/* * Copyright (c) 2011 Intel Corporation. All Rights Reserved. * * 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: * Binglin Chen * */ #include "vsp_VPP.h" #include "psb_buffer.h" #include "psb_surface.h" #include "vsp_cmdbuf.h" #include "psb_drv_debug.h" #include "vsp_compose.h" #include #define INIT_DRIVER_DATA psb_driver_data_p driver_data = (psb_driver_data_p) ctx->pDriverData; #define INIT_CONTEXT_VPP context_VPP_p ctx = (context_VPP_p) obj_context->format_data; #define CONFIG(id) ((object_config_p) object_heap_lookup( &driver_data->config_heap, id )) #define CONTEXT(id) ((object_context_p) object_heap_lookup( &driver_data->context_heap, id )) #define BUFFER(id) ((object_buffer_p) object_heap_lookup( &driver_data->buffer_heap, id )) #define SURFACE(id) ((object_surface_p) object_heap_lookup( &ctx->obj_context->driver_data->surface_heap, id )) #define KB 1024 #define MB (KB * KB) #define VSP_CONTEXT_BUF_SIZE (60*KB) #define VSP_INTERMEDIATE_BUF_SIZE (29*MB) #define MAX_VPP_PARAM (100) #define MIN_VPP_PARAM (0) #define STEP_VPP_PARAM (33) #define MAX_VPP_AUTO_PARAM (1) #define MIN_VPP_AUTO_PARAM (0) #define STEP_VPP_AUTO_PARAM (1) #define VSP_FORWARD_REF_NUM 3 #define VSP_COLOR_ENHANCE_FEATURES 2 #define ALIGN_TO_128(value) ((value + 128 - 1) & ~(128 - 1)) #define ALIGN_TO_16(value) ((value + 16 - 1) & ~(16 - 1)) #define QVGA_AREA (320 * 240) #define VGA_AREA (640 * 480) #define SD_AREA (720 * 576) #define HD720P_AREA (1280 * 720) #define HD1080P_AREA (1920 * 1088) #define MIN_SUPPORTED_HEIGHT 96 #define MAX_SUPPORTED_HEIGHT 1088 /** * The number of supported filter is 5: * VAProcFilterDeblocking * VAProcFilterNoiseReduction * VAProcFilterSharpening * VAProcFilterColorBalance * VAProcFilterFrameRateConversion */ #define VSP_SUPPORTED_FILTERS_NUM 5 /* The size of supported color standard */ #define COLOR_STANDARDS_NUM 1 enum resolution_set { NOT_SUPPORTED_RESOLUTION = -1, QCIF_TO_QVGA = 0, QVGA_TO_VGA, VGA_TO_SD, SD_TO_720P, HD720P_TO_1080P, RESOLUTION_SET_NUM }; struct vpp_chain_capability { int frc_enabled; int sharpen_enabled; int color_balance_enabled; int denoise_enabled; int deblock_enabled; }; enum filter_status { FILTER_DISABLED = 0, FILTER_ENABLED }; struct vpp_chain_capability vpp_chain_caps[RESOLUTION_SET_NUM] = { [HD720P_TO_1080P] = {FILTER_ENABLED, FILTER_ENABLED, FILTER_DISABLED, FILTER_DISABLED, FILTER_DISABLED}, [SD_TO_720P] = {FILTER_ENABLED, FILTER_ENABLED, FILTER_DISABLED, FILTER_DISABLED, FILTER_DISABLED}, [VGA_TO_SD] = {FILTER_ENABLED, FILTER_ENABLED, FILTER_DISABLED, FILTER_DISABLED, FILTER_DISABLED}, [QVGA_TO_VGA] = {FILTER_ENABLED, FILTER_ENABLED, FILTER_ENABLED, FILTER_ENABLED, FILTER_DISABLED}, [QCIF_TO_QVGA] = {FILTER_ENABLED, FILTER_ENABLED, FILTER_ENABLED, FILTER_DISABLED, FILTER_ENABLED} }; struct filter_strength { struct VssProcDenoiseParameterBuffer denoise_deblock[RESOLUTION_SET_NUM]; struct VssProcColorEnhancementParameterBuffer enhancer[RESOLUTION_SET_NUM]; struct VssProcSharpenParameterBuffer sharpen[RESOLUTION_SET_NUM]; }; enum filter_strength_type { INVALID_STRENGTH = -1, LOW_STRENGTH = 0, MEDIUM_STRENGTH, HIGH_STRENGTH, STRENGTH_NUM }; #define SHARPEN_ON (1) struct filter_strength vpp_strength[STRENGTH_NUM] = { [LOW_STRENGTH] = { /* structure: * type(0-Denoise,1-Deblock), value_thr, cnt_thr, coef, temp_thr1, temp_thr2, _pad[2] */ .denoise_deblock = { [QCIF_TO_QVGA] = {1, 15, 47, 35, 0, 0, {0, 0}}, [QVGA_TO_VGA] = {0, 7, 48, 47, 0, 0, {0, 0}}, [VGA_TO_SD] = {0, 10, 8, 9, 1, 3, {0, 0}}, [SD_TO_720P] = {0, 10, 48, 47, 0, 0, {0, 0}}, [HD720P_TO_1080P] = {0, 10, 48, 47, 0, 0, {0, 0}} }, /* structure: * temp_detect, temp_correct, clip_thr, mid_thr, luma_amm, chroma_amm, _pad[2] */ .enhancer = { [QCIF_TO_QVGA] = {200, 100, 1, 42, 40, 60, {0, 0}}, [QVGA_TO_VGA] = {220, 180, 1, 42, 40, 60, {0, 0}}, [VGA_TO_SD] = {220, 200, 1, 42, 40, 60, {0, 0}}, [SD_TO_720P] = {100, 100, 5, 33, 0, 0, {0, 0}}, [HD720P_TO_1080P] = {100, 100, 5, 33, 0, 0, {0, 0}} }, .sharpen = { [QCIF_TO_QVGA] = { .quality = SHARPEN_ON }, [QVGA_TO_VGA] = { .quality = SHARPEN_ON }, [VGA_TO_SD] = { .quality = SHARPEN_ON }, [SD_TO_720P] = { .quality = SHARPEN_ON }, [HD720P_TO_1080P] = { .quality = SHARPEN_ON } } }, [MEDIUM_STRENGTH] = { .denoise_deblock = { [QCIF_TO_QVGA] = {1, 25, 47, 12, 0, 0, {0, 0}}, [QVGA_TO_VGA] = {0, 10, 48, 47, 0, 0, {0, 0}}, [VGA_TO_SD] = {0, 20, 8, 9, 2, 4, {0, 0}}, [SD_TO_720P] = {0, 10, 48, 47, 0, 0, {0, 0}}, [HD720P_TO_1080P] = {0, 10, 48, 47, 0, 0, {0, 0}} }, .enhancer = { [QCIF_TO_QVGA] = {100, 100, 1, 33, 100, 100, {0, 0}}, [QVGA_TO_VGA] = {100, 180, 1, 33, 100, 100, {0, 0}}, [VGA_TO_SD] = {100, 200, 1, 33, 100, 100, {0, 0}}, [SD_TO_720P] = {100, 100, 5, 33, 0, 0, {0, 0}}, [HD720P_TO_1080P] = {100, 100, 5, 33, 0, 0, {0, 0}} }, .sharpen = { [QCIF_TO_QVGA] = { .quality = SHARPEN_ON }, [QVGA_TO_VGA] = { .quality = SHARPEN_ON }, [VGA_TO_SD] = { .quality = SHARPEN_ON }, [SD_TO_720P] = { .quality = SHARPEN_ON }, [HD720P_TO_1080P] = { .quality = SHARPEN_ON } } }, [HIGH_STRENGTH] = { .denoise_deblock = { [QCIF_TO_QVGA] = {1, 30, 40, 10, 0, 0, {0, 0}}, [QVGA_TO_VGA] = {0, 15, 45, 25, 0, 0, {0, 0}}, [VGA_TO_SD] = {0, 20, 7, 5, 3, 6, {0, 0}}, [SD_TO_720P] = {0, 10, 48, 47, 0, 0, {0, 0}}, [HD720P_TO_1080P] = {0, 10, 48, 47, 0, 0, {0, 0}} }, .enhancer = { [QCIF_TO_QVGA] = {100, 100, 5, 33, 150, 200, {0, 0}}, [QVGA_TO_VGA] = {100, 180, 5, 33, 150, 200, {0, 0}}, [VGA_TO_SD] = {100, 200, 5, 33, 100, 150, {0, 0}}, [SD_TO_720P] = {100, 100, 5, 33, 0, 0, {0, 0}}, [HD720P_TO_1080P] = {100, 100, 5, 33, 0, 0, {0, 0}} }, .sharpen = { [QCIF_TO_QVGA] = { .quality = SHARPEN_ON }, [QVGA_TO_VGA] = { .quality = SHARPEN_ON }, [VGA_TO_SD] = { .quality = SHARPEN_ON }, [SD_TO_720P] = { .quality = SHARPEN_ON }, [HD720P_TO_1080P] = { .quality = SHARPEN_ON } } } }; static void vsp_VPP_DestroyContext(object_context_p obj_context); static VAStatus vsp_set_pipeline(context_VPP_p ctx); static VAStatus vsp_set_filter_param(context_VPP_p ctx); static VAStatus vsp__VPP_check_legal_picture(object_context_p obj_context, object_config_p obj_config); static int check_resolution(int width, int height); static int check_vpp_strength(int value); static void vsp_VPP_QueryConfigAttributes( VAProfile __maybe_unused profile, VAEntrypoint __maybe_unused entrypoint, VAConfigAttrib __maybe_unused *attrib_list, int __maybe_unused num_attribs) { /* No VPP specific attributes */ return; } static VAStatus vsp_VPP_ValidateConfig( object_config_p obj_config) { int i; /* Check all attributes */ for (i = 0; i < obj_config->attrib_count; i++) { switch (obj_config->attrib_list[i].type) { case VAConfigAttribRTFormat: /* Ignore */ break; default: return VA_STATUS_ERROR_ATTR_NOT_SUPPORTED; } } return VA_STATUS_SUCCESS; } static VAStatus vsp__VPP_check_legal_picture(object_context_p obj_context, object_config_p obj_config) { VAStatus vaStatus = VA_STATUS_SUCCESS; if (NULL == obj_context) { vaStatus = VA_STATUS_ERROR_INVALID_CONTEXT; DEBUG_FAILURE; return vaStatus; } if (NULL == obj_config) { vaStatus = VA_STATUS_ERROR_INVALID_CONFIG; DEBUG_FAILURE; return vaStatus; } return vaStatus; } static VAStatus vsp_VPP_CreateContext( object_context_p obj_context, object_config_p obj_config) { VAStatus vaStatus = VA_STATUS_SUCCESS; context_VPP_p ctx; int i; /* Validate flag */ /* Validate picture dimensions */ vaStatus = vsp__VPP_check_legal_picture(obj_context, obj_config); if (VA_STATUS_SUCCESS != vaStatus) { DEBUG_FAILURE; return vaStatus; } ctx = (context_VPP_p) calloc(1, sizeof(struct context_VPP_s)); if (NULL == ctx) { vaStatus = VA_STATUS_ERROR_ALLOCATION_FAILED; DEBUG_FAILURE; return vaStatus; } ctx->filters = NULL; ctx->num_filters = 0; ctx->frc_buf = NULL; /* set size */ ctx->param_sz = 0; ctx->pic_param_sz = ALIGN_TO_128(sizeof(struct VssProcPictureParameterBuffer)); ctx->param_sz += ctx->pic_param_sz; ctx->end_param_sz = ALIGN_TO_128(sizeof(struct VssProcPictureParameterBuffer)); ctx->param_sz += ctx->end_param_sz; ctx->pipeline_param_sz = ALIGN_TO_128(sizeof(struct VssProcPipelineParameterBuffer)); ctx->param_sz += ctx->pipeline_param_sz; ctx->denoise_param_sz = ALIGN_TO_128(sizeof(struct VssProcDenoiseParameterBuffer)); ctx->param_sz += ctx->denoise_param_sz; ctx->enhancer_param_sz = ALIGN_TO_128(sizeof(struct VssProcColorEnhancementParameterBuffer)); ctx->param_sz += ctx->enhancer_param_sz; ctx->sharpen_param_sz = ALIGN_TO_128(sizeof(struct VssProcSharpenParameterBuffer)); ctx->param_sz += ctx->sharpen_param_sz; ctx->frc_param_sz = ALIGN_TO_128(sizeof(struct VssProcFrcParameterBuffer)); ctx->param_sz += ctx->frc_param_sz; ctx->compose_param_sz = ALIGN_TO_128(sizeof(struct VssWiDi_ComposeSequenceParameterBuffer)); ctx->param_sz += ctx->compose_param_sz; /* set offset */ ctx->pic_param_offset = 0; ctx->end_param_offset = ctx->pic_param_offset + ctx->pic_param_sz; ctx->pipeline_param_offset = ctx->end_param_offset + ctx->end_param_sz; ctx->denoise_param_offset = ctx->pipeline_param_offset + ctx->pipeline_param_sz; ctx->enhancer_param_offset = ctx->denoise_param_offset + ctx->denoise_param_sz; ctx->sharpen_param_offset = ctx->enhancer_param_offset + ctx->enhancer_param_sz; ctx->frc_param_offset = ctx->sharpen_param_offset + ctx->sharpen_param_sz; /* For composer, it'll start on 0 */ ctx->compose_param_offset = 0; /* create intermediate buffer */ ctx->intermediate_buf = (psb_buffer_p) calloc(1, sizeof(struct psb_buffer_s)); if (NULL == ctx->intermediate_buf) { vaStatus = VA_STATUS_ERROR_ALLOCATION_FAILED; DEBUG_FAILURE; goto out; } vaStatus = psb_buffer_create(obj_context->driver_data, VSP_INTERMEDIATE_BUF_SIZE, psb_bt_vpu_only, ctx->intermediate_buf); if (VA_STATUS_SUCCESS != vaStatus) { goto out; } obj_context->format_data = (void*) ctx; ctx->obj_context = obj_context; for (i = 0; i < obj_config->attrib_count; ++i) { if (VAConfigAttribRTFormat == obj_config->attrib_list[i].type) { switch (obj_config->attrib_list[i].value) { case VA_RT_FORMAT_YUV420: ctx->format = VSP_NV12; break; case VA_RT_FORMAT_YUV422: ctx->format = VSP_NV16; default: ctx->format = VSP_NV12; break; } break; } } bzero(&ctx->denoise_deblock_param, sizeof(ctx->denoise_deblock_param)); bzero(&ctx->enhancer_param, sizeof(ctx->enhancer_param)); bzero(&ctx->sharpen_param, sizeof(ctx->sharpen_param)); return vaStatus; out: vsp_VPP_DestroyContext(obj_context); if (ctx) free(ctx); return vaStatus; } static void vsp_VPP_DestroyContext( object_context_p obj_context) { INIT_CONTEXT_VPP; if (ctx->intermediate_buf) { psb_buffer_destroy(ctx->intermediate_buf); free(ctx->intermediate_buf); ctx->intermediate_buf = NULL; } if (ctx->filters) { free(ctx->filters); ctx->num_filters = 0; } free(obj_context->format_data); obj_context->format_data = NULL; } static VAStatus vsp__VPP_process_pipeline_param(context_VPP_p ctx, object_context_p obj_context, object_buffer_p obj_buffer) { VAStatus vaStatus = VA_STATUS_SUCCESS; vsp_cmdbuf_p cmdbuf = ctx->obj_context->vsp_cmdbuf; unsigned int i = 0; VAProcPipelineParameterBuffer *pipeline_param = (VAProcPipelineParameterBuffer *) obj_buffer->buffer_data; struct VssProcPictureParameterBuffer *cell_proc_picture_param = (struct VssProcPictureParameterBuffer *)cmdbuf->pic_param_p; struct VssProcPictureParameterBuffer *cell_end_param = (struct VssProcPictureParameterBuffer *)cmdbuf->end_param_p; VAProcFilterParameterBufferFrameRateConversion *frc_param; object_surface_p input_surface = NULL; object_surface_p cur_output_surf = NULL; unsigned int rotation_angle = 0, vsp_rotation_angle = 0; unsigned int tiled = 0, width = 0, height = 0, stride = 0; unsigned char *src_addr, *dest_addr; struct psb_surface_s *output_surface; psb_surface_share_info_p input_share_info = NULL; psb_surface_share_info_p output_share_info = NULL; enum vsp_format format; psb_driver_data_p driver_data = obj_context->driver_data; if (pipeline_param->surface_region != NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Cann't scale\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } if (pipeline_param->output_region != NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Cann't scale\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } if (pipeline_param->output_background_color != 0) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Cann't support background color here\n"); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto out; } if (pipeline_param->filters == NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid filter setting filters = %p\n", pipeline_param->filters); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } #if 0 /* for pass filter */ if (pipeline_param->num_filters == 0 || pipeline_param->num_filters > VssProcPipelineMaxNumFilters) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid filter number = %d\n", pipeline_param->num_filters); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } #endif if (pipeline_param->forward_references == NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid forward_refereces %p setting\n", pipeline_param->forward_references); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } /* should we check it? since the begining it's not VSP_FORWARD_REF_NUM */ if (pipeline_param->num_forward_references != VSP_FORWARD_REF_NUM) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid num_forward_refereces %d setting, should be %d\n", pipeline_param->num_forward_references, VSP_FORWARD_REF_NUM); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } /* first picture, need to setup the VSP context */ if (ctx->obj_context->frame_count == 0) vsp_cmdbuf_vpp_context(cmdbuf, VssGenInitializeContext, CONTEXT_VPP_ID, VSP_APP_ID_FRC_VPP); /* get the input surface */ if (!(pipeline_param->pipeline_flags & VA_PIPELINE_FLAG_END)) { input_surface = SURFACE(pipeline_param->surface); if (input_surface == NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid input surface %x\n", pipeline_param->surface); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } } else { input_surface = NULL; } /* if it is the first pipeline command */ if (pipeline_param->num_filters != ctx->num_filters || pipeline_param->num_filters == 0) { if (ctx->num_filters != 0) { drv_debug_msg(VIDEO_DEBUG_ERROR, "can not reset pipeline in the mid of post-processing or without create a new context\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } else { /* save filters */ ctx->num_filters = pipeline_param->num_filters; if (ctx->num_filters == 0) { ctx->filters = NULL; } else { ctx->filters = (VABufferID *) calloc(ctx->num_filters, sizeof(*ctx->filters)); if (ctx->filters == NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "can not reset pipeline in the mid of post-processing or without create a new context\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } memcpy(ctx->filters, pipeline_param->filters, ctx->num_filters * sizeof(*ctx->filters)); } /* set pipeline command to FW */ vaStatus = vsp_set_pipeline(ctx); if (vaStatus) { drv_debug_msg(VIDEO_DEBUG_ERROR, "failed to set pipeline\n"); goto out; } /* set filter parameter to FW, record frc parameter buffer */ vaStatus = vsp_set_filter_param(ctx); if (vaStatus) { drv_debug_msg(VIDEO_DEBUG_ERROR, "failed to set filter parameter\n"); goto out; } } } else { /* else ignore pipeline/filter setting */ #if 0 /* FIXME: we can save these check for PnP */ for (i = 0; i < pipeline_param->num_filters; i++) { if (pipeline_param->filters[i] != ctx->filters[i]) { drv_debug_msg(VIDEO_DEBUG_ERROR, "can not reset pipeline in the mid of post-processing or without create a new context\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } } #endif } /* fill picture command to FW */ if (ctx->frc_buf != NULL) frc_param = (VAProcFilterParameterBufferFrameRateConversion *)ctx->frc_buf->buffer_data; else frc_param = NULL; /* end picture command */ if (pipeline_param->pipeline_flags & VA_PIPELINE_FLAG_END) { cell_end_param->num_input_pictures = 0; cell_end_param->num_output_pictures = 0; vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcPictureCommand, ctx->end_param_offset, sizeof(struct VssProcPictureParameterBuffer)); /* Destory the VSP context */ vsp_cmdbuf_vpp_context(cmdbuf, VssGenDestroyContext, CONTEXT_VPP_ID, 0); goto out; } #ifdef PSBVIDEO_VPP_TILING /* get the tiling flag*/ tiled = GET_SURFACE_INFO_tiling(input_surface->psb_surface); #endif /* get the surface format info */ switch (input_surface->psb_surface->extra_info[8]) { case VA_FOURCC_YV12: format = VSP_YV12; break; case VA_FOURCC_NV12: format = VSP_NV12; break; default: vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; drv_debug_msg(VIDEO_DEBUG_ERROR, "Only support NV12 and YV12 format!\n"); goto out; } /* According to VIED's design, the width must be multiple of 16 */ width = ALIGN_TO_16(input_surface->width); if (width > input_surface->psb_surface->stride) width = input_surface->psb_surface->stride; /* get the input share info */ input_share_info = input_surface->share_info; drv_debug_msg(VIDEO_DEBUG_GENERAL, "%s The input surface %p share info %p\n", __func__, input_surface,input_surface->share_info); /* Setup input surface */ cell_proc_picture_param->num_input_pictures = 1; cell_proc_picture_param->input_picture[0].surface_id = pipeline_param->surface; vsp_cmdbuf_reloc_pic_param(&(cell_proc_picture_param->input_picture[0].base), ctx->pic_param_offset, &(input_surface->psb_surface->buf), cmdbuf->param_mem_loc, cell_proc_picture_param); cell_proc_picture_param->input_picture[0].height = input_surface->height; cell_proc_picture_param->input_picture[0].width = width; cell_proc_picture_param->input_picture[0].irq = 0; cell_proc_picture_param->input_picture[0].stride = input_surface->psb_surface->stride; cell_proc_picture_param->input_picture[0].format = format; cell_proc_picture_param->input_picture[0].tiled = tiled; cell_proc_picture_param->input_picture[0].rot_angle = 0; /* Setup output surfaces */ if (frc_param == NULL) cell_proc_picture_param->num_output_pictures = 1; else cell_proc_picture_param->num_output_pictures = frc_param->num_output_frames + 1; for (i = 0; i < cell_proc_picture_param->num_output_pictures; ++i) { if (i == 0) { cur_output_surf = ctx->obj_context->current_render_target; #ifdef PSBVIDEO_MRFL_VPP_ROTATE /* The rotation info is saved in the first frame */ rotation_angle = GET_SURFACE_INFO_rotate(cur_output_surf->psb_surface); switch (rotation_angle) { case VA_ROTATION_90: vsp_rotation_angle = VSP_ROTATION_90; break; case VA_ROTATION_180: vsp_rotation_angle = VSP_ROTATION_180; break; case VA_ROTATION_270: vsp_rotation_angle = VSP_ROTATION_270; break; default: vsp_rotation_angle = VSP_ROTATION_NONE; } #endif } else { if (frc_param == NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid output surface numbers %x\n", cell_proc_picture_param->num_output_pictures); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto out; } cur_output_surf = SURFACE(frc_param->output_frames[i-1]); if (cur_output_surf == NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid input surface %x\n", frc_param->output_frames[i-1]); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } #ifdef PSBVIDEO_MRFL_VPP_ROTATE /* VPP rotation is just for 1080P */ if (tiled && rotation_angle != VA_ROTATION_NONE) { if (VA_STATUS_SUCCESS != psb_CreateRotateSurface(obj_context, cur_output_surf, rotation_angle)) { drv_debug_msg(VIDEO_DEBUG_ERROR, "failed to alloc rotation surface!\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } } #endif } if (tiled && rotation_angle != VA_ROTATION_NONE) { #ifdef PSBVIDEO_MRFL_VPP_ROTATE /* For 90d and 270d, we need to alloc rotation buff and * copy the 0d data from input to output */ psb_buffer_map(&(input_surface->psb_surface->buf), &src_addr); psb_buffer_map(&(cur_output_surf->psb_surface->buf), &dest_addr); memcpy(dest_addr, src_addr, cur_output_surf->psb_surface->size); psb_buffer_unmap(&(cur_output_surf->psb_surface->buf)); psb_buffer_unmap(&(input_surface->psb_surface->buf)); output_surface = cur_output_surf->out_loop_surface; /* According to VIED's design, the width must be multiple of 16 */ width = ALIGN_TO_16(cur_output_surf->height_origin); if (width > cur_output_surf->out_loop_surface->stride) width = cur_output_surf->out_loop_surface->stride; height = cur_output_surf->width; stride = cur_output_surf->out_loop_surface->stride; #endif } else { output_surface = cur_output_surf->psb_surface; /* According to VIED's design, the width must be multiple of 16 */ width = ALIGN_TO_16(cur_output_surf->width); if (width > cur_output_surf->psb_surface->stride) width = cur_output_surf->psb_surface->stride; height = cur_output_surf->height; stride = cur_output_surf->psb_surface->stride; /* Check the rotate bit */ if (pipeline_param->rotation_state == VA_ROTATION_90) vsp_rotation_angle = VSP_ROTATION_90; else if (pipeline_param->rotation_state == VA_ROTATION_180) vsp_rotation_angle = VSP_ROTATION_180; else if (pipeline_param->rotation_state == VA_ROTATION_270) vsp_rotation_angle = VSP_ROTATION_270; else vsp_rotation_angle = VSP_ROTATION_NONE; } cell_proc_picture_param->output_picture[i].surface_id = wsbmKBufHandle(wsbmKBuf(output_surface->buf.drm_buf)); vsp_cmdbuf_reloc_pic_param(&(cell_proc_picture_param->output_picture[i].base), ctx->pic_param_offset, &(output_surface->buf), cmdbuf->param_mem_loc, cell_proc_picture_param); cell_proc_picture_param->output_picture[i].height = height; cell_proc_picture_param->output_picture[i].width = width; cell_proc_picture_param->output_picture[i].stride = stride; cell_proc_picture_param->output_picture[i].irq = 1; cell_proc_picture_param->output_picture[i].format = format; cell_proc_picture_param->output_picture[i].rot_angle = vsp_rotation_angle; cell_proc_picture_param->output_picture[i].tiled = tiled; /* copy the input share info to output */ output_share_info = cur_output_surf->share_info; if (input_share_info != NULL && output_share_info != NULL) { output_share_info->native_window = input_share_info->native_window; output_share_info->force_output_method = input_share_info->force_output_method; output_share_info->surface_protected = input_share_info->surface_protected; output_share_info->bob_deinterlace = input_share_info->bob_deinterlace; output_share_info->crop_width = input_share_info->crop_width; output_share_info->crop_height = input_share_info->crop_height; output_share_info->coded_width = input_share_info->coded_width; output_share_info->coded_height = input_share_info->coded_height; drv_debug_msg(VIDEO_DEBUG_GENERAL, "The input/output wxh %dx%d\n",input_share_info->width,input_share_info->height); } else { drv_debug_msg(VIDEO_DEBUG_WARNING, "The input/output share_info is NULL!!\n"); } } vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcPictureCommand, ctx->pic_param_offset, sizeof(struct VssProcPictureParameterBuffer)); vsp_cmdbuf_fence_pic_param(cmdbuf, wsbmKBufHandle(wsbmKBuf(cmdbuf->param_mem.drm_buf))); #if 0 /* handle reference frames, ignore backward reference */ for (i = 0; i < pipeline_param->num_forward_references; ++i) { cur_output_surf = SURFACE(pipeline_param->forward_references[i]); if (cur_output_surf == NULL) continue; if (vsp_cmdbuf_buffer_ref(cmdbuf, &cur_output_surf->psb_surface->buf) < 0) { drv_debug_msg(VIDEO_DEBUG_ERROR, "vsp_cmdbuf_buffer_ref() failed\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } } #endif out: free(pipeline_param); obj_buffer->buffer_data = NULL; obj_buffer->size = 0; return vaStatus; } static VAStatus vsp_VPP_RenderPicture( object_context_p obj_context, object_buffer_p *buffers, int num_buffers) { int i; INIT_CONTEXT_VPP; VAProcPipelineParameterBuffer *pipeline_param = NULL; VAStatus vaStatus = VA_STATUS_SUCCESS; for (i = 0; i < num_buffers; i++) { object_buffer_p obj_buffer = buffers[i]; pipeline_param = (VAProcPipelineParameterBuffer *) obj_buffer->buffer_data; switch (obj_buffer->type) { case VAProcPipelineParameterBufferType: if (!pipeline_param->num_filters && pipeline_param->blend_state) /* For Security Composer */ vaStatus = vsp_compose_process_pipeline_param(ctx, obj_context, obj_buffer); else /* For VPP/FRC */ vaStatus = vsp__VPP_process_pipeline_param(ctx, obj_context, obj_buffer); DEBUG_FAILURE; break; default: vaStatus = VA_STATUS_ERROR_UNKNOWN; DEBUG_FAILURE; } if (vaStatus != VA_STATUS_SUCCESS) { break; } } return vaStatus; } static VAStatus vsp_VPP_BeginPicture( object_context_p obj_context) { int ret; VAStatus vaStatus = VA_STATUS_SUCCESS; INIT_CONTEXT_VPP; vsp_cmdbuf_p cmdbuf; /* Initialise the command buffer */ ret = vsp_context_get_next_cmdbuf(ctx->obj_context); if (ret) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "get next cmdbuf fail\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; return vaStatus; } cmdbuf = obj_context->vsp_cmdbuf; /* map param mem */ vaStatus = psb_buffer_map(&cmdbuf->param_mem, &cmdbuf->param_mem_p); if (vaStatus) { return vaStatus; } cmdbuf->pic_param_p = cmdbuf->param_mem_p + ctx->pic_param_offset; cmdbuf->end_param_p = cmdbuf->param_mem_p + ctx->end_param_offset; cmdbuf->pipeline_param_p = cmdbuf->param_mem_p + ctx->pipeline_param_offset; cmdbuf->denoise_param_p = cmdbuf->param_mem_p + ctx->denoise_param_offset; cmdbuf->enhancer_param_p = cmdbuf->param_mem_p + ctx->enhancer_param_offset; cmdbuf->sharpen_param_p = cmdbuf->param_mem_p + ctx->sharpen_param_offset; cmdbuf->frc_param_p = cmdbuf->param_mem_p + ctx->frc_param_offset; cmdbuf->compose_param_p = cmdbuf->param_mem_p + ctx->compose_param_offset; return VA_STATUS_SUCCESS; } static VAStatus vsp_VPP_EndPicture( object_context_p obj_context) { INIT_CONTEXT_VPP; psb_driver_data_p driver_data = obj_context->driver_data; vsp_cmdbuf_p cmdbuf = obj_context->vsp_cmdbuf; if(cmdbuf->param_mem_p != NULL) { psb_buffer_unmap(&cmdbuf->param_mem); cmdbuf->param_mem_p = NULL; cmdbuf->pic_param_p = NULL; cmdbuf->end_param_p = NULL; cmdbuf->pipeline_param_p = NULL; cmdbuf->denoise_param_p = NULL; cmdbuf->enhancer_param_p = NULL; cmdbuf->sharpen_param_p = NULL; cmdbuf->frc_param_p = NULL; cmdbuf->compose_param_p = NULL; } if (vsp_context_flush_cmdbuf(ctx->obj_context)) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "psb_VPP: flush deblock cmdbuf error\n"); return VA_STATUS_ERROR_UNKNOWN; } return VA_STATUS_SUCCESS; } struct format_vtable_s vsp_VPP_vtable = { queryConfigAttributes: vsp_VPP_QueryConfigAttributes, validateConfig: vsp_VPP_ValidateConfig, createContext: vsp_VPP_CreateContext, destroyContext: vsp_VPP_DestroyContext, beginPicture: vsp_VPP_BeginPicture, renderPicture: vsp_VPP_RenderPicture, endPicture: vsp_VPP_EndPicture }; VAStatus vsp_QueryVideoProcFilters( VADriverContextP ctx, VAContextID context, VAProcFilterType *filters, unsigned int *num_filters ) { INIT_DRIVER_DATA; VAStatus vaStatus = VA_STATUS_SUCCESS; object_context_p obj_context; object_config_p obj_config; VAEntrypoint tmp; int count; /* check if ctx is right */ obj_context = CONTEXT(context); if (NULL == obj_context) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to find context\n"); vaStatus = VA_STATUS_ERROR_INVALID_CONTEXT; goto err; } obj_config = CONFIG(obj_context->config_id); if (NULL == obj_config) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to find config\n"); vaStatus = VA_STATUS_ERROR_INVALID_CONFIG; goto err; } tmp = obj_config->entrypoint; if (tmp != VAEntrypointVideoProc) { drv_debug_msg(VIDEO_DEBUG_ERROR, "current entrypoint is %d, not VAEntrypointVideoProc\n", tmp); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto err; } /* check if filters and num_filters is valid */ if (NULL == num_filters || NULL == filters) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalide input parameter num_filters %p, filters %p\n", num_filters, filters); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto err; } /* check if the filter array size is valid */ if (*num_filters < VSP_SUPPORTED_FILTERS_NUM) { drv_debug_msg(VIDEO_DEBUG_ERROR, "The filters array size(%d) is NOT valid! Supported filters num is %d\n", *num_filters, VSP_SUPPORTED_FILTERS_NUM); vaStatus = VA_STATUS_ERROR_MAX_NUM_EXCEEDED; *num_filters = VSP_SUPPORTED_FILTERS_NUM; goto err; } /* check if current HW support Video proc */ if (IS_MRFL(driver_data)) { count = 0; filters[count++] = VAProcFilterDeblocking; filters[count++] = VAProcFilterNoiseReduction; filters[count++] = VAProcFilterSharpening; filters[count++] = VAProcFilterColorBalance; filters[count++] = VAProcFilterFrameRateConversion; *num_filters = count; } else { *num_filters = 0; } err: return vaStatus; } VAStatus vsp_QueryVideoProcFilterCaps( VADriverContextP ctx, VAContextID context, VAProcFilterType type, void *filter_caps, unsigned int *num_filter_caps ) { INIT_DRIVER_DATA; VAStatus vaStatus = VA_STATUS_SUCCESS; object_context_p obj_context; object_config_p obj_config; VAEntrypoint tmp; VAProcFilterCap *denoise_cap, *deblock_cap; VAProcFilterCap *sharpen_cap; VAProcFilterCapColorBalance *color_balance_cap; VAProcFilterCap *frc_cap; /* check if context is right */ obj_context = CONTEXT(context); if (NULL == obj_context) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to find context\n"); vaStatus = VA_STATUS_ERROR_INVALID_CONTEXT; goto err; } obj_config = CONFIG(obj_context->config_id); if (NULL == obj_config) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to find config\n"); vaStatus = VA_STATUS_ERROR_INVALID_CONFIG; goto err; } /* check if filter_caps and num_filter_caps is right */ if (NULL == num_filter_caps || NULL == filter_caps){ drv_debug_msg(VIDEO_DEBUG_ERROR, "invalide input parameter num_filters %p, filters %p\n", num_filter_caps, filter_caps); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto err; } if (*num_filter_caps < 1) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalide input parameter num_filters == %d (> 1)\n", *num_filter_caps); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto err; } /* check if curent HW support and return corresponding caps */ if (IS_MRFL(driver_data)) { /* FIXME: we should use a constant table to return caps */ switch (type) { case VAProcFilterNoiseReduction: denoise_cap = filter_caps; denoise_cap->range.min_value = MIN_VPP_PARAM; denoise_cap->range.max_value = MAX_VPP_PARAM; denoise_cap->range.default_value = MIN_VPP_PARAM; denoise_cap->range.step = STEP_VPP_PARAM; *num_filter_caps = 1; break; case VAProcFilterDeblocking: deblock_cap = filter_caps; deblock_cap->range.min_value = MIN_VPP_PARAM; deblock_cap->range.max_value = MAX_VPP_PARAM; deblock_cap->range.default_value = MIN_VPP_PARAM; deblock_cap->range.step = STEP_VPP_PARAM; *num_filter_caps = 1; break; case VAProcFilterSharpening: sharpen_cap = filter_caps; sharpen_cap->range.min_value = MIN_VPP_PARAM; sharpen_cap->range.max_value = MAX_VPP_PARAM; sharpen_cap->range.default_value = MIN_VPP_PARAM; sharpen_cap->range.step = STEP_VPP_PARAM; *num_filter_caps = 1; break; case VAProcFilterColorBalance: if (*num_filter_caps < VSP_COLOR_ENHANCE_FEATURES) { drv_debug_msg(VIDEO_DEBUG_ERROR, "filter cap num is should big than %d(%d)\n", VSP_COLOR_ENHANCE_FEATURES, *num_filter_caps); vaStatus = VA_STATUS_ERROR_MAX_NUM_EXCEEDED; *num_filter_caps = VSP_COLOR_ENHANCE_FEATURES; goto err; } color_balance_cap = filter_caps; color_balance_cap->type = VAProcColorBalanceAutoSaturation; color_balance_cap->range.min_value = MIN_VPP_AUTO_PARAM; color_balance_cap->range.max_value = MAX_VPP_AUTO_PARAM; color_balance_cap->range.default_value = MIN_VPP_AUTO_PARAM; color_balance_cap->range.step = STEP_VPP_AUTO_PARAM; color_balance_cap++; color_balance_cap->type = VAProcColorBalanceAutoBrightness; color_balance_cap->range.min_value = MIN_VPP_AUTO_PARAM; color_balance_cap->range.max_value = MAX_VPP_AUTO_PARAM; color_balance_cap->range.default_value = MIN_VPP_AUTO_PARAM; color_balance_cap->range.step = STEP_VPP_AUTO_PARAM; *num_filter_caps = 2; break; case VAProcFilterFrameRateConversion: frc_cap = filter_caps; frc_cap->range.min_value = 2; frc_cap->range.max_value = 4; frc_cap->range.default_value = 2; /* FIXME: it's a set, step is helpless */ frc_cap->range.step = 0.5; *num_filter_caps = 1; break; default: drv_debug_msg(VIDEO_DEBUG_ERROR, "invalide filter type %d\n", type); vaStatus = VA_STATUS_ERROR_UNSUPPORTED_FILTER; *num_filter_caps = 0; goto err; } } else { *num_filter_caps = 0; } err: return vaStatus; } VAStatus vsp_QueryVideoProcPipelineCaps( VADriverContextP ctx, VAContextID context, VABufferID *filters, unsigned int num_filters, VAProcPipelineCaps *pipeline_caps ) { INIT_DRIVER_DATA; VAStatus vaStatus = VA_STATUS_SUCCESS; object_context_p obj_context; object_config_p obj_config; VAEntrypoint tmp; unsigned int i, j; VAProcFilterParameterBuffer *deblock, *denoise, *sharpen; VAProcFilterParameterBufferFrameRateConversion *frc; VAProcFilterParameterBufferColorBalance *balance; VAProcFilterParameterBufferBase *base; object_buffer_p buf; uint32_t enabled_brightness, enabled_saturation; float ratio; int res_set; int strength; context_VPP_p vpp_ctx; int combination_check; /* check if ctx is right */ obj_context = CONTEXT(context); if (NULL == obj_context) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to find context\n"); vaStatus = VA_STATUS_ERROR_INVALID_CONTEXT; goto err; } vpp_ctx = (context_VPP_p) obj_context->format_data; obj_config = CONFIG(obj_context->config_id); if (NULL == obj_config) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to find config\n"); vaStatus = VA_STATUS_ERROR_INVALID_CONFIG; goto err; } /* Don't check the filter number. * According to VIED's design, without any filter, HW will just copy input data */ #if 0 if (num_filters == 0) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid num_filters %d\n", num_filters); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto err; } #endif if (NULL == filters || pipeline_caps == NULL) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid filters %p or pipeline_caps %p\n", filters, pipeline_caps); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto err; } /* base on HW capability check the filters and return pipeline caps */ if (IS_MRFL(driver_data)) { pipeline_caps->pipeline_flags = 0; pipeline_caps->filter_flags = 0; pipeline_caps->num_forward_references = VSP_FORWARD_REF_NUM; pipeline_caps->num_backward_references = 0; /* check the input color standard */ if (pipeline_caps->input_color_standards == NULL){ drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid input color standard array!\n"); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto err; } if (pipeline_caps->num_input_color_standards < COLOR_STANDARDS_NUM) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid num_input_color_standards %d\n", pipeline_caps->num_input_color_standards); vaStatus = VA_STATUS_ERROR_MAX_NUM_EXCEEDED; pipeline_caps->num_input_color_standards = COLOR_STANDARDS_NUM; goto err; } pipeline_caps->input_color_standards[0] = VAProcColorStandardNone; pipeline_caps->num_input_color_standards = COLOR_STANDARDS_NUM; /* check the output color standard */ if (pipeline_caps->output_color_standards == NULL){ drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid output color standard array!\n"); vaStatus = VA_STATUS_ERROR_INVALID_PARAMETER; goto err; } if (pipeline_caps->num_output_color_standards < COLOR_STANDARDS_NUM) { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid num_output_color_standards %d\n", pipeline_caps->num_output_color_standards); vaStatus = VA_STATUS_ERROR_MAX_NUM_EXCEEDED; pipeline_caps->num_output_color_standards = COLOR_STANDARDS_NUM; goto err; } pipeline_caps->output_color_standards[0] = VAProcColorStandardNone; pipeline_caps->num_output_color_standards = COLOR_STANDARDS_NUM; /* check the resolution */ res_set = check_resolution(obj_context->picture_width, obj_context->picture_height); if (res_set == NOT_SUPPORTED_RESOLUTION) { vaStatus = VA_STATUS_ERROR_RESOLUTION_NOT_SUPPORTED; goto err; } /* Blend type */ pipeline_caps->blend_flags = VA_BLEND_PREMULTIPLIED_ALPHA; if (getenv("VSP_PIPELINE_CHECK") != NULL) combination_check = 1; else combination_check = 0; /* FIXME: should check filter value settings here */ for (i = 0; i < num_filters; ++i) { /* find buffer */ buf = BUFFER(*(filters + i)); if (!buf) { vaStatus = VA_STATUS_ERROR_UNKNOWN; goto err; } base = (VAProcFilterParameterBufferBase *)buf->buffer_data; /* check filter buffer setting */ switch (base->type) { case VAProcFilterDeblocking: deblock = (VAProcFilterParameterBuffer *)base; if (combination_check && vpp_chain_caps[res_set].deblock_enabled != FILTER_ENABLED) { drv_debug_msg(VIDEO_DEBUG_ERROR, "The deblock is DISABLE for %d format\n", res_set); vaStatus = VA_STATUS_ERROR_INVALID_FILTER_CHAIN; goto err; } else { /* check if the value is right */ strength = check_vpp_strength(deblock->value); if (strength == INVALID_STRENGTH) { vaStatus = VA_STATUS_ERROR_INVALID_VALUE; goto err; } memcpy(&vpp_ctx->denoise_deblock_param, &vpp_strength[strength].denoise_deblock[res_set], sizeof(vpp_ctx->denoise_deblock_param)); } break; case VAProcFilterNoiseReduction: denoise = (VAProcFilterParameterBuffer *)base; if (combination_check && vpp_chain_caps[res_set].denoise_enabled != FILTER_ENABLED) { drv_debug_msg(VIDEO_DEBUG_ERROR, "The denoise is DISABLE for %d format\n", res_set); vaStatus = VA_STATUS_ERROR_INVALID_FILTER_CHAIN; goto err; } else { strength = check_vpp_strength(denoise->value); if (strength == INVALID_STRENGTH) { vaStatus = VA_STATUS_ERROR_INVALID_VALUE; goto err; } memcpy(&vpp_ctx->denoise_deblock_param, &vpp_strength[strength].denoise_deblock[res_set], sizeof(vpp_ctx->denoise_deblock_param)); } break; case VAProcFilterSharpening: sharpen = (VAProcFilterParameterBuffer *)base; if (combination_check && vpp_chain_caps[res_set].sharpen_enabled != FILTER_ENABLED) { drv_debug_msg(VIDEO_DEBUG_ERROR, "The sharpen is DISABLE for %d format\n", res_set); vaStatus = VA_STATUS_ERROR_INVALID_FILTER_CHAIN; goto err; } else { strength = check_vpp_strength(sharpen->value); if (strength == INVALID_STRENGTH) { vaStatus = VA_STATUS_ERROR_INVALID_VALUE; goto err; } memcpy(&vpp_ctx->sharpen_param, &vpp_strength[strength].sharpen[res_set], sizeof(vpp_ctx->sharpen_param)); } break; case VAProcFilterColorBalance: balance = (VAProcFilterParameterBufferColorBalance *)base; enabled_brightness = 0; enabled_saturation = 0; for (j = 0; j < buf->num_elements; ++j, ++balance) { if (balance->attrib == VAProcColorBalanceAutoSaturation && balance->value == MAX_VPP_AUTO_PARAM) { enabled_saturation = 1; } else if (balance->attrib == VAProcColorBalanceAutoBrightness && balance->value == MAX_VPP_AUTO_PARAM) { enabled_brightness = 1; } else { drv_debug_msg(VIDEO_DEBUG_ERROR, "The color_banlance do NOT support this attrib %d\n", balance->attrib); vaStatus = VA_STATUS_ERROR_UNSUPPORTED_FILTER; goto err; } } /* check filter chain */ if (combination_check && vpp_chain_caps[res_set].color_balance_enabled != FILTER_ENABLED) { drv_debug_msg(VIDEO_DEBUG_ERROR, "The color_balance is DISABLE for %d format\n", res_set); vaStatus = VA_STATUS_ERROR_INVALID_FILTER_CHAIN; goto err; } else { strength = MEDIUM_STRENGTH; memcpy(&vpp_ctx->enhancer_param, &vpp_strength[strength].enhancer[res_set], sizeof(vpp_ctx->enhancer_param)); if (!enabled_saturation) vpp_ctx->enhancer_param.chroma_amm = 0; if (!enabled_brightness) vpp_ctx->enhancer_param.luma_amm = 0; } break; case VAProcFilterFrameRateConversion: frc = (VAProcFilterParameterBufferFrameRateConversion *)base; /* check frame rate */ ratio = frc->output_fps / (float)frc->input_fps; if (!((ratio == 2 || ratio == 2.5 || ratio == 4) && frc->output_fps <= 60)) { drv_debug_msg(VIDEO_DEBUG_ERROR, "The FRC do NOT support the ration(%f) and fps(%d)\n", ratio, frc->output_fps); vaStatus = VA_STATUS_ERROR_UNSUPPORTED_FILTER; goto err; } /* check the chain */ if (combination_check && vpp_chain_caps[res_set].frc_enabled != FILTER_ENABLED) { drv_debug_msg(VIDEO_DEBUG_ERROR, "The FRC is DISABLE for %d format\n", res_set); vaStatus = VA_STATUS_ERROR_INVALID_FILTER_CHAIN; goto err; } break; default: drv_debug_msg(VIDEO_DEBUG_ERROR, "Do NOT support the filter type %d\n", base->type); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto err; } } } else { drv_debug_msg(VIDEO_DEBUG_ERROR, "no HW support\n"); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto err; } err: return vaStatus; } static VAStatus vsp_set_pipeline(context_VPP_p ctx) { VAStatus vaStatus = VA_STATUS_SUCCESS; vsp_cmdbuf_p cmdbuf = ctx->obj_context->vsp_cmdbuf; struct VssProcPipelineParameterBuffer *cell_pipeline_param = (struct VssProcPipelineParameterBuffer *)cmdbuf->pipeline_param_p; unsigned int i, j, filter_count, check_filter = 0; VAProcFilterParameterBufferBase *cur_param; enum VssProcFilterType tmp; psb_driver_data_p driver_data = ctx->obj_context->driver_data; /* set intermediate buffer */ cell_pipeline_param->intermediate_buffer_size = VSP_INTERMEDIATE_BUF_SIZE; cell_pipeline_param->intermediate_buffer_base = wsbmBOOffsetHint(ctx->intermediate_buf->drm_buf); /* init pipeline cmd */ for (i = 0; i < VssProcPipelineMaxNumFilters; ++i) cell_pipeline_param->filter_pipeline[i] = -1; cell_pipeline_param->num_filters = 0; filter_count = 0; /* store filter buffer object */ if (ctx->num_filters != 0) { for (i = 0; i < ctx->num_filters; ++i) ctx->filter_buf[i] = BUFFER(ctx->filters[i]); } else { goto finished; } /* loop the filter, set correct pipeline param for FW */ for (i = 0; i < ctx->num_filters; ++i) { cur_param = (VAProcFilterParameterBufferBase *)ctx->filter_buf[i]->buffer_data; switch (cur_param->type) { case VAProcFilterNone: goto finished; break; case VAProcFilterNoiseReduction: case VAProcFilterDeblocking: cell_pipeline_param->filter_pipeline[filter_count++] = VssProcFilterDenoise; check_filter++; break; case VAProcFilterSharpening: cell_pipeline_param->filter_pipeline[filter_count++] = VssProcFilterSharpening; break; case VAProcFilterColorBalance: cell_pipeline_param->filter_pipeline[filter_count++] = VssProcFilterColorEnhancement; break; case VAProcFilterFrameRateConversion: cell_pipeline_param->filter_pipeline[filter_count++] = VssProcFilterFrameRateConversion; break; default: cell_pipeline_param->filter_pipeline[filter_count++] = -1; vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } } /* Denoise and Deblock is alternative */ if (check_filter >= 2) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Denoise and Deblock is alternative!\n"); cell_pipeline_param->filter_pipeline[filter_count++] = -1; vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } finished: cell_pipeline_param->num_filters = filter_count; /* reorder */ for (i = 1; i < filter_count; ++i) for (j = i; j > 0; --j) if (cell_pipeline_param->filter_pipeline[j] < cell_pipeline_param->filter_pipeline[j - 1]) { /* swap */ tmp = cell_pipeline_param->filter_pipeline[j]; cell_pipeline_param->filter_pipeline[j] = cell_pipeline_param->filter_pipeline[j - 1]; cell_pipeline_param->filter_pipeline[j - 1] = tmp; } vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcPipelineParameterCommand, ctx->pipeline_param_offset, sizeof(struct VssProcPipelineParameterBuffer)); out: return vaStatus; } static VAStatus vsp_set_filter_param(context_VPP_p ctx) { VAStatus vaStatus = VA_STATUS_SUCCESS; vsp_cmdbuf_p cmdbuf = ctx->obj_context->vsp_cmdbuf; struct VssProcDenoiseParameterBuffer *cell_denoiser_param = (struct VssProcDenoiseParameterBuffer *)cmdbuf->denoise_param_p; struct VssProcColorEnhancementParameterBuffer *cell_enhancer_param = (struct VssProcColorEnhancementParameterBuffer *)cmdbuf->enhancer_param_p; struct VssProcSharpenParameterBuffer *cell_sharpen_param = (struct VssProcSharpenParameterBuffer *)cmdbuf->sharpen_param_p; struct VssProcFrcParameterBuffer *cell_proc_frc_param = (struct VssProcFrcParameterBuffer *)cmdbuf->frc_param_p; VAProcFilterParameterBufferBase *cur_param = NULL; VAProcFilterParameterBufferFrameRateConversion *frc_param = NULL; unsigned int i; float ratio; for (i = 0; i < ctx->num_filters; ++i) { cur_param = (VAProcFilterParameterBufferBase *)ctx->filter_buf[i]->buffer_data; switch (cur_param->type) { case VAProcFilterDeblocking: memcpy(cell_denoiser_param, &ctx->denoise_deblock_param, sizeof(ctx->denoise_deblock_param)); cell_denoiser_param->type = VssProcDeblock; vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcDenoiseParameterCommand, ctx->denoise_param_offset, sizeof(struct VssProcDenoiseParameterBuffer)); break; case VAProcFilterNoiseReduction: memcpy(cell_denoiser_param, &ctx->denoise_deblock_param, sizeof(ctx->denoise_deblock_param)); cell_denoiser_param->type = VssProcDegrain; vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcDenoiseParameterCommand, ctx->denoise_param_offset, sizeof(struct VssProcDenoiseParameterBuffer)); break; case VAProcFilterSharpening: memcpy(cell_sharpen_param, &ctx->sharpen_param, sizeof(ctx->sharpen_param)); vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcSharpenParameterCommand, ctx->sharpen_param_offset, sizeof(struct VssProcSharpenParameterBuffer)); break; case VAProcFilterColorBalance: memcpy(cell_enhancer_param, &ctx->enhancer_param, sizeof(ctx->enhancer_param)); vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcColorEnhancementParameterCommand, ctx->enhancer_param_offset, sizeof(struct VssProcColorEnhancementParameterBuffer)); break; case VAProcFilterFrameRateConversion: ctx->frc_buf = ctx->filter_buf[i]; frc_param = (VAProcFilterParameterBufferFrameRateConversion *)ctx->filter_buf[i]->buffer_data; ratio = frc_param->output_fps / (float)frc_param->input_fps; /* set the FRC quality */ /* cell_proc_frc_param->quality = VssFrcMediumQuality; */ cell_proc_frc_param->quality = VssFrcHighQuality; /* check if the input fps is in the range of HW capability */ if (ratio == 2) cell_proc_frc_param->conversion_rate = VssFrc2xConversionRate; else if (ratio == 2.5) cell_proc_frc_param->conversion_rate = VssFrc2_5xConversionRate; else if (ratio == 4) cell_proc_frc_param->conversion_rate = VssFrc4xConversionRate; else if (ratio == 1.25) cell_proc_frc_param->conversion_rate = VssFrc1_25xConversionRate; else { drv_debug_msg(VIDEO_DEBUG_ERROR, "invalid frame rate conversion ratio %f \n", ratio); vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } vsp_cmdbuf_insert_command(cmdbuf, CONTEXT_VPP_ID, &cmdbuf->param_mem, VssProcFrcParameterCommand, ctx->frc_param_offset, sizeof(struct VssProcFrcParameterBuffer)); break; default: vaStatus = VA_STATUS_ERROR_UNKNOWN; goto out; } } out: return vaStatus; } static int check_resolution(int width, int height) { int ret; int image_area; if (height < MIN_SUPPORTED_HEIGHT || height > MAX_SUPPORTED_HEIGHT) return NOT_SUPPORTED_RESOLUTION; image_area = height * width; if (image_area <= QVGA_AREA) ret = QCIF_TO_QVGA; else if (image_area <= VGA_AREA) ret = QVGA_TO_VGA; else if (image_area <= SD_AREA) ret = VGA_TO_SD; else if (image_area <= HD720P_AREA) ret = SD_TO_720P; else if (image_area <= HD1080P_AREA) ret = HD720P_TO_1080P; else ret = NOT_SUPPORTED_RESOLUTION; return ret; } /* * The strength area is: * * 0______33______66______100 * LOW MED HIGH * * MIN=0; MAX=100; STEP=33 */ static int check_vpp_strength(int value) { if (value < MIN_VPP_PARAM || value > MAX_VPP_PARAM) return INVALID_STRENGTH; if (value >= MIN_VPP_PARAM && value < MIN_VPP_PARAM + STEP_VPP_PARAM) return LOW_STRENGTH; else if (value >= MIN_VPP_PARAM + STEP_VPP_PARAM && value < MIN_VPP_PARAM + 2 * STEP_VPP_PARAM) return MEDIUM_STRENGTH; else return HIGH_STRENGTH; }