_offset, reload_varying, sizeof(reload_varying)); PLBU_CMD_BEGIN(&job->plbu_cmd_head, 20); PLBU_CMD_VIEWPORT_LEFT(0); PLBU_CMD_VIEWPORT_RIGHT(fui(fb->width)); PLBU_CMD_VIEWPORT_BOTTOM(0); PLBU_CMD_VIEWPORT_TOP(fui(fb->height)); PLBU_CMD_RSW_VERTEX_ARRAY( va + lima_reload_render_state_offset, va + lima_reload_gl_pos_offset); PLBU_CMD_UNKNOWN2(); PLBU_CMD_UNKNOWN1(); PLBU_CMD_INDICES(screen->pp_buffer->va + pp_shared_index_offset); PLBU_CMD_INDEXED_DEST(va + lima_reload_gl_pos_offset); PLBU_CMD_DRAW_ELEMENTS(0xf, 0, 3); PLBU_CMD_END(); lima_dump_command_stream_print(job->dump, cpu, lima_reload_buffer_size, false, "reload plbu cmd at va %x\n", va); } static void lima_pack_head_plbu_cmd(struct lima_job *job) { struct lima_context *ctx = job->ctx; struct lima_job_fb_info *fb = &job->fb; PLBU_CMD_BEGIN(&job->plbu_cmd_head, 10); PLBU_CMD_UNKNOWN2(); PLBU_CMD_BLOCK_STEP(fb->shift_min, fb->shift_h, fb->shift_w); PLBU_CMD_TILED_DIMENSIONS(fb->tiled_w, fb->tiled_h); PLBU_CMD_BLOCK_STRIDE(fb->block_w); PLBU_CMD_ARRAY_ADDRESS( ctx->plb_gp_stream->va + ctx->plb_index * ctx->plb_gp_size, fb->block_w * fb->block_h); PLBU_CMD_END(); if (lima_fb_cbuf_needs_reload(job)) lima_pack_reload_plbu_cmd(job, job->key.cbuf); if (lima_fb_zsbuf_needs_reload(job)) lima_pack_reload_plbu_cmd(job, job->key.zsbuf); } static void hilbert_rotate(int n, int *x, int *y, int rx, int ry) { if (ry == 0) { if (rx == 1) { *x = n-1 - *x; *y = n-1 - *y; } /* Swap x and y */ int t = *x; *x = *y; *y = t; } } static void hilbert_coords(int n, int d, int *x, int *y) { int rx, ry, i, t=d; *x = *y = 0; for (i = 0; (1 << i) < n; i++) { rx = 1 & (t / 2); ry = 1 & (t ^ rx); hilbert_rotate(1 << i, x, y, rx, ry); *x += rx << i; *y += ry << i; t /= 4; } } static int lima_get_pp_stream_size(int num_pp, int tiled_w, int tiled_h, uint32_t *off) { /* carefully calculate each stream start address: * 1. overflow: each stream size may be different due to * fb->tiled_w * fb->tiled_h can't be divided by num_pp, * extra size should be added to the preceeding stream * 2. alignment: each stream address should be 0x20 aligned */ int delta = tiled_w * tiled_h / num_pp * 16 + 16; int remain = tiled_w * tiled_h % num_pp; int offset = 0; for (int i = 0; i < num_pp; i++) { off[i] = offset; offset += delta; if (remain) { offset += 16; remain--; } offset = align(offset, 0x20); } return offset; } static void lima_generate_pp_stream(struct lima_job *job, int off_x, int off_y, int tiled_w, int tiled_h) { struct lima_context *ctx = job->ctx; struct lima_pp_stream_state *ps = &ctx->pp_stream; struct lima_job_fb_info *fb = &job->fb; struct lima_screen *screen = lima_screen(ctx->base.screen); int i, num_pp = screen->num_pp; /* use hilbert_coords to generates 1D to 2D relationship. * 1D for pp stream index and 2D for plb block x/y on framebuffer. * if multi pp, interleave the 1D index to make each pp's render target * close enough which should result close workload */ int max = MAX2(tiled_w, tiled_h); int index = 0; uint32_t *stream[8]; int si[8] = {0}; int dim = 0; int count = 0; /* Don't update count if we get zero rect. We'll just generate * PP stream with just terminators in it. */ if ((tiled_w * tiled_h) != 0) { dim = util_logbase2_ceil(max); count = 1 << (dim + dim); } for (i = 0; i < num_pp; i++) stream[i] = ps->map + ps->offset[i]; for (i = 0; i < count; i++) { int x, y; hilbert_coords(max, i, &x, &y); if (x < tiled_w && y < tiled_h) { x += off_x; y += off_y; int pp = index % num_pp; int offset = ((y >> fb->shift_h) * fb->block_w + (x >> fb->shift_w)) * LIMA_CTX_PLB_BLK_SIZE; int plb_va = ctx->plb[ctx->plb_index]->va + offset; stream[pp][si[pp]++] = 0; stream[pp][si[pp]++] = 0xB8000000 | x | (y << 8); stream[pp][si[pp]++] = 0xE0000002 | ((plb_va >> 3) & ~0xE0000003); stream[pp][si[pp]++] = 0xB0000000; index++; } } for (i = 0; i < num_pp; i++) { stream[i][si[i]++] = 0; stream[i][si[i]++] = 0xBC000000; stream[i][si[i]++] = 0; stream[i][si[i]++] = 0; lima_dump_command_stream_print( job->dump, stream[i], si[i] * 4, false, "pp plb stream %d at va %x\n", i, ps->va + ps->offset[i]); } } static void lima_free_stale_pp_stream_bo(struct lima_context *ctx) { list_for_each_entry_safe(struct lima_ctx_plb_pp_stream, entry, &ctx->plb_pp_stream_lru_list, lru_list) { if (ctx->plb_stream_cache_size <= lima_plb_pp_stream_cache_size) break; struct hash_entry *hash_entry = _mesa_hash_table_search(ctx->plb_pp_stream, &entry->key); if (hash_entry) _mesa_hash_table_remove(ctx->plb_pp_stream, hash_entry); list_del(&entry->lru_list); ctx->plb_stream_cache_size -= entry->bo->size; lima_bo_unreference(entry->bo); ralloc_free(entry); } } static void lima_update_damage_pp_stream(struct lima_job *job) { struct lima_context *ctx = job->ctx; struct lima_damage_region *ds = lima_job_get_damage(job); struct lima_job_fb_info *fb = &job->fb; struct pipe_scissor_state bound; struct pipe_scissor_state *dr = &job->damage_rect; if (ds && ds->region) { struct pipe_scissor_state *dbound = &ds->bound; bound.minx = MAX2(dbound->minx, dr->minx >> 4); bound.miny = MAX2(dbound->miny, dr->miny >> 4); bound.maxx = MIN2(dbound->maxx, (dr->maxx + 0xf) >> 4); bound.maxy = MIN2(dbound->maxy, (dr->maxy + 0xf) >> 4); } else { bound.minx = dr->minx >> 4; bound.miny = dr->miny >> 4; bound.maxx = (dr->maxx + 0xf) >> 4; bound.maxy = (dr->maxy + 0xf) >> 4; } /* Clamp to FB size */ bound.minx = MIN2(bound.minx, fb->tiled_w); bound.miny = MIN2(bound.miny, fb->tiled_h); bound.maxx = MIN2(bound.maxx, fb->tiled_w); bound.maxy = MIN2(bound.maxy, fb->tiled_h); struct lima_ctx_plb_pp_stream_key key = { .plb_index = ctx->plb_index, .minx = bound.minx, .miny = bound.miny, .maxx = bound.maxx, .maxy = bound.maxy, .shift_w = fb->shift_w, .shift_h = fb->shift_h, .block_w = fb->block_w, .block_h = fb->block_h, }; struct hash_entry *entry = _mesa_hash_table_search(ctx->plb_pp_stream, &key); if (entry) { struct lima_ctx_plb_pp_stream *s = entry->data; list_del(&s->lru_list); list_addtail(&s->lru_list, &ctx->plb_pp_stream_lru_list); ctx->pp_stream.map = lima_bo_map(s->bo); ctx->pp_stream.va = s->bo->va; memcpy(ctx->pp_stream.offset, s->offset, sizeof(s->offset)); lima_job_add_bo(job, LIMA_PIPE_PP, s->bo, LIMA_SUBMIT_BO_READ); return; } lima_free_stale_pp_stream_bo(ctx); struct lima_screen *screen = lima_screen(ctx->base.screen); struct lima_ctx_plb_pp_stream *s = rzalloc(ctx->plb_pp_stream, struct lima_ctx_plb_pp_stream); list_inithead(&s->lru_list); s->key.plb_index = ctx->plb_index; s->key.minx = bound.minx; s->key.maxx = bound.maxx; s->key.miny = bound.miny; s->key.maxy = bound.maxy; s->key.shift_w = fb->shift_w; s->key.shift_h = fb->shift_h; s->key.block_w = fb->block_w; s->key.block_h = fb->block_h; int tiled_w = bound.maxx - bound.minx; int tiled_h = bound.maxy - bound.miny; int size = lima_get_pp_stream_size( screen->num_pp, tiled_w, tiled_h, s->offset); s->bo = lima_bo_create(screen, size, 0); ctx->pp_stream.map = lima_bo_map(s->bo); ctx->pp_stream.va = s->bo->va; memcpy(ctx->pp_stream.offset, s->offset, sizeof(s->offset)); lima_generate_pp_stream(job, bound.minx, bound.miny, tiled_w, tiled_h); ctx->plb_stream_cache_size += size; list_addtail(&s->lru_list, &ctx->plb_pp_stream_lru_list); _mesa_hash_table_insert(ctx->plb_pp_stream, &s->key, s); lima_job_add_bo(job, LIMA_PIPE_PP, s->bo, LIMA_SUBMIT_BO_READ); } static bool lima_damage_fullscreen(struct lima_job *job) { struct pipe_scissor_state *dr = &job->damage_rect; return dr->minx == 0 && dr->miny == 0 && dr->maxx == job->fb.width && dr->maxy == job->fb.height; } static void lima_update_pp_stream(struct lima_job *job) { struct lima_context *ctx = job->ctx; struct lima_screen *screen = lima_screen(ctx->base.screen); struct lima_damage_region *damage = lima_job_get_damage(job); if ((screen->gpu_type == DRM_LIMA_PARAM_GPU_ID_MALI400) || (damage && damage->region) || !lima_damage_fullscreen(job)) lima_update_damage_pp_stream(job); else /* Mali450 doesn't need full PP stream */ ctx->pp_stream.map = NULL; } static void lima_update_job_bo(struct lima_job *job) { struct lima_context *ctx = job->ctx; lima_job_add_bo(job, LIMA_PIPE_GP, ctx->plb_gp_stream, LIMA_SUBMIT_BO_READ); lima_job_add_bo(job, LIMA_PIPE_GP, ctx->plb[ctx->plb_index], LIMA_SUBMIT_BO_WRITE); lima_job_add_bo(job, LIMA_PIPE_GP, ctx->gp_tile_heap[ctx->plb_index], LIMA_SUBMIT_BO_WRITE); lima_dump_command_stream_print( job->dump, ctx->plb_gp_stream->map + ctx->plb_index * ctx->plb_gp_size, ctx->plb_gp_size, false, "gp plb stream at va %x\n", ctx->plb_gp_stream->va + ctx->plb_index * ctx->plb_gp_size); lima_job_add_bo(job, LIMA_PIPE_PP, ctx->plb[ctx->plb_index], LIMA_SUBMIT_BO_READ); lima_job_add_bo(job, LIMA_PIPE_PP, ctx->gp_tile_heap[ctx->plb_index], LIMA_SUBMIT_BO_READ); struct lima_screen *screen = lima_screen(ctx->base.screen); lima_job_add_bo(job, LIMA_PIPE_PP, screen->pp_buffer, LIMA_SUBMIT_BO_READ); } static void lima_finish_plbu_cmd(struct util_dynarray *plbu_cmd_array) { int i = 0; uint32_t *plbu_cmd = util_dynarray_ensure_cap(plbu_cmd_array, plbu_cmd_array->size + 2 * 4); plbu_cmd[i++] = 0x00000000; plbu_cmd[i++] = 0x50000000; /* END */ plbu_cmd_array->size += i * 4; } static void lima_pack_wb_zsbuf_reg(struct lima_job *job, uint32_t *wb_reg, int wb_idx) { struct lima_job_fb_info *fb = &job->fb; struct pipe_surface *zsbuf = job->key.zsbuf; struct lima_resource *res = lima_resource(zsbuf->texture); int level = zsbuf->u.tex.level; uint32_t format = lima_format_get_pixel(zsbuf->format); struct lima_pp_wb_reg *wb = (void *)wb_reg; wb[wb_idx].type = 0x01; /* 1 for depth, stencil */ wb[wb_idx].address = res->bo->va + res->levels[level].offset; wb[wb_idx].pixel_format = format; if (res->tiled) { wb[wb_idx].pixel_layout = 0x2; wb[wb_idx].pitch = fb->tiled_w; } else { wb[wb_idx].pixel_layout = 0x0; wb[wb_idx].pitch = res->levels[level].stride / 8; } wb[wb_idx].mrt_bits = 0; } static void lima_pack_wb_cbuf_reg(struct lima_job *job, uint32_t *frame_reg, uint32_t *wb_reg, int wb_idx) { struct lima_job_fb_info *fb = &job->fb; struct pipe_surface *cbuf = job->key.cbuf; struct lima_resource *res = lima_resource(cbuf->texture); int level = cbuf->u.tex.level; unsigned layer = cbuf->u.tex.first_layer; uint32_t format = lima_format_get_pixel(cbuf->format); bool swap_channels = lima_format_get_pixel_swap_rb(cbuf->format); struct lima_pp_frame_reg *frame = (void *)frame_reg; frame->channel_layout = lima_format_get_channel_layout(cbuf->format); struct lima_pp_wb_reg *wb = (void *)wb_reg; wb[wb_idx].type = 0x02; /* 2 for color buffer */ wb[wb_idx].address = res->bo->va + res->levels[level].offset + layer * res->levels[level].layer_stride; wb[wb_idx].pixel_format = format; if (res->tiled) { wb[wb_idx].pixel_layout = 0x2; wb[wb_idx].pitch = fb->tiled_w; } else { wb[wb_idx].pixel_layout = 0x0; wb[wb_idx].pitch = res->levels[level].stride / 8; } wb[wb_idx].mrt_bits = swap_channels ? 0x4 : 0x0; } static void lima_pack_pp_frame_reg(struct lima_job *job, uint32_t *frame_reg, uint32_t *wb_reg) { struct lima_context *ctx = job->ctx; struct lima_job_fb_info *fb = &job->fb; struct pipe_surface *cbuf = job->key.cbuf; struct lima_pp_frame_reg *frame = (void *)frame_reg; struct lima_screen *screen = lima_screen(ctx->base.screen); int wb_idx = 0; frame->render_address = screen->pp_buffer->va + pp_frame_rsw_offset; frame->flags = 0x02; if (cbuf && util_format_is_float(cbuf->format)) { frame->flags |= 0x01; /* enable fp16 */ frame->clear_value_color = (uint32_t)(job->clear.color_16pc & 0xffffffffUL); frame->clear_value_color_1 = (uint32_t)(job->clear.color_16pc >> 32); frame->clear_value_color_2 = 0; frame->clear_value_color_3 = 0; } else { frame->clear_value_color = job->clear.color_8pc; frame->clear_value_color_1 = job->clear.color_8pc; frame->clear_value_color_2 = job->clear.color_8pc; frame->clear_value_color_3 = job->clear.color_8pc; } frame->clear_value_depth = job->clear.depth; frame->clear_value_stencil = job->clear.stencil; frame->one = 1; frame->width = fb->width - 1; frame->height = fb->height - 1; /* frame->fragment_stack_address is overwritten per-pp in the kernel * by the values of pp_frame.fragment_stack_address[i] */ /* These are "stack size" and "stack offset" shifted, * here they are assumed to be always the same. */ frame->fragment_stack_size = job->pp_max_stack_size << 16 | job->pp_max_stack_size; /* related with MSAA and different value when r4p0/r7p0 */ frame->supersampled_height = fb->height * 2 - 1; frame->scale = 0xE0C; frame->dubya = 0x77; frame->onscreen = 1; frame->blocking = (fb->shift_min << 28) | (fb->shift_h << 16) | fb->shift_w; /* Set default layout to 8888 */ frame->channel_layout = 0x8888; if (cbuf && (job->resolve & PIPE_CLEAR_COLOR0)) lima_pack_wb_cbuf_reg(job, frame_reg, wb_reg, wb_idx++); if (job->key.zsbuf && (job->resolve & (PIPE_CLEAR_DEPTH | PIPE_CLEAR_STENCIL))) lima_pack_wb_zsbuf_reg(job, wb_reg, wb_idx++); } void lima_do_job(struct lima_job *job) { #define pp_stack_pp_size 0x400 struct lima_context *ctx = job->ctx; lima_pack_head_plbu_cmd(job); lima_finish_plbu_cmd(&job->plbu_cmd_array); lima_update_job_bo(job); int vs_cmd_size = job->vs_cmd_array.size; uint32_t vs_cmd_va = 0; if (vs_cmd_size) { void *vs_cmd = lima_job_create_stream_bo( job, LIMA_PIPE_GP, vs_cmd_size, &vs_cmd_va); memcpy(vs_cmd, util_dynarray_begin(&job->vs_cmd_array), vs_cmd_size); lima_dump_command_stream_print( job->dump, vs_cmd, vs_cmd_size, false, "flush vs cmd at va %x\n", vs_cmd_va); lima_dump_vs_command_stream_print(job->dump, vs_cmd, vs_cmd_size, vs_cmd_va); } uint32_t plbu_cmd_va; int plbu_cmd_size = job->plbu_cmd_array.size + job->plbu_cmd_head.size; void *plbu_cmd = lima_job_create_stream_bo( job, LIMA_PIPE_GP, plbu_cmd_size, &plbu_cmd_va); memcpy(plbu_cmd, util_dynarray_begin(&job->plbu_cmd_head), job->plbu_cmd_head.size); memcpy(plbu_cmd + job->plbu_cmd_head.size, util_dynarray_begin(&job->plbu_cmd_array), job->plbu_cmd_array.size); lima_dump_command_stream_print( job->dump, plbu_cmd, plbu_cmd_size, false, "flush plbu cmd at va %x\n", plbu_cmd_va); lima_dump_plbu_command_stream_print(job->dump, plbu_cmd, plbu_cmd_size, plbu_cmd_va); struct lima_screen *screen = lima_screen(ctx->base.screen); struct drm_lima_gp_frame gp_frame; struct lima_gp_frame_reg *gp_frame_reg = (void *)gp_frame.frame; gp_frame_reg->vs_cmd_start = vs_cmd_va; gp_frame_reg->vs_cmd_end = vs_cmd_va + vs_cmd_size; gp_frame_reg->plbu_cmd_start = plbu_cmd_va; gp_frame_reg->plbu_cmd_end = plbu_cmd_va + plbu_cmd_size; gp_frame_reg->tile_heap_start = ctx->gp_tile_heap[ctx->plb_index]->va; gp_frame_reg->tile_heap_end = ctx->gp_tile_heap[ctx->plb_index]->va + ctx->gp_tile_heap_size; lima_dump_command_stream_print( job->dump, &gp_frame, sizeof(gp_frame), false, "add gp frame\n"); if (!lima_job_start(job, LIMA_PIPE_GP, &gp_frame, sizeof(gp_frame))) fprintf(stderr, "gp job error\n"); if (job->dump) { if (lima_job_wait(job, LIMA_PIPE_GP, PIPE_TIMEOUT_INFINITE)) { if (ctx->gp_output) { float *pos = lima_bo_map(ctx->gp_output); lima_dump_command_stream_print( job->dump, pos, 4 * 4 * 16, true, "gl_pos dump at va %x\n", ctx->gp_output->va); } uint32_t *plb = lima_bo_map(ctx->plb[ctx->plb_index]); lima_dump_command_stream_print( job->dump, plb, LIMA_CTX_PLB_BLK_SIZE, false, "plb dump at va %x\n", ctx->plb[ctx->plb_index]->va); } else { fprintf(stderr, "gp job wait error\n"); exit(1); } } uint32_t pp_stack_va = 0; if (job->pp_max_stack_size) { lima_job_create_stream_bo( job, LIMA_PIPE_PP, screen->num_pp * job->pp_max_stack_size * pp_stack_pp_size, &pp_stack_va); } lima_update_pp_stream(job); struct lima_pp_stream_state *ps = &ctx->pp_stream; if (screen->gpu_type == DRM_LIMA_PARAM_GPU_ID_MALI400) { struct drm_lima_m400_pp_frame pp_frame = {0}; lima_pack_pp_frame_reg(job, pp_frame.frame, pp_frame.wb); pp_frame.num_pp = screen->num_pp; for (int i = 0; i < screen->num_pp; i++) { pp_frame.plbu_array_address[i] = ps->va + ps->offset[i]; if (job->pp_max_stack_size) pp_frame.fragment_stack_address[i] = pp_stack_va + job->pp_max_stack_size * pp_stack_pp_size * i; } lima_dump_command_stream_print( job->dump, &pp_frame, sizeof(pp_frame), false, "add pp frame\n"); if (!lima_job_start(job, LIMA_PIPE_PP, &pp_frame, sizeof(pp_frame))) fprintf(stderr, "pp job error\n"); } else { struct drm_lima_m450_pp_frame pp_frame = {0}; lima_pack_pp_frame_reg(job, pp_frame.frame, pp_frame.wb); pp_frame.num_pp = screen->num_pp; if (job->pp_max_stack_size) for (int i = 0; i < screen->num_pp; i++) pp_frame.fragment_stack_address[i] = pp_stack_va + job->pp_max_stack_size * pp_stack_pp_size * i; if (ps->map) { for (int i = 0; i < screen->num_pp; i++) pp_frame.plbu_array_address[i] = ps->va + ps->offset[i]; } else { pp_frame.use_dlbu = true; struct lima_job_fb_info *fb = &job->fb; pp_frame.dlbu_regs[0] = ctx->plb[ctx->plb_index]->va; pp_frame.dlbu_regs[1] = ((fb->tiled_h - 1) << 16) | (fb->tiled_w - 1); unsigned s = util_logbase2(LIMA_CTX_PLB_BLK_SIZE) - 7; pp_frame.dlbu_regs[2] = (s << 28) | (fb->shift_h << 16) | fb->shift_w; pp_frame.dlbu_regs[3] = ((fb->tiled_h - 1) << 24) | ((fb->tiled_w - 1) << 16); } lima_dump_command_stream_print( job->dump, &pp_frame, sizeof(pp_frame), false, "add pp frame\n"); if (!lima_job_start(job, LIMA_PIPE_PP, &pp_frame, sizeof(pp_frame))) fprintf(stderr, "pp job error\n"); } if (job->dump) { if (!lima_job_wait(job, LIMA_PIPE_PP, PIPE_TIMEOUT_INFINITE)) { fprintf(stderr, "pp wait error\n"); exit(1); } } ctx->plb_index = (ctx->plb_index + 1) % lima_ctx_num_plb; /* Set reload flags for next draw. It'll be unset if buffer is cleared */ if (job->key.cbuf && (job->resolve & PIPE_CLEAR_COLOR0)) { struct lima_surface *surf = lima_surface(job->key.cbuf); surf->reload = PIPE_CLEAR_COLOR0; } if (job->key.zsbuf && (job->resolve & (PIPE_CLEAR_DEPTH | PIPE_CLEAR_STENCIL))) { struct lima_surface *surf = lima_surface(job->key.zsbuf); surf->reload = (job->resolve & (PIPE_CLEAR_DEPTH | PIPE_CLEAR_STENCIL)); } if (ctx->job == job) ctx->job = NULL; lima_job_free(job); } void lima_flush(struct lima_context *ctx) { hash_table_foreach(ctx->jobs, entry) { struct lima_job *job = entry->data; lima_do_job(job); } } void lima_flush_job_accessing_bo( struct lima_context *ctx, struct lima_bo *bo, bool write) { hash_table_foreach(ctx->jobs, entry) { struct lima_job *job = entry->data; if (lima_job_has_bo(job, bo, write)) lima_do_job(job); } } /* * This is for current job flush previous job which write to the resource it wants * to read. Tipical usage is flush the FBO which is used as current task's texture. */ void lima_flush_previous_job_writing_resource( struct lima_context *ctx, struct pipe_resource *prsc) { struct hash_entry *entry = _mesa_hash_table_search(ctx->write_jobs, prsc); if (entry) { struct lima_job *job = entry->data; /* do not flush current job */ if (job != ctx->job) lima_do_job(job); } } static void lima_pipe_flush(struct pipe_context *pctx, struct pipe_fence_handle **fence, unsigned flags) { struct lima_context *ctx = lima_context(pctx); lima_flush(ctx); if (fence) { int drm_fd = lima_screen(ctx->base.screen)->fd; int fd; if (!drmSyncobjExportSyncFile(drm_fd, ctx->out_sync[LIMA_PIPE_PP], &fd)) *fence = lima_fence_create(fd); } } static bool lima_job_compare(const void *s1, const void *s2) { return memcmp(s1, s2, sizeof(struct lima_job_key)) == 0; } static uint32_t lima_job_hash(const void *key) { return _mesa_hash_data(key, sizeof(struct lima_job_key)); } bool lima_job_init(struct lima_context *ctx) { int fd = lima_screen(ctx->base.screen)->fd; ctx->jobs = _mesa_hash_table_create(ctx, lima_job_hash, lima_job_compare); if (!ctx->jobs) return false; ctx->write_jobs = _mesa_hash_table_create( ctx, _mesa_hash_pointer, _mesa_key_pointer_equal); if (!ctx->write_jobs) return false; ctx->in_sync_fd = -1; for (int i = 0; i < 2; i++) { if (drmSyncobjCreate(fd, DRM_SYNCOBJ_CREATE_SIGNALED, ctx->in_sync + i) || drmSyncobjCreate(fd, DRM_SYNCOBJ_CREATE_SIGNALED, ctx->out_sync + i)) return false; } ctx->base.flush = lima_pipe_flush; return true; } void lima_job_fini(struct lima_context *ctx) { int fd = lima_screen(ctx->base.screen)->fd; lima_flush(ctx); for (int i = 0; i < 2; i++) { if (ctx->in_sync[i]) drmSyncobjDestroy(fd, ctx->in_sync[i]); if (ctx->out_sync[i]) drmSyncobjDestroy(fd, ctx->out_sync[i]); } if (ctx->in_sync_fd >= 0) close(ctx->in_sync_fd); }