meson_overlay.c 27 KB

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  1. // SPDX-License-Identifier: GPL-2.0+
  2. /*
  3. * Copyright (C) 2018 BayLibre, SAS
  4. * Author: Neil Armstrong <narmstrong@baylibre.com>
  5. * Copyright (C) 2015 Amlogic, Inc. All rights reserved.
  6. */
  7. #include <linux/bitfield.h>
  8. #include <drm/drm_atomic.h>
  9. #include <drm/drm_atomic_helper.h>
  10. #include <drm/drm_blend.h>
  11. #include <drm/drm_device.h>
  12. #include <drm/drm_fb_dma_helper.h>
  13. #include <drm/drm_fourcc.h>
  14. #include <drm/drm_framebuffer.h>
  15. #include <drm/drm_gem_atomic_helper.h>
  16. #include <drm/drm_gem_dma_helper.h>
  17. #include <drm/drm_print.h>
  18. #include "meson_overlay.h"
  19. #include "meson_registers.h"
  20. #include "meson_viu.h"
  21. #include "meson_vpp.h"
  22. /* VD1_IF0_GEN_REG */
  23. #define VD_URGENT_CHROMA BIT(28)
  24. #define VD_URGENT_LUMA BIT(27)
  25. #define VD_HOLD_LINES(lines) FIELD_PREP(GENMASK(24, 19), lines)
  26. #define VD_DEMUX_MODE_RGB BIT(16)
  27. #define VD_BYTES_PER_PIXEL(val) FIELD_PREP(GENMASK(15, 14), val)
  28. #define VD_CHRO_RPT_LASTL_CTRL BIT(6)
  29. #define VD_LITTLE_ENDIAN BIT(4)
  30. #define VD_SEPARATE_EN BIT(1)
  31. #define VD_ENABLE BIT(0)
  32. /* VD1_IF0_CANVAS0 */
  33. #define CANVAS_ADDR2(addr) FIELD_PREP(GENMASK(23, 16), addr)
  34. #define CANVAS_ADDR1(addr) FIELD_PREP(GENMASK(15, 8), addr)
  35. #define CANVAS_ADDR0(addr) FIELD_PREP(GENMASK(7, 0), addr)
  36. /* VD1_IF0_LUMA_X0 VD1_IF0_CHROMA_X0 */
  37. #define VD_X_START(value) FIELD_PREP(GENMASK(14, 0), value)
  38. #define VD_X_END(value) FIELD_PREP(GENMASK(30, 16), value)
  39. /* VD1_IF0_LUMA_Y0 VD1_IF0_CHROMA_Y0 */
  40. #define VD_Y_START(value) FIELD_PREP(GENMASK(12, 0), value)
  41. #define VD_Y_END(value) FIELD_PREP(GENMASK(28, 16), value)
  42. /* VD1_IF0_GEN_REG2 */
  43. #define VD_COLOR_MAP(value) FIELD_PREP(GENMASK(1, 0), value)
  44. /* VIU_VD1_FMT_CTRL */
  45. #define VD_HORZ_Y_C_RATIO(value) FIELD_PREP(GENMASK(22, 21), value)
  46. #define VD_HORZ_FMT_EN BIT(20)
  47. #define VD_VERT_RPT_LINE0 BIT(16)
  48. #define VD_VERT_INITIAL_PHASE(value) FIELD_PREP(GENMASK(11, 8), value)
  49. #define VD_VERT_PHASE_STEP(value) FIELD_PREP(GENMASK(7, 1), value)
  50. #define VD_VERT_FMT_EN BIT(0)
  51. /* VPP_POSTBLEND_VD1_H_START_END */
  52. #define VD_H_END(value) FIELD_PREP(GENMASK(11, 0), value)
  53. #define VD_H_START(value) FIELD_PREP(GENMASK(27, 16), \
  54. ((value) & GENMASK(13, 0)))
  55. /* VPP_POSTBLEND_VD1_V_START_END */
  56. #define VD_V_END(value) FIELD_PREP(GENMASK(11, 0), value)
  57. #define VD_V_START(value) FIELD_PREP(GENMASK(27, 16), value)
  58. /* VPP_BLEND_VD2_V_START_END */
  59. #define VD2_V_END(value) FIELD_PREP(GENMASK(11, 0), value)
  60. #define VD2_V_START(value) FIELD_PREP(GENMASK(27, 16), value)
  61. /* VIU_VD1_FMT_W */
  62. #define VD_V_WIDTH(value) FIELD_PREP(GENMASK(11, 0), value)
  63. #define VD_H_WIDTH(value) FIELD_PREP(GENMASK(27, 16), value)
  64. /* VPP_HSC_REGION12_STARTP VPP_HSC_REGION34_STARTP */
  65. #define VD_REGION24_START(value) FIELD_PREP(GENMASK(11, 0), value)
  66. #define VD_REGION13_END(value) FIELD_PREP(GENMASK(27, 16), value)
  67. /* AFBC_ENABLE */
  68. #define AFBC_DEC_ENABLE BIT(8)
  69. #define AFBC_FRM_START BIT(0)
  70. /* AFBC_MODE */
  71. #define AFBC_HORZ_SKIP_UV(value) FIELD_PREP(GENMASK(1, 0), value)
  72. #define AFBC_VERT_SKIP_UV(value) FIELD_PREP(GENMASK(3, 2), value)
  73. #define AFBC_HORZ_SKIP_Y(value) FIELD_PREP(GENMASK(5, 4), value)
  74. #define AFBC_VERT_SKIP_Y(value) FIELD_PREP(GENMASK(7, 6), value)
  75. #define AFBC_COMPBITS_YUV(value) FIELD_PREP(GENMASK(13, 8), value)
  76. #define AFBC_COMPBITS_8BIT 0
  77. #define AFBC_COMPBITS_10BIT (2 | (2 << 2) | (2 << 4))
  78. #define AFBC_BURST_LEN(value) FIELD_PREP(GENMASK(15, 14), value)
  79. #define AFBC_HOLD_LINE_NUM(value) FIELD_PREP(GENMASK(22, 16), value)
  80. #define AFBC_MIF_URGENT(value) FIELD_PREP(GENMASK(25, 24), value)
  81. #define AFBC_REV_MODE(value) FIELD_PREP(GENMASK(27, 26), value)
  82. #define AFBC_BLK_MEM_MODE BIT(28)
  83. #define AFBC_SCATTER_MODE BIT(29)
  84. #define AFBC_SOFT_RESET BIT(31)
  85. /* AFBC_SIZE_IN */
  86. #define AFBC_HSIZE_IN(value) FIELD_PREP(GENMASK(28, 16), value)
  87. #define AFBC_VSIZE_IN(value) FIELD_PREP(GENMASK(12, 0), value)
  88. /* AFBC_DEC_DEF_COLOR */
  89. #define AFBC_DEF_COLOR_Y(value) FIELD_PREP(GENMASK(29, 20), value)
  90. #define AFBC_DEF_COLOR_U(value) FIELD_PREP(GENMASK(19, 10), value)
  91. #define AFBC_DEF_COLOR_V(value) FIELD_PREP(GENMASK(9, 0), value)
  92. /* AFBC_CONV_CTRL */
  93. #define AFBC_CONV_LBUF_LEN(value) FIELD_PREP(GENMASK(11, 0), value)
  94. /* AFBC_LBUF_DEPTH */
  95. #define AFBC_DEC_LBUF_DEPTH(value) FIELD_PREP(GENMASK(27, 16), value)
  96. #define AFBC_MIF_LBUF_DEPTH(value) FIELD_PREP(GENMASK(11, 0), value)
  97. /* AFBC_OUT_XSCOPE/AFBC_SIZE_OUT */
  98. #define AFBC_HSIZE_OUT(value) FIELD_PREP(GENMASK(28, 16), value)
  99. #define AFBC_VSIZE_OUT(value) FIELD_PREP(GENMASK(12, 0), value)
  100. #define AFBC_OUT_HORZ_BGN(value) FIELD_PREP(GENMASK(28, 16), value)
  101. #define AFBC_OUT_HORZ_END(value) FIELD_PREP(GENMASK(12, 0), value)
  102. /* AFBC_OUT_YSCOPE */
  103. #define AFBC_OUT_VERT_BGN(value) FIELD_PREP(GENMASK(28, 16), value)
  104. #define AFBC_OUT_VERT_END(value) FIELD_PREP(GENMASK(12, 0), value)
  105. /* AFBC_VD_CFMT_CTRL */
  106. #define AFBC_HORZ_RPT_PIXEL0 BIT(23)
  107. #define AFBC_HORZ_Y_C_RATIO(value) FIELD_PREP(GENMASK(22, 21), value)
  108. #define AFBC_HORZ_FMT_EN BIT(20)
  109. #define AFBC_VERT_RPT_LINE0 BIT(16)
  110. #define AFBC_VERT_INITIAL_PHASE(value) FIELD_PREP(GENMASK(11, 8), value)
  111. #define AFBC_VERT_PHASE_STEP(value) FIELD_PREP(GENMASK(7, 1), value)
  112. #define AFBC_VERT_FMT_EN BIT(0)
  113. /* AFBC_VD_CFMT_W */
  114. #define AFBC_VD_V_WIDTH(value) FIELD_PREP(GENMASK(11, 0), value)
  115. #define AFBC_VD_H_WIDTH(value) FIELD_PREP(GENMASK(27, 16), value)
  116. /* AFBC_MIF_HOR_SCOPE */
  117. #define AFBC_MIF_BLK_BGN_H(value) FIELD_PREP(GENMASK(25, 16), value)
  118. #define AFBC_MIF_BLK_END_H(value) FIELD_PREP(GENMASK(9, 0), value)
  119. /* AFBC_MIF_VER_SCOPE */
  120. #define AFBC_MIF_BLK_BGN_V(value) FIELD_PREP(GENMASK(27, 16), value)
  121. #define AFBC_MIF_BLK_END_V(value) FIELD_PREP(GENMASK(11, 0), value)
  122. /* AFBC_PIXEL_HOR_SCOPE */
  123. #define AFBC_DEC_PIXEL_BGN_H(value) FIELD_PREP(GENMASK(28, 16), \
  124. ((value) & GENMASK(12, 0)))
  125. #define AFBC_DEC_PIXEL_END_H(value) FIELD_PREP(GENMASK(12, 0), value)
  126. /* AFBC_PIXEL_VER_SCOPE */
  127. #define AFBC_DEC_PIXEL_BGN_V(value) FIELD_PREP(GENMASK(28, 16), value)
  128. #define AFBC_DEC_PIXEL_END_V(value) FIELD_PREP(GENMASK(12, 0), value)
  129. /* AFBC_VD_CFMT_H */
  130. #define AFBC_VD_HEIGHT(value) FIELD_PREP(GENMASK(12, 0), value)
  131. struct meson_overlay {
  132. struct drm_plane base;
  133. struct meson_drm *priv;
  134. };
  135. #define to_meson_overlay(x) container_of(x, struct meson_overlay, base)
  136. #define FRAC_16_16(mult, div) (((mult) << 16) / (div))
  137. static int meson_overlay_atomic_check(struct drm_plane *plane,
  138. struct drm_atomic_state *state)
  139. {
  140. struct drm_plane_state *new_plane_state = drm_atomic_get_new_plane_state(state,
  141. plane);
  142. struct drm_crtc_state *crtc_state;
  143. if (!new_plane_state->crtc)
  144. return 0;
  145. crtc_state = drm_atomic_get_crtc_state(state,
  146. new_plane_state->crtc);
  147. if (IS_ERR(crtc_state))
  148. return PTR_ERR(crtc_state);
  149. return drm_atomic_helper_check_plane_state(new_plane_state,
  150. crtc_state,
  151. FRAC_16_16(1, 5),
  152. FRAC_16_16(5, 1),
  153. true, true);
  154. }
  155. /* Takes a fixed 16.16 number and converts it to integer. */
  156. static inline int64_t fixed16_to_int(int64_t value)
  157. {
  158. return value >> 16;
  159. }
  160. static const uint8_t skip_tab[6] = {
  161. 0x24, 0x04, 0x68, 0x48, 0x28, 0x08,
  162. };
  163. static void meson_overlay_get_vertical_phase(unsigned int ratio_y, int *phase,
  164. int *repeat, bool interlace)
  165. {
  166. int offset_in = 0;
  167. int offset_out = 0;
  168. int repeat_skip = 0;
  169. if (!interlace && ratio_y > (1 << 18))
  170. offset_out = (1 * ratio_y) >> 10;
  171. while ((offset_in + (4 << 8)) <= offset_out) {
  172. repeat_skip++;
  173. offset_in += 4 << 8;
  174. }
  175. *phase = (offset_out - offset_in) >> 2;
  176. if (*phase > 0x100)
  177. repeat_skip++;
  178. *phase = *phase & 0xff;
  179. if (repeat_skip > 5)
  180. repeat_skip = 5;
  181. *repeat = skip_tab[repeat_skip];
  182. }
  183. static void meson_overlay_setup_scaler_params(struct meson_drm *priv,
  184. struct drm_plane *plane,
  185. bool interlace_mode)
  186. {
  187. struct drm_crtc_state *crtc_state = priv->crtc->state;
  188. int video_top, video_left, video_width, video_height;
  189. struct drm_plane_state *state = plane->state;
  190. unsigned int vd_start_lines, vd_end_lines;
  191. unsigned int hd_start_lines, hd_end_lines;
  192. unsigned int crtc_height, crtc_width;
  193. unsigned int vsc_startp, vsc_endp;
  194. unsigned int hsc_startp, hsc_endp;
  195. unsigned int crop_top, crop_left;
  196. int vphase, vphase_repeat_skip;
  197. unsigned int ratio_x, ratio_y;
  198. int temp_height, temp_width;
  199. unsigned int w_in, h_in;
  200. int afbc_left, afbc_right;
  201. int afbc_top_src, afbc_bottom_src;
  202. int afbc_top, afbc_bottom;
  203. int temp, start, end;
  204. if (!crtc_state) {
  205. DRM_ERROR("Invalid crtc_state\n");
  206. return;
  207. }
  208. crtc_height = crtc_state->mode.vdisplay;
  209. crtc_width = crtc_state->mode.hdisplay;
  210. w_in = fixed16_to_int(state->src_w);
  211. h_in = fixed16_to_int(state->src_h);
  212. crop_top = fixed16_to_int(state->src_y);
  213. crop_left = fixed16_to_int(state->src_x);
  214. video_top = state->crtc_y;
  215. video_left = state->crtc_x;
  216. video_width = state->crtc_w;
  217. video_height = state->crtc_h;
  218. DRM_DEBUG("crtc_width %d crtc_height %d interlace %d\n",
  219. crtc_width, crtc_height, interlace_mode);
  220. DRM_DEBUG("w_in %d h_in %d crop_top %d crop_left %d\n",
  221. w_in, h_in, crop_top, crop_left);
  222. DRM_DEBUG("video top %d left %d width %d height %d\n",
  223. video_top, video_left, video_width, video_height);
  224. ratio_x = (w_in << 18) / video_width;
  225. ratio_y = (h_in << 18) / video_height;
  226. if (ratio_x * video_width < (w_in << 18))
  227. ratio_x++;
  228. DRM_DEBUG("ratio x 0x%x y 0x%x\n", ratio_x, ratio_y);
  229. meson_overlay_get_vertical_phase(ratio_y, &vphase, &vphase_repeat_skip,
  230. interlace_mode);
  231. DRM_DEBUG("vphase 0x%x skip %d\n", vphase, vphase_repeat_skip);
  232. /* Vertical */
  233. start = video_top + video_height / 2 - ((h_in << 17) / ratio_y);
  234. end = (h_in << 18) / ratio_y + start - 1;
  235. if (video_top < 0 && start < 0)
  236. vd_start_lines = (-(start) * ratio_y) >> 18;
  237. else if (start < video_top)
  238. vd_start_lines = ((video_top - start) * ratio_y) >> 18;
  239. else
  240. vd_start_lines = 0;
  241. if (video_top < 0)
  242. temp_height = min_t(unsigned int,
  243. video_top + video_height - 1,
  244. crtc_height - 1);
  245. else
  246. temp_height = min_t(unsigned int,
  247. video_top + video_height - 1,
  248. crtc_height - 1) - video_top + 1;
  249. temp = vd_start_lines + (temp_height * ratio_y >> 18);
  250. vd_end_lines = (temp <= (h_in - 1)) ? temp : (h_in - 1);
  251. vd_start_lines += crop_left;
  252. vd_end_lines += crop_left;
  253. /*
  254. * TOFIX: Input frames are handled and scaled like progressive frames,
  255. * proper handling of interlaced field input frames need to be figured
  256. * out using the proper framebuffer flags set by userspace.
  257. */
  258. if (interlace_mode) {
  259. start >>= 1;
  260. end >>= 1;
  261. }
  262. vsc_startp = max_t(int, start,
  263. max_t(int, 0, video_top));
  264. vsc_endp = min_t(int, end,
  265. min_t(int, crtc_height - 1,
  266. video_top + video_height - 1));
  267. DRM_DEBUG("vsc startp %d endp %d start_lines %d end_lines %d\n",
  268. vsc_startp, vsc_endp, vd_start_lines, vd_end_lines);
  269. afbc_top = round_down(vd_start_lines, 4);
  270. afbc_bottom = round_up(vd_end_lines + 1, 4);
  271. afbc_top_src = 0;
  272. afbc_bottom_src = round_up(h_in + 1, 4);
  273. DRM_DEBUG("afbc top %d (src %d) bottom %d (src %d)\n",
  274. afbc_top, afbc_top_src, afbc_bottom, afbc_bottom_src);
  275. /* Horizontal */
  276. start = video_left + video_width / 2 - ((w_in << 17) / ratio_x);
  277. end = (w_in << 18) / ratio_x + start - 1;
  278. if (video_left < 0 && start < 0)
  279. hd_start_lines = (-(start) * ratio_x) >> 18;
  280. else if (start < video_left)
  281. hd_start_lines = ((video_left - start) * ratio_x) >> 18;
  282. else
  283. hd_start_lines = 0;
  284. if (video_left < 0)
  285. temp_width = min_t(unsigned int,
  286. video_left + video_width - 1,
  287. crtc_width - 1);
  288. else
  289. temp_width = min_t(unsigned int,
  290. video_left + video_width - 1,
  291. crtc_width - 1) - video_left + 1;
  292. temp = hd_start_lines + (temp_width * ratio_x >> 18);
  293. hd_end_lines = (temp <= (w_in - 1)) ? temp : (w_in - 1);
  294. priv->viu.vpp_line_in_length = hd_end_lines - hd_start_lines + 1;
  295. hsc_startp = max_t(int, start, max_t(int, 0, video_left));
  296. hsc_endp = min_t(int, end, min_t(int, crtc_width - 1,
  297. video_left + video_width - 1));
  298. hd_start_lines += crop_top;
  299. hd_end_lines += crop_top;
  300. DRM_DEBUG("hsc startp %d endp %d start_lines %d end_lines %d\n",
  301. hsc_startp, hsc_endp, hd_start_lines, hd_end_lines);
  302. if (hd_start_lines > 0 || (hd_end_lines < w_in)) {
  303. afbc_left = 0;
  304. afbc_right = round_up(w_in, 32);
  305. } else {
  306. afbc_left = round_down(hd_start_lines, 32);
  307. afbc_right = round_up(hd_end_lines + 1, 32);
  308. }
  309. DRM_DEBUG("afbc left %d right %d\n", afbc_left, afbc_right);
  310. priv->viu.vpp_vsc_start_phase_step = ratio_y << 6;
  311. priv->viu.vpp_vsc_ini_phase = vphase << 8;
  312. priv->viu.vpp_vsc_phase_ctrl = (1 << 13) | (4 << 8) |
  313. vphase_repeat_skip;
  314. priv->viu.vd1_if0_luma_x0 = VD_X_START(hd_start_lines) |
  315. VD_X_END(hd_end_lines);
  316. priv->viu.vd1_if0_chroma_x0 = VD_X_START(hd_start_lines >> 1) |
  317. VD_X_END(hd_end_lines >> 1);
  318. priv->viu.viu_vd1_fmt_w =
  319. VD_H_WIDTH(hd_end_lines - hd_start_lines + 1) |
  320. VD_V_WIDTH(hd_end_lines/2 - hd_start_lines/2 + 1);
  321. priv->viu.vd1_afbc_vd_cfmt_w =
  322. AFBC_VD_H_WIDTH(afbc_right - afbc_left) |
  323. AFBC_VD_V_WIDTH(afbc_right / 2 - afbc_left / 2);
  324. priv->viu.vd1_afbc_vd_cfmt_h =
  325. AFBC_VD_HEIGHT((afbc_bottom - afbc_top) / 2);
  326. priv->viu.vd1_afbc_mif_hor_scope = AFBC_MIF_BLK_BGN_H(afbc_left / 32) |
  327. AFBC_MIF_BLK_END_H((afbc_right / 32) - 1);
  328. priv->viu.vd1_afbc_mif_ver_scope = AFBC_MIF_BLK_BGN_V(afbc_top / 4) |
  329. AFBC_MIF_BLK_END_H((afbc_bottom / 4) - 1);
  330. priv->viu.vd1_afbc_size_out =
  331. AFBC_HSIZE_OUT(afbc_right - afbc_left) |
  332. AFBC_VSIZE_OUT(afbc_bottom - afbc_top);
  333. priv->viu.vd1_afbc_pixel_hor_scope =
  334. AFBC_DEC_PIXEL_BGN_H(hd_start_lines - afbc_left) |
  335. AFBC_DEC_PIXEL_END_H(hd_end_lines - afbc_left);
  336. priv->viu.vd1_afbc_pixel_ver_scope =
  337. AFBC_DEC_PIXEL_BGN_V(vd_start_lines - afbc_top) |
  338. AFBC_DEC_PIXEL_END_V(vd_end_lines - afbc_top);
  339. priv->viu.vd1_afbc_size_in =
  340. AFBC_HSIZE_IN(afbc_right - afbc_left) |
  341. AFBC_VSIZE_IN(afbc_bottom_src - afbc_top_src);
  342. priv->viu.vd1_if0_luma_y0 = VD_Y_START(vd_start_lines) |
  343. VD_Y_END(vd_end_lines);
  344. priv->viu.vd1_if0_chroma_y0 = VD_Y_START(vd_start_lines >> 1) |
  345. VD_Y_END(vd_end_lines >> 1);
  346. priv->viu.vpp_pic_in_height = h_in;
  347. priv->viu.vpp_postblend_vd1_h_start_end = VD_H_START(hsc_startp) |
  348. VD_H_END(hsc_endp);
  349. priv->viu.vpp_blend_vd2_h_start_end = VD_H_START(hd_start_lines) |
  350. VD_H_END(hd_end_lines);
  351. priv->viu.vpp_hsc_region12_startp = VD_REGION13_END(0) |
  352. VD_REGION24_START(hsc_startp);
  353. priv->viu.vpp_hsc_region34_startp =
  354. VD_REGION13_END(hsc_startp) |
  355. VD_REGION24_START(hsc_endp - hsc_startp);
  356. priv->viu.vpp_hsc_region4_endp = hsc_endp - hsc_startp;
  357. priv->viu.vpp_hsc_start_phase_step = ratio_x << 6;
  358. priv->viu.vpp_hsc_region1_phase_slope = 0;
  359. priv->viu.vpp_hsc_region3_phase_slope = 0;
  360. priv->viu.vpp_hsc_phase_ctrl = (1 << 21) | (4 << 16);
  361. priv->viu.vpp_line_in_length = hd_end_lines - hd_start_lines + 1;
  362. priv->viu.vpp_preblend_h_size = hd_end_lines - hd_start_lines + 1;
  363. priv->viu.vpp_postblend_vd1_v_start_end = VD_V_START(vsc_startp) |
  364. VD_V_END(vsc_endp);
  365. priv->viu.vpp_blend_vd2_v_start_end =
  366. VD2_V_START((vd_end_lines + 1) >> 1) |
  367. VD2_V_END(vd_end_lines);
  368. priv->viu.vpp_vsc_region12_startp = 0;
  369. priv->viu.vpp_vsc_region34_startp =
  370. VD_REGION13_END(vsc_endp - vsc_startp) |
  371. VD_REGION24_START(vsc_endp - vsc_startp);
  372. priv->viu.vpp_vsc_region4_endp = vsc_endp - vsc_startp;
  373. priv->viu.vpp_vsc_start_phase_step = ratio_y << 6;
  374. }
  375. static void meson_overlay_atomic_update(struct drm_plane *plane,
  376. struct drm_atomic_state *state)
  377. {
  378. struct meson_overlay *meson_overlay = to_meson_overlay(plane);
  379. struct drm_plane_state *new_state = drm_atomic_get_new_plane_state(state,
  380. plane);
  381. struct drm_framebuffer *fb = new_state->fb;
  382. struct meson_drm *priv = meson_overlay->priv;
  383. struct drm_gem_dma_object *gem;
  384. unsigned long flags;
  385. bool interlace_mode;
  386. DRM_DEBUG_DRIVER("\n");
  387. interlace_mode = new_state->crtc->mode.flags & DRM_MODE_FLAG_INTERLACE;
  388. spin_lock_irqsave(&priv->drm->event_lock, flags);
  389. if ((fb->modifier & DRM_FORMAT_MOD_AMLOGIC_FBC(0, 0)) ==
  390. DRM_FORMAT_MOD_AMLOGIC_FBC(0, 0)) {
  391. priv->viu.vd1_afbc = true;
  392. priv->viu.vd1_afbc_mode = AFBC_MIF_URGENT(3) |
  393. AFBC_HOLD_LINE_NUM(8) |
  394. AFBC_BURST_LEN(2);
  395. if (fb->modifier & DRM_FORMAT_MOD_AMLOGIC_FBC(0,
  396. AMLOGIC_FBC_OPTION_MEM_SAVING))
  397. priv->viu.vd1_afbc_mode |= AFBC_BLK_MEM_MODE;
  398. if ((fb->modifier & __fourcc_mod_amlogic_layout_mask) ==
  399. AMLOGIC_FBC_LAYOUT_SCATTER)
  400. priv->viu.vd1_afbc_mode |= AFBC_SCATTER_MODE;
  401. priv->viu.vd1_afbc_en = 0x1600 | AFBC_DEC_ENABLE;
  402. priv->viu.vd1_afbc_conv_ctrl = AFBC_CONV_LBUF_LEN(256);
  403. priv->viu.vd1_afbc_dec_def_color = AFBC_DEF_COLOR_Y(1023);
  404. /* 420: horizontal / 2, vertical / 4 */
  405. priv->viu.vd1_afbc_vd_cfmt_ctrl = AFBC_HORZ_RPT_PIXEL0 |
  406. AFBC_HORZ_Y_C_RATIO(1) |
  407. AFBC_HORZ_FMT_EN |
  408. AFBC_VERT_RPT_LINE0 |
  409. AFBC_VERT_INITIAL_PHASE(12) |
  410. AFBC_VERT_PHASE_STEP(8) |
  411. AFBC_VERT_FMT_EN;
  412. switch (fb->format->format) {
  413. /* AFBC Only formats */
  414. case DRM_FORMAT_YUV420_10BIT:
  415. priv->viu.vd1_afbc_mode |=
  416. AFBC_COMPBITS_YUV(AFBC_COMPBITS_10BIT);
  417. priv->viu.vd1_afbc_dec_def_color |=
  418. AFBC_DEF_COLOR_U(512) |
  419. AFBC_DEF_COLOR_V(512);
  420. break;
  421. case DRM_FORMAT_YUV420_8BIT:
  422. priv->viu.vd1_afbc_dec_def_color |=
  423. AFBC_DEF_COLOR_U(128) |
  424. AFBC_DEF_COLOR_V(128);
  425. break;
  426. }
  427. priv->viu.vd1_if0_gen_reg = 0;
  428. priv->viu.vd1_if0_canvas0 = 0;
  429. priv->viu.viu_vd1_fmt_ctrl = 0;
  430. } else {
  431. priv->viu.vd1_afbc = false;
  432. priv->viu.vd1_if0_gen_reg = VD_URGENT_CHROMA |
  433. VD_URGENT_LUMA |
  434. VD_HOLD_LINES(9) |
  435. VD_CHRO_RPT_LASTL_CTRL |
  436. VD_ENABLE;
  437. }
  438. /* Setup scaler params */
  439. meson_overlay_setup_scaler_params(priv, plane, interlace_mode);
  440. priv->viu.vd1_if0_repeat_loop = 0;
  441. priv->viu.vd1_if0_luma0_rpt_pat = interlace_mode ? 8 : 0;
  442. priv->viu.vd1_if0_chroma0_rpt_pat = interlace_mode ? 8 : 0;
  443. priv->viu.vd1_range_map_y = 0;
  444. priv->viu.vd1_range_map_cb = 0;
  445. priv->viu.vd1_range_map_cr = 0;
  446. /* Default values for RGB888/YUV444 */
  447. priv->viu.vd1_if0_gen_reg2 = 0;
  448. priv->viu.viu_vd1_fmt_ctrl = 0;
  449. /* None will match for AFBC Only formats */
  450. switch (fb->format->format) {
  451. /* TOFIX DRM_FORMAT_RGB888 should be supported */
  452. case DRM_FORMAT_YUYV:
  453. priv->viu.vd1_if0_gen_reg |= VD_BYTES_PER_PIXEL(1);
  454. priv->viu.vd1_if0_canvas0 =
  455. CANVAS_ADDR2(priv->canvas_id_vd1_0) |
  456. CANVAS_ADDR1(priv->canvas_id_vd1_0) |
  457. CANVAS_ADDR0(priv->canvas_id_vd1_0);
  458. priv->viu.viu_vd1_fmt_ctrl = VD_HORZ_Y_C_RATIO(1) | /* /2 */
  459. VD_HORZ_FMT_EN |
  460. VD_VERT_RPT_LINE0 |
  461. VD_VERT_INITIAL_PHASE(12) |
  462. VD_VERT_PHASE_STEP(16) | /* /2 */
  463. VD_VERT_FMT_EN;
  464. break;
  465. case DRM_FORMAT_NV12:
  466. case DRM_FORMAT_NV21:
  467. priv->viu.vd1_if0_gen_reg |= VD_SEPARATE_EN;
  468. priv->viu.vd1_if0_canvas0 =
  469. CANVAS_ADDR2(priv->canvas_id_vd1_1) |
  470. CANVAS_ADDR1(priv->canvas_id_vd1_1) |
  471. CANVAS_ADDR0(priv->canvas_id_vd1_0);
  472. if (fb->format->format == DRM_FORMAT_NV12)
  473. priv->viu.vd1_if0_gen_reg2 = VD_COLOR_MAP(1);
  474. else
  475. priv->viu.vd1_if0_gen_reg2 = VD_COLOR_MAP(2);
  476. priv->viu.viu_vd1_fmt_ctrl = VD_HORZ_Y_C_RATIO(1) | /* /2 */
  477. VD_HORZ_FMT_EN |
  478. VD_VERT_RPT_LINE0 |
  479. VD_VERT_INITIAL_PHASE(12) |
  480. VD_VERT_PHASE_STEP(8) | /* /4 */
  481. VD_VERT_FMT_EN;
  482. break;
  483. case DRM_FORMAT_YUV444:
  484. case DRM_FORMAT_YUV422:
  485. case DRM_FORMAT_YUV420:
  486. case DRM_FORMAT_YUV411:
  487. case DRM_FORMAT_YUV410:
  488. priv->viu.vd1_if0_gen_reg |= VD_SEPARATE_EN;
  489. priv->viu.vd1_if0_canvas0 =
  490. CANVAS_ADDR2(priv->canvas_id_vd1_2) |
  491. CANVAS_ADDR1(priv->canvas_id_vd1_1) |
  492. CANVAS_ADDR0(priv->canvas_id_vd1_0);
  493. switch (fb->format->format) {
  494. case DRM_FORMAT_YUV422:
  495. priv->viu.viu_vd1_fmt_ctrl =
  496. VD_HORZ_Y_C_RATIO(1) | /* /2 */
  497. VD_HORZ_FMT_EN |
  498. VD_VERT_RPT_LINE0 |
  499. VD_VERT_INITIAL_PHASE(12) |
  500. VD_VERT_PHASE_STEP(16) | /* /2 */
  501. VD_VERT_FMT_EN;
  502. break;
  503. case DRM_FORMAT_YUV420:
  504. priv->viu.viu_vd1_fmt_ctrl =
  505. VD_HORZ_Y_C_RATIO(1) | /* /2 */
  506. VD_HORZ_FMT_EN |
  507. VD_VERT_RPT_LINE0 |
  508. VD_VERT_INITIAL_PHASE(12) |
  509. VD_VERT_PHASE_STEP(8) | /* /4 */
  510. VD_VERT_FMT_EN;
  511. break;
  512. case DRM_FORMAT_YUV411:
  513. priv->viu.viu_vd1_fmt_ctrl =
  514. VD_HORZ_Y_C_RATIO(2) | /* /4 */
  515. VD_HORZ_FMT_EN |
  516. VD_VERT_RPT_LINE0 |
  517. VD_VERT_INITIAL_PHASE(12) |
  518. VD_VERT_PHASE_STEP(16) | /* /2 */
  519. VD_VERT_FMT_EN;
  520. break;
  521. case DRM_FORMAT_YUV410:
  522. priv->viu.viu_vd1_fmt_ctrl =
  523. VD_HORZ_Y_C_RATIO(2) | /* /4 */
  524. VD_HORZ_FMT_EN |
  525. VD_VERT_RPT_LINE0 |
  526. VD_VERT_INITIAL_PHASE(12) |
  527. VD_VERT_PHASE_STEP(8) | /* /4 */
  528. VD_VERT_FMT_EN;
  529. break;
  530. }
  531. break;
  532. }
  533. /* Update Canvas with buffer address */
  534. priv->viu.vd1_planes = fb->format->num_planes;
  535. switch (priv->viu.vd1_planes) {
  536. case 3:
  537. gem = drm_fb_dma_get_gem_obj(fb, 2);
  538. priv->viu.vd1_addr2 = gem->dma_addr + fb->offsets[2];
  539. priv->viu.vd1_stride2 = fb->pitches[2];
  540. priv->viu.vd1_height2 =
  541. drm_format_info_plane_height(fb->format,
  542. fb->height, 2);
  543. DRM_DEBUG("plane 2 addr 0x%x stride %d height %d\n",
  544. priv->viu.vd1_addr2,
  545. priv->viu.vd1_stride2,
  546. priv->viu.vd1_height2);
  547. fallthrough;
  548. case 2:
  549. gem = drm_fb_dma_get_gem_obj(fb, 1);
  550. priv->viu.vd1_addr1 = gem->dma_addr + fb->offsets[1];
  551. priv->viu.vd1_stride1 = fb->pitches[1];
  552. priv->viu.vd1_height1 =
  553. drm_format_info_plane_height(fb->format,
  554. fb->height, 1);
  555. DRM_DEBUG("plane 1 addr 0x%x stride %d height %d\n",
  556. priv->viu.vd1_addr1,
  557. priv->viu.vd1_stride1,
  558. priv->viu.vd1_height1);
  559. fallthrough;
  560. case 1:
  561. gem = drm_fb_dma_get_gem_obj(fb, 0);
  562. priv->viu.vd1_addr0 = gem->dma_addr + fb->offsets[0];
  563. priv->viu.vd1_stride0 = fb->pitches[0];
  564. priv->viu.vd1_height0 =
  565. drm_format_info_plane_height(fb->format,
  566. fb->height, 0);
  567. DRM_DEBUG("plane 0 addr 0x%x stride %d height %d\n",
  568. priv->viu.vd1_addr0,
  569. priv->viu.vd1_stride0,
  570. priv->viu.vd1_height0);
  571. }
  572. if (priv->viu.vd1_afbc) {
  573. if (priv->viu.vd1_afbc_mode & AFBC_SCATTER_MODE) {
  574. /*
  575. * In Scatter mode, the header contains the physical
  576. * body content layout, thus the body content
  577. * size isn't needed.
  578. */
  579. priv->viu.vd1_afbc_head_addr = priv->viu.vd1_addr0 >> 4;
  580. priv->viu.vd1_afbc_body_addr = 0;
  581. } else {
  582. /* Default mode is 4k per superblock */
  583. unsigned long block_size = 4096;
  584. unsigned long body_size;
  585. /* 8bit mem saving mode is 3072bytes per superblock */
  586. if (priv->viu.vd1_afbc_mode & AFBC_BLK_MEM_MODE)
  587. block_size = 3072;
  588. body_size = (ALIGN(priv->viu.vd1_stride0, 64) / 64) *
  589. (ALIGN(priv->viu.vd1_height0, 32) / 32) *
  590. block_size;
  591. priv->viu.vd1_afbc_body_addr = priv->viu.vd1_addr0 >> 4;
  592. /* Header is after body content */
  593. priv->viu.vd1_afbc_head_addr = (priv->viu.vd1_addr0 +
  594. body_size) >> 4;
  595. }
  596. }
  597. priv->viu.vd1_enabled = true;
  598. spin_unlock_irqrestore(&priv->drm->event_lock, flags);
  599. DRM_DEBUG_DRIVER("\n");
  600. }
  601. static void meson_overlay_atomic_disable(struct drm_plane *plane,
  602. struct drm_atomic_state *state)
  603. {
  604. struct meson_overlay *meson_overlay = to_meson_overlay(plane);
  605. struct meson_drm *priv = meson_overlay->priv;
  606. DRM_DEBUG_DRIVER("\n");
  607. priv->viu.vd1_enabled = false;
  608. /* Disable VD1 */
  609. if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A)) {
  610. writel_relaxed(0, priv->io_base + _REG(VD1_BLEND_SRC_CTRL));
  611. writel_relaxed(0, priv->io_base + _REG(VD2_BLEND_SRC_CTRL));
  612. writel_relaxed(0, priv->io_base + _REG(VD1_IF0_GEN_REG + 0x17b0));
  613. writel_relaxed(0, priv->io_base + _REG(VD2_IF0_GEN_REG + 0x17b0));
  614. } else
  615. writel_bits_relaxed(VPP_VD1_POSTBLEND | VPP_VD1_PREBLEND, 0,
  616. priv->io_base + _REG(VPP_MISC));
  617. }
  618. static const struct drm_plane_helper_funcs meson_overlay_helper_funcs = {
  619. .atomic_check = meson_overlay_atomic_check,
  620. .atomic_disable = meson_overlay_atomic_disable,
  621. .atomic_update = meson_overlay_atomic_update,
  622. };
  623. static bool meson_overlay_format_mod_supported(struct drm_plane *plane,
  624. u32 format, u64 modifier)
  625. {
  626. if (modifier == DRM_FORMAT_MOD_LINEAR &&
  627. format != DRM_FORMAT_YUV420_8BIT &&
  628. format != DRM_FORMAT_YUV420_10BIT)
  629. return true;
  630. if ((modifier & DRM_FORMAT_MOD_AMLOGIC_FBC(0, 0)) ==
  631. DRM_FORMAT_MOD_AMLOGIC_FBC(0, 0)) {
  632. unsigned int layout = modifier &
  633. DRM_FORMAT_MOD_AMLOGIC_FBC(
  634. __fourcc_mod_amlogic_layout_mask, 0);
  635. unsigned int options =
  636. (modifier >> __fourcc_mod_amlogic_options_shift) &
  637. __fourcc_mod_amlogic_options_mask;
  638. if (format != DRM_FORMAT_YUV420_8BIT &&
  639. format != DRM_FORMAT_YUV420_10BIT) {
  640. DRM_DEBUG_KMS("%llx invalid format 0x%08x\n",
  641. modifier, format);
  642. return false;
  643. }
  644. if (layout != AMLOGIC_FBC_LAYOUT_BASIC &&
  645. layout != AMLOGIC_FBC_LAYOUT_SCATTER) {
  646. DRM_DEBUG_KMS("%llx invalid layout %x\n",
  647. modifier, layout);
  648. return false;
  649. }
  650. if (options &&
  651. options != AMLOGIC_FBC_OPTION_MEM_SAVING) {
  652. DRM_DEBUG_KMS("%llx invalid layout %x\n",
  653. modifier, layout);
  654. return false;
  655. }
  656. return true;
  657. }
  658. DRM_DEBUG_KMS("invalid modifier %llx for format 0x%08x\n",
  659. modifier, format);
  660. return false;
  661. }
  662. static const struct drm_plane_funcs meson_overlay_funcs = {
  663. .update_plane = drm_atomic_helper_update_plane,
  664. .disable_plane = drm_atomic_helper_disable_plane,
  665. .destroy = drm_plane_cleanup,
  666. .reset = drm_atomic_helper_plane_reset,
  667. .atomic_duplicate_state = drm_atomic_helper_plane_duplicate_state,
  668. .atomic_destroy_state = drm_atomic_helper_plane_destroy_state,
  669. .format_mod_supported = meson_overlay_format_mod_supported,
  670. };
  671. static const uint32_t supported_drm_formats[] = {
  672. DRM_FORMAT_YUYV,
  673. DRM_FORMAT_NV12,
  674. DRM_FORMAT_NV21,
  675. DRM_FORMAT_YUV444,
  676. DRM_FORMAT_YUV422,
  677. DRM_FORMAT_YUV420,
  678. DRM_FORMAT_YUV411,
  679. DRM_FORMAT_YUV410,
  680. DRM_FORMAT_YUV420_8BIT, /* Amlogic FBC Only */
  681. DRM_FORMAT_YUV420_10BIT, /* Amlogic FBC Only */
  682. };
  683. static const uint64_t format_modifiers[] = {
  684. DRM_FORMAT_MOD_AMLOGIC_FBC(AMLOGIC_FBC_LAYOUT_SCATTER,
  685. AMLOGIC_FBC_OPTION_MEM_SAVING),
  686. DRM_FORMAT_MOD_AMLOGIC_FBC(AMLOGIC_FBC_LAYOUT_BASIC,
  687. AMLOGIC_FBC_OPTION_MEM_SAVING),
  688. DRM_FORMAT_MOD_AMLOGIC_FBC(AMLOGIC_FBC_LAYOUT_SCATTER, 0),
  689. DRM_FORMAT_MOD_AMLOGIC_FBC(AMLOGIC_FBC_LAYOUT_BASIC, 0),
  690. DRM_FORMAT_MOD_LINEAR,
  691. DRM_FORMAT_MOD_INVALID,
  692. };
  693. int meson_overlay_create(struct meson_drm *priv)
  694. {
  695. struct meson_overlay *meson_overlay;
  696. struct drm_plane *plane;
  697. DRM_DEBUG_DRIVER("\n");
  698. meson_overlay = devm_kzalloc(priv->drm->dev, sizeof(*meson_overlay),
  699. GFP_KERNEL);
  700. if (!meson_overlay)
  701. return -ENOMEM;
  702. meson_overlay->priv = priv;
  703. plane = &meson_overlay->base;
  704. drm_universal_plane_init(priv->drm, plane, 0xFF,
  705. &meson_overlay_funcs,
  706. supported_drm_formats,
  707. ARRAY_SIZE(supported_drm_formats),
  708. format_modifiers,
  709. DRM_PLANE_TYPE_OVERLAY, "meson_overlay_plane");
  710. drm_plane_helper_add(plane, &meson_overlay_helper_funcs);
  711. /* For now, VD Overlay plane is always on the back */
  712. drm_plane_create_zpos_immutable_property(plane, 0);
  713. priv->overlay_plane = plane;
  714. DRM_DEBUG_DRIVER("\n");
  715. return 0;
  716. }