1 /** 2 * file vsp.h 3 * Author: Binglin Chen <binglin.chen@intel.com> 4 * 5 */ 6 7 /************************************************************************** 8 * Copyright (c) 2007, Intel Corporation. 9 * All Rights Reserved. 10 * 11 * This program is free software; you can redistribute it and/or modify it 12 * under the terms and conditions of the GNU General Public License, 13 * version 2, as published by the Free Software Foundation. 14 * 15 * This program is distributed in the hope it will be useful, but WITHOUT 16 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 17 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 18 * more details. 19 * 20 * You should have received a copy of the GNU General Public License along with 21 * this program; if not, write to the Free Software Foundation, Inc., 22 * 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA. 23 * 24 **************************************************************************/ 25 26 #ifndef _VSP_FW_H_ 27 #define _VSP_FW_H_ 28 29 #pragma pack(4) 30 #define VssProcPipelineMaxNumFilters 5 31 #define VSS_PROC_MAX_INPUT_PICTURES 1 32 #define VSS_PROC_MAX_OUTPUT_PICTURES 4 33 34 /* Application IDs for applications that use secure boot 35 * and context-switching 36 * */ 37 #define VSP_APP_ID_NONE 0 38 #define VSP_APP_ID_FRC_VPP 1 39 #define VSP_APP_ID_VP8_ENC 2 40 #define VSP_APP_ID_WIDI_ENC 3 41 42 enum VssProcFilterType { 43 VssProcFilterDenoise, 44 VssProcFilterSharpening, 45 VssProcFilterColorEnhancement, 46 VssProcFilterFrameRateConversion 47 }; 48 49 enum VssDenoiseType { 50 VssProcDegrain, 51 VssProcDeblock 52 }; 53 54 enum VssFrcQuality { 55 /* VssFrcLowQuality, */ 56 VssFrcMediumQuality, 57 VssFrcHighQuality 58 }; 59 60 enum VssFrcConversionRate { 61 VssFrc2xConversionRate, 62 VssFrc2_5xConversionRate, 63 VssFrc4xConversionRate, 64 VssFrc1_25xConversionRate 65 }; 66 67 struct VssProcPipelineParameterBuffer { 68 unsigned int num_filters; 69 enum VssProcFilterType filter_pipeline[VssProcPipelineMaxNumFilters]; 70 unsigned int intermediate_buffer_base; 71 unsigned int intermediate_buffer_size; 72 }; 73 74 struct VssProcSharpenParameterBuffer { 75 int quality; 76 /* to make multiple of 32 bytes*/ 77 unsigned int _pad[7]; 78 }; 79 80 struct VssProcDenoiseParameterBuffer { 81 enum VssDenoiseType type; 82 int value_thr; 83 int cnt_thr; 84 int coef; 85 int temp_thr1; 86 int temp_thr2; 87 /* to make multiple of 32 bytes*/ 88 int _pad[2]; 89 }; 90 91 struct VssProcColorEnhancementParameterBuffer { 92 int temp_detect; 93 int temp_correct; 94 int clip_thr; 95 int mid_thr; 96 int luma_amm; 97 int chroma_amm; 98 /* to make multiple of 32 bytes*/ 99 int _pad[2]; 100 }; 101 102 struct VssProcFrcParameterBuffer { 103 enum VssFrcQuality quality; 104 enum VssFrcConversionRate conversion_rate; 105 /* to make multiple of 32 bytes*/ 106 int _pad[6]; 107 }; 108 109 /* Set the rotation angle */ 110 #define VSP_ROTATION_NONE 0 111 #define VSP_ROTATION_90 90 112 #define VSP_ROTATION_180 180 113 #define VSP_ROTATION_270 270 114 115 struct VssProcPicture { 116 unsigned int surface_id; 117 /* send interupt when input or output surface is ready */ 118 unsigned int irq; 119 unsigned int base; 120 unsigned int height; 121 unsigned int width; 122 unsigned int rot_angle; 123 unsigned int stride; 124 /* frame raw format */ 125 unsigned int format; 126 /* flag indicating if frame is stored in tiled format */ 127 unsigned int tiled; 128 /* to make multiple of 32 bytes*/ 129 int _pad[7]; 130 }; 131 132 struct VssProcPictureParameterBuffer { 133 unsigned int num_input_pictures; 134 unsigned int num_output_pictures; 135 /* to make multiple of 32 bytes*/ 136 int _pad[6]; 137 struct VssProcPicture input_picture[VSS_PROC_MAX_INPUT_PICTURES]; 138 struct VssProcPicture output_picture[VSS_PROC_MAX_OUTPUT_PICTURES]; 139 }; 140 141 union VssProcBuffer { 142 struct VssProcPipelineParameterBuffer pipeline; 143 struct VssProcSharpenParameterBuffer sharpen_base; 144 struct VssProcDenoiseParameterBuffer denoiser_base; 145 struct VssProcColorEnhancementParameterBuffer enhancer_base; 146 struct VssProcFrcParameterBuffer frc; 147 struct VssProcPictureParameterBuffer picture; 148 }; 149 150 enum VssProcCommandType { 151 VssProcPipelineParameterCommand = 0xFFFE, 152 VssProcSharpenParameterCommand = 0xFFFD, 153 VssProcDenoiseParameterCommand = 0xFFFC, 154 VssProcColorEnhancementParameterCommand = 0xFFFB, 155 VssProcFrcParameterCommand = 0xFFFA, 156 VssProcPictureCommand = 0xFFF9, 157 VspFencePictureParamCommand = 0xEBEC, 158 VspSetContextCommand = 0xEBED, 159 Vss_Sys_STATE_BUF_COMMAND = 0xEBEE, 160 VspFenceComposeCommand = 0xEBEF 161 }; 162 163 #define VSP_CMD_QUEUE_SIZE (64) 164 #define VSP_ACK_QUEUE_SIZE (64) 165 166 /* 167 * Command types and data structure. 168 * Each command has a type. Depending on the type there is some kind 169 * of data in external memory, 170 * The VSS will use its DMA to load data from the buffer into local memory. 171 */ 172 struct vss_command_t { 173 unsigned int context; 174 unsigned int type; 175 unsigned int buffer; 176 unsigned int size; 177 unsigned int buffer_id; 178 unsigned int irq; 179 unsigned int reserved6; 180 unsigned int reserved7; 181 }; 182 183 struct vss_response_t { 184 unsigned int context; 185 unsigned int type; 186 unsigned int buffer; 187 unsigned int size; 188 unsigned int vss_cc; 189 unsigned int reserved5; 190 unsigned int reserved6; 191 unsigned int reserved7; 192 }; 193 194 /* Default initial values for vsp-command and vsp-response 195 * Using those avoids the risk of uninitialized warnings when 196 * the definition changes. 197 */ 198 #define VSP_COMMAND_INITIALIZER {0, 0, 0, 0, 0, 0, 0, 0} 199 #define VSP_RESPONSE_INITIALIZER {0, 0, 0, 0, 0, 0, 0, 0} 200 201 /* 202 * Response types 203 */ 204 enum VssResponseType { 205 VssIdleResponse = 0x80010000, 206 VssErrorResponse = 0x80020000, 207 VssEndOfSequenceResponse = 0x80030000, 208 VssCommandBufferReadyResponse = 0x80040000, 209 VssInputSurfaceReadyResponse = 0x80050000, 210 VssOutputSurfaceReadyResponse = 0x80060000, 211 VssVp8encSetSequenceParametersResponse = 150, 212 VssVp8encEncodeFrameResponse 213 }; 214 215 enum VssStatus { 216 VssOK = 0x8001, 217 VssInvalidCommandType = 0x8002, 218 VssInvalidCommandArgument = 0x8003, 219 VssInvalidProcPictureCommand = 0x8004, 220 VssInvalidDdrAddress = 0x8005, 221 VssInvalidSequenceParameters_VP8 = 0x1, 222 VssInvalidPictureParameters_VP8 = 0x2, 223 VssContextMustBeDestroyed_VP8 = 0x3, 224 VssInitFailure_VP8 = 0x5, 225 VssCorruptFrame = 0x6, 226 VssCorruptFramecontinue_VP8 = 0x7 227 }; 228 229 enum FrcResponseType { 230 VssOutputSurfaceFreeResponse = 0x0000F001, 231 VssOutputSurfaceCrcResponse = 0x0000F002 232 }; 233 234 enum vsp_format { 235 VSP_NV12, 236 VSP_YV12, 237 VSP_UYVY, 238 VSP_YUY2, 239 VSP_NV11, 240 VSP_NV16, 241 VSP_IYUV, 242 VSP_TYPE_ERROR 243 }; 244 245 struct vsp_data { 246 unsigned int fw_state; 247 unsigned int uninit_req; 248 }; 249 250 #define VSP_SECURE_BOOT_MAGIC_NR 0xb0070001 251 252 enum vsp_processor { 253 vsp_sp0 = 0, 254 vsp_sp1 = 1, 255 vsp_vp0 = 2, 256 vsp_vp1 = 3, 257 vsp_mea = 4 258 }; 259 260 /** 261 * Header-data/struct by PUnit to start VSP boot-processor 262 * This struct is mapped directly into the header of the multi-application-blob 263 * 264 * For each value that is to be written to the VSP, the register-address to 265 * write to is listed directly after the value to be written. 266 * 267 * Entries that contain values can be written directly into the VSP-system. 268 * Offsets need to have the secure-boot-header-address added and then be written 269 * into the VSP 270 * 271 * boot_start_value should always be the last value written. (Since it starts 272 * the VSP) 273 */ 274 struct vsp_secure_boot_header { 275 /* Magic number to identify header version */ 276 unsigned int magic_number; 277 278 /* Offset to text section of boot-program in blob */ 279 unsigned int boot_text_offset; 280 /* iCache base-address of boot-processor */ 281 unsigned int boot_text_reg; 282 283 /* Value of icache-control-bits to write to boot-processor */ 284 unsigned int boot_icache_value; 285 /* status&control register of boot-processor */ 286 unsigned int boot_icache_reg; 287 288 /* Value of program counter to write to boot-processor */ 289 /* address of main-function in boot-program */ 290 unsigned int boot_pc_value; 291 /* pc-start-register of boot-processor */ 292 unsigned int boot_pc_reg; 293 294 /* Offset of multi-application-header in blob */ 295 unsigned int ma_header_offset; 296 unsigned int ma_header_reg; 297 298 /* Value to write to start the boot-processor */ 299 unsigned int boot_start_value; 300 /* status&control register of boot-processor */ 301 unsigned int boot_start_reg; 302 }; 303 304 #define VSP_MULTI_APP_MAGIC_NR 0xb10b0005 305 /* 306 * Note: application index/id 0 is reserved. 307 * So the maximum number of applications is one less than listed here. 308 * */ 309 #define VSP_MULTI_APP_MAX_APPS 16 310 311 /* 312 * With a 1MB state-buffer in IMR and a 50k context-buffer-size, we could run 313 * * max 20 apps. Using 32 as a nice round number of maximum nr of contexts. 314 * * Actual maximum allowed contexts is currently less, since context-buffer-size 315 * * is larger than 50k. 316 * */ 317 #define VSP_MULTI_APP_MAX_CONTEXTS 32 318 #define VSP_API_GENERIC_CONTEXT_ID (0xffffffff) 319 /* 320 * Struct used by VSP-boot-processor to start the correct application 321 * Read from header in firmware ma-blob. 322 * Address of the header is communicated by p-unit. 323 * 324 * Note: this is a VIED internal header 325 */ 326 struct vsp_multi_app_blob_data { 327 unsigned int magic_number; 328 unsigned int offset_from_start; 329 /** State buffer address in virtual memory, default location on TNG B0 and ANN 330 * * is 0xA0000000 (2.5GB memory offset, master port 2, 2nd IMR region) */ 331 unsigned int imr_state_buffer_addr; 332 /** Size of state-buffer in IMR (in bytes). Default state buffer size for TNG 333 * * B0 and ANN is 1 MB */ 334 unsigned int imr_state_buffer_size; 335 /** default context-buffer size of apps in this blob (each app also has it's 336 * context-size in it's header. */ 337 unsigned int apps_default_context_buffer_size; 338 /** 339 * Address of genboot-helper-program in blob (relative to start of this header) 340 */ 341 unsigned int genboot_helper_prog_offset; 342 /* 343 * * This table contains a zero (offset of zero) for unused entries 344 * * Offsets here are relative to the start-address of this header. 345 */ 346 unsigned int application_blob_offsets[VSP_MULTI_APP_MAX_APPS]; 347 }; 348 349 /* 350 * Struct for the settings of a single context. Normally placed in an array in 351 * the multi-app header in IMR 352 * 353 * Context-id is determined by the position in the array, so it is not stored in 354 * the struct itself. 355 * 356 * State_buffer_size and state_buffer_addr are currently not stored, since they 357 * can/will be determined automatically based on generic IMR parameters. 358 * 359 * Usage field is the last field, so that it gets written last during a memory 360 * transfer. 361 */ 362 struct vsp_multi_app_context_settings { 363 unsigned int app_id; /* Which app this context belongs to */ 364 unsigned int usage; /* Indicates if this context is in use */ 365 }; 366 367 /* 368 * Datastructure placed at the beginning of the VSP IMR state-save region. 369 * */ 370 struct vsp_multi_app_imr_header { 371 /* 372 * Usage field (32-bit), set to 0 by Chaabi during system bootup, set to 1 373 * by VSP if it is safe for PUnit to perform a restart without power-cycle. 374 * Set to any other value by VSP if VSP is running. 375 * */ 376 unsigned int vsp_and_imr_state; 377 /* Reserved field for 256-bit alignment of header */ 378 unsigned int reserved_1; 379 /* Reserved field for 256-bit alignment of header */ 380 unsigned int reserved_2; 381 /* Reserved field for 256-bit alignment of header */ 382 unsigned int reserved_3; 383 /* Reserved field for 256-bit alignment of header */ 384 unsigned int reserved_4; 385 /* Reserved field for 256-bit alignment of header */ 386 unsigned int reserved_5; 387 /* Reserved field for 256-bit alignment of header */ 388 unsigned int reserved_6; 389 /* Reserved field for 256-bit alignment of header */ 390 unsigned int reserved_7; 391 /* Settings of all active/available contexts */ 392 struct vsp_multi_app_context_settings context_settings[VSP_MULTI_APP_MAX_CONTEXTS]; 393 }; 394 395 enum vsp_imr_state{ 396 /** State when no data for VSP is initialized */ 397 vsp_imr_uninitialized = 0, 398 /** State where datastructures are initialized, but no VSP is running */ 399 vsp_imr_safe_to_resume = 1, 400 /** State where datastructures are initialized and VSP(-API) is running */ 401 vsp_imr_initialized = 2, 402 /** State where datastructures are initialized and VSP(-APP) is running */ 403 vsp_imr_app_is_running = 3 404 }; 405 406 enum vsp_ctrl_reg_addr { 407 VSP_SETTING_ADDR_REG = 3, 408 VSP_SECBOOT_DEBUG_REG = 4, 409 VSP_ENTRY_KIND_REG = 5, 410 VSP_POWER_SAVING_MODE_REG = 6, 411 VSP_MMU_TLB_SOFT_INVALIDATE_REG = 7, 412 VSP_CMD_QUEUE_RD_REG = 12, 413 VSP_CMD_QUEUE_WR_REG = 13, 414 VSP_ACK_QUEUE_RD_REG = 14, 415 VSP_ACK_QUEUE_WR_REG = 15 416 }; 417 418 struct vsp_ctrl_reg { 419 unsigned int reserved_2; 420 421 /* setting address from host to firmware */ 422 unsigned int setting_addr; 423 424 /* used for sending debug-status from firmware to host */ 425 unsigned int secboot_debug; 426 427 /* entry type from host to firmware 428 * If it contains vsp_exit, uninitialize the firmware 429 */ 430 unsigned int entry_kind; 431 432 /* set the power-saving-mode setting */ 433 unsigned int power_saving_mode; 434 435 /* config reg to request firmware to perform an MMU TLB invalidate. 436 * MMU TLB invalidation for VSP on TNG needs to be done through firmware 437 * due to a hardware bug that could trigger if TLB invalidation is done 438 * while VSP DMA is not idle. 439 */ 440 unsigned int mmu_tlb_soft_invalidate; 441 442 unsigned int reserved_8; 443 unsigned int reserved_9; 444 unsigned int reserved_10; 445 unsigned int reserved_11; 446 447 /* used for the command and response queues */ 448 unsigned int cmd_rd; 449 unsigned int cmd_wr; 450 unsigned int ack_rd; 451 unsigned int ack_wr; 452 }; 453 454 /* constant parameters passed from host to firmware, 455 * address of this struct is passed via config reg 456 * struct is written to ddr in vsp_init call, destroyed upon uninit 457 */ 458 struct vsp_settings_t { 459 /* Extra field to align to 256 bit (for DMA) */ 460 unsigned int reserved0; 461 unsigned int command_queue_size; 462 unsigned int command_queue_addr; 463 unsigned int response_queue_size; 464 unsigned int response_queue_addr; 465 /* Extra field to align to 256 bit (for DMA) */ 466 unsigned int reserved5; 467 /* Extra field to align to 256 bit (for DMA) */ 468 unsigned int reserved6; 469 unsigned int reserved7; 470 }; 471 472 /** 473 * The host should only modify the vsp_context_settings_entry when the usage 474 * field is vsp_context_unused or vsp_context_uninit. The host can do the 475 * following state-transitions for the usage field: 476 * 1) vsp_context_unused->vsp_context_starting: start a new stream/context. 477 * After this transition, the host can submit commands into the command-queue 478 * for the context-id associated with this vsp_context_settings entry. 479 * 2) vsp_context_deinit->vsp_context_unused: destroy resources (free state 480 * buffer) from the no longer needed context and mark the context as being 481 * unused. 482 * 483 * The VSP will only modify the vsp_context_settings_entry when the usage 484 * field is vsp_context_starting or vsp_context_in_use. The VSP will do the 485 * following state-transitions for the usage field: 486 * 3) vsp_context_starting->vsp_context_in_use: Perform initialisation of 487 * state-buffers and other VSP-side initialisation required to start a new 488 * stream/context. This is typically done when the first command for this 489 * context is received from the host. 490 * 4) vsp_context_in_use->vsp_context_deinit: Mark a context as being no longer 491 * used by the VSP. The VSP will no longer access any resource used by this 492 * context after this transition. This transition is done after an 493 * end-of-stream response or similar response to the host to indicate that an 494 * application finished for a specific context. 495 */ 496 enum vsp_context_usage { 497 vsp_context_unused = 0, 498 vsp_context_deinit = 1, 499 vsp_context_starting = 16, 500 vsp_context_in_use = 17 501 }; 502 503 /* default initializer to initialize vsp_settings struct 504 * (including the extra alignment fields) 505 */ 506 #define VSP_SETTINGS_INITIALIZER {0, 0, 0, 0, 0, 0, 0, 0} 507 508 /* values passed via VSP_ENTRY_TYPE_REG 509 * vsp_entry_booted is the default value, it means no init or resume has been 510 * communicated by the host yet. 511 * vsp_entry_init and vsp_entry_resume are used for initial starting of the 512 * system and for resuming after a suspend/power-down. 513 */ 514 enum vsp_entry_kind { 515 vsp_entry_booted = 0, 516 vsp_entry_init = 1, 517 vsp_entry_resume = 2, 518 vsp_exit = 3 519 }; 520 521 /* values passed via VSP_POWER_SAVING_MODE_REG */ 522 enum vsp_power_saving_mode { 523 vsp_always_on = 0, 524 vsp_suspend_on_empty_queue = 1, 525 vsp_hw_idle_on_empty_queue = 2, 526 vsp_suspend_and_hw_idle_on_empty_queue 527 }; 528 529 /**************************** 530 * VP8enc data structures 531 ****************************/ 532 533 /** 534 * Picture data structure. Currently the same as frc 535 */ 536 struct VssProcPictureVP8 { 537 uint32_t surface_id; 538 uint32_t irq; /* send interupt when input or output surface is ready */ 539 uint32_t base; /* pointer to luma picture in DDR */ 540 uint32_t base_uv; /* pointer to chroma picture in DDR */ 541 uint32_t height; 542 uint32_t width; 543 uint32_t stride; 544 uint32_t format; /* frame raw format */ 545 }; 546 547 /** 548 * Enumeration for recon_buffer_mode 549 */ 550 typedef enum { 551 vss_vp8enc_seq_param_recon_buffer_mode_per_seq = 0, /* send 4 ref/recon frame buffers at seq lvl */ 552 vss_vp8enc_seq_param_recon_buffer_mode_per_pic, /* send 1 recon frame buffer per picture */ 553 vss_vp8enc_seq_param_recon_buffer_mode_cnt /* nr of modes */ 554 } vss_vp8enc_seq_param_recon_buffer_mode_t; 555 556 /** 557 * Sequence parameter data structure. 558 */ 559 struct VssVp8encSequenceParameterBuffer { 560 uint32_t frame_width; 561 uint32_t frame_height; 562 uint32_t frame_rate; 563 uint32_t error_resilient; 564 uint32_t num_token_partitions; 565 uint32_t kf_mode; 566 uint32_t kf_min_dist; 567 uint32_t kf_max_dist; 568 uint32_t rc_target_bitrate; 569 uint32_t rc_min_quantizer; 570 uint32_t rc_max_quantizer; 571 uint32_t rc_undershoot_pct; 572 uint32_t rc_overshoot_pct; 573 uint32_t rc_end_usage; 574 uint32_t rc_buf_sz; 575 uint32_t rc_buf_initial_sz; 576 uint32_t rc_buf_optimal_sz; 577 uint32_t max_intra_rate; 578 uint32_t cyclic_intra_refresh; 579 uint32_t concatenate_partitions; 580 uint32_t recon_buffer_mode; 581 uint32_t ts_number_layers; 582 uint32_t ts_target_bitrate[3]; 583 uint32_t ts_rate_decimator[3]; 584 uint32_t ts_periodicity; 585 uint8_t ts_layer_id[32]; 586 struct VssProcPictureVP8 ref_frame_buffers[4]; 587 }; 588 589 struct VssVp8encEncodedFrame { 590 uint32_t frame_size; 591 uint32_t status; 592 uint32_t partitions; 593 uint32_t partition_size[9]; 594 uint32_t partition_start[9]; 595 uint32_t segments; 596 uint32_t quantizer[4]; 597 uint32_t frame_flags; 598 uint32_t partition_id; 599 uint32_t buffer_level; 600 uint32_t quality; 601 uint32_t surfaceId_of_ref_frame[4]; 602 uint32_t reserved[15]; 603 uint32_t coded_data[1]; 604 }; 605 606 /** 607 * Encode frame command buffer 608 */ 609 struct VssVp8encPictureParameterBuffer { 610 struct VssProcPictureVP8 input_frame; 611 struct VssProcPictureVP8 recon_frame; 612 613 uint32_t version; 614 uint32_t pic_flags; 615 uint32_t prev_frame_dropped; 616 uint32_t cpuused; 617 uint32_t sharpness; 618 uint32_t num_token_partitions; 619 uint32_t encoded_frame_size; 620 uint32_t encoded_frame_base; 621 }; 622 623 /** 624 * Command enumeration 625 */ 626 enum VssVp8encCommandType { 627 VssVp8encSetSequenceParametersCommand = 123, 628 VssVp8encEncodeFrameCommand, 629 VssVp8encEndOfSequenceCommand, 630 VssVp8encInit, 631 Vss_Sys_Ref_Frame_COMMAND 632 }; 633 634 /* 635 * Generic VSP commands 636 * 637 * Generic VSP commands should be sent with the context field set to 638 * VSP_API_GENERIC_CONTEXT_ID. 639 */ 640 enum VssGenCommandType { 641 /** Generic command to instruct the VSP to (create and) initialize a context. 642 * * The buffer field contains the context-id of the new context to initialize. 643 * The size-field contains the app-id for the new context to initialize 644 */ 645 VssGenInitializeContext = 0xab01, 646 /** Generic command to instruct the VSP to de-initialize and destroy a 647 * context. The buffer field contains the context-id of the context to 648 * de-initialize and destroy. The size-field should always be set to 0. 649 */ 650 VssGenDestroyContext = 0xab02 651 }; 652 653 /**************************** 654 * WiDi Compose data structures 655 ****************************/ 656 enum VssWiDi_ComposeCommandType { 657 VssWiDi_ComposeSetSequenceParametersCommand = 200, 658 VssWiDi_ComposeFrameCommand, 659 VssWiDi_ComposeEndOfSequenceCommand 660 }; 661 662 enum VssWiDi_ComposeResponseType { 663 VssWiDi_ComposeSetSequenceParametersResponse = 250, 664 VssWiDi_ComposeFrameResponse, 665 }; 666 667 enum VssWiDi_ColorFormat { 668 MonoChrome = 0, 669 YUV_4_2_0, 670 YUV_4_2_0_NV12, 671 YUV_4_2_2, 672 YUV_4_4_4 673 }; 674 /** 675 * WiDi Compose sequence parameter data structure. 676 */ 677 struct VssWiDi_ComposeSequenceParameterBuffer { 678 unsigned int R_Buffer; 679 unsigned int G_Buffer; 680 unsigned int B_Buffer; 681 unsigned int RGBA_Buffer; 682 unsigned int Y_Buffer; 683 unsigned int UV_Buffer; 684 unsigned int U_Buffer; 685 unsigned int V_Buffer; 686 unsigned int A_Buffer; 687 int ActualWidth; 688 int ActualHeight; 689 int ProcessedWidth; 690 int ProcessedHeight; 691 int TotalMBCount; 692 int Stride; 693 /*Video related*/ 694 int Video_IN_xsize; 695 int Video_IN_ysize; 696 int Video_IN_stride; 697 int Video_IN_yuv_format; 698 699 unsigned int Video_IN_Y_Buffer; 700 unsigned int Video_IN_UV_Buffer; 701 unsigned int Video_IN_U_Buffer; 702 unsigned int Video_IN_V_Buffer; 703 int Video_OUT_xsize; 704 int Video_OUT_ysize; 705 int Video_OUT_stride; 706 int Video_OUT_yuv_format; 707 708 unsigned int Video_OUT_Y_Buffer; 709 unsigned int Video_OUT_UV_Buffer; 710 unsigned int Video_OUT_V_Buffer; 711 712 unsigned int scaled_width; 713 unsigned int scaled_height; 714 unsigned int scalefactor_dx; 715 unsigned int scalefactor_dy; 716 717 /*Blending related params*/ 718 int Is_Blending_Enabled; 719 int ROI_width; 720 int ROI_height; 721 int ROI_x1; 722 int ROI_y1; 723 int ROI_x2; 724 int ROI_y2; 725 int alpha1; 726 int alpha2; 727 int Is_video_the_back_ground; 728 int Is_source_1_image_available; 729 int Is_source_2_image_available; 730 int Is_alpha_channel_available; 731 int Video_TotalMBCount; 732 int CSC_FormatSelect; /* 0: YUV420NV12; 1: YUV444; */ 733 int CSC_InputFormatSelect; // 0: RGB Planar; 1: RGBA Interleaved 734 }; 735 736 #pragma pack() 737 #endif 738