1 // SPDX-License-Identifier: GPL-2.0 2 /* 3 * Copyright (C) STMicroelectronics SA 2014 4 * Authors: Fabien Dessenne <fabien.dessenne@st.com> for STMicroelectronics. 5 */ 6 7 #include <linux/component.h> 8 #include <linux/delay.h> 9 #include <linux/dma-mapping.h> 10 #include <linux/firmware.h> 11 #include <linux/io.h> 12 #include <linux/module.h> 13 #include <linux/of.h> 14 #include <linux/reset.h> 15 #include <linux/seq_file.h> 16 17 #include <drm/drm_atomic.h> 18 #include <drm/drm_device.h> 19 #include <drm/drm_fb_cma_helper.h> 20 #include <drm/drm_fourcc.h> 21 #include <drm/drm_framebuffer.h> 22 #include <drm/drm_gem_cma_helper.h> 23 24 #include "sti_compositor.h" 25 #include "sti_drv.h" 26 #include "sti_hqvdp_lut.h" 27 #include "sti_plane.h" 28 #include "sti_vtg.h" 29 30 /* Firmware name */ 31 #define HQVDP_FMW_NAME "hqvdp-stih407.bin" 32 33 /* Regs address */ 34 #define HQVDP_DMEM 0x00000000 /* 0x00000000 */ 35 #define HQVDP_PMEM 0x00040000 /* 0x00040000 */ 36 #define HQVDP_RD_PLUG 0x000E0000 /* 0x000E0000 */ 37 #define HQVDP_RD_PLUG_CONTROL (HQVDP_RD_PLUG + 0x1000) /* 0x000E1000 */ 38 #define HQVDP_RD_PLUG_PAGE_SIZE (HQVDP_RD_PLUG + 0x1004) /* 0x000E1004 */ 39 #define HQVDP_RD_PLUG_MIN_OPC (HQVDP_RD_PLUG + 0x1008) /* 0x000E1008 */ 40 #define HQVDP_RD_PLUG_MAX_OPC (HQVDP_RD_PLUG + 0x100C) /* 0x000E100C */ 41 #define HQVDP_RD_PLUG_MAX_CHK (HQVDP_RD_PLUG + 0x1010) /* 0x000E1010 */ 42 #define HQVDP_RD_PLUG_MAX_MSG (HQVDP_RD_PLUG + 0x1014) /* 0x000E1014 */ 43 #define HQVDP_RD_PLUG_MIN_SPACE (HQVDP_RD_PLUG + 0x1018) /* 0x000E1018 */ 44 #define HQVDP_WR_PLUG 0x000E2000 /* 0x000E2000 */ 45 #define HQVDP_WR_PLUG_CONTROL (HQVDP_WR_PLUG + 0x1000) /* 0x000E3000 */ 46 #define HQVDP_WR_PLUG_PAGE_SIZE (HQVDP_WR_PLUG + 0x1004) /* 0x000E3004 */ 47 #define HQVDP_WR_PLUG_MIN_OPC (HQVDP_WR_PLUG + 0x1008) /* 0x000E3008 */ 48 #define HQVDP_WR_PLUG_MAX_OPC (HQVDP_WR_PLUG + 0x100C) /* 0x000E300C */ 49 #define HQVDP_WR_PLUG_MAX_CHK (HQVDP_WR_PLUG + 0x1010) /* 0x000E3010 */ 50 #define HQVDP_WR_PLUG_MAX_MSG (HQVDP_WR_PLUG + 0x1014) /* 0x000E3014 */ 51 #define HQVDP_WR_PLUG_MIN_SPACE (HQVDP_WR_PLUG + 0x1018) /* 0x000E3018 */ 52 #define HQVDP_MBX 0x000E4000 /* 0x000E4000 */ 53 #define HQVDP_MBX_IRQ_TO_XP70 (HQVDP_MBX + 0x0000) /* 0x000E4000 */ 54 #define HQVDP_MBX_INFO_HOST (HQVDP_MBX + 0x0004) /* 0x000E4004 */ 55 #define HQVDP_MBX_IRQ_TO_HOST (HQVDP_MBX + 0x0008) /* 0x000E4008 */ 56 #define HQVDP_MBX_INFO_XP70 (HQVDP_MBX + 0x000C) /* 0x000E400C */ 57 #define HQVDP_MBX_SW_RESET_CTRL (HQVDP_MBX + 0x0010) /* 0x000E4010 */ 58 #define HQVDP_MBX_STARTUP_CTRL1 (HQVDP_MBX + 0x0014) /* 0x000E4014 */ 59 #define HQVDP_MBX_STARTUP_CTRL2 (HQVDP_MBX + 0x0018) /* 0x000E4018 */ 60 #define HQVDP_MBX_GP_STATUS (HQVDP_MBX + 0x001C) /* 0x000E401C */ 61 #define HQVDP_MBX_NEXT_CMD (HQVDP_MBX + 0x0020) /* 0x000E4020 */ 62 #define HQVDP_MBX_CURRENT_CMD (HQVDP_MBX + 0x0024) /* 0x000E4024 */ 63 #define HQVDP_MBX_SOFT_VSYNC (HQVDP_MBX + 0x0028) /* 0x000E4028 */ 64 65 /* Plugs config */ 66 #define PLUG_CONTROL_ENABLE 0x00000001 67 #define PLUG_PAGE_SIZE_256 0x00000002 68 #define PLUG_MIN_OPC_8 0x00000003 69 #define PLUG_MAX_OPC_64 0x00000006 70 #define PLUG_MAX_CHK_2X 0x00000001 71 #define PLUG_MAX_MSG_1X 0x00000000 72 #define PLUG_MIN_SPACE_1 0x00000000 73 74 /* SW reset CTRL */ 75 #define SW_RESET_CTRL_FULL BIT(0) 76 #define SW_RESET_CTRL_CORE BIT(1) 77 78 /* Startup ctrl 1 */ 79 #define STARTUP_CTRL1_RST_DONE BIT(0) 80 #define STARTUP_CTRL1_AUTH_IDLE BIT(2) 81 82 /* Startup ctrl 2 */ 83 #define STARTUP_CTRL2_FETCH_EN BIT(1) 84 85 /* Info xP70 */ 86 #define INFO_XP70_FW_READY BIT(15) 87 #define INFO_XP70_FW_PROCESSING BIT(14) 88 #define INFO_XP70_FW_INITQUEUES BIT(13) 89 90 /* SOFT_VSYNC */ 91 #define SOFT_VSYNC_HW 0x00000000 92 #define SOFT_VSYNC_SW_CMD 0x00000001 93 #define SOFT_VSYNC_SW_CTRL_IRQ 0x00000003 94 95 /* Reset & boot poll config */ 96 #define POLL_MAX_ATTEMPT 50 97 #define POLL_DELAY_MS 20 98 99 #define SCALE_FACTOR 8192 100 #define SCALE_MAX_FOR_LEG_LUT_F 4096 101 #define SCALE_MAX_FOR_LEG_LUT_E 4915 102 #define SCALE_MAX_FOR_LEG_LUT_D 6654 103 #define SCALE_MAX_FOR_LEG_LUT_C 8192 104 105 enum sti_hvsrc_orient { 106 HVSRC_HORI, 107 HVSRC_VERT 108 }; 109 110 /* Command structures */ 111 struct sti_hqvdp_top { 112 u32 config; 113 u32 mem_format; 114 u32 current_luma; 115 u32 current_enh_luma; 116 u32 current_right_luma; 117 u32 current_enh_right_luma; 118 u32 current_chroma; 119 u32 current_enh_chroma; 120 u32 current_right_chroma; 121 u32 current_enh_right_chroma; 122 u32 output_luma; 123 u32 output_chroma; 124 u32 luma_src_pitch; 125 u32 luma_enh_src_pitch; 126 u32 luma_right_src_pitch; 127 u32 luma_enh_right_src_pitch; 128 u32 chroma_src_pitch; 129 u32 chroma_enh_src_pitch; 130 u32 chroma_right_src_pitch; 131 u32 chroma_enh_right_src_pitch; 132 u32 luma_processed_pitch; 133 u32 chroma_processed_pitch; 134 u32 input_frame_size; 135 u32 input_viewport_ori; 136 u32 input_viewport_ori_right; 137 u32 input_viewport_size; 138 u32 left_view_border_width; 139 u32 right_view_border_width; 140 u32 left_view_3d_offset_width; 141 u32 right_view_3d_offset_width; 142 u32 side_stripe_color; 143 u32 crc_reset_ctrl; 144 }; 145 146 /* Configs for interlaced : no IT, no pass thru, 3 fields */ 147 #define TOP_CONFIG_INTER_BTM 0x00000000 148 #define TOP_CONFIG_INTER_TOP 0x00000002 149 150 /* Config for progressive : no IT, no pass thru, 3 fields */ 151 #define TOP_CONFIG_PROGRESSIVE 0x00000001 152 153 /* Default MemFormat: in=420_raster_dual out=444_raster;opaque Mem2Tv mode */ 154 #define TOP_MEM_FORMAT_DFLT 0x00018060 155 156 /* Min/Max size */ 157 #define MAX_WIDTH 0x1FFF 158 #define MAX_HEIGHT 0x0FFF 159 #define MIN_WIDTH 0x0030 160 #define MIN_HEIGHT 0x0010 161 162 struct sti_hqvdp_vc1re { 163 u32 ctrl_prv_csdi; 164 u32 ctrl_cur_csdi; 165 u32 ctrl_nxt_csdi; 166 u32 ctrl_cur_fmd; 167 u32 ctrl_nxt_fmd; 168 }; 169 170 struct sti_hqvdp_fmd { 171 u32 config; 172 u32 viewport_ori; 173 u32 viewport_size; 174 u32 next_next_luma; 175 u32 next_next_right_luma; 176 u32 next_next_next_luma; 177 u32 next_next_next_right_luma; 178 u32 threshold_scd; 179 u32 threshold_rfd; 180 u32 threshold_move; 181 u32 threshold_cfd; 182 }; 183 184 struct sti_hqvdp_csdi { 185 u32 config; 186 u32 config2; 187 u32 dcdi_config; 188 u32 prev_luma; 189 u32 prev_enh_luma; 190 u32 prev_right_luma; 191 u32 prev_enh_right_luma; 192 u32 next_luma; 193 u32 next_enh_luma; 194 u32 next_right_luma; 195 u32 next_enh_right_luma; 196 u32 prev_chroma; 197 u32 prev_enh_chroma; 198 u32 prev_right_chroma; 199 u32 prev_enh_right_chroma; 200 u32 next_chroma; 201 u32 next_enh_chroma; 202 u32 next_right_chroma; 203 u32 next_enh_right_chroma; 204 u32 prev_motion; 205 u32 prev_right_motion; 206 u32 cur_motion; 207 u32 cur_right_motion; 208 u32 next_motion; 209 u32 next_right_motion; 210 }; 211 212 /* Config for progressive: by pass */ 213 #define CSDI_CONFIG_PROG 0x00000000 214 /* Config for directional deinterlacing without motion */ 215 #define CSDI_CONFIG_INTER_DIR 0x00000016 216 /* Additional configs for fader, blender, motion,... deinterlace algorithms */ 217 #define CSDI_CONFIG2_DFLT 0x000001B3 218 #define CSDI_DCDI_CONFIG_DFLT 0x00203803 219 220 struct sti_hqvdp_hvsrc { 221 u32 hor_panoramic_ctrl; 222 u32 output_picture_size; 223 u32 init_horizontal; 224 u32 init_vertical; 225 u32 param_ctrl; 226 u32 yh_coef[NB_COEF]; 227 u32 ch_coef[NB_COEF]; 228 u32 yv_coef[NB_COEF]; 229 u32 cv_coef[NB_COEF]; 230 u32 hori_shift; 231 u32 vert_shift; 232 }; 233 234 /* Default ParamCtrl: all controls enabled */ 235 #define HVSRC_PARAM_CTRL_DFLT 0xFFFFFFFF 236 237 struct sti_hqvdp_iqi { 238 u32 config; 239 u32 demo_wind_size; 240 u32 pk_config; 241 u32 coeff0_coeff1; 242 u32 coeff2_coeff3; 243 u32 coeff4; 244 u32 pk_lut; 245 u32 pk_gain; 246 u32 pk_coring_level; 247 u32 cti_config; 248 u32 le_config; 249 u32 le_lut[64]; 250 u32 con_bri; 251 u32 sat_gain; 252 u32 pxf_conf; 253 u32 default_color; 254 }; 255 256 /* Default Config : IQI bypassed */ 257 #define IQI_CONFIG_DFLT 0x00000001 258 /* Default Contrast & Brightness gain = 256 */ 259 #define IQI_CON_BRI_DFLT 0x00000100 260 /* Default Saturation gain = 256 */ 261 #define IQI_SAT_GAIN_DFLT 0x00000100 262 /* Default PxfConf : P2I bypassed */ 263 #define IQI_PXF_CONF_DFLT 0x00000001 264 265 struct sti_hqvdp_top_status { 266 u32 processing_time; 267 u32 input_y_crc; 268 u32 input_uv_crc; 269 }; 270 271 struct sti_hqvdp_fmd_status { 272 u32 fmd_repeat_move_status; 273 u32 fmd_scene_count_status; 274 u32 cfd_sum; 275 u32 field_sum; 276 u32 next_y_fmd_crc; 277 u32 next_next_y_fmd_crc; 278 u32 next_next_next_y_fmd_crc; 279 }; 280 281 struct sti_hqvdp_csdi_status { 282 u32 prev_y_csdi_crc; 283 u32 cur_y_csdi_crc; 284 u32 next_y_csdi_crc; 285 u32 prev_uv_csdi_crc; 286 u32 cur_uv_csdi_crc; 287 u32 next_uv_csdi_crc; 288 u32 y_csdi_crc; 289 u32 uv_csdi_crc; 290 u32 uv_cup_crc; 291 u32 mot_csdi_crc; 292 u32 mot_cur_csdi_crc; 293 u32 mot_prev_csdi_crc; 294 }; 295 296 struct sti_hqvdp_hvsrc_status { 297 u32 y_hvsrc_crc; 298 u32 u_hvsrc_crc; 299 u32 v_hvsrc_crc; 300 }; 301 302 struct sti_hqvdp_iqi_status { 303 u32 pxf_it_status; 304 u32 y_iqi_crc; 305 u32 u_iqi_crc; 306 u32 v_iqi_crc; 307 }; 308 309 /* Main commands. We use 2 commands one being processed by the firmware, one 310 * ready to be fetched upon next Vsync*/ 311 #define NB_VDP_CMD 2 312 313 struct sti_hqvdp_cmd { 314 struct sti_hqvdp_top top; 315 struct sti_hqvdp_vc1re vc1re; 316 struct sti_hqvdp_fmd fmd; 317 struct sti_hqvdp_csdi csdi; 318 struct sti_hqvdp_hvsrc hvsrc; 319 struct sti_hqvdp_iqi iqi; 320 struct sti_hqvdp_top_status top_status; 321 struct sti_hqvdp_fmd_status fmd_status; 322 struct sti_hqvdp_csdi_status csdi_status; 323 struct sti_hqvdp_hvsrc_status hvsrc_status; 324 struct sti_hqvdp_iqi_status iqi_status; 325 }; 326 327 /* 328 * STI HQVDP structure 329 * 330 * @dev: driver device 331 * @drm_dev: the drm device 332 * @regs: registers 333 * @plane: plane structure for hqvdp it self 334 * @clk: IP clock 335 * @clk_pix_main: pix main clock 336 * @reset: reset control 337 * @vtg_nb: notifier to handle VTG Vsync 338 * @btm_field_pending: is there any bottom field (interlaced frame) to display 339 * @hqvdp_cmd: buffer of commands 340 * @hqvdp_cmd_paddr: physical address of hqvdp_cmd 341 * @vtg: vtg for main data path 342 * @xp70_initialized: true if xp70 is already initialized 343 * @vtg_registered: true if registered to VTG 344 */ 345 struct sti_hqvdp { 346 struct device *dev; 347 struct drm_device *drm_dev; 348 void __iomem *regs; 349 struct sti_plane plane; 350 struct clk *clk; 351 struct clk *clk_pix_main; 352 struct reset_control *reset; 353 struct notifier_block vtg_nb; 354 bool btm_field_pending; 355 void *hqvdp_cmd; 356 u32 hqvdp_cmd_paddr; 357 struct sti_vtg *vtg; 358 bool xp70_initialized; 359 bool vtg_registered; 360 }; 361 362 #define to_sti_hqvdp(x) container_of(x, struct sti_hqvdp, plane) 363 364 static const uint32_t hqvdp_supported_formats[] = { 365 DRM_FORMAT_NV12, 366 }; 367 368 /** 369 * sti_hqvdp_get_free_cmd 370 * @hqvdp: hqvdp structure 371 * 372 * Look for a hqvdp_cmd that is not being used (or about to be used) by the FW. 373 * 374 * RETURNS: 375 * the offset of the command to be used. 376 * -1 in error cases 377 */ 378 static int sti_hqvdp_get_free_cmd(struct sti_hqvdp *hqvdp) 379 { 380 u32 curr_cmd, next_cmd; 381 u32 cmd = hqvdp->hqvdp_cmd_paddr; 382 int i; 383 384 curr_cmd = readl(hqvdp->regs + HQVDP_MBX_CURRENT_CMD); 385 next_cmd = readl(hqvdp->regs + HQVDP_MBX_NEXT_CMD); 386 387 for (i = 0; i < NB_VDP_CMD; i++) { 388 if ((cmd != curr_cmd) && (cmd != next_cmd)) 389 return i * sizeof(struct sti_hqvdp_cmd); 390 cmd += sizeof(struct sti_hqvdp_cmd); 391 } 392 393 return -1; 394 } 395 396 /** 397 * sti_hqvdp_get_curr_cmd 398 * @hqvdp: hqvdp structure 399 * 400 * Look for the hqvdp_cmd that is being used by the FW. 401 * 402 * RETURNS: 403 * the offset of the command to be used. 404 * -1 in error cases 405 */ 406 static int sti_hqvdp_get_curr_cmd(struct sti_hqvdp *hqvdp) 407 { 408 u32 curr_cmd; 409 u32 cmd = hqvdp->hqvdp_cmd_paddr; 410 unsigned int i; 411 412 curr_cmd = readl(hqvdp->regs + HQVDP_MBX_CURRENT_CMD); 413 414 for (i = 0; i < NB_VDP_CMD; i++) { 415 if (cmd == curr_cmd) 416 return i * sizeof(struct sti_hqvdp_cmd); 417 418 cmd += sizeof(struct sti_hqvdp_cmd); 419 } 420 421 return -1; 422 } 423 424 /** 425 * sti_hqvdp_get_next_cmd 426 * @hqvdp: hqvdp structure 427 * 428 * Look for the next hqvdp_cmd that will be used by the FW. 429 * 430 * RETURNS: 431 * the offset of the next command that will be used. 432 * -1 in error cases 433 */ 434 static int sti_hqvdp_get_next_cmd(struct sti_hqvdp *hqvdp) 435 { 436 int next_cmd; 437 dma_addr_t cmd = hqvdp->hqvdp_cmd_paddr; 438 unsigned int i; 439 440 next_cmd = readl(hqvdp->regs + HQVDP_MBX_NEXT_CMD); 441 442 for (i = 0; i < NB_VDP_CMD; i++) { 443 if (cmd == next_cmd) 444 return i * sizeof(struct sti_hqvdp_cmd); 445 446 cmd += sizeof(struct sti_hqvdp_cmd); 447 } 448 449 return -1; 450 } 451 452 #define DBGFS_DUMP(reg) seq_printf(s, "\n %-25s 0x%08X", #reg, \ 453 readl(hqvdp->regs + reg)) 454 455 static const char *hqvdp_dbg_get_lut(u32 *coef) 456 { 457 if (!memcmp(coef, coef_lut_a_legacy, 16)) 458 return "LUT A"; 459 if (!memcmp(coef, coef_lut_b, 16)) 460 return "LUT B"; 461 if (!memcmp(coef, coef_lut_c_y_legacy, 16)) 462 return "LUT C Y"; 463 if (!memcmp(coef, coef_lut_c_c_legacy, 16)) 464 return "LUT C C"; 465 if (!memcmp(coef, coef_lut_d_y_legacy, 16)) 466 return "LUT D Y"; 467 if (!memcmp(coef, coef_lut_d_c_legacy, 16)) 468 return "LUT D C"; 469 if (!memcmp(coef, coef_lut_e_y_legacy, 16)) 470 return "LUT E Y"; 471 if (!memcmp(coef, coef_lut_e_c_legacy, 16)) 472 return "LUT E C"; 473 if (!memcmp(coef, coef_lut_f_y_legacy, 16)) 474 return "LUT F Y"; 475 if (!memcmp(coef, coef_lut_f_c_legacy, 16)) 476 return "LUT F C"; 477 return "<UNKNOWN>"; 478 } 479 480 static void hqvdp_dbg_dump_cmd(struct seq_file *s, struct sti_hqvdp_cmd *c) 481 { 482 int src_w, src_h, dst_w, dst_h; 483 484 seq_puts(s, "\n\tTOP:"); 485 seq_printf(s, "\n\t %-20s 0x%08X", "Config", c->top.config); 486 switch (c->top.config) { 487 case TOP_CONFIG_PROGRESSIVE: 488 seq_puts(s, "\tProgressive"); 489 break; 490 case TOP_CONFIG_INTER_TOP: 491 seq_puts(s, "\tInterlaced, top field"); 492 break; 493 case TOP_CONFIG_INTER_BTM: 494 seq_puts(s, "\tInterlaced, bottom field"); 495 break; 496 default: 497 seq_puts(s, "\t<UNKNOWN>"); 498 break; 499 } 500 501 seq_printf(s, "\n\t %-20s 0x%08X", "MemFormat", c->top.mem_format); 502 seq_printf(s, "\n\t %-20s 0x%08X", "CurrentY", c->top.current_luma); 503 seq_printf(s, "\n\t %-20s 0x%08X", "CurrentC", c->top.current_chroma); 504 seq_printf(s, "\n\t %-20s 0x%08X", "YSrcPitch", c->top.luma_src_pitch); 505 seq_printf(s, "\n\t %-20s 0x%08X", "CSrcPitch", 506 c->top.chroma_src_pitch); 507 seq_printf(s, "\n\t %-20s 0x%08X", "InputFrameSize", 508 c->top.input_frame_size); 509 seq_printf(s, "\t%dx%d", 510 c->top.input_frame_size & 0x0000FFFF, 511 c->top.input_frame_size >> 16); 512 seq_printf(s, "\n\t %-20s 0x%08X", "InputViewportSize", 513 c->top.input_viewport_size); 514 src_w = c->top.input_viewport_size & 0x0000FFFF; 515 src_h = c->top.input_viewport_size >> 16; 516 seq_printf(s, "\t%dx%d", src_w, src_h); 517 518 seq_puts(s, "\n\tHVSRC:"); 519 seq_printf(s, "\n\t %-20s 0x%08X", "OutputPictureSize", 520 c->hvsrc.output_picture_size); 521 dst_w = c->hvsrc.output_picture_size & 0x0000FFFF; 522 dst_h = c->hvsrc.output_picture_size >> 16; 523 seq_printf(s, "\t%dx%d", dst_w, dst_h); 524 seq_printf(s, "\n\t %-20s 0x%08X", "ParamCtrl", c->hvsrc.param_ctrl); 525 526 seq_printf(s, "\n\t %-20s %s", "yh_coef", 527 hqvdp_dbg_get_lut(c->hvsrc.yh_coef)); 528 seq_printf(s, "\n\t %-20s %s", "ch_coef", 529 hqvdp_dbg_get_lut(c->hvsrc.ch_coef)); 530 seq_printf(s, "\n\t %-20s %s", "yv_coef", 531 hqvdp_dbg_get_lut(c->hvsrc.yv_coef)); 532 seq_printf(s, "\n\t %-20s %s", "cv_coef", 533 hqvdp_dbg_get_lut(c->hvsrc.cv_coef)); 534 535 seq_printf(s, "\n\t %-20s", "ScaleH"); 536 if (dst_w > src_w) 537 seq_printf(s, " %d/1", dst_w / src_w); 538 else 539 seq_printf(s, " 1/%d", src_w / dst_w); 540 541 seq_printf(s, "\n\t %-20s", "tScaleV"); 542 if (dst_h > src_h) 543 seq_printf(s, " %d/1", dst_h / src_h); 544 else 545 seq_printf(s, " 1/%d", src_h / dst_h); 546 547 seq_puts(s, "\n\tCSDI:"); 548 seq_printf(s, "\n\t %-20s 0x%08X\t", "Config", c->csdi.config); 549 switch (c->csdi.config) { 550 case CSDI_CONFIG_PROG: 551 seq_puts(s, "Bypass"); 552 break; 553 case CSDI_CONFIG_INTER_DIR: 554 seq_puts(s, "Deinterlace, directional"); 555 break; 556 default: 557 seq_puts(s, "<UNKNOWN>"); 558 break; 559 } 560 561 seq_printf(s, "\n\t %-20s 0x%08X", "Config2", c->csdi.config2); 562 seq_printf(s, "\n\t %-20s 0x%08X", "DcdiConfig", c->csdi.dcdi_config); 563 } 564 565 static int hqvdp_dbg_show(struct seq_file *s, void *data) 566 { 567 struct drm_info_node *node = s->private; 568 struct sti_hqvdp *hqvdp = (struct sti_hqvdp *)node->info_ent->data; 569 int cmd, cmd_offset, infoxp70; 570 void *virt; 571 572 seq_printf(s, "%s: (vaddr = 0x%p)", 573 sti_plane_to_str(&hqvdp->plane), hqvdp->regs); 574 575 DBGFS_DUMP(HQVDP_MBX_IRQ_TO_XP70); 576 DBGFS_DUMP(HQVDP_MBX_INFO_HOST); 577 DBGFS_DUMP(HQVDP_MBX_IRQ_TO_HOST); 578 DBGFS_DUMP(HQVDP_MBX_INFO_XP70); 579 infoxp70 = readl(hqvdp->regs + HQVDP_MBX_INFO_XP70); 580 seq_puts(s, "\tFirmware state: "); 581 if (infoxp70 & INFO_XP70_FW_READY) 582 seq_puts(s, "idle and ready"); 583 else if (infoxp70 & INFO_XP70_FW_PROCESSING) 584 seq_puts(s, "processing a picture"); 585 else if (infoxp70 & INFO_XP70_FW_INITQUEUES) 586 seq_puts(s, "programming queues"); 587 else 588 seq_puts(s, "NOT READY"); 589 590 DBGFS_DUMP(HQVDP_MBX_SW_RESET_CTRL); 591 DBGFS_DUMP(HQVDP_MBX_STARTUP_CTRL1); 592 if (readl(hqvdp->regs + HQVDP_MBX_STARTUP_CTRL1) 593 & STARTUP_CTRL1_RST_DONE) 594 seq_puts(s, "\tReset is done"); 595 else 596 seq_puts(s, "\tReset is NOT done"); 597 DBGFS_DUMP(HQVDP_MBX_STARTUP_CTRL2); 598 if (readl(hqvdp->regs + HQVDP_MBX_STARTUP_CTRL2) 599 & STARTUP_CTRL2_FETCH_EN) 600 seq_puts(s, "\tFetch is enabled"); 601 else 602 seq_puts(s, "\tFetch is NOT enabled"); 603 DBGFS_DUMP(HQVDP_MBX_GP_STATUS); 604 DBGFS_DUMP(HQVDP_MBX_NEXT_CMD); 605 DBGFS_DUMP(HQVDP_MBX_CURRENT_CMD); 606 DBGFS_DUMP(HQVDP_MBX_SOFT_VSYNC); 607 if (!(readl(hqvdp->regs + HQVDP_MBX_SOFT_VSYNC) & 3)) 608 seq_puts(s, "\tHW Vsync"); 609 else 610 seq_puts(s, "\tSW Vsync ?!?!"); 611 612 /* Last command */ 613 cmd = readl(hqvdp->regs + HQVDP_MBX_CURRENT_CMD); 614 cmd_offset = sti_hqvdp_get_curr_cmd(hqvdp); 615 if (cmd_offset == -1) { 616 seq_puts(s, "\n\n Last command: unknown"); 617 } else { 618 virt = hqvdp->hqvdp_cmd + cmd_offset; 619 seq_printf(s, "\n\n Last command: address @ 0x%x (0x%p)", 620 cmd, virt); 621 hqvdp_dbg_dump_cmd(s, (struct sti_hqvdp_cmd *)virt); 622 } 623 624 /* Next command */ 625 cmd = readl(hqvdp->regs + HQVDP_MBX_NEXT_CMD); 626 cmd_offset = sti_hqvdp_get_next_cmd(hqvdp); 627 if (cmd_offset == -1) { 628 seq_puts(s, "\n\n Next command: unknown"); 629 } else { 630 virt = hqvdp->hqvdp_cmd + cmd_offset; 631 seq_printf(s, "\n\n Next command address: @ 0x%x (0x%p)", 632 cmd, virt); 633 hqvdp_dbg_dump_cmd(s, (struct sti_hqvdp_cmd *)virt); 634 } 635 636 seq_putc(s, '\n'); 637 return 0; 638 } 639 640 static struct drm_info_list hqvdp_debugfs_files[] = { 641 { "hqvdp", hqvdp_dbg_show, 0, NULL }, 642 }; 643 644 static void hqvdp_debugfs_init(struct sti_hqvdp *hqvdp, struct drm_minor *minor) 645 { 646 unsigned int i; 647 648 for (i = 0; i < ARRAY_SIZE(hqvdp_debugfs_files); i++) 649 hqvdp_debugfs_files[i].data = hqvdp; 650 651 drm_debugfs_create_files(hqvdp_debugfs_files, 652 ARRAY_SIZE(hqvdp_debugfs_files), 653 minor->debugfs_root, minor); 654 } 655 656 /** 657 * sti_hqvdp_update_hvsrc 658 * @orient: horizontal or vertical 659 * @scale: scaling/zoom factor 660 * @hvsrc: the structure containing the LUT coef 661 * 662 * Update the Y and C Lut coef, as well as the shift param 663 * 664 * RETURNS: 665 * None. 666 */ 667 static void sti_hqvdp_update_hvsrc(enum sti_hvsrc_orient orient, int scale, 668 struct sti_hqvdp_hvsrc *hvsrc) 669 { 670 const int *coef_c, *coef_y; 671 int shift_c, shift_y; 672 673 /* Get the appropriate coef tables */ 674 if (scale < SCALE_MAX_FOR_LEG_LUT_F) { 675 coef_y = coef_lut_f_y_legacy; 676 coef_c = coef_lut_f_c_legacy; 677 shift_y = SHIFT_LUT_F_Y_LEGACY; 678 shift_c = SHIFT_LUT_F_C_LEGACY; 679 } else if (scale < SCALE_MAX_FOR_LEG_LUT_E) { 680 coef_y = coef_lut_e_y_legacy; 681 coef_c = coef_lut_e_c_legacy; 682 shift_y = SHIFT_LUT_E_Y_LEGACY; 683 shift_c = SHIFT_LUT_E_C_LEGACY; 684 } else if (scale < SCALE_MAX_FOR_LEG_LUT_D) { 685 coef_y = coef_lut_d_y_legacy; 686 coef_c = coef_lut_d_c_legacy; 687 shift_y = SHIFT_LUT_D_Y_LEGACY; 688 shift_c = SHIFT_LUT_D_C_LEGACY; 689 } else if (scale < SCALE_MAX_FOR_LEG_LUT_C) { 690 coef_y = coef_lut_c_y_legacy; 691 coef_c = coef_lut_c_c_legacy; 692 shift_y = SHIFT_LUT_C_Y_LEGACY; 693 shift_c = SHIFT_LUT_C_C_LEGACY; 694 } else if (scale == SCALE_MAX_FOR_LEG_LUT_C) { 695 coef_y = coef_c = coef_lut_b; 696 shift_y = shift_c = SHIFT_LUT_B; 697 } else { 698 coef_y = coef_c = coef_lut_a_legacy; 699 shift_y = shift_c = SHIFT_LUT_A_LEGACY; 700 } 701 702 if (orient == HVSRC_HORI) { 703 hvsrc->hori_shift = (shift_c << 16) | shift_y; 704 memcpy(hvsrc->yh_coef, coef_y, sizeof(hvsrc->yh_coef)); 705 memcpy(hvsrc->ch_coef, coef_c, sizeof(hvsrc->ch_coef)); 706 } else { 707 hvsrc->vert_shift = (shift_c << 16) | shift_y; 708 memcpy(hvsrc->yv_coef, coef_y, sizeof(hvsrc->yv_coef)); 709 memcpy(hvsrc->cv_coef, coef_c, sizeof(hvsrc->cv_coef)); 710 } 711 } 712 713 /** 714 * sti_hqvdp_check_hw_scaling 715 * @hqvdp: hqvdp pointer 716 * @mode: display mode with timing constraints 717 * @src_w: source width 718 * @src_h: source height 719 * @dst_w: destination width 720 * @dst_h: destination height 721 * 722 * Check if the HW is able to perform the scaling request 723 * The firmware scaling limitation is "CEIL(1/Zy) <= FLOOR(LFW)" where: 724 * Zy = OutputHeight / InputHeight 725 * LFW = (Tx * IPClock) / (MaxNbCycles * Cp) 726 * Tx : Total video mode horizontal resolution 727 * IPClock : HQVDP IP clock (Mhz) 728 * MaxNbCycles: max(InputWidth, OutputWidth) 729 * Cp: Video mode pixel clock (Mhz) 730 * 731 * RETURNS: 732 * True if the HW can scale. 733 */ 734 static bool sti_hqvdp_check_hw_scaling(struct sti_hqvdp *hqvdp, 735 struct drm_display_mode *mode, 736 int src_w, int src_h, 737 int dst_w, int dst_h) 738 { 739 unsigned long lfw; 740 unsigned int inv_zy; 741 742 lfw = mode->htotal * (clk_get_rate(hqvdp->clk) / 1000000); 743 lfw /= max(src_w, dst_w) * mode->clock / 1000; 744 745 inv_zy = DIV_ROUND_UP(src_h, dst_h); 746 747 return (inv_zy <= lfw) ? true : false; 748 } 749 750 /** 751 * sti_hqvdp_disable 752 * @hqvdp: hqvdp pointer 753 * 754 * Disables the HQVDP plane 755 */ 756 static void sti_hqvdp_disable(struct sti_hqvdp *hqvdp) 757 { 758 int i; 759 760 DRM_DEBUG_DRIVER("%s\n", sti_plane_to_str(&hqvdp->plane)); 761 762 /* Unregister VTG Vsync callback */ 763 if (sti_vtg_unregister_client(hqvdp->vtg, &hqvdp->vtg_nb)) 764 DRM_DEBUG_DRIVER("Warning: cannot unregister VTG notifier\n"); 765 766 /* Set next cmd to NULL */ 767 writel(0, hqvdp->regs + HQVDP_MBX_NEXT_CMD); 768 769 for (i = 0; i < POLL_MAX_ATTEMPT; i++) { 770 if (readl(hqvdp->regs + HQVDP_MBX_INFO_XP70) 771 & INFO_XP70_FW_READY) 772 break; 773 msleep(POLL_DELAY_MS); 774 } 775 776 /* VTG can stop now */ 777 clk_disable_unprepare(hqvdp->clk_pix_main); 778 779 if (i == POLL_MAX_ATTEMPT) 780 DRM_ERROR("XP70 could not revert to idle\n"); 781 782 hqvdp->plane.status = STI_PLANE_DISABLED; 783 hqvdp->vtg_registered = false; 784 } 785 786 /** 787 * sti_hqvdp_vtg_cb 788 * @nb: notifier block 789 * @evt: event message 790 * @data: private data 791 * 792 * Handle VTG Vsync event, display pending bottom field 793 * 794 * RETURNS: 795 * 0 on success. 796 */ 797 static int sti_hqvdp_vtg_cb(struct notifier_block *nb, unsigned long evt, void *data) 798 { 799 struct sti_hqvdp *hqvdp = container_of(nb, struct sti_hqvdp, vtg_nb); 800 int btm_cmd_offset, top_cmd_offest; 801 struct sti_hqvdp_cmd *btm_cmd, *top_cmd; 802 803 if ((evt != VTG_TOP_FIELD_EVENT) && (evt != VTG_BOTTOM_FIELD_EVENT)) { 804 DRM_DEBUG_DRIVER("Unknown event\n"); 805 return 0; 806 } 807 808 if (hqvdp->plane.status == STI_PLANE_FLUSHING) { 809 /* disable need to be synchronize on vsync event */ 810 DRM_DEBUG_DRIVER("Vsync event received => disable %s\n", 811 sti_plane_to_str(&hqvdp->plane)); 812 813 sti_hqvdp_disable(hqvdp); 814 } 815 816 if (hqvdp->btm_field_pending) { 817 /* Create the btm field command from the current one */ 818 btm_cmd_offset = sti_hqvdp_get_free_cmd(hqvdp); 819 top_cmd_offest = sti_hqvdp_get_curr_cmd(hqvdp); 820 if ((btm_cmd_offset == -1) || (top_cmd_offest == -1)) { 821 DRM_DEBUG_DRIVER("Warning: no cmd, will skip field\n"); 822 return -EBUSY; 823 } 824 825 btm_cmd = hqvdp->hqvdp_cmd + btm_cmd_offset; 826 top_cmd = hqvdp->hqvdp_cmd + top_cmd_offest; 827 828 memcpy(btm_cmd, top_cmd, sizeof(*btm_cmd)); 829 830 btm_cmd->top.config = TOP_CONFIG_INTER_BTM; 831 btm_cmd->top.current_luma += 832 btm_cmd->top.luma_src_pitch / 2; 833 btm_cmd->top.current_chroma += 834 btm_cmd->top.chroma_src_pitch / 2; 835 836 /* Post the command to mailbox */ 837 writel(hqvdp->hqvdp_cmd_paddr + btm_cmd_offset, 838 hqvdp->regs + HQVDP_MBX_NEXT_CMD); 839 840 hqvdp->btm_field_pending = false; 841 842 dev_dbg(hqvdp->dev, "%s Posted command:0x%x\n", 843 __func__, hqvdp->hqvdp_cmd_paddr); 844 845 sti_plane_update_fps(&hqvdp->plane, false, true); 846 } 847 848 return 0; 849 } 850 851 static void sti_hqvdp_init(struct sti_hqvdp *hqvdp) 852 { 853 int size; 854 dma_addr_t dma_addr; 855 856 hqvdp->vtg_nb.notifier_call = sti_hqvdp_vtg_cb; 857 858 /* Allocate memory for the VDP commands */ 859 size = NB_VDP_CMD * sizeof(struct sti_hqvdp_cmd); 860 hqvdp->hqvdp_cmd = dma_alloc_wc(hqvdp->dev, size, 861 &dma_addr, 862 GFP_KERNEL | GFP_DMA); 863 if (!hqvdp->hqvdp_cmd) { 864 DRM_ERROR("Failed to allocate memory for VDP cmd\n"); 865 return; 866 } 867 868 hqvdp->hqvdp_cmd_paddr = (u32)dma_addr; 869 memset(hqvdp->hqvdp_cmd, 0, size); 870 } 871 872 static void sti_hqvdp_init_plugs(struct sti_hqvdp *hqvdp) 873 { 874 /* Configure Plugs (same for RD & WR) */ 875 writel(PLUG_PAGE_SIZE_256, hqvdp->regs + HQVDP_RD_PLUG_PAGE_SIZE); 876 writel(PLUG_MIN_OPC_8, hqvdp->regs + HQVDP_RD_PLUG_MIN_OPC); 877 writel(PLUG_MAX_OPC_64, hqvdp->regs + HQVDP_RD_PLUG_MAX_OPC); 878 writel(PLUG_MAX_CHK_2X, hqvdp->regs + HQVDP_RD_PLUG_MAX_CHK); 879 writel(PLUG_MAX_MSG_1X, hqvdp->regs + HQVDP_RD_PLUG_MAX_MSG); 880 writel(PLUG_MIN_SPACE_1, hqvdp->regs + HQVDP_RD_PLUG_MIN_SPACE); 881 writel(PLUG_CONTROL_ENABLE, hqvdp->regs + HQVDP_RD_PLUG_CONTROL); 882 883 writel(PLUG_PAGE_SIZE_256, hqvdp->regs + HQVDP_WR_PLUG_PAGE_SIZE); 884 writel(PLUG_MIN_OPC_8, hqvdp->regs + HQVDP_WR_PLUG_MIN_OPC); 885 writel(PLUG_MAX_OPC_64, hqvdp->regs + HQVDP_WR_PLUG_MAX_OPC); 886 writel(PLUG_MAX_CHK_2X, hqvdp->regs + HQVDP_WR_PLUG_MAX_CHK); 887 writel(PLUG_MAX_MSG_1X, hqvdp->regs + HQVDP_WR_PLUG_MAX_MSG); 888 writel(PLUG_MIN_SPACE_1, hqvdp->regs + HQVDP_WR_PLUG_MIN_SPACE); 889 writel(PLUG_CONTROL_ENABLE, hqvdp->regs + HQVDP_WR_PLUG_CONTROL); 890 } 891 892 /** 893 * sti_hqvdp_start_xp70 894 * @hqvdp: hqvdp pointer 895 * 896 * Run the xP70 initialization sequence 897 */ 898 static void sti_hqvdp_start_xp70(struct sti_hqvdp *hqvdp) 899 { 900 const struct firmware *firmware; 901 u32 *fw_rd_plug, *fw_wr_plug, *fw_pmem, *fw_dmem; 902 u8 *data; 903 int i; 904 struct fw_header { 905 int rd_size; 906 int wr_size; 907 int pmem_size; 908 int dmem_size; 909 } *header; 910 911 DRM_DEBUG_DRIVER("\n"); 912 913 if (hqvdp->xp70_initialized) { 914 DRM_DEBUG_DRIVER("HQVDP XP70 already initialized\n"); 915 return; 916 } 917 918 /* Request firmware */ 919 if (request_firmware(&firmware, HQVDP_FMW_NAME, hqvdp->dev)) { 920 DRM_ERROR("Can't get HQVDP firmware\n"); 921 return; 922 } 923 924 /* Check firmware parts */ 925 if (!firmware) { 926 DRM_ERROR("Firmware not available\n"); 927 return; 928 } 929 930 header = (struct fw_header *)firmware->data; 931 if (firmware->size < sizeof(*header)) { 932 DRM_ERROR("Invalid firmware size (%zu)\n", firmware->size); 933 goto out; 934 } 935 if ((sizeof(*header) + header->rd_size + header->wr_size + 936 header->pmem_size + header->dmem_size) != firmware->size) { 937 DRM_ERROR("Invalid fmw structure (%zu+%d+%d+%d+%d != %zu)\n", 938 sizeof(*header), header->rd_size, header->wr_size, 939 header->pmem_size, header->dmem_size, 940 firmware->size); 941 goto out; 942 } 943 944 data = (u8 *)firmware->data; 945 data += sizeof(*header); 946 fw_rd_plug = (void *)data; 947 data += header->rd_size; 948 fw_wr_plug = (void *)data; 949 data += header->wr_size; 950 fw_pmem = (void *)data; 951 data += header->pmem_size; 952 fw_dmem = (void *)data; 953 954 /* Enable clock */ 955 if (clk_prepare_enable(hqvdp->clk)) 956 DRM_ERROR("Failed to prepare/enable HQVDP clk\n"); 957 958 /* Reset */ 959 writel(SW_RESET_CTRL_FULL, hqvdp->regs + HQVDP_MBX_SW_RESET_CTRL); 960 961 for (i = 0; i < POLL_MAX_ATTEMPT; i++) { 962 if (readl(hqvdp->regs + HQVDP_MBX_STARTUP_CTRL1) 963 & STARTUP_CTRL1_RST_DONE) 964 break; 965 msleep(POLL_DELAY_MS); 966 } 967 if (i == POLL_MAX_ATTEMPT) { 968 DRM_ERROR("Could not reset\n"); 969 clk_disable_unprepare(hqvdp->clk); 970 goto out; 971 } 972 973 /* Init Read & Write plugs */ 974 for (i = 0; i < header->rd_size / 4; i++) 975 writel(fw_rd_plug[i], hqvdp->regs + HQVDP_RD_PLUG + i * 4); 976 for (i = 0; i < header->wr_size / 4; i++) 977 writel(fw_wr_plug[i], hqvdp->regs + HQVDP_WR_PLUG + i * 4); 978 979 sti_hqvdp_init_plugs(hqvdp); 980 981 /* Authorize Idle Mode */ 982 writel(STARTUP_CTRL1_AUTH_IDLE, hqvdp->regs + HQVDP_MBX_STARTUP_CTRL1); 983 984 /* Prevent VTG interruption during the boot */ 985 writel(SOFT_VSYNC_SW_CTRL_IRQ, hqvdp->regs + HQVDP_MBX_SOFT_VSYNC); 986 writel(0, hqvdp->regs + HQVDP_MBX_NEXT_CMD); 987 988 /* Download PMEM & DMEM */ 989 for (i = 0; i < header->pmem_size / 4; i++) 990 writel(fw_pmem[i], hqvdp->regs + HQVDP_PMEM + i * 4); 991 for (i = 0; i < header->dmem_size / 4; i++) 992 writel(fw_dmem[i], hqvdp->regs + HQVDP_DMEM + i * 4); 993 994 /* Enable fetch */ 995 writel(STARTUP_CTRL2_FETCH_EN, hqvdp->regs + HQVDP_MBX_STARTUP_CTRL2); 996 997 /* Wait end of boot */ 998 for (i = 0; i < POLL_MAX_ATTEMPT; i++) { 999 if (readl(hqvdp->regs + HQVDP_MBX_INFO_XP70) 1000 & INFO_XP70_FW_READY) 1001 break; 1002 msleep(POLL_DELAY_MS); 1003 } 1004 if (i == POLL_MAX_ATTEMPT) { 1005 DRM_ERROR("Could not boot\n"); 1006 clk_disable_unprepare(hqvdp->clk); 1007 goto out; 1008 } 1009 1010 /* Launch Vsync */ 1011 writel(SOFT_VSYNC_HW, hqvdp->regs + HQVDP_MBX_SOFT_VSYNC); 1012 1013 DRM_INFO("HQVDP XP70 initialized\n"); 1014 1015 hqvdp->xp70_initialized = true; 1016 1017 out: 1018 release_firmware(firmware); 1019 } 1020 1021 static int sti_hqvdp_atomic_check(struct drm_plane *drm_plane, 1022 struct drm_atomic_state *state) 1023 { 1024 struct drm_plane_state *new_plane_state = drm_atomic_get_new_plane_state(state, 1025 drm_plane); 1026 struct sti_plane *plane = to_sti_plane(drm_plane); 1027 struct sti_hqvdp *hqvdp = to_sti_hqvdp(plane); 1028 struct drm_crtc *crtc = new_plane_state->crtc; 1029 struct drm_framebuffer *fb = new_plane_state->fb; 1030 struct drm_crtc_state *crtc_state; 1031 struct drm_display_mode *mode; 1032 int dst_x, dst_y, dst_w, dst_h; 1033 int src_x, src_y, src_w, src_h; 1034 1035 /* no need for further checks if the plane is being disabled */ 1036 if (!crtc || !fb) 1037 return 0; 1038 1039 crtc_state = drm_atomic_get_crtc_state(state, crtc); 1040 mode = &crtc_state->mode; 1041 dst_x = new_plane_state->crtc_x; 1042 dst_y = new_plane_state->crtc_y; 1043 dst_w = clamp_val(new_plane_state->crtc_w, 0, mode->hdisplay - dst_x); 1044 dst_h = clamp_val(new_plane_state->crtc_h, 0, mode->vdisplay - dst_y); 1045 /* src_x are in 16.16 format */ 1046 src_x = new_plane_state->src_x >> 16; 1047 src_y = new_plane_state->src_y >> 16; 1048 src_w = new_plane_state->src_w >> 16; 1049 src_h = new_plane_state->src_h >> 16; 1050 1051 if (mode->clock && !sti_hqvdp_check_hw_scaling(hqvdp, mode, 1052 src_w, src_h, 1053 dst_w, dst_h)) { 1054 DRM_ERROR("Scaling beyond HW capabilities\n"); 1055 return -EINVAL; 1056 } 1057 1058 if (!drm_fb_cma_get_gem_obj(fb, 0)) { 1059 DRM_ERROR("Can't get CMA GEM object for fb\n"); 1060 return -EINVAL; 1061 } 1062 1063 /* 1064 * Input / output size 1065 * Align to upper even value 1066 */ 1067 dst_w = ALIGN(dst_w, 2); 1068 dst_h = ALIGN(dst_h, 2); 1069 1070 if ((src_w > MAX_WIDTH) || (src_w < MIN_WIDTH) || 1071 (src_h > MAX_HEIGHT) || (src_h < MIN_HEIGHT) || 1072 (dst_w > MAX_WIDTH) || (dst_w < MIN_WIDTH) || 1073 (dst_h > MAX_HEIGHT) || (dst_h < MIN_HEIGHT)) { 1074 DRM_ERROR("Invalid in/out size %dx%d -> %dx%d\n", 1075 src_w, src_h, 1076 dst_w, dst_h); 1077 return -EINVAL; 1078 } 1079 1080 if (!hqvdp->xp70_initialized) 1081 /* Start HQVDP XP70 coprocessor */ 1082 sti_hqvdp_start_xp70(hqvdp); 1083 1084 if (!hqvdp->vtg_registered) { 1085 /* Prevent VTG shutdown */ 1086 if (clk_prepare_enable(hqvdp->clk_pix_main)) { 1087 DRM_ERROR("Failed to prepare/enable pix main clk\n"); 1088 return -EINVAL; 1089 } 1090 1091 /* Register VTG Vsync callback to handle bottom fields */ 1092 if (sti_vtg_register_client(hqvdp->vtg, 1093 &hqvdp->vtg_nb, 1094 crtc)) { 1095 DRM_ERROR("Cannot register VTG notifier\n"); 1096 clk_disable_unprepare(hqvdp->clk_pix_main); 1097 return -EINVAL; 1098 } 1099 hqvdp->vtg_registered = true; 1100 } 1101 1102 DRM_DEBUG_KMS("CRTC:%d (%s) drm plane:%d (%s)\n", 1103 crtc->base.id, sti_mixer_to_str(to_sti_mixer(crtc)), 1104 drm_plane->base.id, sti_plane_to_str(plane)); 1105 DRM_DEBUG_KMS("%s dst=(%dx%d)@(%d,%d) - src=(%dx%d)@(%d,%d)\n", 1106 sti_plane_to_str(plane), 1107 dst_w, dst_h, dst_x, dst_y, 1108 src_w, src_h, src_x, src_y); 1109 1110 return 0; 1111 } 1112 1113 static void sti_hqvdp_atomic_update(struct drm_plane *drm_plane, 1114 struct drm_atomic_state *state) 1115 { 1116 struct drm_plane_state *oldstate = drm_atomic_get_old_plane_state(state, 1117 drm_plane); 1118 struct drm_plane_state *newstate = drm_atomic_get_new_plane_state(state, 1119 drm_plane); 1120 struct sti_plane *plane = to_sti_plane(drm_plane); 1121 struct sti_hqvdp *hqvdp = to_sti_hqvdp(plane); 1122 struct drm_crtc *crtc = newstate->crtc; 1123 struct drm_framebuffer *fb = newstate->fb; 1124 struct drm_display_mode *mode; 1125 int dst_x, dst_y, dst_w, dst_h; 1126 int src_x, src_y, src_w, src_h; 1127 struct drm_gem_cma_object *cma_obj; 1128 struct sti_hqvdp_cmd *cmd; 1129 int scale_h, scale_v; 1130 int cmd_offset; 1131 1132 if (!crtc || !fb) 1133 return; 1134 1135 if ((oldstate->fb == newstate->fb) && 1136 (oldstate->crtc_x == newstate->crtc_x) && 1137 (oldstate->crtc_y == newstate->crtc_y) && 1138 (oldstate->crtc_w == newstate->crtc_w) && 1139 (oldstate->crtc_h == newstate->crtc_h) && 1140 (oldstate->src_x == newstate->src_x) && 1141 (oldstate->src_y == newstate->src_y) && 1142 (oldstate->src_w == newstate->src_w) && 1143 (oldstate->src_h == newstate->src_h)) { 1144 /* No change since last update, do not post cmd */ 1145 DRM_DEBUG_DRIVER("No change, not posting cmd\n"); 1146 plane->status = STI_PLANE_UPDATED; 1147 return; 1148 } 1149 1150 mode = &crtc->mode; 1151 dst_x = newstate->crtc_x; 1152 dst_y = newstate->crtc_y; 1153 dst_w = clamp_val(newstate->crtc_w, 0, mode->hdisplay - dst_x); 1154 dst_h = clamp_val(newstate->crtc_h, 0, mode->vdisplay - dst_y); 1155 /* src_x are in 16.16 format */ 1156 src_x = newstate->src_x >> 16; 1157 src_y = newstate->src_y >> 16; 1158 src_w = newstate->src_w >> 16; 1159 src_h = newstate->src_h >> 16; 1160 1161 cmd_offset = sti_hqvdp_get_free_cmd(hqvdp); 1162 if (cmd_offset == -1) { 1163 DRM_DEBUG_DRIVER("Warning: no cmd, will skip frame\n"); 1164 return; 1165 } 1166 cmd = hqvdp->hqvdp_cmd + cmd_offset; 1167 1168 /* Static parameters, defaulting to progressive mode */ 1169 cmd->top.config = TOP_CONFIG_PROGRESSIVE; 1170 cmd->top.mem_format = TOP_MEM_FORMAT_DFLT; 1171 cmd->hvsrc.param_ctrl = HVSRC_PARAM_CTRL_DFLT; 1172 cmd->csdi.config = CSDI_CONFIG_PROG; 1173 1174 /* VC1RE, FMD bypassed : keep everything set to 0 1175 * IQI/P2I bypassed */ 1176 cmd->iqi.config = IQI_CONFIG_DFLT; 1177 cmd->iqi.con_bri = IQI_CON_BRI_DFLT; 1178 cmd->iqi.sat_gain = IQI_SAT_GAIN_DFLT; 1179 cmd->iqi.pxf_conf = IQI_PXF_CONF_DFLT; 1180 1181 cma_obj = drm_fb_cma_get_gem_obj(fb, 0); 1182 1183 DRM_DEBUG_DRIVER("drm FB:%d format:%.4s phys@:0x%lx\n", fb->base.id, 1184 (char *)&fb->format->format, 1185 (unsigned long)cma_obj->paddr); 1186 1187 /* Buffer planes address */ 1188 cmd->top.current_luma = (u32)cma_obj->paddr + fb->offsets[0]; 1189 cmd->top.current_chroma = (u32)cma_obj->paddr + fb->offsets[1]; 1190 1191 /* Pitches */ 1192 cmd->top.luma_processed_pitch = fb->pitches[0]; 1193 cmd->top.luma_src_pitch = fb->pitches[0]; 1194 cmd->top.chroma_processed_pitch = fb->pitches[1]; 1195 cmd->top.chroma_src_pitch = fb->pitches[1]; 1196 1197 /* Input / output size 1198 * Align to upper even value */ 1199 dst_w = ALIGN(dst_w, 2); 1200 dst_h = ALIGN(dst_h, 2); 1201 1202 cmd->top.input_viewport_size = src_h << 16 | src_w; 1203 cmd->top.input_frame_size = src_h << 16 | src_w; 1204 cmd->hvsrc.output_picture_size = dst_h << 16 | dst_w; 1205 cmd->top.input_viewport_ori = src_y << 16 | src_x; 1206 1207 /* Handle interlaced */ 1208 if (fb->flags & DRM_MODE_FB_INTERLACED) { 1209 /* Top field to display */ 1210 cmd->top.config = TOP_CONFIG_INTER_TOP; 1211 1212 /* Update pitches and vert size */ 1213 cmd->top.input_frame_size = (src_h / 2) << 16 | src_w; 1214 cmd->top.luma_processed_pitch *= 2; 1215 cmd->top.luma_src_pitch *= 2; 1216 cmd->top.chroma_processed_pitch *= 2; 1217 cmd->top.chroma_src_pitch *= 2; 1218 1219 /* Enable directional deinterlacing processing */ 1220 cmd->csdi.config = CSDI_CONFIG_INTER_DIR; 1221 cmd->csdi.config2 = CSDI_CONFIG2_DFLT; 1222 cmd->csdi.dcdi_config = CSDI_DCDI_CONFIG_DFLT; 1223 } 1224 1225 /* Update hvsrc lut coef */ 1226 scale_h = SCALE_FACTOR * dst_w / src_w; 1227 sti_hqvdp_update_hvsrc(HVSRC_HORI, scale_h, &cmd->hvsrc); 1228 1229 scale_v = SCALE_FACTOR * dst_h / src_h; 1230 sti_hqvdp_update_hvsrc(HVSRC_VERT, scale_v, &cmd->hvsrc); 1231 1232 writel(hqvdp->hqvdp_cmd_paddr + cmd_offset, 1233 hqvdp->regs + HQVDP_MBX_NEXT_CMD); 1234 1235 /* Interlaced : get ready to display the bottom field at next Vsync */ 1236 if (fb->flags & DRM_MODE_FB_INTERLACED) 1237 hqvdp->btm_field_pending = true; 1238 1239 dev_dbg(hqvdp->dev, "%s Posted command:0x%x\n", 1240 __func__, hqvdp->hqvdp_cmd_paddr + cmd_offset); 1241 1242 sti_plane_update_fps(plane, true, true); 1243 1244 plane->status = STI_PLANE_UPDATED; 1245 } 1246 1247 static void sti_hqvdp_atomic_disable(struct drm_plane *drm_plane, 1248 struct drm_atomic_state *state) 1249 { 1250 struct drm_plane_state *oldstate = drm_atomic_get_old_plane_state(state, 1251 drm_plane); 1252 struct sti_plane *plane = to_sti_plane(drm_plane); 1253 1254 if (!oldstate->crtc) { 1255 DRM_DEBUG_DRIVER("drm plane:%d not enabled\n", 1256 drm_plane->base.id); 1257 return; 1258 } 1259 1260 DRM_DEBUG_DRIVER("CRTC:%d (%s) drm plane:%d (%s)\n", 1261 oldstate->crtc->base.id, 1262 sti_mixer_to_str(to_sti_mixer(oldstate->crtc)), 1263 drm_plane->base.id, sti_plane_to_str(plane)); 1264 1265 plane->status = STI_PLANE_DISABLING; 1266 } 1267 1268 static const struct drm_plane_helper_funcs sti_hqvdp_helpers_funcs = { 1269 .atomic_check = sti_hqvdp_atomic_check, 1270 .atomic_update = sti_hqvdp_atomic_update, 1271 .atomic_disable = sti_hqvdp_atomic_disable, 1272 }; 1273 1274 static int sti_hqvdp_late_register(struct drm_plane *drm_plane) 1275 { 1276 struct sti_plane *plane = to_sti_plane(drm_plane); 1277 struct sti_hqvdp *hqvdp = to_sti_hqvdp(plane); 1278 1279 hqvdp_debugfs_init(hqvdp, drm_plane->dev->primary); 1280 1281 return 0; 1282 } 1283 1284 static const struct drm_plane_funcs sti_hqvdp_plane_helpers_funcs = { 1285 .update_plane = drm_atomic_helper_update_plane, 1286 .disable_plane = drm_atomic_helper_disable_plane, 1287 .destroy = drm_plane_cleanup, 1288 .reset = drm_atomic_helper_plane_reset, 1289 .atomic_duplicate_state = drm_atomic_helper_plane_duplicate_state, 1290 .atomic_destroy_state = drm_atomic_helper_plane_destroy_state, 1291 .late_register = sti_hqvdp_late_register, 1292 }; 1293 1294 static struct drm_plane *sti_hqvdp_create(struct drm_device *drm_dev, 1295 struct device *dev, int desc) 1296 { 1297 struct sti_hqvdp *hqvdp = dev_get_drvdata(dev); 1298 int res; 1299 1300 hqvdp->plane.desc = desc; 1301 hqvdp->plane.status = STI_PLANE_DISABLED; 1302 1303 sti_hqvdp_init(hqvdp); 1304 1305 res = drm_universal_plane_init(drm_dev, &hqvdp->plane.drm_plane, 1, 1306 &sti_hqvdp_plane_helpers_funcs, 1307 hqvdp_supported_formats, 1308 ARRAY_SIZE(hqvdp_supported_formats), 1309 NULL, DRM_PLANE_TYPE_OVERLAY, NULL); 1310 if (res) { 1311 DRM_ERROR("Failed to initialize universal plane\n"); 1312 return NULL; 1313 } 1314 1315 drm_plane_helper_add(&hqvdp->plane.drm_plane, &sti_hqvdp_helpers_funcs); 1316 1317 sti_plane_init_property(&hqvdp->plane, DRM_PLANE_TYPE_OVERLAY); 1318 1319 return &hqvdp->plane.drm_plane; 1320 } 1321 1322 static int sti_hqvdp_bind(struct device *dev, struct device *master, void *data) 1323 { 1324 struct sti_hqvdp *hqvdp = dev_get_drvdata(dev); 1325 struct drm_device *drm_dev = data; 1326 struct drm_plane *plane; 1327 1328 DRM_DEBUG_DRIVER("\n"); 1329 1330 hqvdp->drm_dev = drm_dev; 1331 1332 /* Create HQVDP plane once xp70 is initialized */ 1333 plane = sti_hqvdp_create(drm_dev, hqvdp->dev, STI_HQVDP_0); 1334 if (!plane) 1335 DRM_ERROR("Can't create HQVDP plane\n"); 1336 1337 return 0; 1338 } 1339 1340 static void sti_hqvdp_unbind(struct device *dev, 1341 struct device *master, void *data) 1342 { 1343 /* do nothing */ 1344 } 1345 1346 static const struct component_ops sti_hqvdp_ops = { 1347 .bind = sti_hqvdp_bind, 1348 .unbind = sti_hqvdp_unbind, 1349 }; 1350 1351 static int sti_hqvdp_probe(struct platform_device *pdev) 1352 { 1353 struct device *dev = &pdev->dev; 1354 struct device_node *vtg_np; 1355 struct sti_hqvdp *hqvdp; 1356 struct resource *res; 1357 1358 DRM_DEBUG_DRIVER("\n"); 1359 1360 hqvdp = devm_kzalloc(dev, sizeof(*hqvdp), GFP_KERNEL); 1361 if (!hqvdp) { 1362 DRM_ERROR("Failed to allocate HQVDP context\n"); 1363 return -ENOMEM; 1364 } 1365 1366 hqvdp->dev = dev; 1367 1368 /* Get Memory resources */ 1369 res = platform_get_resource(pdev, IORESOURCE_MEM, 0); 1370 if (!res) { 1371 DRM_ERROR("Get memory resource failed\n"); 1372 return -ENXIO; 1373 } 1374 hqvdp->regs = devm_ioremap(dev, res->start, resource_size(res)); 1375 if (!hqvdp->regs) { 1376 DRM_ERROR("Register mapping failed\n"); 1377 return -ENXIO; 1378 } 1379 1380 /* Get clock resources */ 1381 hqvdp->clk = devm_clk_get(dev, "hqvdp"); 1382 hqvdp->clk_pix_main = devm_clk_get(dev, "pix_main"); 1383 if (IS_ERR(hqvdp->clk) || IS_ERR(hqvdp->clk_pix_main)) { 1384 DRM_ERROR("Cannot get clocks\n"); 1385 return -ENXIO; 1386 } 1387 1388 /* Get reset resources */ 1389 hqvdp->reset = devm_reset_control_get(dev, "hqvdp"); 1390 if (!IS_ERR(hqvdp->reset)) 1391 reset_control_deassert(hqvdp->reset); 1392 1393 vtg_np = of_parse_phandle(pdev->dev.of_node, "st,vtg", 0); 1394 if (vtg_np) 1395 hqvdp->vtg = of_vtg_find(vtg_np); 1396 of_node_put(vtg_np); 1397 1398 platform_set_drvdata(pdev, hqvdp); 1399 1400 return component_add(&pdev->dev, &sti_hqvdp_ops); 1401 } 1402 1403 static int sti_hqvdp_remove(struct platform_device *pdev) 1404 { 1405 component_del(&pdev->dev, &sti_hqvdp_ops); 1406 return 0; 1407 } 1408 1409 static const struct of_device_id hqvdp_of_match[] = { 1410 { .compatible = "st,stih407-hqvdp", }, 1411 { /* end node */ } 1412 }; 1413 MODULE_DEVICE_TABLE(of, hqvdp_of_match); 1414 1415 struct platform_driver sti_hqvdp_driver = { 1416 .driver = { 1417 .name = "sti-hqvdp", 1418 .owner = THIS_MODULE, 1419 .of_match_table = hqvdp_of_match, 1420 }, 1421 .probe = sti_hqvdp_probe, 1422 .remove = sti_hqvdp_remove, 1423 }; 1424 1425 MODULE_AUTHOR("Benjamin Gaignard <benjamin.gaignard@st.com>"); 1426 MODULE_DESCRIPTION("STMicroelectronics SoC DRM driver"); 1427 MODULE_LICENSE("GPL"); 1428