/* * Copyright © 2010 Intel Corporation * * 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, sub license, 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 (including the * next paragraph) 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 NON-INFRINGEMENT. * IN NO EVENT SHALL PRECISION INSIGHT AND/OR ITS SUPPLIERS 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: * Xiang Haihao * */ #ifndef __I965_POST_PROCESSING_H__ #define __I965_POST_PROCESSING_H__ #include "i965_vpp_avs.h" #define MAX_PP_SURFACES 48 enum { PP_NULL = 0, PP_NV12_LOAD_SAVE_N12, PP_NV12_LOAD_SAVE_PL3, PP_PL3_LOAD_SAVE_N12, PP_PL3_LOAD_SAVE_PL3, PP_NV12_SCALING, PP_NV12_AVS, PP_NV12_DNDI, PP_NV12_DN, PP_NV12_LOAD_SAVE_PA, PP_PL3_LOAD_SAVE_PA, PP_PA_LOAD_SAVE_NV12, PP_PA_LOAD_SAVE_PL3, PP_PA_LOAD_SAVE_PA, PP_RGBX_LOAD_SAVE_NV12, PP_NV12_LOAD_SAVE_RGBX, NUM_PP_MODULES, }; struct i965_post_processing_context; struct pp_load_save_context { int dest_x; int dest_y; int dest_w; int dest_h; }; struct pp_scaling_context { int dest_x; /* in pixel */ int dest_y; /* in pixel */ int dest_w; int dest_h; float src_normalized_x; float src_normalized_y; }; struct pp_avs_context { AVSState state; int dest_x; /* in pixel */ int dest_y; /* in pixel */ int dest_w; int dest_h; float src_normalized_x; float src_normalized_y; int src_w; int src_h; float horiz_range; }; enum { DNDI_FRAME_IN_CURRENT = 0, DNDI_FRAME_IN_PREVIOUS, DNDI_FRAME_IN_STMM, DNDI_FRAME_OUT_STMM, DNDI_FRAME_OUT_CURRENT, DNDI_FRAME_OUT_PREVIOUS, DNDI_FRAME_STORE_COUNT }; typedef struct dndi_frame_store { struct object_surface *obj_surface; VASurfaceID surface_id; /* always relative to the input surface */ unsigned int is_scratch_surface : 1; } DNDIFrameStore; struct pp_dndi_context { int dest_w; int dest_h; DNDIFrameStore frame_store[DNDI_FRAME_STORE_COUNT]; /* Temporary flags live until the current picture is processed */ unsigned int is_di_enabled : 1; unsigned int is_di_adv_enabled : 1; unsigned int is_first_frame : 1; unsigned int is_second_field : 1; }; struct pp_dn_context { int dest_w; int dest_h; dri_bo *stmm_bo; }; struct i965_post_processing_context; struct pp_module { struct i965_kernel kernel; /* others */ VAStatus (*initialize)(VADriverContextP ctx, struct i965_post_processing_context *pp_context, const struct i965_surface *src_surface, const VARectangle *src_rect, struct i965_surface *dst_surface, const VARectangle *dst_rect, void *filter_param); }; struct pp_static_parameter { struct { /* Procamp r1.0 */ float procamp_constant_c0; /* Load and Same r1.1 */ unsigned int source_packed_y_offset:8; unsigned int source_packed_u_offset:8; unsigned int source_packed_v_offset:8; unsigned int source_rgb_layout:8; // 1 for |R|G|B|X| layout, 0 for |B|G|R|X| layout union { /* Load and Save r1.2 */ struct { unsigned int destination_packed_y_offset:8; unsigned int destination_packed_u_offset:8; unsigned int destination_packed_v_offset:8; unsigned int pad0:8; } load_and_save; /* CSC r1.2 */ struct { unsigned int pad0:24; unsigned int destination_rgb_layout:8; // 1 for |R|G|B|X| layout, 0 for |B|G|R|X| layout } csc; } r1_2; /* Procamp r1.3 */ float procamp_constant_c1; /* Procamp r1.4 */ float procamp_constant_c2; /* DI r1.5 */ unsigned int statistics_surface_picth:16; /* Devided by 2 */ unsigned int pad1:16; union { /* DI r1.6 */ struct { unsigned int pad0:24; unsigned int top_field_first:8; } di; /* AVS/Scaling r1.6 */ float normalized_video_y_scaling_step; } r1_6; /* Procamp r1.7 */ float procamp_constant_c5; } grf1; struct { /* Procamp r2.0 */ float procamp_constant_c3; /* MBZ r2.1*/ unsigned int pad0; /* WG+CSC r2.2 */ float wg_csc_constant_c4; /* WG+CSC r2.3 */ float wg_csc_constant_c8; /* Procamp r2.4 */ float procamp_constant_c4; /* MBZ r2.5 */ unsigned int pad1; /* MBZ r2.6 */ unsigned int pad2; /* WG+CSC r2.7 */ float wg_csc_constant_c9; } grf2; struct { /* WG+CSC r3.0 */ float wg_csc_constant_c0; /* Blending r3.1 */ float scaling_step_ratio; /* Blending r3.2 */ float normalized_alpha_y_scaling; /* WG+CSC r3.3 */ float wg_csc_constant_c4; /* WG+CSC r3.4 */ float wg_csc_constant_c1; /* ALL r3.5 */ int horizontal_origin_offset:16; int vertical_origin_offset:16; /* Shared r3.6*/ union { /* Color filll */ unsigned int color_pixel; /* WG+CSC */ float wg_csc_constant_c2; } r3_6; /* WG+CSC r3.7 */ float wg_csc_constant_c3; } grf3; struct { /* WG+CSC r4.0 */ float wg_csc_constant_c6; /* ALL r4.1 MBZ ???*/ unsigned int pad0; /* Shared r4.2 */ union { /* AVS */ struct { unsigned int pad1:15; unsigned int nlas:1; unsigned int pad2:16; } avs; /* DI */ struct { unsigned int motion_history_coefficient_m2:8; unsigned int motion_history_coefficient_m1:8; unsigned int pad0:16; } di; } r4_2; /* WG+CSC r4.3 */ float wg_csc_constant_c7; /* WG+CSC r4.4 */ float wg_csc_constant_c10; /* AVS r4.5 */ float source_video_frame_normalized_horizontal_origin; /* MBZ r4.6 */ unsigned int pad1; /* WG+CSC r4.7 */ float wg_csc_constant_c11; } grf4; }; struct pp_inline_parameter { struct { /* ALL r5.0 */ int destination_block_horizontal_origin:16; int destination_block_vertical_origin:16; /* Shared r5.1 */ union { /* AVS/Scaling */ float source_surface_block_normalized_horizontal_origin; /* FMD */ struct { unsigned int variance_surface_vertical_origin:16; unsigned int pad0:16; } fmd; } r5_1; /* AVS/Scaling r5.2 */ float source_surface_block_normalized_vertical_origin; /* Alpha r5.3 */ float alpha_surface_block_normalized_horizontal_origin; /* Alpha r5.4 */ float alpha_surface_block_normalized_vertical_origin; /* Alpha r5.5 */ unsigned int alpha_mask_x:16; unsigned int alpha_mask_y:8; unsigned int block_count_x:8; /* r5.6 */ /* we only support M*1 or 1*N block partitation now. * -- it means asm code only need update this mask from grf6 for the last block */ unsigned int block_horizontal_mask:16; unsigned int block_vertical_mask:8; unsigned int number_blocks:8; /* AVS/Scaling r5.7 */ float normalized_video_x_scaling_step; } grf5; struct { /* AVS r6.0 */ float video_step_delta; /* r6.1 */ // sizeof(int) == 4? unsigned int block_horizontal_mask_right:16; unsigned int block_vertical_mask_bottom:8; unsigned int pad1:8; /* r6.2 */ unsigned int block_horizontal_mask_middle:16; unsigned int pad2:16; /* r6.3-r6.7 */ unsigned int padx[5]; } grf6; }; struct gen7_pp_static_parameter { struct { /* r1.0-r1.5 */ unsigned int padx[6]; /* r1.6 */ unsigned int di_statistics_surface_pitch_div2:16; unsigned int di_statistics_surface_height_div4:16; /* r1.7 */ unsigned int di_top_field_first:8; unsigned int pad0:16; unsigned int pointer_to_inline_parameter:8; /* value: 7 */ } grf1; struct { /* r2.0 */ /* Indicates whether the rgb is swapped for the src surface * 0: RGBX(MSB. X-B-G-R). 1: BGRX(MSB: X-R-G-B) */ unsigned int src_avs_rgb_swap:1; unsigned int pad3:31; /* r2.1 */ unsigned int pad2:16; unsigned int save_avs_rgb_swap:1; /* 0: RGB, 1: BGR */ unsigned int avs_wa_enable:1; /* must enabled for GEN7 */ unsigned int ief_enable:1; unsigned int avs_wa_width:13; /* 2.2 */ float avs_wa_one_div_256_width; /* 2.3 */ float avs_wa_five_div_256_width; /* 2.4 - 2.6 */ unsigned int padx[3]; /* r2.7 */ unsigned int di_destination_packed_y_component_offset:8; unsigned int di_destination_packed_u_component_offset:8; unsigned int di_destination_packed_v_component_offset:8; unsigned int alpha:8; } grf2; struct { float sampler_load_horizontal_scaling_step_ratio; unsigned int padx[7]; } grf3; struct { float sampler_load_vertical_scaling_step; unsigned int pad0; unsigned int di_hoffset_svf_from_dvf:16; unsigned int di_voffset_svf_from_dvf:16; unsigned int padx[5]; } grf4; struct { float sampler_load_vertical_frame_origin; unsigned int padx[7]; } grf5; struct { float sampler_load_horizontal_frame_origin; unsigned int padx[7]; } grf6; struct { /* r7.0 -> r7.3 */ float coef_ry; float coef_ru; float coef_rv; float coef_yd; /* r7.4 -> r7.7 */ float coef_gy; float coef_gu; float coef_gv; float coef_ud; } grf7; struct { /* r8.0 -> r8.3 */ float coef_by; float coef_bu; float coef_bv; float coef_vd; /* r8.4 -> r8.7 */ unsigned int padx[4]; } grf8; }; struct gen7_pp_inline_parameter { struct { /* r9.0 */ unsigned int destination_block_horizontal_origin:16; unsigned int destination_block_vertical_origin:16; /* r9.1: 0xffffffff */ unsigned int constant_0; /* r9.2 */ unsigned int pad0; /* r9.3 */ unsigned int pad1; /* r9.4 */ float sampler_load_main_video_x_scaling_step; /* r9.5 */ unsigned int pad2; /* r9.6: must be zero */ unsigned int avs_vertical_block_number; /* r9.7: 0 */ unsigned int group_id_number; } grf9; struct { unsigned int padx[8]; } grf10; }; struct i965_post_processing_context { int current_pp; struct pp_module pp_modules[NUM_PP_MODULES]; void *pp_static_parameter; void *pp_inline_parameter; struct { dri_bo *bo; } surface_state_binding_table; struct { dri_bo *bo; } curbe; struct { dri_bo *bo; int num_interface_descriptors; } idrt; struct { dri_bo *bo; } vfe_state; struct { dri_bo *bo; dri_bo *bo_8x8; dri_bo *bo_8x8_uv; } sampler_state_table; struct { unsigned int size; unsigned int vfe_start; unsigned int cs_start; unsigned int num_vfe_entries; unsigned int num_cs_entries; unsigned int size_vfe_entry; unsigned int size_cs_entry; } urb; struct { unsigned int gpgpu_mode : 1; unsigned int pad0 : 7; unsigned int max_num_threads : 16; unsigned int num_urb_entries : 8; unsigned int urb_entry_size : 16; unsigned int curbe_allocation_size : 16; } vfe_gpu_state; struct intel_vebox_context *vebox_proc_ctx; struct pp_load_save_context pp_load_save_context; struct pp_scaling_context pp_scaling_context; struct pp_avs_context pp_avs_context; struct pp_dndi_context pp_dndi_context; struct pp_dn_context pp_dn_context; void *private_context; /* pointer to the current private context */ void *pipeline_param; /* pointer to the pipeline parameter */ /** * \ref Extra filter flags used as a fast path. * * This corresponds to vaPutSurface() flags, for direct rendering, * or to VAProcPipelineParameterBuffer.filter_flags when the VPP * interfaces are used. In the latter case, this is just a copy of * that field. */ unsigned int filter_flags; int (*pp_x_steps)(void *private_context); int (*pp_y_steps)(void *private_context); int (*pp_set_block_parameter)(struct i965_post_processing_context *pp_context, int x, int y); struct intel_batchbuffer *batch; unsigned int block_horizontal_mask_left:16; unsigned int block_horizontal_mask_right:16; unsigned int block_vertical_mask_bottom:8; struct { dri_bo *bo; int bo_size; unsigned int end_offset; } instruction_state; struct { dri_bo *bo; } indirect_state; struct { dri_bo *bo; int bo_size; unsigned int end_offset; } dynamic_state; unsigned int sampler_offset; int sampler_size; unsigned int idrt_offset; int idrt_size; unsigned int curbe_offset; int curbe_size; VAStatus (*intel_post_processing)(VADriverContextP ctx, struct i965_post_processing_context *pp_context, const struct i965_surface *src_surface, const VARectangle *src_rect, struct i965_surface *dst_surface, const VARectangle *dst_rect, int pp_index, void * filter_param); void (*finalize)(VADriverContextP ctx, struct i965_post_processing_context *pp_context); }; struct i965_proc_context { struct hw_context base; void *driver_context; struct i965_post_processing_context pp_context; }; VASurfaceID i965_post_processing( VADriverContextP ctx, struct object_surface *obj_surface, const VARectangle *src_rect, const VARectangle *dst_rect, unsigned int va_flags, int *has_done_scaling, VARectangle *calibrated_rect ); VAStatus i965_scaling_processing( VADriverContextP ctx, struct object_surface *src_surface_obj, const VARectangle *src_rect, struct object_surface *dst_surface_obj, const VARectangle *dst_rect, unsigned int va_flags ); VAStatus i965_image_processing(VADriverContextP ctx, const struct i965_surface *src_surface, const VARectangle *src_rect, struct i965_surface *dst_surface, const VARectangle *dst_rect); void i965_post_processing_terminate(VADriverContextP ctx); bool i965_post_processing_init(VADriverContextP ctx); extern VAStatus i965_proc_picture(VADriverContextP ctx, VAProfile profile, union codec_state *codec_state, struct hw_context *hw_context); #endif /* __I965_POST_PROCESSING_H__ */