/* * Mesa 3-D graphics library * * Copyright (C) 2013 LunarG, Inc. * * 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 AUTHORS OR COPYRIGHT HOLDERS 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. * * Authors: * Chia-I Wu */ #include "genhw/genhw.h" #include "util/u_dual_blend.h" #include "util/u_prim.h" #include "ilo_blitter.h" #include "ilo_3d.h" #include "ilo_context.h" #include "ilo_cp.h" #include "ilo_gpe_gen6.h" #include "ilo_gpe_gen7.h" #include "ilo_shader.h" #include "ilo_state.h" #include "ilo_3d_pipeline.h" #include "ilo_3d_pipeline_gen6.h" /** * This should be called before any depth stall flush (including those * produced by non-pipelined state commands) or cache flush on GEN6. * * \see intel_emit_post_sync_nonzero_flush() */ static void gen6_wa_pipe_control_post_sync(struct ilo_3d_pipeline *p, bool caller_post_sync) { assert(p->dev->gen == ILO_GEN(6)); /* emit once */ if (p->state.has_gen6_wa_pipe_control) return; p->state.has_gen6_wa_pipe_control = true; /* * From the Sandy Bridge PRM, volume 2 part 1, page 60: * * "Pipe-control with CS-stall bit set must be sent BEFORE the * pipe-control with a post-sync op and no write-cache flushes." * * The workaround below necessitates this workaround. */ gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_CS_STALL | GEN6_PIPE_CONTROL_PIXEL_SCOREBOARD_STALL, NULL, 0, false, p->cp); /* the caller will emit the post-sync op */ if (caller_post_sync) return; /* * From the Sandy Bridge PRM, volume 2 part 1, page 60: * * "Before any depth stall flush (including those produced by * non-pipelined state commands), software needs to first send a * PIPE_CONTROL with no bits set except Post-Sync Operation != 0." * * "Before a PIPE_CONTROL with Write Cache Flush Enable =1, a * PIPE_CONTROL with any non-zero post-sync-op is required." */ gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_WRITE_IMM, p->workaround_bo, 0, false, p->cp); } static void gen6_wa_pipe_control_wm_multisample_flush(struct ilo_3d_pipeline *p) { assert(p->dev->gen == ILO_GEN(6)); gen6_wa_pipe_control_post_sync(p, false); /* * From the Sandy Bridge PRM, volume 2 part 1, page 305: * * "Driver must guarentee that all the caches in the depth pipe are * flushed before this command (3DSTATE_MULTISAMPLE) is parsed. This * requires driver to send a PIPE_CONTROL with a CS stall along with a * Depth Flush prior to this command." */ gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_DEPTH_CACHE_FLUSH | GEN6_PIPE_CONTROL_CS_STALL, 0, 0, false, p->cp); } static void gen6_wa_pipe_control_wm_depth_flush(struct ilo_3d_pipeline *p) { assert(p->dev->gen == ILO_GEN(6)); gen6_wa_pipe_control_post_sync(p, false); /* * According to intel_emit_depth_stall_flushes() of classic i965, we need * to emit a sequence of PIPE_CONTROLs prior to emitting depth related * commands. */ gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_DEPTH_STALL, NULL, 0, false, p->cp); gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_DEPTH_CACHE_FLUSH, NULL, 0, false, p->cp); gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_DEPTH_STALL, NULL, 0, false, p->cp); } static void gen6_wa_pipe_control_wm_max_threads_stall(struct ilo_3d_pipeline *p) { assert(p->dev->gen == ILO_GEN(6)); /* the post-sync workaround should cover this already */ if (p->state.has_gen6_wa_pipe_control) return; /* * From the Sandy Bridge PRM, volume 2 part 1, page 274: * * "A PIPE_CONTROL command, with only the Stall At Pixel Scoreboard * field set (DW1 Bit 1), must be issued prior to any change to the * value in this field (Maximum Number of Threads in 3DSTATE_WM)" */ gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_PIXEL_SCOREBOARD_STALL, NULL, 0, false, p->cp); } static void gen6_wa_pipe_control_vs_const_flush(struct ilo_3d_pipeline *p) { assert(p->dev->gen == ILO_GEN(6)); gen6_wa_pipe_control_post_sync(p, false); /* * According to upload_vs_state() of classic i965, we need to emit * PIPE_CONTROL after 3DSTATE_CONSTANT_VS so that the command is kept being * buffered by VS FF, to the point that the FF dies. */ gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_DEPTH_STALL | GEN6_PIPE_CONTROL_INSTRUCTION_CACHE_INVALIDATE | GEN6_PIPE_CONTROL_STATE_CACHE_INVALIDATE, NULL, 0, false, p->cp); } #define DIRTY(state) (session->pipe_dirty & ILO_DIRTY_ ## state) void gen6_pipeline_common_select(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* PIPELINE_SELECT */ if (session->hw_ctx_changed) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_PIPELINE_SELECT(p->dev, 0x0, p->cp); } } void gen6_pipeline_common_sip(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* STATE_SIP */ if (session->hw_ctx_changed) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_STATE_SIP(p->dev, 0, p->cp); } } void gen6_pipeline_common_base_address(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* STATE_BASE_ADDRESS */ if (session->state_bo_changed || session->kernel_bo_changed || session->batch_bo_changed) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_STATE_BASE_ADDRESS(p->dev, NULL, p->cp->bo, p->cp->bo, NULL, ilo->hw3d->kernel.bo, 0, 0, 0, 0, p->cp); /* * From the Sandy Bridge PRM, volume 1 part 1, page 28: * * "The following commands must be reissued following any change to * the base addresses: * * * 3DSTATE_BINDING_TABLE_POINTERS * * 3DSTATE_SAMPLER_STATE_POINTERS * * 3DSTATE_VIEWPORT_STATE_POINTERS * * 3DSTATE_CC_POINTERS * * MEDIA_STATE_POINTERS" * * 3DSTATE_SCISSOR_STATE_POINTERS is not on the list, but it is * reasonable to also reissue the command. Same to PCB. */ session->viewport_state_changed = true; session->cc_state_blend_changed = true; session->cc_state_dsa_changed = true; session->cc_state_cc_changed = true; session->scissor_state_changed = true; session->binding_table_vs_changed = true; session->binding_table_gs_changed = true; session->binding_table_fs_changed = true; session->sampler_state_vs_changed = true; session->sampler_state_gs_changed = true; session->sampler_state_fs_changed = true; session->pcb_state_vs_changed = true; session->pcb_state_gs_changed = true; session->pcb_state_fs_changed = true; } } static void gen6_pipeline_common_urb(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_URB */ if (DIRTY(VE) || DIRTY(VS) || DIRTY(GS)) { const bool gs_active = (ilo->gs || (ilo->vs && ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_VS_GEN6_SO))); int vs_entry_size, gs_entry_size; int vs_total_size, gs_total_size; vs_entry_size = (ilo->vs) ? ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_OUTPUT_COUNT) : 0; /* * As indicated by 2e712e41db0c0676e9f30fc73172c0e8de8d84d4, VF and VS * share VUE handles. The VUE allocation size must be large enough to * store either VF outputs (number of VERTEX_ELEMENTs) and VS outputs. * * I am not sure if the PRM explicitly states that VF and VS share VUE * handles. But here is a citation that implies so: * * From the Sandy Bridge PRM, volume 2 part 1, page 44: * * "Once a FF stage that spawn threads has sufficient input to * initiate a thread, it must guarantee that it is safe to request * the thread initiation. For all these FF stages, this check is * based on : * * - The availability of output URB entries: * - VS: As the input URB entries are overwritten with the * VS-generated output data, output URB availability isn't a * factor." */ if (vs_entry_size < ilo->ve->count) vs_entry_size = ilo->ve->count; gs_entry_size = (ilo->gs) ? ilo_shader_get_kernel_param(ilo->gs, ILO_KERNEL_OUTPUT_COUNT) : (gs_active) ? vs_entry_size : 0; /* in bytes */ vs_entry_size *= sizeof(float) * 4; gs_entry_size *= sizeof(float) * 4; vs_total_size = ilo->dev->urb_size; if (gs_active) { vs_total_size /= 2; gs_total_size = vs_total_size; } else { gs_total_size = 0; } gen6_emit_3DSTATE_URB(p->dev, vs_total_size, gs_total_size, vs_entry_size, gs_entry_size, p->cp); /* * From the Sandy Bridge PRM, volume 2 part 1, page 27: * * "Because of a urb corruption caused by allocating a previous * gsunit's urb entry to vsunit software is required to send a * "GS NULL Fence" (Send URB fence with VS URB size == 1 and GS URB * size == 0) plus a dummy DRAW call before any case where VS will * be taking over GS URB space." */ if (p->state.gs.active && !gs_active) ilo_3d_pipeline_emit_flush_gen6(p); p->state.gs.active = gs_active; } } static void gen6_pipeline_common_pointers_1(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_VIEWPORT_STATE_POINTERS */ if (session->viewport_state_changed) { gen6_emit_3DSTATE_VIEWPORT_STATE_POINTERS(p->dev, p->state.CLIP_VIEWPORT, p->state.SF_VIEWPORT, p->state.CC_VIEWPORT, p->cp); } } static void gen6_pipeline_common_pointers_2(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_CC_STATE_POINTERS */ if (session->cc_state_blend_changed || session->cc_state_dsa_changed || session->cc_state_cc_changed) { gen6_emit_3DSTATE_CC_STATE_POINTERS(p->dev, p->state.BLEND_STATE, p->state.DEPTH_STENCIL_STATE, p->state.COLOR_CALC_STATE, p->cp); } /* 3DSTATE_SAMPLER_STATE_POINTERS */ if (session->sampler_state_vs_changed || session->sampler_state_gs_changed || session->sampler_state_fs_changed) { gen6_emit_3DSTATE_SAMPLER_STATE_POINTERS(p->dev, p->state.vs.SAMPLER_STATE, 0, p->state.wm.SAMPLER_STATE, p->cp); } } static void gen6_pipeline_common_pointers_3(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_SCISSOR_STATE_POINTERS */ if (session->scissor_state_changed) { gen6_emit_3DSTATE_SCISSOR_STATE_POINTERS(p->dev, p->state.SCISSOR_RECT, p->cp); } /* 3DSTATE_BINDING_TABLE_POINTERS */ if (session->binding_table_vs_changed || session->binding_table_gs_changed || session->binding_table_fs_changed) { gen6_emit_3DSTATE_BINDING_TABLE_POINTERS(p->dev, p->state.vs.BINDING_TABLE_STATE, p->state.gs.BINDING_TABLE_STATE, p->state.wm.BINDING_TABLE_STATE, p->cp); } } void gen6_pipeline_vf(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { if (p->dev->gen >= ILO_GEN(7.5)) { /* 3DSTATE_INDEX_BUFFER */ if (DIRTY(IB) || session->batch_bo_changed) { gen6_emit_3DSTATE_INDEX_BUFFER(p->dev, &ilo->ib, false, p->cp); } /* 3DSTATE_VF */ if (session->primitive_restart_changed) { gen7_emit_3DSTATE_VF(p->dev, ilo->draw->primitive_restart, ilo->draw->restart_index, p->cp); } } else { /* 3DSTATE_INDEX_BUFFER */ if (DIRTY(IB) || session->primitive_restart_changed || session->batch_bo_changed) { gen6_emit_3DSTATE_INDEX_BUFFER(p->dev, &ilo->ib, ilo->draw->primitive_restart, p->cp); } } /* 3DSTATE_VERTEX_BUFFERS */ if (DIRTY(VB) || DIRTY(VE) || session->batch_bo_changed) gen6_emit_3DSTATE_VERTEX_BUFFERS(p->dev, ilo->ve, &ilo->vb, p->cp); /* 3DSTATE_VERTEX_ELEMENTS */ if (DIRTY(VE) || DIRTY(VS)) { const struct ilo_ve_state *ve = ilo->ve; bool last_velement_edgeflag = false; bool prepend_generate_ids = false; if (ilo->vs) { if (ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_VS_INPUT_EDGEFLAG)) { /* we rely on the state tracker here */ assert(ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_INPUT_COUNT) == ve->count); last_velement_edgeflag = true; } if (ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_VS_INPUT_INSTANCEID) || ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_VS_INPUT_VERTEXID)) prepend_generate_ids = true; } gen6_emit_3DSTATE_VERTEX_ELEMENTS(p->dev, ve, last_velement_edgeflag, prepend_generate_ids, p->cp); } } void gen6_pipeline_vf_statistics(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_VF_STATISTICS */ if (session->hw_ctx_changed) gen6_emit_3DSTATE_VF_STATISTICS(p->dev, false, p->cp); } static void gen6_pipeline_vf_draw(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DPRIMITIVE */ gen6_emit_3DPRIMITIVE(p->dev, ilo->draw, &ilo->ib, false, p->cp); p->state.has_gen6_wa_pipe_control = false; } void gen6_pipeline_vs(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { const bool emit_3dstate_vs = (DIRTY(VS) || DIRTY(SAMPLER_VS) || session->kernel_bo_changed); const bool emit_3dstate_constant_vs = session->pcb_state_vs_changed; /* * the classic i965 does this in upload_vs_state(), citing a spec that I * cannot find */ if (emit_3dstate_vs && p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); /* 3DSTATE_CONSTANT_VS */ if (emit_3dstate_constant_vs) { gen6_emit_3DSTATE_CONSTANT_VS(p->dev, &p->state.vs.PUSH_CONSTANT_BUFFER, &p->state.vs.PUSH_CONSTANT_BUFFER_size, 1, p->cp); } /* 3DSTATE_VS */ if (emit_3dstate_vs) { const int num_samplers = ilo->sampler[PIPE_SHADER_VERTEX].count; gen6_emit_3DSTATE_VS(p->dev, ilo->vs, num_samplers, p->cp); } if (emit_3dstate_constant_vs && p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_vs_const_flush(p); } static void gen6_pipeline_gs(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_CONSTANT_GS */ if (session->pcb_state_gs_changed) gen6_emit_3DSTATE_CONSTANT_GS(p->dev, NULL, NULL, 0, p->cp); /* 3DSTATE_GS */ if (DIRTY(GS) || DIRTY(VS) || session->prim_changed || session->kernel_bo_changed) { const int verts_per_prim = u_vertices_per_prim(session->reduced_prim); gen6_emit_3DSTATE_GS(p->dev, ilo->gs, ilo->vs, verts_per_prim, p->cp); } } bool gen6_pipeline_update_max_svbi(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { if (DIRTY(VS) || DIRTY(GS) || DIRTY(SO)) { const struct pipe_stream_output_info *so_info = (ilo->gs) ? ilo_shader_get_kernel_so_info(ilo->gs) : (ilo->vs) ? ilo_shader_get_kernel_so_info(ilo->vs) : NULL; unsigned max_svbi = 0xffffffff; int i; for (i = 0; i < so_info->num_outputs; i++) { const int output_buffer = so_info->output[i].output_buffer; const struct pipe_stream_output_target *so = ilo->so.states[output_buffer]; const int struct_size = so_info->stride[output_buffer] * 4; const int elem_size = so_info->output[i].num_components * 4; int buf_size, count; if (!so) { max_svbi = 0; break; } buf_size = so->buffer_size - so_info->output[i].dst_offset * 4; count = buf_size / struct_size; if (buf_size % struct_size >= elem_size) count++; if (count < max_svbi) max_svbi = count; } if (p->state.so_max_vertices != max_svbi) { p->state.so_max_vertices = max_svbi; return true; } } return false; } static void gen6_pipeline_gs_svbi(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { const bool emit = gen6_pipeline_update_max_svbi(p, ilo, session); /* 3DSTATE_GS_SVB_INDEX */ if (emit) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_3DSTATE_GS_SVB_INDEX(p->dev, 0, p->state.so_num_vertices, p->state.so_max_vertices, false, p->cp); if (session->hw_ctx_changed) { int i; /* * From the Sandy Bridge PRM, volume 2 part 1, page 148: * * "If a buffer is not enabled then the SVBI must be set to 0x0 * in order to not cause overflow in that SVBI." * * "If a buffer is not enabled then the MaxSVBI must be set to * 0xFFFFFFFF in order to not cause overflow in that SVBI." */ for (i = 1; i < 4; i++) { gen6_emit_3DSTATE_GS_SVB_INDEX(p->dev, i, 0, 0xffffffff, false, p->cp); } } } } void gen6_pipeline_clip(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_CLIP */ if (DIRTY(RASTERIZER) || DIRTY(FS) || DIRTY(VIEWPORT) || DIRTY(FB)) { bool enable_guardband = true; unsigned i; /* * We do not do 2D clipping yet. Guard band test should only be enabled * when the viewport is larger than the framebuffer. */ for (i = 0; i < ilo->viewport.count; i++) { const struct ilo_viewport_cso *vp = &ilo->viewport.cso[i]; if (vp->min_x > 0.0f || vp->max_x < ilo->fb.state.width || vp->min_y > 0.0f || vp->max_y < ilo->fb.state.height) { enable_guardband = false; break; } } gen6_emit_3DSTATE_CLIP(p->dev, ilo->rasterizer, ilo->fs, enable_guardband, 1, p->cp); } } static void gen6_pipeline_sf(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_SF */ if (DIRTY(RASTERIZER) || DIRTY(FS)) gen6_emit_3DSTATE_SF(p->dev, ilo->rasterizer, ilo->fs, p->cp); } void gen6_pipeline_sf_rect(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_DRAWING_RECTANGLE */ if (DIRTY(FB)) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_3DSTATE_DRAWING_RECTANGLE(p->dev, 0, 0, ilo->fb.state.width, ilo->fb.state.height, p->cp); } } static void gen6_pipeline_wm(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_CONSTANT_PS */ if (session->pcb_state_fs_changed) { gen6_emit_3DSTATE_CONSTANT_PS(p->dev, &p->state.wm.PUSH_CONSTANT_BUFFER, &p->state.wm.PUSH_CONSTANT_BUFFER_size, 1, p->cp); } /* 3DSTATE_WM */ if (DIRTY(FS) || DIRTY(SAMPLER_FS) || DIRTY(BLEND) || DIRTY(DSA) || DIRTY(RASTERIZER) || session->kernel_bo_changed) { const int num_samplers = ilo->sampler[PIPE_SHADER_FRAGMENT].count; const bool dual_blend = ilo->blend->dual_blend; const bool cc_may_kill = (ilo->dsa->dw_alpha || ilo->blend->alpha_to_coverage); if (p->dev->gen == ILO_GEN(6) && session->hw_ctx_changed) gen6_wa_pipe_control_wm_max_threads_stall(p); gen6_emit_3DSTATE_WM(p->dev, ilo->fs, num_samplers, ilo->rasterizer, dual_blend, cc_may_kill, 0, p->cp); } } static void gen6_pipeline_wm_multisample(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_MULTISAMPLE and 3DSTATE_SAMPLE_MASK */ if (DIRTY(SAMPLE_MASK) || DIRTY(FB)) { const uint32_t *packed_sample_pos; packed_sample_pos = (ilo->fb.num_samples > 1) ? &p->packed_sample_position_4x : &p->packed_sample_position_1x; if (p->dev->gen == ILO_GEN(6)) { gen6_wa_pipe_control_post_sync(p, false); gen6_wa_pipe_control_wm_multisample_flush(p); } gen6_emit_3DSTATE_MULTISAMPLE(p->dev, ilo->fb.num_samples, packed_sample_pos, ilo->rasterizer->state.half_pixel_center, p->cp); gen6_emit_3DSTATE_SAMPLE_MASK(p->dev, (ilo->fb.num_samples > 1) ? ilo->sample_mask : 0x1, p->cp); } } static void gen6_pipeline_wm_depth(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_DEPTH_BUFFER and 3DSTATE_CLEAR_PARAMS */ if (DIRTY(FB) || session->batch_bo_changed) { const struct ilo_zs_surface *zs; uint32_t clear_params; if (ilo->fb.state.zsbuf) { const struct ilo_surface_cso *surface = (const struct ilo_surface_cso *) ilo->fb.state.zsbuf; const struct ilo_texture_slice *slice = ilo_texture_get_slice(ilo_texture(surface->base.texture), surface->base.u.tex.level, surface->base.u.tex.first_layer); assert(!surface->is_rt); zs = &surface->u.zs; clear_params = slice->clear_value; } else { zs = &ilo->fb.null_zs; clear_params = 0; } if (p->dev->gen == ILO_GEN(6)) { gen6_wa_pipe_control_post_sync(p, false); gen6_wa_pipe_control_wm_depth_flush(p); } gen6_emit_3DSTATE_DEPTH_BUFFER(p->dev, zs, p->cp); gen6_emit_3DSTATE_HIER_DEPTH_BUFFER(p->dev, zs, p->cp); gen6_emit_3DSTATE_STENCIL_BUFFER(p->dev, zs, p->cp); gen6_emit_3DSTATE_CLEAR_PARAMS(p->dev, clear_params, p->cp); } } void gen6_pipeline_wm_raster(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* 3DSTATE_POLY_STIPPLE_PATTERN and 3DSTATE_POLY_STIPPLE_OFFSET */ if ((DIRTY(RASTERIZER) || DIRTY(POLY_STIPPLE)) && ilo->rasterizer->state.poly_stipple_enable) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_3DSTATE_POLY_STIPPLE_PATTERN(p->dev, &ilo->poly_stipple, p->cp); gen6_emit_3DSTATE_POLY_STIPPLE_OFFSET(p->dev, 0, 0, p->cp); } /* 3DSTATE_LINE_STIPPLE */ if (DIRTY(RASTERIZER) && ilo->rasterizer->state.line_stipple_enable) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_3DSTATE_LINE_STIPPLE(p->dev, ilo->rasterizer->state.line_stipple_pattern, ilo->rasterizer->state.line_stipple_factor + 1, p->cp); } /* 3DSTATE_AA_LINE_PARAMETERS */ if (DIRTY(RASTERIZER) && ilo->rasterizer->state.line_smooth) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_3DSTATE_AA_LINE_PARAMETERS(p->dev, p->cp); } } static void gen6_pipeline_state_viewports(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* SF_CLIP_VIEWPORT and CC_VIEWPORT */ if (p->dev->gen >= ILO_GEN(7) && DIRTY(VIEWPORT)) { p->state.SF_CLIP_VIEWPORT = gen7_emit_SF_CLIP_VIEWPORT(p->dev, ilo->viewport.cso, ilo->viewport.count, p->cp); p->state.CC_VIEWPORT = gen6_emit_CC_VIEWPORT(p->dev, ilo->viewport.cso, ilo->viewport.count, p->cp); session->viewport_state_changed = true; } /* SF_VIEWPORT, CLIP_VIEWPORT, and CC_VIEWPORT */ else if (DIRTY(VIEWPORT)) { p->state.CLIP_VIEWPORT = gen6_emit_CLIP_VIEWPORT(p->dev, ilo->viewport.cso, ilo->viewport.count, p->cp); p->state.SF_VIEWPORT = gen6_emit_SF_VIEWPORT(p->dev, ilo->viewport.cso, ilo->viewport.count, p->cp); p->state.CC_VIEWPORT = gen6_emit_CC_VIEWPORT(p->dev, ilo->viewport.cso, ilo->viewport.count, p->cp); session->viewport_state_changed = true; } } static void gen6_pipeline_state_cc(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* BLEND_STATE */ if (DIRTY(BLEND) || DIRTY(FB) || DIRTY(DSA)) { p->state.BLEND_STATE = gen6_emit_BLEND_STATE(p->dev, ilo->blend, &ilo->fb, ilo->dsa, p->cp); session->cc_state_blend_changed = true; } /* COLOR_CALC_STATE */ if (DIRTY(DSA) || DIRTY(STENCIL_REF) || DIRTY(BLEND_COLOR)) { p->state.COLOR_CALC_STATE = gen6_emit_COLOR_CALC_STATE(p->dev, &ilo->stencil_ref, ilo->dsa->alpha_ref, &ilo->blend_color, p->cp); session->cc_state_cc_changed = true; } /* DEPTH_STENCIL_STATE */ if (DIRTY(DSA)) { p->state.DEPTH_STENCIL_STATE = gen6_emit_DEPTH_STENCIL_STATE(p->dev, ilo->dsa, p->cp); session->cc_state_dsa_changed = true; } } static void gen6_pipeline_state_scissors(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* SCISSOR_RECT */ if (DIRTY(SCISSOR) || DIRTY(VIEWPORT)) { /* there should be as many scissors as there are viewports */ p->state.SCISSOR_RECT = gen6_emit_SCISSOR_RECT(p->dev, &ilo->scissor, ilo->viewport.count, p->cp); session->scissor_state_changed = true; } } static void gen6_pipeline_state_surfaces_rt(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* SURFACE_STATEs for render targets */ if (DIRTY(FB)) { const struct ilo_fb_state *fb = &ilo->fb; const int offset = ILO_WM_DRAW_SURFACE(0); uint32_t *surface_state = &p->state.wm.SURFACE_STATE[offset]; int i; for (i = 0; i < fb->state.nr_cbufs; i++) { const struct ilo_surface_cso *surface = (const struct ilo_surface_cso *) fb->state.cbufs[i]; if (!surface) { surface_state[i] = gen6_emit_SURFACE_STATE(p->dev, &fb->null_rt, true, p->cp); } else { assert(surface && surface->is_rt); surface_state[i] = gen6_emit_SURFACE_STATE(p->dev, &surface->u.rt, true, p->cp); } } /* * Upload at least one render target, as * brw_update_renderbuffer_surfaces() does. I don't know why. */ if (i == 0) { surface_state[i] = gen6_emit_SURFACE_STATE(p->dev, &fb->null_rt, true, p->cp); i++; } memset(&surface_state[i], 0, (ILO_MAX_DRAW_BUFFERS - i) * 4); if (i && session->num_surfaces[PIPE_SHADER_FRAGMENT] < offset + i) session->num_surfaces[PIPE_SHADER_FRAGMENT] = offset + i; session->binding_table_fs_changed = true; } } static void gen6_pipeline_state_surfaces_so(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { const struct ilo_so_state *so = &ilo->so; if (p->dev->gen != ILO_GEN(6)) return; /* SURFACE_STATEs for stream output targets */ if (DIRTY(VS) || DIRTY(GS) || DIRTY(SO)) { const struct pipe_stream_output_info *so_info = (ilo->gs) ? ilo_shader_get_kernel_so_info(ilo->gs) : (ilo->vs) ? ilo_shader_get_kernel_so_info(ilo->vs) : NULL; const int offset = ILO_GS_SO_SURFACE(0); uint32_t *surface_state = &p->state.gs.SURFACE_STATE[offset]; int i; for (i = 0; so_info && i < so_info->num_outputs; i++) { const int target = so_info->output[i].output_buffer; const struct pipe_stream_output_target *so_target = (target < so->count) ? so->states[target] : NULL; if (so_target) { surface_state[i] = gen6_emit_so_SURFACE_STATE(p->dev, so_target, so_info, i, p->cp); } else { surface_state[i] = 0; } } memset(&surface_state[i], 0, (ILO_MAX_SO_BINDINGS - i) * 4); if (i && session->num_surfaces[PIPE_SHADER_GEOMETRY] < offset + i) session->num_surfaces[PIPE_SHADER_GEOMETRY] = offset + i; session->binding_table_gs_changed = true; } } static void gen6_pipeline_state_surfaces_view(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, int shader_type, struct gen6_pipeline_session *session) { const struct ilo_view_state *view = &ilo->view[shader_type]; uint32_t *surface_state; int offset, i; bool skip = false; /* SURFACE_STATEs for sampler views */ switch (shader_type) { case PIPE_SHADER_VERTEX: if (DIRTY(VIEW_VS)) { offset = ILO_VS_TEXTURE_SURFACE(0); surface_state = &p->state.vs.SURFACE_STATE[offset]; session->binding_table_vs_changed = true; } else { skip = true; } break; case PIPE_SHADER_FRAGMENT: if (DIRTY(VIEW_FS)) { offset = ILO_WM_TEXTURE_SURFACE(0); surface_state = &p->state.wm.SURFACE_STATE[offset]; session->binding_table_fs_changed = true; } else { skip = true; } break; default: skip = true; break; } if (skip) return; for (i = 0; i < view->count; i++) { if (view->states[i]) { const struct ilo_view_cso *cso = (const struct ilo_view_cso *) view->states[i]; surface_state[i] = gen6_emit_SURFACE_STATE(p->dev, &cso->surface, false, p->cp); } else { surface_state[i] = 0; } } memset(&surface_state[i], 0, (ILO_MAX_SAMPLER_VIEWS - i) * 4); if (i && session->num_surfaces[shader_type] < offset + i) session->num_surfaces[shader_type] = offset + i; } static void gen6_pipeline_state_surfaces_const(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, int shader_type, struct gen6_pipeline_session *session) { const struct ilo_cbuf_state *cbuf = &ilo->cbuf[shader_type]; uint32_t *surface_state; bool *binding_table_changed; int offset, count, i; if (!DIRTY(CBUF)) return; /* SURFACE_STATEs for constant buffers */ switch (shader_type) { case PIPE_SHADER_VERTEX: offset = ILO_VS_CONST_SURFACE(0); surface_state = &p->state.vs.SURFACE_STATE[offset]; binding_table_changed = &session->binding_table_vs_changed; break; case PIPE_SHADER_FRAGMENT: offset = ILO_WM_CONST_SURFACE(0); surface_state = &p->state.wm.SURFACE_STATE[offset]; binding_table_changed = &session->binding_table_fs_changed; break; default: return; break; } /* constants are pushed via PCB */ if (cbuf->enabled_mask == 0x1 && !cbuf->cso[0].resource) { memset(surface_state, 0, ILO_MAX_CONST_BUFFERS * 4); return; } count = util_last_bit(cbuf->enabled_mask); for (i = 0; i < count; i++) { if (cbuf->cso[i].resource) { surface_state[i] = gen6_emit_SURFACE_STATE(p->dev, &cbuf->cso[i].surface, false, p->cp); } else { surface_state[i] = 0; } } memset(&surface_state[count], 0, (ILO_MAX_CONST_BUFFERS - count) * 4); if (count && session->num_surfaces[shader_type] < offset + count) session->num_surfaces[shader_type] = offset + count; *binding_table_changed = true; } static void gen6_pipeline_state_binding_tables(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, int shader_type, struct gen6_pipeline_session *session) { uint32_t *binding_table_state, *surface_state; int *binding_table_state_size, size; bool skip = false; /* BINDING_TABLE_STATE */ switch (shader_type) { case PIPE_SHADER_VERTEX: surface_state = p->state.vs.SURFACE_STATE; binding_table_state = &p->state.vs.BINDING_TABLE_STATE; binding_table_state_size = &p->state.vs.BINDING_TABLE_STATE_size; skip = !session->binding_table_vs_changed; break; case PIPE_SHADER_GEOMETRY: surface_state = p->state.gs.SURFACE_STATE; binding_table_state = &p->state.gs.BINDING_TABLE_STATE; binding_table_state_size = &p->state.gs.BINDING_TABLE_STATE_size; skip = !session->binding_table_gs_changed; break; case PIPE_SHADER_FRAGMENT: surface_state = p->state.wm.SURFACE_STATE; binding_table_state = &p->state.wm.BINDING_TABLE_STATE; binding_table_state_size = &p->state.wm.BINDING_TABLE_STATE_size; skip = !session->binding_table_fs_changed; break; default: skip = true; break; } if (skip) return; /* * If we have seemingly less SURFACE_STATEs than before, it could be that * we did not touch those reside at the tail in this upload. Loop over * them to figure out the real number of SURFACE_STATEs. */ for (size = *binding_table_state_size; size > session->num_surfaces[shader_type]; size--) { if (surface_state[size - 1]) break; } if (size < session->num_surfaces[shader_type]) size = session->num_surfaces[shader_type]; *binding_table_state = gen6_emit_BINDING_TABLE_STATE(p->dev, surface_state, size, p->cp); *binding_table_state_size = size; } static void gen6_pipeline_state_samplers(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, int shader_type, struct gen6_pipeline_session *session) { const struct ilo_sampler_cso * const *samplers = ilo->sampler[shader_type].cso; const struct pipe_sampler_view * const *views = (const struct pipe_sampler_view **) ilo->view[shader_type].states; const int num_samplers = ilo->sampler[shader_type].count; const int num_views = ilo->view[shader_type].count; uint32_t *sampler_state, *border_color_state; bool emit_border_color = false; bool skip = false; /* SAMPLER_BORDER_COLOR_STATE and SAMPLER_STATE */ switch (shader_type) { case PIPE_SHADER_VERTEX: if (DIRTY(SAMPLER_VS) || DIRTY(VIEW_VS)) { sampler_state = &p->state.vs.SAMPLER_STATE; border_color_state = p->state.vs.SAMPLER_BORDER_COLOR_STATE; if (DIRTY(SAMPLER_VS)) emit_border_color = true; session->sampler_state_vs_changed = true; } else { skip = true; } break; case PIPE_SHADER_FRAGMENT: if (DIRTY(SAMPLER_FS) || DIRTY(VIEW_FS)) { sampler_state = &p->state.wm.SAMPLER_STATE; border_color_state = p->state.wm.SAMPLER_BORDER_COLOR_STATE; if (DIRTY(SAMPLER_FS)) emit_border_color = true; session->sampler_state_fs_changed = true; } else { skip = true; } break; default: skip = true; break; } if (skip) return; if (emit_border_color) { int i; for (i = 0; i < num_samplers; i++) { border_color_state[i] = (samplers[i]) ? gen6_emit_SAMPLER_BORDER_COLOR_STATE(p->dev, samplers[i], p->cp) : 0; } } /* should we take the minimum of num_samplers and num_views? */ *sampler_state = gen6_emit_SAMPLER_STATE(p->dev, samplers, views, border_color_state, MIN2(num_samplers, num_views), p->cp); } static void gen6_pipeline_state_pcb(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* push constant buffer for VS */ if (DIRTY(VS) || DIRTY(CBUF) || DIRTY(CLIP)) { const int cbuf0_size = (ilo->vs) ? ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_PCB_CBUF0_SIZE) : 0; const int clip_state_size = (ilo->vs) ? ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_VS_PCB_UCP_SIZE) : 0; const int total_size = cbuf0_size + clip_state_size; if (total_size) { void *pcb; p->state.vs.PUSH_CONSTANT_BUFFER = gen6_emit_push_constant_buffer(p->dev, total_size, &pcb, p->cp); p->state.vs.PUSH_CONSTANT_BUFFER_size = total_size; if (cbuf0_size) { const struct ilo_cbuf_state *cbuf = &ilo->cbuf[PIPE_SHADER_VERTEX]; if (cbuf0_size <= cbuf->cso[0].user_buffer_size) { memcpy(pcb, cbuf->cso[0].user_buffer, cbuf0_size); } else { memcpy(pcb, cbuf->cso[0].user_buffer, cbuf->cso[0].user_buffer_size); memset(pcb + cbuf->cso[0].user_buffer_size, 0, cbuf0_size - cbuf->cso[0].user_buffer_size); } pcb += cbuf0_size; } if (clip_state_size) memcpy(pcb, &ilo->clip, clip_state_size); session->pcb_state_vs_changed = true; } else if (p->state.vs.PUSH_CONSTANT_BUFFER_size) { p->state.vs.PUSH_CONSTANT_BUFFER = 0; p->state.vs.PUSH_CONSTANT_BUFFER_size = 0; session->pcb_state_vs_changed = true; } } /* push constant buffer for FS */ if (DIRTY(FS) || DIRTY(CBUF)) { const int cbuf0_size = (ilo->fs) ? ilo_shader_get_kernel_param(ilo->fs, ILO_KERNEL_PCB_CBUF0_SIZE) : 0; if (cbuf0_size) { const struct ilo_cbuf_state *cbuf = &ilo->cbuf[PIPE_SHADER_FRAGMENT]; void *pcb; p->state.wm.PUSH_CONSTANT_BUFFER = gen6_emit_push_constant_buffer(p->dev, cbuf0_size, &pcb, p->cp); p->state.wm.PUSH_CONSTANT_BUFFER_size = cbuf0_size; if (cbuf0_size <= cbuf->cso[0].user_buffer_size) { memcpy(pcb, cbuf->cso[0].user_buffer, cbuf0_size); } else { memcpy(pcb, cbuf->cso[0].user_buffer, cbuf->cso[0].user_buffer_size); memset(pcb + cbuf->cso[0].user_buffer_size, 0, cbuf0_size - cbuf->cso[0].user_buffer_size); } session->pcb_state_fs_changed = true; } else if (p->state.wm.PUSH_CONSTANT_BUFFER_size) { p->state.wm.PUSH_CONSTANT_BUFFER = 0; p->state.wm.PUSH_CONSTANT_BUFFER_size = 0; session->pcb_state_fs_changed = true; } } } #undef DIRTY static void gen6_pipeline_commands(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* * We try to keep the order of the commands match, as closely as possible, * that of the classic i965 driver. It allows us to compare the command * streams easily. */ gen6_pipeline_common_select(p, ilo, session); gen6_pipeline_gs_svbi(p, ilo, session); gen6_pipeline_common_sip(p, ilo, session); gen6_pipeline_vf_statistics(p, ilo, session); gen6_pipeline_common_base_address(p, ilo, session); gen6_pipeline_common_pointers_1(p, ilo, session); gen6_pipeline_common_urb(p, ilo, session); gen6_pipeline_common_pointers_2(p, ilo, session); gen6_pipeline_wm_multisample(p, ilo, session); gen6_pipeline_vs(p, ilo, session); gen6_pipeline_gs(p, ilo, session); gen6_pipeline_clip(p, ilo, session); gen6_pipeline_sf(p, ilo, session); gen6_pipeline_wm(p, ilo, session); gen6_pipeline_common_pointers_3(p, ilo, session); gen6_pipeline_wm_depth(p, ilo, session); gen6_pipeline_wm_raster(p, ilo, session); gen6_pipeline_sf_rect(p, ilo, session); gen6_pipeline_vf(p, ilo, session); gen6_pipeline_vf_draw(p, ilo, session); } void gen6_pipeline_states(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { int shader_type; gen6_pipeline_state_viewports(p, ilo, session); gen6_pipeline_state_cc(p, ilo, session); gen6_pipeline_state_scissors(p, ilo, session); gen6_pipeline_state_pcb(p, ilo, session); /* * upload all SURAFCE_STATEs together so that we know there are minimal * paddings */ gen6_pipeline_state_surfaces_rt(p, ilo, session); gen6_pipeline_state_surfaces_so(p, ilo, session); for (shader_type = 0; shader_type < PIPE_SHADER_TYPES; shader_type++) { gen6_pipeline_state_surfaces_view(p, ilo, shader_type, session); gen6_pipeline_state_surfaces_const(p, ilo, shader_type, session); } for (shader_type = 0; shader_type < PIPE_SHADER_TYPES; shader_type++) { gen6_pipeline_state_samplers(p, ilo, shader_type, session); /* this must be called after all SURFACE_STATEs are uploaded */ gen6_pipeline_state_binding_tables(p, ilo, shader_type, session); } } void gen6_pipeline_prepare(const struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { memset(session, 0, sizeof(*session)); session->pipe_dirty = ilo->dirty; session->reduced_prim = u_reduced_prim(ilo->draw->mode); /* available space before the session */ session->init_cp_space = ilo_cp_space(p->cp); session->hw_ctx_changed = (p->invalidate_flags & ILO_3D_PIPELINE_INVALIDATE_HW); if (session->hw_ctx_changed) { /* these should be enough to make everything uploaded */ session->batch_bo_changed = true; session->state_bo_changed = true; session->kernel_bo_changed = true; session->prim_changed = true; session->primitive_restart_changed = true; } else { /* * Any state that involves resources needs to be re-emitted when the * batch bo changed. This is because we do not pin the resources and * their offsets (or existence) may change between batch buffers. * * Since we messed around with ILO_3D_PIPELINE_INVALIDATE_BATCH_BO in * handle_invalid_batch_bo(), use ILO_3D_PIPELINE_INVALIDATE_STATE_BO as * a temporary workaround. */ session->batch_bo_changed = (p->invalidate_flags & ILO_3D_PIPELINE_INVALIDATE_STATE_BO); session->state_bo_changed = (p->invalidate_flags & ILO_3D_PIPELINE_INVALIDATE_STATE_BO); session->kernel_bo_changed = (p->invalidate_flags & ILO_3D_PIPELINE_INVALIDATE_KERNEL_BO); session->prim_changed = (p->state.reduced_prim != session->reduced_prim); session->primitive_restart_changed = (p->state.primitive_restart != ilo->draw->primitive_restart); } } void gen6_pipeline_draw(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* force all states to be uploaded if the state bo changed */ if (session->state_bo_changed) session->pipe_dirty = ILO_DIRTY_ALL; else session->pipe_dirty = ilo->dirty; session->emit_draw_states(p, ilo, session); /* force all commands to be uploaded if the HW context changed */ if (session->hw_ctx_changed) session->pipe_dirty = ILO_DIRTY_ALL; else session->pipe_dirty = ilo->dirty; session->emit_draw_commands(p, ilo, session); } void gen6_pipeline_end(struct ilo_3d_pipeline *p, const struct ilo_context *ilo, struct gen6_pipeline_session *session) { /* sanity check size estimation */ assert(session->init_cp_space - ilo_cp_space(p->cp) <= ilo_3d_pipeline_estimate_size(p, ILO_3D_PIPELINE_DRAW, ilo)); p->state.reduced_prim = session->reduced_prim; p->state.primitive_restart = ilo->draw->primitive_restart; } static void ilo_3d_pipeline_emit_draw_gen6(struct ilo_3d_pipeline *p, const struct ilo_context *ilo) { struct gen6_pipeline_session session; gen6_pipeline_prepare(p, ilo, &session); session.emit_draw_states = gen6_pipeline_states; session.emit_draw_commands = gen6_pipeline_commands; gen6_pipeline_draw(p, ilo, &session); gen6_pipeline_end(p, ilo, &session); } void ilo_3d_pipeline_emit_flush_gen6(struct ilo_3d_pipeline *p) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_INSTRUCTION_CACHE_INVALIDATE | GEN6_PIPE_CONTROL_RENDER_CACHE_FLUSH | GEN6_PIPE_CONTROL_DEPTH_CACHE_FLUSH | GEN6_PIPE_CONTROL_VF_CACHE_INVALIDATE | GEN6_PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE | GEN6_PIPE_CONTROL_WRITE_NONE | GEN6_PIPE_CONTROL_CS_STALL, 0, 0, false, p->cp); } void ilo_3d_pipeline_emit_write_timestamp_gen6(struct ilo_3d_pipeline *p, struct intel_bo *bo, int index) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, true); gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_WRITE_TIMESTAMP, bo, index * sizeof(uint64_t), true, p->cp); } void ilo_3d_pipeline_emit_write_depth_count_gen6(struct ilo_3d_pipeline *p, struct intel_bo *bo, int index) { if (p->dev->gen == ILO_GEN(6)) gen6_wa_pipe_control_post_sync(p, false); gen6_emit_PIPE_CONTROL(p->dev, GEN6_PIPE_CONTROL_DEPTH_STALL | GEN6_PIPE_CONTROL_WRITE_PS_DEPTH_COUNT, bo, index * sizeof(uint64_t), true, p->cp); } void ilo_3d_pipeline_emit_write_statistics_gen6(struct ilo_3d_pipeline *p, struct intel_bo *bo, int index) { uint32_t regs[] = { GEN6_REG_IA_VERTICES_COUNT, GEN6_REG_IA_PRIMITIVES_COUNT, GEN6_REG_VS_INVOCATION_COUNT, GEN6_REG_GS_INVOCATION_COUNT, GEN6_REG_GS_PRIMITIVES_COUNT, GEN6_REG_CL_INVOCATION_COUNT, GEN6_REG_CL_PRIMITIVES_COUNT, GEN6_REG_PS_INVOCATION_COUNT, p->dev->gen >= ILO_GEN(7) ? GEN6_REG_HS_INVOCATION_COUNT : 0, p->dev->gen >= ILO_GEN(7) ? GEN6_REG_DS_INVOCATION_COUNT : 0, 0, }; int i; p->emit_flush(p); for (i = 0; i < Elements(regs); i++) { const uint32_t bo_offset = (index + i) * sizeof(uint64_t); if (regs[i]) { /* store lower 32 bits */ gen6_emit_MI_STORE_REGISTER_MEM(p->dev, bo, bo_offset, regs[i], p->cp); /* store higher 32 bits */ gen6_emit_MI_STORE_REGISTER_MEM(p->dev, bo, bo_offset + 4, regs[i] + 4, p->cp); } else { gen6_emit_MI_STORE_DATA_IMM(p->dev, bo, bo_offset, 0, true, p->cp); } } } static void gen6_rectlist_vs_to_sf(struct ilo_3d_pipeline *p, const struct ilo_blitter *blitter, struct gen6_rectlist_session *session) { gen6_emit_3DSTATE_CONSTANT_VS(p->dev, NULL, NULL, 0, p->cp); gen6_emit_3DSTATE_VS(p->dev, NULL, 0, p->cp); gen6_wa_pipe_control_vs_const_flush(p); gen6_emit_3DSTATE_CONSTANT_GS(p->dev, NULL, NULL, 0, p->cp); gen6_emit_3DSTATE_GS(p->dev, NULL, NULL, 0, p->cp); gen6_emit_3DSTATE_CLIP(p->dev, NULL, NULL, false, 0, p->cp); gen6_emit_3DSTATE_SF(p->dev, NULL, NULL, p->cp); } static void gen6_rectlist_wm(struct ilo_3d_pipeline *p, const struct ilo_blitter *blitter, struct gen6_rectlist_session *session) { uint32_t hiz_op; switch (blitter->op) { case ILO_BLITTER_RECTLIST_CLEAR_ZS: hiz_op = GEN6_WM_DW4_DEPTH_CLEAR; break; case ILO_BLITTER_RECTLIST_RESOLVE_Z: hiz_op = GEN6_WM_DW4_DEPTH_RESOLVE; break; case ILO_BLITTER_RECTLIST_RESOLVE_HIZ: hiz_op = GEN6_WM_DW4_HIZ_RESOLVE; break; default: hiz_op = 0; break; } gen6_emit_3DSTATE_CONSTANT_PS(p->dev, NULL, NULL, 0, p->cp); gen6_wa_pipe_control_wm_max_threads_stall(p); gen6_emit_3DSTATE_WM(p->dev, NULL, 0, NULL, false, false, hiz_op, p->cp); } static void gen6_rectlist_wm_depth(struct ilo_3d_pipeline *p, const struct ilo_blitter *blitter, struct gen6_rectlist_session *session) { gen6_wa_pipe_control_wm_depth_flush(p); if (blitter->uses & (ILO_BLITTER_USE_FB_DEPTH | ILO_BLITTER_USE_FB_STENCIL)) { gen6_emit_3DSTATE_DEPTH_BUFFER(p->dev, &blitter->fb.dst.u.zs, p->cp); } if (blitter->uses & ILO_BLITTER_USE_FB_DEPTH) { gen6_emit_3DSTATE_HIER_DEPTH_BUFFER(p->dev, &blitter->fb.dst.u.zs, p->cp); } if (blitter->uses & ILO_BLITTER_USE_FB_STENCIL) { gen6_emit_3DSTATE_STENCIL_BUFFER(p->dev, &blitter->fb.dst.u.zs, p->cp); } gen6_emit_3DSTATE_CLEAR_PARAMS(p->dev, blitter->depth_clear_value, p->cp); } static void gen6_rectlist_wm_multisample(struct ilo_3d_pipeline *p, const struct ilo_blitter *blitter, struct gen6_rectlist_session *session) { const uint32_t *packed_sample_pos = (blitter->fb.num_samples > 1) ? &p->packed_sample_position_4x : &p->packed_sample_position_1x; gen6_wa_pipe_control_wm_multisample_flush(p); gen6_emit_3DSTATE_MULTISAMPLE(p->dev, blitter->fb.num_samples, packed_sample_pos, true, p->cp); gen6_emit_3DSTATE_SAMPLE_MASK(p->dev, (1 << blitter->fb.num_samples) - 1, p->cp); } static void gen6_rectlist_commands(struct ilo_3d_pipeline *p, const struct ilo_blitter *blitter, struct gen6_rectlist_session *session) { gen6_wa_pipe_control_post_sync(p, false); gen6_rectlist_wm_multisample(p, blitter, session); gen6_emit_STATE_BASE_ADDRESS(p->dev, NULL, /* General State Base */ p->cp->bo, /* Surface State Base */ p->cp->bo, /* Dynamic State Base */ NULL, /* Indirect Object Base */ NULL, /* Instruction Base */ 0, 0, 0, 0, p->cp); gen6_emit_3DSTATE_VERTEX_BUFFERS(p->dev, &blitter->ve, &blitter->vb, p->cp); gen6_emit_3DSTATE_VERTEX_ELEMENTS(p->dev, &blitter->ve, false, false, p->cp); gen6_emit_3DSTATE_URB(p->dev, p->dev->urb_size, 0, blitter->ve.count * 4 * sizeof(float), 0, p->cp); /* 3DSTATE_URB workaround */ if (p->state.gs.active) { ilo_3d_pipeline_emit_flush_gen6(p); p->state.gs.active = false; } if (blitter->uses & (ILO_BLITTER_USE_DSA | ILO_BLITTER_USE_CC)) { gen6_emit_3DSTATE_CC_STATE_POINTERS(p->dev, 0, session->DEPTH_STENCIL_STATE, session->COLOR_CALC_STATE, p->cp); } gen6_rectlist_vs_to_sf(p, blitter, session); gen6_rectlist_wm(p, blitter, session); if (blitter->uses & ILO_BLITTER_USE_VIEWPORT) { gen6_emit_3DSTATE_VIEWPORT_STATE_POINTERS(p->dev, 0, 0, session->CC_VIEWPORT, p->cp); } gen6_rectlist_wm_depth(p, blitter, session); gen6_emit_3DSTATE_DRAWING_RECTANGLE(p->dev, 0, 0, blitter->fb.width, blitter->fb.height, p->cp); gen6_emit_3DPRIMITIVE(p->dev, &blitter->draw, NULL, true, p->cp); } static void gen6_rectlist_states(struct ilo_3d_pipeline *p, const struct ilo_blitter *blitter, struct gen6_rectlist_session *session) { if (blitter->uses & ILO_BLITTER_USE_DSA) { session->DEPTH_STENCIL_STATE = gen6_emit_DEPTH_STENCIL_STATE(p->dev, &blitter->dsa, p->cp); } if (blitter->uses & ILO_BLITTER_USE_CC) { session->COLOR_CALC_STATE = gen6_emit_COLOR_CALC_STATE(p->dev, &blitter->cc.stencil_ref, blitter->cc.alpha_ref, &blitter->cc.blend_color, p->cp); } if (blitter->uses & ILO_BLITTER_USE_VIEWPORT) { session->CC_VIEWPORT = gen6_emit_CC_VIEWPORT(p->dev, &blitter->viewport, 1, p->cp); } } static void ilo_3d_pipeline_emit_rectlist_gen6(struct ilo_3d_pipeline *p, const struct ilo_blitter *blitter) { struct gen6_rectlist_session session; memset(&session, 0, sizeof(session)); gen6_rectlist_states(p, blitter, &session); gen6_rectlist_commands(p, blitter, &session); } static int gen6_pipeline_max_command_size(const struct ilo_3d_pipeline *p) { static int size; if (!size) { size += GEN6_3DSTATE_CONSTANT_ANY__SIZE * 3; size += GEN6_3DSTATE_GS_SVB_INDEX__SIZE * 4; size += GEN6_PIPE_CONTROL__SIZE * 5; size += GEN6_STATE_BASE_ADDRESS__SIZE + GEN6_STATE_SIP__SIZE + GEN6_3DSTATE_VF_STATISTICS__SIZE + GEN6_PIPELINE_SELECT__SIZE + GEN6_3DSTATE_BINDING_TABLE_POINTERS__SIZE + GEN6_3DSTATE_SAMPLER_STATE_POINTERS__SIZE + GEN6_3DSTATE_URB__SIZE + GEN6_3DSTATE_VERTEX_BUFFERS__SIZE + GEN6_3DSTATE_VERTEX_ELEMENTS__SIZE + GEN6_3DSTATE_INDEX_BUFFER__SIZE + GEN6_3DSTATE_VIEWPORT_STATE_POINTERS__SIZE + GEN6_3DSTATE_CC_STATE_POINTERS__SIZE + GEN6_3DSTATE_SCISSOR_STATE_POINTERS__SIZE + GEN6_3DSTATE_VS__SIZE + GEN6_3DSTATE_GS__SIZE + GEN6_3DSTATE_CLIP__SIZE + GEN6_3DSTATE_SF__SIZE + GEN6_3DSTATE_WM__SIZE + GEN6_3DSTATE_SAMPLE_MASK__SIZE + GEN6_3DSTATE_DRAWING_RECTANGLE__SIZE + GEN6_3DSTATE_DEPTH_BUFFER__SIZE + GEN6_3DSTATE_POLY_STIPPLE_OFFSET__SIZE + GEN6_3DSTATE_POLY_STIPPLE_PATTERN__SIZE + GEN6_3DSTATE_LINE_STIPPLE__SIZE + GEN6_3DSTATE_AA_LINE_PARAMETERS__SIZE + GEN6_3DSTATE_MULTISAMPLE__SIZE + GEN6_3DSTATE_STENCIL_BUFFER__SIZE + GEN6_3DSTATE_HIER_DEPTH_BUFFER__SIZE + GEN6_3DSTATE_CLEAR_PARAMS__SIZE + GEN6_3DPRIMITIVE__SIZE; } return size; } int gen6_pipeline_estimate_state_size(const struct ilo_3d_pipeline *p, const struct ilo_context *ilo) { static int static_size; int sh_type, size; if (!static_size) { /* 64 bytes, or 16 dwords */ const int alignment = 64 / 4; /* pad first */ size = alignment - 1; /* CC states */ size += align(GEN6_BLEND_STATE__SIZE * ILO_MAX_DRAW_BUFFERS, alignment); size += align(GEN6_DEPTH_STENCIL_STATE__SIZE, alignment); size += align(GEN6_COLOR_CALC_STATE__SIZE, alignment); /* viewport arrays */ if (p->dev->gen >= ILO_GEN(7)) { size += align(GEN7_SF_CLIP_VIEWPORT__SIZE * ILO_MAX_VIEWPORTS, 16) + align(GEN6_CC_VIEWPORT__SIZE * ILO_MAX_VIEWPORTS, 8) + align(GEN6_SCISSOR_RECT__SIZE * ILO_MAX_VIEWPORTS, 8); } else { size += align(GEN6_SF_VIEWPORT__SIZE * ILO_MAX_VIEWPORTS, 8) + align(GEN6_CLIP_VIEWPORT__SIZE * ILO_MAX_VIEWPORTS, 8) + align(GEN6_CC_VIEWPORT__SIZE * ILO_MAX_VIEWPORTS, 8) + align(GEN6_SCISSOR_RECT__SIZE * ILO_MAX_VIEWPORTS, 8); } static_size = size; } size = static_size; for (sh_type = 0; sh_type < PIPE_SHADER_TYPES; sh_type++) { const int alignment = 32 / 4; int num_samplers, num_surfaces, pcb_size; /* samplers */ num_samplers = ilo->sampler[sh_type].count; /* sampler views and constant buffers */ num_surfaces = ilo->view[sh_type].count + util_bitcount(ilo->cbuf[sh_type].enabled_mask); pcb_size = 0; switch (sh_type) { case PIPE_SHADER_VERTEX: if (ilo->vs) { if (p->dev->gen == ILO_GEN(6)) { const struct pipe_stream_output_info *so_info = ilo_shader_get_kernel_so_info(ilo->vs); /* stream outputs */ num_surfaces += so_info->num_outputs; } pcb_size = ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_PCB_CBUF0_SIZE); pcb_size += ilo_shader_get_kernel_param(ilo->vs, ILO_KERNEL_VS_PCB_UCP_SIZE); } break; case PIPE_SHADER_GEOMETRY: if (ilo->gs && p->dev->gen == ILO_GEN(6)) { const struct pipe_stream_output_info *so_info = ilo_shader_get_kernel_so_info(ilo->gs); /* stream outputs */ num_surfaces += so_info->num_outputs; } break; case PIPE_SHADER_FRAGMENT: /* render targets */ num_surfaces += ilo->fb.state.nr_cbufs; if (ilo->fs) { pcb_size = ilo_shader_get_kernel_param(ilo->fs, ILO_KERNEL_PCB_CBUF0_SIZE); } break; default: break; } /* SAMPLER_STATE array and SAMPLER_BORDER_COLORs */ if (num_samplers) { size += align(GEN6_SAMPLER_STATE__SIZE * num_samplers, alignment) + align(GEN6_SAMPLER_BORDER_COLOR__SIZE, alignment) * num_samplers; } /* BINDING_TABLE_STATE and SURFACE_STATEs */ if (num_surfaces) { size += align(num_surfaces, alignment) + align(GEN6_SURFACE_STATE__SIZE, alignment) * num_surfaces; } /* PCB */ if (pcb_size) size += align(pcb_size, alignment); } return size; } static int ilo_3d_pipeline_estimate_size_gen6(struct ilo_3d_pipeline *p, enum ilo_3d_pipeline_action action, const void *arg) { int size; switch (action) { case ILO_3D_PIPELINE_DRAW: { const struct ilo_context *ilo = arg; size = gen6_pipeline_max_command_size(p) + gen6_pipeline_estimate_state_size(p, ilo); } break; case ILO_3D_PIPELINE_FLUSH: size = GEN6_PIPE_CONTROL__SIZE * 3; break; case ILO_3D_PIPELINE_WRITE_TIMESTAMP: size = GEN6_PIPE_CONTROL__SIZE * 2; break; case ILO_3D_PIPELINE_WRITE_DEPTH_COUNT: size = GEN6_PIPE_CONTROL__SIZE * 3; break; case ILO_3D_PIPELINE_WRITE_STATISTICS: { const int num_regs = 8; const int num_pads = 3; size = GEN6_PIPE_CONTROL__SIZE; size += GEN6_MI_STORE_REGISTER_MEM__SIZE * 2 * num_regs; size += GEN6_MI_STORE_DATA_IMM__SIZE * num_pads; } break; case ILO_3D_PIPELINE_RECTLIST: size = 64 + 256; /* states + commands */ break; default: assert(!"unknown 3D pipeline action"); size = 0; break; } return size; } void ilo_3d_pipeline_init_gen6(struct ilo_3d_pipeline *p) { p->estimate_size = ilo_3d_pipeline_estimate_size_gen6; p->emit_draw = ilo_3d_pipeline_emit_draw_gen6; p->emit_flush = ilo_3d_pipeline_emit_flush_gen6; p->emit_write_timestamp = ilo_3d_pipeline_emit_write_timestamp_gen6; p->emit_write_depth_count = ilo_3d_pipeline_emit_write_depth_count_gen6; p->emit_write_statistics = ilo_3d_pipeline_emit_write_statistics_gen6; p->emit_rectlist = ilo_3d_pipeline_emit_rectlist_gen6; }