/* * 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: * Zeng Li <zeng.li@intel.com> * Jason Hu <jason.hu@intel.com> * Shengquan Yuan <shengquan.yuan@intel.com> */ #include <va/va.h> #include <va/va_backend.h> #include <va/va_backend_tpi.h> #include <va/va_backend_egl.h> #include <va/va_drmcommon.h> #include "psb_drv_video.h" #include "psb_output.h" #include "android/psb_android_glue.h" #include "psb_drv_debug.h" #include "vc1_defs.h" #include "pnw_rotate.h" #include <stdio.h> #include <string.h> #include <stdarg.h> #include <time.h> #include <unistd.h> #include <wsbm/wsbm_pool.h> #include <wsbm/wsbm_manager.h> #include <wsbm/wsbm_util.h> #include <wsbm/wsbm_fencemgr.h> #ifdef ANROID #include <system/graphics.h> #endif #define INIT_DRIVER_DATA psb_driver_data_p driver_data = (psb_driver_data_p) ctx->pDriverData #define INIT_OUTPUT_PRIV unsigned char* output = ((psb_driver_data_p)ctx->pDriverData)->ws_priv #define SURFACE(id) ((object_surface_p) object_heap_lookup( &driver_data->surface_heap, id )) #define CONTEXT(id) ((object_context_p) object_heap_lookup( &driver_data->context_heap, id )) #define CONFIG(id) ((object_config_p) object_heap_lookup( &driver_data->config_heap, id )) #define CHECK_SURFACE_REALLOC(psb_surface, msvdx_rotate, need) \ do { \ int old_rotate = GET_SURFACE_INFO_rotate(psb_surface); \ switch (msvdx_rotate) { \ case 2: /* 180 */ \ if (old_rotate == 2) \ need = 0; \ else \ need = 1; \ break; \ case 1: /* 90 */ \ case 3: /* 270 */ \ if (old_rotate == 1 || old_rotate == 3) \ need = 0; \ else \ need = 1; \ break; \ } \ } while (0) static int get_surface_stride(int width, int tiling) { int stride = 0; if (0) { ; } else if (512 >= width) { stride = 512; } else if (1024 >= width) { stride = 1024; } else if (1280 >= width) { stride = 1280; #ifdef PSBVIDEO_MSVDX_DEC_TILING if (tiling) { stride = 2048; } #endif } else if (2048 >= width) { stride = 2048; } else if (4096 >= width) { stride = 4096; } else { stride = (width + 0x3f) & ~0x3f; } return stride; } //#define OVERLAY_ENABLE_MIRROR #ifdef PSBVIDEO_MRFL_VPP static int isVppOn(void __maybe_unused *output) { #ifdef TARGET_HAS_MULTIPLE_DISPLAY return psb_android_get_mds_vpp_state(output); #else return psb_android_get_vpp_state(); #endif } #endif void psb_InitOutLoop(VADriverContextP ctx) { char env_value[64]; INIT_DRIVER_DATA; /* VA rotate from APP */ driver_data->va_rotate = VA_ROTATION_NONE; /* window manager rotation from OS */ driver_data->mipi0_rotation = VA_ROTATION_NONE; driver_data->mipi1_rotation = VA_ROTATION_NONE; driver_data->hdmi_rotation = VA_ROTATION_NONE; /* final rotation of VA rotate+WM rotate */ driver_data->local_rotation = VA_ROTATION_NONE; driver_data->extend_rotation = VA_ROTATION_NONE; /* MSVDX rotate */ driver_data->msvdx_rotate_want = ROTATE_VA2MSVDX(VA_ROTATION_NONE); if (psb_parse_config("PSB_VIDEO_NOROTATE", &env_value[0]) == 0) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "MSVDX: disable MSVDX rotation\n"); driver_data->disable_msvdx_rotate = 1; } /* FIXME: Disable rotation when VPP enabled, just a workround here*/ #ifdef PSBVIDEO_MRFL_VPP if (isVppOn((void*)driver_data->ws_priv)) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "For VPP: disable MSVDX rotation\n"); driver_data->disable_msvdx_rotate = 1; driver_data->vpp_on = 1; } #endif #ifdef BAYTRAIL driver_data->disable_msvdx_rotate = 1; #endif driver_data->disable_msvdx_rotate_backup = driver_data->disable_msvdx_rotate; } void psb_RecalcAlternativeOutput(object_context_p obj_context) { psb_driver_data_p driver_data = obj_context->driver_data; object_surface_p obj_surface = obj_context->current_render_target; int angle, new_rotate, i; int old_rotate = driver_data->msvdx_rotate_want; int mode = INIT_VALUE; #ifdef TARGET_HAS_MULTIPLE_DISPLAY mode = psb_android_get_mds_mode((void*)driver_data->ws_priv); #endif if (mode != INIT_VALUE) { // clear device rotation info if (driver_data->mipi0_rotation != VA_ROTATION_NONE) { driver_data->mipi0_rotation = VA_ROTATION_NONE; driver_data->hdmi_rotation = VA_ROTATION_NONE; } // Disable msvdx rotation if // WIDI video is play and meta data rotation angle is 0 if (mode == WIDI_VIDEO_ISPLAYING) { if (driver_data->va_rotate == VA_ROTATION_NONE) driver_data->disable_msvdx_rotate = 1; else { driver_data->mipi0_rotation = 0; driver_data->hdmi_rotation = 0; driver_data->disable_msvdx_rotate = 0; } } else { if (IS_MOFD(driver_data)) driver_data->disable_msvdx_rotate = 1; else driver_data->disable_msvdx_rotate = driver_data->disable_msvdx_rotate_backup; } } else if (IS_MOFD(driver_data)) { /* Moorefield has overlay rotaion, so decoder doesn't generate rotation * output according to windows manager. It is controlled by payload info * in which HWC signal decoder to generate rotation output */ long long hwc_timestamp = 0; int index = -1; for (i = 0; i < obj_context->num_render_targets; i++) { object_surface_p obj_surface = SURFACE(obj_context->render_targets[i]); /* traverse all surfaces' share info to find out the latest transform info */ if (obj_surface && obj_surface->share_info) { if (obj_surface->share_info->hwc_timestamp > hwc_timestamp) { hwc_timestamp = obj_surface->share_info->hwc_timestamp; index = i; } } } if (index >= 0) { object_surface_p obj_surface = SURFACE(obj_context->render_targets[index]); if (obj_surface && obj_surface->share_info) { int transform = obj_surface->share_info->layer_transform; driver_data->mipi0_rotation = HAL2VAROTATION(transform); drv_debug_msg(VIDEO_DEBUG_GENERAL, "Signal from HWC to rotate %d\n", driver_data->mipi0_rotation); } } } else if (driver_data->native_window) { int display_rotate = 0; psb_android_surfaceflinger_rotate(driver_data->native_window, &display_rotate); drv_debug_msg(VIDEO_DEBUG_GENERAL, "NativeWindow(0x%x), get surface flinger rotate %d\n", driver_data->native_window, display_rotate); if (driver_data->mipi0_rotation != display_rotate) { driver_data->mipi0_rotation = display_rotate; } } else { long long hwc_timestamp = 0; int index = -1; for (i = 0; i < obj_context->num_render_targets; i++) { object_surface_p obj_surface = SURFACE(obj_context->render_targets[i]); /* traverse all surfaces' share info to find out the latest transform info */ if (obj_surface && obj_surface->share_info) { if (obj_surface->share_info->hwc_timestamp > hwc_timestamp) { hwc_timestamp = obj_surface->share_info->hwc_timestamp; index = i; } } } if (index >= 0) { object_surface_p obj_surface = SURFACE(obj_context->render_targets[index]); if (obj_surface && obj_surface->share_info) { int transform = obj_surface->share_info->layer_transform; driver_data->mipi0_rotation = HAL2VAROTATION(transform); } } } #ifdef PSBVIDEO_MRFL if ((mode == HDMI_VIDEO_ISPLAYING) && driver_data->native_window) { int display_rotate = 0; psb_android_surfaceflinger_rotate(driver_data->native_window, &display_rotate); drv_debug_msg(VIDEO_DEBUG_GENERAL, "NativeWindow(0x%x), get surface flinger rotate %d\n", driver_data->native_window, display_rotate); if (driver_data->mipi0_rotation != display_rotate && !IS_MOFD(driver_data)) { driver_data->mipi0_rotation = display_rotate; } } #endif /* calc VA rotation and WM rotation, and assign to the final rotation degree */ angle = Rotation2Angle(driver_data->va_rotate) + Rotation2Angle(driver_data->mipi0_rotation); driver_data->local_rotation = Angle2Rotation(angle); angle = Rotation2Angle(driver_data->va_rotate) + Rotation2Angle(driver_data->hdmi_rotation); driver_data->extend_rotation = Angle2Rotation(angle); /* On MOFD, no need to use meta rotation, just use rotation angle signal from HWC */ if (IS_MOFD(driver_data)) { driver_data->local_rotation = driver_data->mipi0_rotation; driver_data->extend_rotation = Rotation2Angle(driver_data->hdmi_rotation); } /* for any case that local and extened rotation are not same, fallback to GPU */ if ((driver_data->mipi1_rotation != VA_ROTATION_NONE) || ((driver_data->local_rotation != VA_ROTATION_NONE) && (driver_data->extend_rotation != VA_ROTATION_NONE) && (driver_data->local_rotation != driver_data->extend_rotation))) { new_rotate = ROTATE_VA2MSVDX(driver_data->local_rotation); if (driver_data->is_android == 0) /*fallback to texblit path*/ driver_data->output_method = PSB_PUTSURFACE_CTEXTURE; } else { if (driver_data->local_rotation == VA_ROTATION_NONE) new_rotate = driver_data->extend_rotation; else new_rotate = driver_data->local_rotation; if (driver_data->is_android == 0) { if (driver_data->output_method != PSB_PUTSURFACE_FORCE_CTEXTURE) driver_data->output_method = PSB_PUTSURFACE_COVERLAY; } } if (old_rotate != new_rotate) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "MSVDX: new rotation %d desired\n", new_rotate); driver_data->msvdx_rotate_want = new_rotate; } #ifdef TARGET_HAS_MULTIPLE_DISPLAY int scaling_buffer_width = 1920, scaling_buffer_height = 1080 ; int scaling_width = 0, scaling_height = 0; int scaling_offset_x = 0, scaling_offset_y = 0; int old_bufw = 0, old_bufh = 0, old_x = 0, old_y = 0, old_w = 0, old_h = 0; int bScaleChanged = 0, size = 0; unsigned char * surface_data; int ret = psb_android_get_mds_decoder_output_resolution( (void*)driver_data->ws_priv, &scaling_width, &scaling_height, &scaling_offset_x, &scaling_offset_y, &scaling_buffer_width, &scaling_buffer_height); if ((old_bufw != scaling_buffer_width) || (old_bufh != scaling_buffer_height) || (old_x != scaling_offset_x) || (old_y != scaling_offset_y) || (old_w != scaling_width) || (old_h != scaling_height)) { bScaleChanged = 1; } old_x = scaling_offset_x; old_y = scaling_offset_y; old_w = scaling_width; old_h = scaling_height; old_bufw = scaling_buffer_width; old_bufh = scaling_buffer_height; /* turn off ved downscaling if width and height are 0. * Besides, scaling_width and scaling_height must be a multiple of 2. */ if (!ret || (!scaling_width || !scaling_height) || (scaling_width & 1) || (scaling_height & 1)) { obj_context->msvdx_scaling = 0; obj_context->scaling_width = 0; obj_context->scaling_height = 0; obj_context->scaling_offset_x= 0; obj_context->scaling_offset_y = 0; obj_context->scaling_buffer_width = 0; obj_context->scaling_buffer_height = 0; } else { obj_context->msvdx_scaling = 1; obj_context->scaling_width = scaling_width; obj_context->scaling_height = scaling_height; obj_context->scaling_offset_x= scaling_offset_x; obj_context->scaling_offset_y = scaling_offset_y; obj_context->scaling_buffer_width = scaling_buffer_width; obj_context->scaling_buffer_height = scaling_buffer_height; } if (bScaleChanged) { if ((obj_surface != NULL) && (obj_surface->out_loop_surface != NULL)) { if (psb_buffer_map(&obj_surface->out_loop_surface->buf, &surface_data)) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to map rotation buffer before clear it"); } else { size = obj_surface->out_loop_surface->chroma_offset; memset(surface_data, 0, size); memset(surface_data + size, 0x80, obj_surface->out_loop_surface->size - size); psb_buffer_unmap(&obj_context->current_render_target->out_loop_surface->buf); } } } #endif } void psb_CheckInterlaceRotate(object_context_p obj_context, unsigned char *pic_param_tmp) { object_surface_p obj_surface = obj_context->current_render_target; switch (obj_context->profile) { case VAProfileMPEG2Simple: case VAProfileMPEG2Main: break; case VAProfileMPEG4Simple: case VAProfileMPEG4AdvancedSimple: case VAProfileMPEG4Main: case VAProfileH263Baseline: { VAPictureParameterBufferMPEG4 *pic_params = (VAPictureParameterBufferMPEG4 *)pic_param_tmp; if (pic_params->vol_fields.bits.interlaced) obj_context->interlaced_stream = 1; /* is it the right way to check? */ break; } case VAProfileH264Baseline: case VAProfileH264Main: case VAProfileH264High: case VAProfileH264ConstrainedBaseline: { VAPictureParameterBufferH264 *pic_params = (VAPictureParameterBufferH264 *)pic_param_tmp; /* is it the right way to check? */ if (pic_params->pic_fields.bits.field_pic_flag || pic_params->seq_fields.bits.mb_adaptive_frame_field_flag) obj_context->interlaced_stream = 1; break; } case VAProfileVC1Simple: case VAProfileVC1Main: case VAProfileVC1Advanced: { VAPictureParameterBufferVC1 *pic_params = (VAPictureParameterBufferVC1 *)pic_param_tmp; /* is it the right way to check? */ if (pic_params->sequence_fields.bits.interlace) obj_context->interlaced_stream = 1; break; } default: break; } if (obj_surface->share_info) { psb_surface_share_info_p share_info = obj_surface->share_info; if (obj_context->interlaced_stream) { SET_SURFACE_INFO_rotate(obj_surface->psb_surface, 0); obj_context->msvdx_rotate = 0; share_info->bob_deinterlace = 1; } else { share_info->bob_deinterlace = 0; } } } #if 0 /* * Detach a surface from obj_surface */ VAStatus psb_DestroyRotateSurface( VADriverContextP ctx, object_surface_p obj_surface, int rotate ) { INIT_DRIVER_DATA; psb_surface_p psb_surface = obj_surface->out_loop_surface; VAStatus vaStatus = VA_STATUS_SUCCESS; /* Allocate alternative output surface */ if (psb_surface) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "Try to allocate surface for alternative rotate output\n"); psb_surface_destroy(obj_surface->out_loop_surface); free(psb_surface); obj_surface->out_loop_surface = NULL; obj_surface->width_r = obj_surface->width; obj_surface->height_r = obj_surface->height; } return vaStatus; } #endif #ifdef TARGET_HAS_MULTIPLE_DISPLAY /* * Create and attach a downscaling surface to obj_surface */ static void clearScalingInfo(psb_surface_share_info_p share_info) { if (share_info == NULL) return; share_info->width_s = 0; share_info->height_s = 0; share_info->scaling_khandle = 0; share_info->scaling_luma_stride = 0; share_info->scaling_chroma_u_stride = 0; share_info->scaling_chroma_v_stride = 0; return; } VAStatus psb_CreateScalingSurface( object_context_p obj_context, object_surface_p obj_surface ) { psb_surface_p psb_surface; VAStatus vaStatus = VA_STATUS_SUCCESS; psb_surface_share_info_p share_info = obj_surface->share_info; unsigned int set_flags, clear_flags; int ret = 0; if (obj_context->driver_data->render_rect.width <= obj_context->scaling_width || obj_context->driver_data->render_rect.height <= obj_context->scaling_height) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "Either downscaling is not required or upscaling is needed for the target resolution\n"); obj_context->msvdx_scaling = 0; /* Disable downscaling */ clearScalingInfo(share_info); return VA_STATUS_ERROR_OPERATION_FAILED; } psb_surface = obj_surface->scaling_surface; /* Check if downscaling resolution has been changed */ if (psb_surface) { if (obj_surface->width_s != obj_context->scaling_width || obj_surface->height_s != obj_context->scaling_height) { psb_surface_destroy(psb_surface); free(psb_surface); psb_surface = NULL; drv_debug_msg(VIDEO_DEBUG_GENERAL, "downscaling buffer realloc: %d x %d -> %d x %d\n", obj_surface->width_s, obj_surface->height_s, obj_context->scaling_width, obj_context->scaling_height); clearScalingInfo(share_info); } } if (!psb_surface) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "Try to allocate surface for alternative scaling output: %dx%d\n", obj_context->scaling_width, obj_context->scaling_height); psb_surface = (psb_surface_p) calloc(1, sizeof(struct psb_surface_s)); CHECK_ALLOCATION(psb_surface); vaStatus = psb_surface_create(obj_context->driver_data, obj_context->scaling_width, (obj_context->scaling_height + 0x1f) & ~0x1f, VA_FOURCC_NV12, 0, psb_surface); //set_flags = WSBM_PL_FLAG_CACHED | DRM_PSB_FLAG_MEM_MMU | WSBM_PL_FLAG_SHARED; //clear_flags = WSBM_PL_FLAG_UNCACHED | WSBM_PL_FLAG_WC; //ret = psb_buffer_setstatus(&psb_surface->buf, set_flags, clear_flags); if (VA_STATUS_SUCCESS != vaStatus || ret) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "allocate scaling buffer fail\n"); free(psb_surface); obj_surface->scaling_surface = NULL; vaStatus = VA_STATUS_ERROR_ALLOCATION_FAILED; DEBUG_FAILURE; return vaStatus; } obj_surface->width_s = obj_context->scaling_width; obj_surface->height_s = obj_context->scaling_height; obj_surface->buffer_width_s = obj_context->scaling_width; obj_surface->buffer_height_s = obj_context->scaling_height; obj_surface->offset_x_s= obj_context->scaling_offset_x; obj_surface->offset_y_s= obj_context->scaling_offset_y; obj_context->scaling_update = 1; } obj_surface->scaling_surface = psb_surface; /* derive the protected flag from the primay surface */ SET_SURFACE_INFO_protect(psb_surface, GET_SURFACE_INFO_protect(obj_surface->psb_surface)); /*notify hwc that rotated buffer is ready to use. * TODO: Do these in psb_SyncSurface() */ if (share_info != NULL) { share_info->width_s = obj_surface->width_s; share_info->height_s = obj_surface->height_s; share_info->scaling_khandle = (uint32_t)(wsbmKBufHandle(wsbmKBuf(psb_surface->buf.drm_buf))); share_info->scaling_luma_stride = psb_surface->stride; share_info->scaling_chroma_u_stride = psb_surface->stride; share_info->scaling_chroma_v_stride = psb_surface->stride; } return vaStatus; } #else VAStatus psb_CreateScalingSurface( object_context_p __maybe_unused obj_context, object_surface_p __maybe_unused obj_surface ) { return VA_STATUS_ERROR_OPERATION_FAILED; } #endif /* * Create and attach a rotate surface to obj_surface */ VAStatus psb_CreateRotateSurface( object_context_p obj_context, object_surface_p obj_surface, int msvdx_rotate ) { int width, height; psb_surface_p rotate_surface; VAStatus vaStatus = VA_STATUS_SUCCESS; int need_realloc = 0; unsigned int flags = 0; psb_surface_share_info_p share_info = obj_surface->share_info; psb_driver_data_p driver_data = obj_context->driver_data; int rotate_stride = 0, rotate_tiling = 0; object_config_p obj_config = CONFIG(obj_context->config_id); unsigned char * surface_data; CHECK_CONFIG(obj_config); rotate_surface = obj_surface->out_loop_surface; if (msvdx_rotate == 0 #ifdef OVERLAY_ENABLE_MIRROR /*Bypass 180 degree rotate when overlay enabling mirror*/ || msvdx_rotate == VA_ROTATION_180 #endif ) return vaStatus; if (rotate_surface) { CHECK_SURFACE_REALLOC(rotate_surface, msvdx_rotate, need_realloc); if (need_realloc == 0) { goto exit; } else { /* free the old rotate surface */ /*FIX ME: it is not safe to do that because surfaces may be in use for rendering.*/ psb_surface_destroy(obj_surface->out_loop_surface); memset(rotate_surface, 0, sizeof(*rotate_surface)); } } else { rotate_surface = (psb_surface_p) calloc(1, sizeof(struct psb_surface_s)); CHECK_ALLOCATION(rotate_surface); } #ifdef PSBVIDEO_MSVDX_DEC_TILING SET_SURFACE_INFO_tiling(rotate_surface, GET_SURFACE_INFO_tiling(obj_surface->psb_surface)); #endif #ifdef PSBVIDEO_MRFL_VPP_ROTATE SET_SURFACE_INFO_rotate(rotate_surface, msvdx_rotate); #endif drv_debug_msg(VIDEO_DEBUG_GENERAL, "Try to allocate surface for alternative rotate output\n"); flags = IS_ROTATED; if (msvdx_rotate == 2 /* VA_ROTATION_180 */) { width = obj_surface->width; height = obj_surface->height; #ifdef PSBVIDEO_MRFL_VPP_ROTATE if (obj_config->entrypoint == VAEntrypointVideoProc && share_info && share_info->out_loop_khandle) { vaStatus = psb_surface_create_from_kbuf(driver_data, width, height, obj_surface->psb_surface->size, VA_FOURCC_NV12, share_info->out_loop_khandle, obj_surface->psb_surface->stride, obj_surface->psb_surface->stride, obj_surface->psb_surface->stride, 0, 0, 0, rotate_surface); } else #endif vaStatus = psb_surface_create(driver_data, width, height, VA_FOURCC_NV12, flags, rotate_surface); } else { width = obj_surface->height_origin; height = (obj_surface->width + 0x1f) & ~0x1f; #ifdef PSBVIDEO_MRFL_VPP_ROTATE if (obj_config->entrypoint == VAEntrypointVideoProc && share_info && share_info->out_loop_khandle != 0) { drv_debug_msg(VIDEO_DEBUG_GENERAL,"Create the surface from kbuf out_loop_khandle=%x!\n", share_info->out_loop_khandle); rotate_tiling = GET_SURFACE_INFO_tiling(rotate_surface); rotate_stride = get_surface_stride(width, rotate_tiling); vaStatus = psb_surface_create_from_kbuf(driver_data, width, height, (rotate_stride * height * 3) / 2, VA_FOURCC_NV12, share_info->out_loop_khandle, rotate_stride, rotate_stride, rotate_stride, 0, rotate_stride * height, rotate_stride * height, rotate_surface); } else #endif { drv_debug_msg(VIDEO_DEBUG_GENERAL,"Create rotated buffer. width=%d, height=%d\n", width, height); if (CONTEXT_SCALING(obj_context)) { width = obj_context->scaling_buffer_height; height = (obj_context->scaling_buffer_width+ 0x1f) & ~0x1f; } vaStatus = psb_surface_create(driver_data, width, height, VA_FOURCC_NV12, flags, rotate_surface); } } if (VA_STATUS_SUCCESS != vaStatus) { free(rotate_surface); obj_surface->out_loop_surface = NULL; vaStatus = VA_STATUS_ERROR_ALLOCATION_FAILED; DEBUG_FAILURE; return vaStatus; } //clear rotation surface if (CONTEXT_SCALING(obj_context)) { if (psb_buffer_map(&rotate_surface->buf, &surface_data)) { drv_debug_msg(VIDEO_DEBUG_ERROR, "Failed to map rotation buffer before clear it"); } else { memset(surface_data, 0, rotate_surface->chroma_offset); memset(surface_data + rotate_surface->chroma_offset, 0x80, rotate_surface->size - rotate_surface->chroma_offset); psb_buffer_unmap(&rotate_surface->buf); } } obj_surface->width_r = width; obj_surface->height_r = height; #ifdef PSBVIDEO_MSVDX_DEC_TILING drv_debug_msg(VIDEO_DEBUG_GENERAL, "attempt to update tile context\n"); if (GET_SURFACE_INFO_tiling(rotate_surface) && obj_config->entrypoint != VAEntrypointVideoProc) { drv_debug_msg(VIDEO_DEBUG_GENERAL, "update tile context\n"); object_context_p obj_context = CONTEXT(obj_surface->context_id); if (NULL == obj_context) { vaStatus = VA_STATUS_ERROR_INVALID_CONTEXT; DEBUG_FAILURE; return vaStatus; } unsigned long msvdx_tile = psb__tile_stride_log2_256(obj_surface->width_r); obj_context->msvdx_tile &= 0xf; /* clear rotate tile */ obj_context->msvdx_tile |= (msvdx_tile << 4); obj_context->ctp_type &= (~PSB_CTX_TILING_MASK); /* clear tile context */ obj_context->ctp_type |= ((obj_context->msvdx_tile & 0xff) << 16); psb_update_context(driver_data, obj_context->ctp_type); } #endif exit: obj_surface->out_loop_surface = rotate_surface; SET_SURFACE_INFO_rotate(rotate_surface, msvdx_rotate); /* derive the protected flag from the primay surface */ SET_SURFACE_INFO_protect(rotate_surface, GET_SURFACE_INFO_protect(obj_surface->psb_surface)); /*notify hwc that rotated buffer is ready to use. * TODO: Do these in psb_SyncSurface() */ if (share_info != NULL) { share_info->width_r = rotate_surface->stride; share_info->height_r = obj_surface->height_r; share_info->out_loop_khandle = (uint32_t)(wsbmKBufHandle(wsbmKBuf(rotate_surface->buf.drm_buf))); share_info->metadata_rotate = VAROTATION2HAL(driver_data->va_rotate); share_info->surface_rotate = VAROTATION2HAL(msvdx_rotate); share_info->out_loop_luma_stride = rotate_surface->stride; share_info->out_loop_chroma_u_stride = rotate_surface->stride; share_info->out_loop_chroma_v_stride = rotate_surface->stride; } return vaStatus; } VAStatus psb_DestroyRotateBuffer( object_context_p obj_context, object_surface_p obj_surface) { VAStatus vaStatus = VA_STATUS_SUCCESS; psb_surface_share_info_p share_info = obj_surface->share_info; psb_driver_data_p driver_data = obj_context->driver_data; psb_surface_p rotate_surface = obj_surface->out_loop_surface; struct psb_buffer_s psb_buf; if (share_info && share_info->out_loop_khandle) { drv_debug_msg(VIDEO_DEBUG_GENERAL,"psb_DestroyRotateBuffer out_loop_khandle=%x\n", share_info->out_loop_khandle); vaStatus = psb_kbuffer_reference(driver_data, &psb_buf, share_info->out_loop_khandle); if (vaStatus != VA_STATUS_SUCCESS) return vaStatus; psb_buffer_destroy(&psb_buf); share_info->out_loop_khandle = 0; } if (rotate_surface) free(rotate_surface); return vaStatus; }