/* * Copyright © 2010-2011 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: * Zhou Chang * */ #include #include #include #include #include "assert.h" #include "intel_batchbuffer.h" #include "i965_defines.h" #include "i965_structs.h" #include "i965_drv_video.h" #include "i965_encoder.h" static void gen6_mfc_pipe_mode_select(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; BEGIN_BCS_BATCH(batch, 4); OUT_BCS_BATCH(batch, MFX_PIPE_MODE_SELECT | (4 - 2)); OUT_BCS_BATCH(batch, (0 << 10) | /* disable Stream-Out */ (1 << 9) | /* Post Deblocking Output */ (0 << 8) | /* Pre Deblocking Output */ (0 << 7) | /* disable TLB prefectch */ (0 << 5) | /* not in stitch mode */ (1 << 4) | /* encoding mode */ (2 << 0)); /* Standard Select: AVC */ OUT_BCS_BATCH(batch, (0 << 20) | /* round flag in PB slice */ (0 << 19) | /* round flag in Intra8x8 */ (0 << 7) | /* expand NOA bus flag */ (1 << 6) | /* must be 1 */ (0 << 5) | /* disable clock gating for NOA */ (0 << 4) | /* terminate if AVC motion and POC table error occurs */ (0 << 3) | /* terminate if AVC mbdata error occurs */ (0 << 2) | /* terminate if AVC CABAC/CAVLC decode error occurs */ (0 << 1) | /* AVC long field motion vector */ (0 << 0)); /* always calculate AVC ILDB boundary strength */ OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen7_mfc_pipe_mode_select(VADriverContextP ctx, int standard_select, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; assert(standard_select == MFX_FORMAT_MPEG2 || standard_select == MFX_FORMAT_AVC); BEGIN_BCS_BATCH(batch, 5); OUT_BCS_BATCH(batch, MFX_PIPE_MODE_SELECT | (5 - 2)); OUT_BCS_BATCH(batch, (MFX_LONG_MODE << 17) | /* Must be long format for encoder */ (MFD_MODE_VLD << 15) | /* VLD mode */ (0 << 10) | /* disable Stream-Out */ (1 << 9) | /* Post Deblocking Output */ (0 << 8) | /* Pre Deblocking Output */ (0 << 5) | /* not in stitch mode */ (1 << 4) | /* encoding mode */ (standard_select << 0)); /* standard select: avc or mpeg2 */ OUT_BCS_BATCH(batch, (0 << 7) | /* expand NOA bus flag */ (0 << 6) | /* disable slice-level clock gating */ (0 << 5) | /* disable clock gating for NOA */ (0 << 4) | /* terminate if AVC motion and POC table error occurs */ (0 << 3) | /* terminate if AVC mbdata error occurs */ (0 << 2) | /* terminate if AVC CABAC/CAVLC decode error occurs */ (0 << 1) | (0 << 0)); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_surface_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; BEGIN_BCS_BATCH(batch, 6); OUT_BCS_BATCH(batch, MFX_SURFACE_STATE | (6 - 2)); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, ((mfc_context->surface_state.height - 1) << 19) | ((mfc_context->surface_state.width - 1) << 6)); OUT_BCS_BATCH(batch, (MFX_SURFACE_PLANAR_420_8 << 28) | /* 420 planar YUV surface */ (1 << 27) | /* must be 1 for interleave U/V, hardware requirement */ (0 << 22) | /* surface object control state, FIXME??? */ ((mfc_context->surface_state.w_pitch - 1) << 3) | /* pitch */ (0 << 2) | /* must be 0 for interleave U/V */ (1 << 1) | /* must be y-tiled */ (I965_TILEWALK_YMAJOR << 0)); /* tile walk, TILEWALK_YMAJOR */ OUT_BCS_BATCH(batch, (0 << 16) | /* must be 0 for interleave U/V */ (mfc_context->surface_state.h_pitch)); /* y offset for U(cb) */ OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen7_mfc_surface_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; BEGIN_BCS_BATCH(batch, 6); OUT_BCS_BATCH(batch, MFX_SURFACE_STATE | (6 - 2)); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, ((mfc_context->surface_state.height - 1) << 18) | ((mfc_context->surface_state.width - 1) << 4)); OUT_BCS_BATCH(batch, (MFX_SURFACE_PLANAR_420_8 << 28) | /* 420 planar YUV surface */ (1 << 27) | /* must be 1 for interleave U/V, hardware requirement */ (0 << 22) | /* surface object control state, FIXME??? */ ((mfc_context->surface_state.w_pitch - 1) << 3) | /* pitch */ (0 << 2) | /* must be 0 for interleave U/V */ (1 << 1) | /* must be tiled */ (I965_TILEWALK_YMAJOR << 0)); /* tile walk, TILEWALK_YMAJOR */ OUT_BCS_BATCH(batch, (0 << 16) | /* must be 0 for interleave U/V */ (mfc_context->surface_state.h_pitch)); /* y offset for U(cb) */ OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_pipe_buf_addr_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; int i; BEGIN_BCS_BATCH(batch, 24); OUT_BCS_BATCH(batch, MFX_PIPE_BUF_ADDR_STATE | (24 - 2)); OUT_BCS_BATCH(batch, 0); /* pre output addr */ OUT_BCS_RELOC(batch, mfc_context->post_deblocking_output.bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, 0); /* post output addr */ OUT_BCS_RELOC(batch, mfc_context->uncompressed_picture_source.bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, 0); /* uncompressed data */ OUT_BCS_BATCH(batch, 0); /* StreamOut data*/ OUT_BCS_RELOC(batch, mfc_context->intra_row_store_scratch_buffer.bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, 0); OUT_BCS_RELOC(batch, mfc_context->deblocking_filter_row_store_scratch_buffer.bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, 0); /* 7..22 Reference pictures*/ for (i = 0; i < ARRAY_ELEMS(mfc_context->reference_surfaces); i++) { if ( mfc_context->reference_surfaces[i].bo != NULL) { OUT_BCS_RELOC(batch, mfc_context->reference_surfaces[i].bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, 0); } else { OUT_BCS_BATCH(batch, 0); } } OUT_BCS_BATCH(batch, 0); /* no block status */ ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_ind_obj_base_addr_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_vme_context *vme_context = &gen6_encoder_context->vme_context; BEGIN_BCS_BATCH(batch, 11); OUT_BCS_BATCH(batch, MFX_IND_OBJ_BASE_ADDR_STATE | (11 - 2)); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); /* MFX Indirect MV Object Base Address */ OUT_BCS_RELOC(batch, vme_context->vme_output.bo, I915_GEM_DOMAIN_INSTRUCTION, 0, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); /*MFC Indirect PAK-BSE Object Base Address for Encoder*/ OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen7_mfc_ind_obj_base_addr_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_vme_context *vme_context = &gen6_encoder_context->vme_context; BEGIN_BCS_BATCH(batch, 11); OUT_BCS_BATCH(batch, MFX_IND_OBJ_BASE_ADDR_STATE | (11 - 2)); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); /* MFX Indirect MV Object Base Address */ OUT_BCS_RELOC(batch, vme_context->vme_output.bo, I915_GEM_DOMAIN_INSTRUCTION, 0, 0); OUT_BCS_BATCH(batch, 0x80000000); /* must set, up to 2G */ OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); /*MFC Indirect PAK-BSE Object Base Address for Encoder*/ OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0x80000000); /* must set, up to 2G */ ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_bsp_buf_base_addr_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; BEGIN_BCS_BATCH(batch, 4); OUT_BCS_BATCH(batch, MFX_BSP_BUF_BASE_ADDR_STATE | (4 - 2)); OUT_BCS_RELOC(batch, mfc_context->bsd_mpc_row_store_scratch_buffer.bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_avc_img_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; int width_in_mbs = (mfc_context->surface_state.width + 15) / 16; int height_in_mbs = (mfc_context->surface_state.height + 15) / 16; BEGIN_BCS_BATCH(batch, 13); OUT_BCS_BATCH(batch, MFX_AVC_IMG_STATE | (13 - 2)); OUT_BCS_BATCH(batch, ((width_in_mbs * height_in_mbs) & 0xFFFF)); OUT_BCS_BATCH(batch, (height_in_mbs << 16) | (width_in_mbs << 0)); OUT_BCS_BATCH(batch, (0 << 24) | /*Second Chroma QP Offset*/ (0 << 16) | /*Chroma QP Offset*/ (0 << 14) | /*Max-bit conformance Intra flag*/ (0 << 13) | /*Max Macroblock size conformance Inter flag*/ (1 << 12) | /*Should always be written as "1" */ (0 << 10) | /*QM Preset FLag */ (0 << 8) | /*Image Structure*/ (0 << 0) ); /*Current Decoed Image Frame Store ID, reserved in Encode mode*/ OUT_BCS_BATCH(batch, (0 << 16) | /*Mininum Frame size*/ (0 << 15) | /*Disable reading of Macroblock Status Buffer*/ (0 << 14) | /*Load BitStream Pointer only once, 1 slic 1 frame*/ (0 << 13) | /*CABAC 0 word insertion test enable*/ (1 << 12) | /*MVUnpackedEnable,compliant to DXVA*/ (1 << 10) | /*Chroma Format IDC, 4:2:0*/ (1 << 7) | /*0:CAVLC encoding mode,1:CABAC*/ (0 << 6) | /*Only valid for VLD decoding mode*/ (0 << 5) | /*Constrained Intra Predition Flag, from PPS*/ (0 << 4) | /*Direct 8x8 inference flag*/ (0 << 3) | /*Only 8x8 IDCT Transform Mode Flag*/ (1 << 2) | /*Frame MB only flag*/ (0 << 1) | /*MBAFF mode is in active*/ (0 << 0) ); /*Field picture flag*/ OUT_BCS_BATCH(batch, 0); /*Mainly about MB rate control and debug, just ignoring*/ OUT_BCS_BATCH(batch, /*Inter and Intra Conformance Max size limit*/ (0xBB8 << 16) | /*InterMbMaxSz*/ (0xEE8) ); /*IntraMbMaxSz*/ OUT_BCS_BATCH(batch, 0); /*Reserved*/ OUT_BCS_BATCH(batch, 0); /*Slice QP Delta for bitrate control*/ OUT_BCS_BATCH(batch, 0); /*Slice QP Delta for bitrate control*/ OUT_BCS_BATCH(batch, 0x8C000000); OUT_BCS_BATCH(batch, 0x00010000); OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen7_mfc_avc_img_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; int width_in_mbs = (mfc_context->surface_state.width + 15) / 16; int height_in_mbs = (mfc_context->surface_state.height + 15) / 16; BEGIN_BCS_BATCH(batch, 16); OUT_BCS_BATCH(batch, MFX_AVC_IMG_STATE | (16 - 2)); OUT_BCS_BATCH(batch, ((width_in_mbs * height_in_mbs) & 0xFFFF)); OUT_BCS_BATCH(batch, ((height_in_mbs - 1) << 16) | ((width_in_mbs - 1) << 0)); OUT_BCS_BATCH(batch, (0 << 24) | /* Second Chroma QP Offset */ (0 << 16) | /* Chroma QP Offset */ (0 << 14) | /* Max-bit conformance Intra flag */ (0 << 13) | /* Max Macroblock size conformance Inter flag */ (0 << 12) | /* FIXME: Weighted_Pred_Flag */ (0 << 10) | /* FIXME: Weighted_BiPred_Idc */ (0 << 8) | /* FIXME: Image Structure */ (0 << 0) ); /* Current Decoed Image Frame Store ID, reserved in Encode mode */ OUT_BCS_BATCH(batch, (0 << 16) | /* Mininum Frame size */ (0 << 15) | /* Disable reading of Macroblock Status Buffer */ (0 << 14) | /* Load BitStream Pointer only once, 1 slic 1 frame */ (0 << 13) | /* CABAC 0 word insertion test enable */ (1 << 12) | /* MVUnpackedEnable,compliant to DXVA */ (1 << 10) | /* Chroma Format IDC, 4:2:0 */ (0 << 9) | /* FIXME: MbMvFormatFlag */ (1 << 7) | /* 0:CAVLC encoding mode,1:CABAC */ (0 << 6) | /* Only valid for VLD decoding mode */ (0 << 5) | /* Constrained Intra Predition Flag, from PPS */ (0 << 4) | /* Direct 8x8 inference flag */ (0 << 3) | /* Only 8x8 IDCT Transform Mode Flag */ (1 << 2) | /* Frame MB only flag */ (0 << 1) | /* MBAFF mode is in active */ (0 << 0)); /* Field picture flag */ OUT_BCS_BATCH(batch, 0); /* Mainly about MB rate control and debug, just ignoring */ OUT_BCS_BATCH(batch, /* Inter and Intra Conformance Max size limit */ (0xBB8 << 16) | /* InterMbMaxSz */ (0xEE8) ); /* IntraMbMaxSz */ OUT_BCS_BATCH(batch, 0); /* Reserved */ OUT_BCS_BATCH(batch, 0); /* Slice QP Delta for bitrate control */ OUT_BCS_BATCH(batch, 0); /* Slice QP Delta for bitrate control */ OUT_BCS_BATCH(batch, 0x8C000000); OUT_BCS_BATCH(batch, 0x00010000); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_avc_directmode_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; int i; BEGIN_BCS_BATCH(batch, 69); OUT_BCS_BATCH(batch, MFX_AVC_DIRECTMODE_STATE | (69 - 2)); //TODO: reference DMV for(i = 0; i < 16; i++){ OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); } //TODO: current DMV just for test #if 0 OUT_BCS_RELOC(batch, mfc_context->direct_mv_buffers[0].bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, 0); #else //drm_intel_bo_pin(mfc_context->direct_mv_buffers[0].bo, 0x1000); //OUT_BCS_BATCH(batch, mfc_context->direct_mv_buffers[0].bo->offset); OUT_BCS_BATCH(batch, 0); #endif OUT_BCS_BATCH(batch, 0); //TODO: POL list for(i = 0; i < 34; i++) { OUT_BCS_BATCH(batch, 0); } ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_avc_slice_state(VADriverContextP ctx, int intra_slice, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; BEGIN_BCS_BATCH(batch, 11);; OUT_BCS_BATCH(batch, MFX_AVC_SLICE_STATE | (11 - 2) ); if ( intra_slice ) OUT_BCS_BATCH(batch, 2); /*Slice Type: I Slice*/ else OUT_BCS_BATCH(batch, 0); /*Slice Type: P Slice*/ if ( intra_slice ) OUT_BCS_BATCH(batch, 0); /*no reference frames and pred_weight_table*/ else OUT_BCS_BATCH(batch, 0x00010000); /*1 reference frame*/ OUT_BCS_BATCH(batch, (0<<24) | /*Enable deblocking operation*/ (26<<16) | /*Slice Quantization Parameter*/ 0x0202 ); OUT_BCS_BATCH(batch, 0); /*First MB X&Y , the postion of current slice*/ OUT_BCS_BATCH(batch, ( ((mfc_context->surface_state.height+15)/16) << 16) ); OUT_BCS_BATCH(batch, (0<<31) | /*RateControlCounterEnable = disable*/ (1<<30) | /*ResetRateControlCounter*/ (2<<28) | /*RC Triggle Mode = Loose Rate Control*/ (1<<19) | /*IsLastSlice*/ (0<<18) | /*BitstreamOutputFlag Compressed BitStream Output Disable Flag 0:enable 1:disable*/ (0<<17) | /*HeaderPresentFlag*/ (1<<16) | /*SliceData PresentFlag*/ (0<<15) | /*TailPresentFlag*/ (1<<13) | /*RBSP NAL TYPE*/ (0<<12) ); /*CabacZeroWordInsertionEnable*/ OUT_BCS_RELOC(batch, mfc_context->mfc_indirect_pak_bse_object.bo, I915_GEM_DOMAIN_INSTRUCTION, I915_GEM_DOMAIN_INSTRUCTION, mfc_context->mfc_indirect_pak_bse_object.offset); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_avc_qm_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; int i; BEGIN_BCS_BATCH(batch, 58); OUT_BCS_BATCH(batch, MFX_AVC_QM_STATE | 56); OUT_BCS_BATCH(batch, 0xFF ) ; for( i = 0; i < 56; i++) { OUT_BCS_BATCH(batch, 0x10101010); } ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_avc_fqm_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; int i; BEGIN_BCS_BATCH(batch, 113); OUT_BCS_BATCH(batch, MFC_AVC_FQM_STATE | (113 - 2)); for(i = 0; i < 112;i++) { OUT_BCS_BATCH(batch, 0x10001000); } ADVANCE_BCS_BATCH(batch); } static void gen7_mfc_qm_state(VADriverContextP ctx, int qm_type, unsigned int *qm, int qm_length, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; unsigned int qm_buffer[16]; assert(qm_length <= 16); assert(sizeof(*qm) == 4); memcpy(qm_buffer, qm, qm_length * 4); BEGIN_BCS_BATCH(batch, 18); OUT_BCS_BATCH(batch, MFX_QM_STATE | (18 - 2)); OUT_BCS_BATCH(batch, qm_type << 0); intel_batchbuffer_data(batch, qm_buffer, 16 * 4); ADVANCE_BCS_BATCH(batch); } static void gen7_mfc_avc_qm_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { unsigned int qm[16] = { 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010, 0x10101010 }; gen7_mfc_qm_state(ctx, MFX_QM_AVC_4X4_INTRA_MATRIX, qm, 12, gen6_encoder_context); gen7_mfc_qm_state(ctx, MFX_QM_AVC_4X4_INTER_MATRIX, qm, 12, gen6_encoder_context); gen7_mfc_qm_state(ctx, MFX_QM_AVC_8x8_INTRA_MATRIX, qm, 16, gen6_encoder_context); gen7_mfc_qm_state(ctx, MFX_QM_AVC_8x8_INTER_MATRIX, qm, 16, gen6_encoder_context); } static void gen7_mfc_fqm_state(VADriverContextP ctx, int fqm_type, unsigned int *fqm, int fqm_length, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; unsigned int fqm_buffer[32]; assert(fqm_length <= 32); assert(sizeof(*fqm) == 4); memcpy(fqm_buffer, fqm, fqm_length * 4); BEGIN_BCS_BATCH(batch, 34); OUT_BCS_BATCH(batch, MFX_FQM_STATE | (34 - 2)); OUT_BCS_BATCH(batch, fqm_type << 0); intel_batchbuffer_data(batch, fqm_buffer, 32 * 4); ADVANCE_BCS_BATCH(batch); } static void gen7_mfc_avc_fqm_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { unsigned int qm[32] = { 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000, 0x10001000 }; gen7_mfc_fqm_state(ctx, MFX_QM_AVC_4X4_INTRA_MATRIX, qm, 24, gen6_encoder_context); gen7_mfc_fqm_state(ctx, MFX_QM_AVC_4X4_INTER_MATRIX, qm, 24, gen6_encoder_context); gen7_mfc_fqm_state(ctx, MFX_QM_AVC_8x8_INTRA_MATRIX, qm, 32, gen6_encoder_context); gen7_mfc_fqm_state(ctx, MFX_QM_AVC_8x8_INTER_MATRIX, qm, 32, gen6_encoder_context); } static void gen6_mfc_avc_ref_idx_state(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; int i; BEGIN_BCS_BATCH(batch, 10); OUT_BCS_BATCH(batch, MFX_AVC_REF_IDX_STATE | 8); OUT_BCS_BATCH(batch, 0); //Select L0 OUT_BCS_BATCH(batch, 0x80808000); //Only 1 reference for(i = 0; i < 7; i++) { OUT_BCS_BATCH(batch, 0x80808080); } ADVANCE_BCS_BATCH(batch); } static void gen6_mfc_avc_insert_object(VADriverContextP ctx, int flush_data, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; BEGIN_BCS_BATCH(batch, 4); OUT_BCS_BATCH(batch, MFC_AVC_INSERT_OBJECT | (4 -2 ) ); OUT_BCS_BATCH(batch, (32<<8) | (1 << 3) | (1 << 2) | (flush_data << 1) | (1<<0) ); OUT_BCS_BATCH(batch, 0x00000003); OUT_BCS_BATCH(batch, 0xABCD1234); ADVANCE_BCS_BATCH(batch); } static int gen6_mfc_avc_pak_object_intra(VADriverContextP ctx, int x, int y, int end_mb, int qp,unsigned int *msg, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; int len_in_dwords = 11; BEGIN_BCS_BATCH(batch, len_in_dwords); OUT_BCS_BATCH(batch, MFC_AVC_PAK_OBJECT | (len_in_dwords - 2)); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, 0); OUT_BCS_BATCH(batch, (0 << 24) | /* PackedMvNum, Debug*/ (0 << 20) | /* No motion vector */ (1 << 19) | /* CbpDcY */ (1 << 18) | /* CbpDcU */ (1 << 17) | /* CbpDcV */ (msg[0] & 0xFFFF) ); OUT_BCS_BATCH(batch, (0xFFFF<<16) | (y << 8) | x); /* Code Block Pattern for Y*/ OUT_BCS_BATCH(batch, 0x000F000F); /* Code Block Pattern */ OUT_BCS_BATCH(batch, (0 << 27) | (end_mb << 26) | qp); /* Last MB */ /*Stuff for Intra MB*/ OUT_BCS_BATCH(batch, msg[1]); /* We using Intra16x16 no 4x4 predmode*/ OUT_BCS_BATCH(batch, msg[2]); OUT_BCS_BATCH(batch, msg[3]&0xFC); OUT_BCS_BATCH(batch, 0x8040000); /*MaxSizeInWord and TargetSzieInWord*/ ADVANCE_BCS_BATCH(batch); return len_in_dwords; } static int gen6_mfc_avc_pak_object_inter(VADriverContextP ctx, int x, int y, int end_mb, int qp, unsigned int offset, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; int len_in_dwords = 11; BEGIN_BCS_BATCH(batch, len_in_dwords); OUT_BCS_BATCH(batch, MFC_AVC_PAK_OBJECT | (len_in_dwords - 2)); OUT_BCS_BATCH(batch, 32); /* 32 MV*/ OUT_BCS_BATCH(batch, offset); OUT_BCS_BATCH(batch, (1 << 24) | /* PackedMvNum, Debug*/ (4 << 20) | /* 8 MV, SNB don't use it*/ (1 << 19) | /* CbpDcY */ (1 << 18) | /* CbpDcU */ (1 << 17) | /* CbpDcV */ (0 << 15) | /* Transform8x8Flag = 0*/ (0 << 14) | /* Frame based*/ (0 << 13) | /* Inter MB */ (1 << 8) | /* MbType = P_L0_16x16 */ (0 << 7) | /* MBZ for frame */ (0 << 6) | /* MBZ */ (2 << 4) | /* MBZ for inter*/ (0 << 3) | /* MBZ */ (0 << 2) | /* SkipMbFlag */ (0 << 0)); /* InterMbMode */ OUT_BCS_BATCH(batch, (0xFFFF<<16) | (y << 8) | x); /* Code Block Pattern for Y*/ OUT_BCS_BATCH(batch, 0x000F000F); /* Code Block Pattern */ OUT_BCS_BATCH(batch, (0 << 27) | (end_mb << 26) | qp); /* Last MB */ /*Stuff for Inter MB*/ OUT_BCS_BATCH(batch, 0x0); OUT_BCS_BATCH(batch, 0x0); OUT_BCS_BATCH(batch, 0x0); OUT_BCS_BATCH(batch, 0xF0020000); /*MaxSizeInWord and TargetSzieInWord*/ ADVANCE_BCS_BATCH(batch); return len_in_dwords; } static void gen6_mfc_init(VADriverContextP ctx, struct gen6_encoder_context *gen6_encoder_context) { struct i965_driver_data *i965 = i965_driver_data(ctx); struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; dri_bo *bo; int i; /*Encode common setup for MFC*/ dri_bo_unreference(mfc_context->post_deblocking_output.bo); mfc_context->post_deblocking_output.bo = NULL; dri_bo_unreference(mfc_context->pre_deblocking_output.bo); mfc_context->pre_deblocking_output.bo = NULL; dri_bo_unreference(mfc_context->uncompressed_picture_source.bo); mfc_context->uncompressed_picture_source.bo = NULL; dri_bo_unreference(mfc_context->mfc_indirect_pak_bse_object.bo); mfc_context->mfc_indirect_pak_bse_object.bo = NULL; for (i = 0; i < NUM_MFC_DMV_BUFFERS; i++){ dri_bo_unreference(mfc_context->direct_mv_buffers[i].bo); mfc_context->direct_mv_buffers[i].bo = NULL; } for (i = 0; i < MAX_MFC_REFERENCE_SURFACES; i++){ if (mfc_context->reference_surfaces[i].bo != NULL) dri_bo_unreference(mfc_context->reference_surfaces[i].bo); mfc_context->reference_surfaces[i].bo = NULL; } dri_bo_unreference(mfc_context->intra_row_store_scratch_buffer.bo); bo = dri_bo_alloc(i965->intel.bufmgr, "Buffer", 128 * 64, 64); assert(bo); mfc_context->intra_row_store_scratch_buffer.bo = bo; dri_bo_unreference(mfc_context->deblocking_filter_row_store_scratch_buffer.bo); bo = dri_bo_alloc(i965->intel.bufmgr, "Buffer", 49152, /* 6 * 128 * 64 */ 64); assert(bo); mfc_context->deblocking_filter_row_store_scratch_buffer.bo = bo; dri_bo_unreference(mfc_context->bsd_mpc_row_store_scratch_buffer.bo); bo = dri_bo_alloc(i965->intel.bufmgr, "Buffer", 12288, /* 1.5 * 128 * 64 */ 0x1000); assert(bo); mfc_context->bsd_mpc_row_store_scratch_buffer.bo = bo; } void gen6_mfc_avc_pipeline_programing(VADriverContextP ctx, struct encode_state *encode_state, struct gen6_encoder_context *gen6_encoder_context) { struct i965_driver_data *i965 = i965_driver_data(ctx); struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; struct gen6_vme_context *vme_context = &gen6_encoder_context->vme_context; VAEncSequenceParameterBufferH264 *pSequenceParameter = (VAEncSequenceParameterBufferH264 *)encode_state->seq_param->buffer; VAEncSliceParameterBuffer *pSliceParameter = (VAEncSliceParameterBuffer *)encode_state->slice_params[0]->buffer; /* FIXME: multi slices */ unsigned int *msg = NULL, offset = 0; int emit_new_state = 1, object_len_in_bytes; int is_intra = pSliceParameter->slice_flags.bits.is_intra; int width_in_mbs = (mfc_context->surface_state.width + 15) / 16; int height_in_mbs = (mfc_context->surface_state.height + 15) / 16; int x,y; intel_batchbuffer_start_atomic_bcs(batch, 0x1000); if (is_intra) { dri_bo_map(vme_context->vme_output.bo , 1); msg = (unsigned int *)vme_context->vme_output.bo->virtual; } for (y = 0; y < height_in_mbs; y++) { for (x = 0; x < width_in_mbs; x++) { int last_mb = (y == (height_in_mbs-1)) && ( x == (width_in_mbs-1) ); int qp = pSequenceParameter->initial_qp; if (emit_new_state) { intel_batchbuffer_emit_mi_flush(batch); if (IS_GEN7(i965->intel.device_id)) { gen7_mfc_pipe_mode_select(ctx, MFX_FORMAT_AVC, gen6_encoder_context); gen7_mfc_surface_state(ctx, gen6_encoder_context); gen7_mfc_ind_obj_base_addr_state(ctx, gen6_encoder_context); } else { gen6_mfc_pipe_mode_select(ctx, gen6_encoder_context); gen6_mfc_surface_state(ctx, gen6_encoder_context); gen6_mfc_ind_obj_base_addr_state(ctx, gen6_encoder_context); } gen6_mfc_pipe_buf_addr_state(ctx, gen6_encoder_context); gen6_mfc_bsp_buf_base_addr_state(ctx, gen6_encoder_context); if (IS_GEN7(i965->intel.device_id)) { gen7_mfc_avc_img_state(ctx, gen6_encoder_context); gen7_mfc_avc_qm_state(ctx, gen6_encoder_context); gen7_mfc_avc_fqm_state(ctx, gen6_encoder_context); } else { gen6_mfc_avc_img_state(ctx, gen6_encoder_context); gen6_mfc_avc_qm_state(ctx, gen6_encoder_context); gen6_mfc_avc_fqm_state(ctx, gen6_encoder_context); } gen6_mfc_avc_ref_idx_state(ctx, gen6_encoder_context); gen6_mfc_avc_slice_state(ctx, is_intra, gen6_encoder_context); emit_new_state = 0; } if (is_intra) { assert(msg); object_len_in_bytes = gen6_mfc_avc_pak_object_intra(ctx, x, y, last_mb, qp, msg, gen6_encoder_context); msg += 4; } else { object_len_in_bytes = gen6_mfc_avc_pak_object_inter(ctx, x, y, last_mb, qp, offset, gen6_encoder_context); offset += 64; } if (intel_batchbuffer_check_free_space(batch, object_len_in_bytes) == 0) { intel_batchbuffer_end_atomic(batch); intel_batchbuffer_flush(batch); emit_new_state = 1; intel_batchbuffer_start_atomic_bcs(batch, 0x1000); } } } if (is_intra) dri_bo_unmap(vme_context->vme_output.bo); intel_batchbuffer_end_atomic(batch); } static VAStatus gen6_mfc_avc_prepare(VADriverContextP ctx, struct encode_state *encode_state, struct gen6_encoder_context *gen6_encoder_context) { struct i965_driver_data *i965 = i965_driver_data(ctx); struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; struct object_surface *obj_surface; struct object_buffer *obj_buffer; dri_bo *bo; VAEncPictureParameterBufferH264 *pPicParameter = (VAEncPictureParameterBufferH264 *)encode_state->pic_param->buffer; VAStatus vaStatus = VA_STATUS_SUCCESS; /*Setup all the input&output object*/ obj_surface = SURFACE(pPicParameter->reconstructed_picture); assert(obj_surface); i965_check_alloc_surface_bo(ctx, obj_surface, 1, VA_FOURCC('N','V','1','2'), SUBSAMPLE_YUV420); mfc_context->post_deblocking_output.bo = obj_surface->bo; dri_bo_reference(mfc_context->post_deblocking_output.bo); mfc_context->surface_state.width = obj_surface->orig_width; mfc_context->surface_state.height = obj_surface->orig_height; mfc_context->surface_state.w_pitch = obj_surface->width; mfc_context->surface_state.h_pitch = obj_surface->height; obj_surface = SURFACE(pPicParameter->reference_picture); assert(obj_surface); if (obj_surface->bo != NULL) { mfc_context->reference_surfaces[0].bo = obj_surface->bo; dri_bo_reference(obj_surface->bo); } obj_surface = SURFACE(encode_state->current_render_target); assert(obj_surface && obj_surface->bo); mfc_context->uncompressed_picture_source.bo = obj_surface->bo; dri_bo_reference(mfc_context->uncompressed_picture_source.bo); obj_buffer = BUFFER (pPicParameter->coded_buf); /* FIXME: fix this later */ bo = obj_buffer->buffer_store->bo; assert(bo); mfc_context->mfc_indirect_pak_bse_object.bo = bo; mfc_context->mfc_indirect_pak_bse_object.offset = ALIGN(sizeof(VACodedBufferSegment), 64); dri_bo_reference(mfc_context->mfc_indirect_pak_bse_object.bo); /*Programing bcs pipeline*/ gen6_mfc_avc_pipeline_programing(ctx, encode_state, gen6_encoder_context); //filling the pipeline return vaStatus; } static VAStatus gen6_mfc_run(VADriverContextP ctx, struct encode_state *encode_state, struct gen6_encoder_context *gen6_encoder_context) { struct intel_batchbuffer *batch = gen6_encoder_context->base.batch; intel_batchbuffer_flush(batch); //run the pipeline return VA_STATUS_SUCCESS; } static VAStatus gen6_mfc_stop(VADriverContextP ctx, struct encode_state *encode_state, struct gen6_encoder_context *gen6_encoder_context) { #if 0 struct i965_driver_data *i965 = i965_driver_data(ctx); struct gen6_mfc_context *mfc_context = &gen6_encoder_context->mfc_context; VAEncPictureParameterBufferH264 *pPicParameter = (VAEncPictureParameterBufferH264 *)encode_state->pic_param->buffer; struct object_surface *obj_surface = SURFACE(pPicParameter->reconstructed_picture); //struct object_surface *obj_surface = SURFACE(pPicParameter->reference_picture[0]); //struct object_surface *obj_surface = SURFACE(encode_state->current_render_target); my_debug(obj_surface); #endif return VA_STATUS_SUCCESS; } static VAStatus gen6_mfc_avc_encode_picture(VADriverContextP ctx, struct encode_state *encode_state, struct gen6_encoder_context *gen6_encoder_context) { gen6_mfc_init(ctx, gen6_encoder_context); gen6_mfc_avc_prepare(ctx, encode_state, gen6_encoder_context); gen6_mfc_run(ctx, encode_state, gen6_encoder_context); gen6_mfc_stop(ctx, encode_state, gen6_encoder_context); return VA_STATUS_SUCCESS; } VAStatus gen6_mfc_pipeline(VADriverContextP ctx, VAProfile profile, struct encode_state *encode_state, struct gen6_encoder_context *gen6_encoder_context) { VAStatus vaStatus; switch (profile) { case VAProfileH264Baseline: vaStatus = gen6_mfc_avc_encode_picture(ctx, encode_state, gen6_encoder_context); break; /* FIXME: add for other profile */ default: vaStatus = VA_STATUS_ERROR_UNSUPPORTED_PROFILE; break; } return vaStatus; } Bool gen6_mfc_context_init(VADriverContextP ctx, struct gen6_mfc_context *mfc_context) { return True; } Bool gen6_mfc_context_destroy(struct gen6_mfc_context *mfc_context) { int i; dri_bo_unreference(mfc_context->post_deblocking_output.bo); mfc_context->post_deblocking_output.bo = NULL; dri_bo_unreference(mfc_context->pre_deblocking_output.bo); mfc_context->pre_deblocking_output.bo = NULL; dri_bo_unreference(mfc_context->uncompressed_picture_source.bo); mfc_context->uncompressed_picture_source.bo = NULL; dri_bo_unreference(mfc_context->mfc_indirect_pak_bse_object.bo); mfc_context->mfc_indirect_pak_bse_object.bo = NULL; for (i = 0; i < NUM_MFC_DMV_BUFFERS; i++){ dri_bo_unreference(mfc_context->direct_mv_buffers[i].bo); mfc_context->direct_mv_buffers[i].bo = NULL; } dri_bo_unreference(mfc_context->intra_row_store_scratch_buffer.bo); mfc_context->intra_row_store_scratch_buffer.bo = NULL; dri_bo_unreference(mfc_context->deblocking_filter_row_store_scratch_buffer.bo); mfc_context->deblocking_filter_row_store_scratch_buffer.bo = NULL; dri_bo_unreference(mfc_context->bsd_mpc_row_store_scratch_buffer.bo); mfc_context->bsd_mpc_row_store_scratch_buffer.bo = NULL; return True; }