armada_crtc.c 31 KB

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  1. // SPDX-License-Identifier: GPL-2.0-only
  2. /*
  3. * Copyright (C) 2012 Russell King
  4. * Rewritten from the dovefb driver, and Armada510 manuals.
  5. */
  6. #include <linux/clk.h>
  7. #include <linux/component.h>
  8. #include <linux/module.h>
  9. #include <linux/of.h>
  10. #include <linux/platform_device.h>
  11. #include <linux/property.h>
  12. #include <drm/drm_atomic.h>
  13. #include <drm/drm_atomic_helper.h>
  14. #include <drm/drm_print.h>
  15. #include <drm/drm_probe_helper.h>
  16. #include <drm/drm_vblank.h>
  17. #include "armada_crtc.h"
  18. #include "armada_drm.h"
  19. #include "armada_fb.h"
  20. #include "armada_gem.h"
  21. #include "armada_hw.h"
  22. #include "armada_plane.h"
  23. #include "armada_trace.h"
  24. /*
  25. * A note about interlacing. Let's consider HDMI 1920x1080i.
  26. * The timing parameters we have from X are:
  27. * Hact HsyA HsyI Htot Vact VsyA VsyI Vtot
  28. * 1920 2448 2492 2640 1080 1084 1094 1125
  29. * Which get translated to:
  30. * Hact HsyA HsyI Htot Vact VsyA VsyI Vtot
  31. * 1920 2448 2492 2640 540 542 547 562
  32. *
  33. * This is how it is defined by CEA-861-D - line and pixel numbers are
  34. * referenced to the rising edge of VSYNC and HSYNC. Total clocks per
  35. * line: 2640. The odd frame, the first active line is at line 21, and
  36. * the even frame, the first active line is 584.
  37. *
  38. * LN: 560 561 562 563 567 568 569
  39. * DE: ~~~|____________________________//__________________________
  40. * HSYNC: ____|~|_____|~|_____|~|_____|~|_//__|~|_____|~|_____|~|_____
  41. * VSYNC: _________________________|~~~~~~//~~~~~~~~~~~~~~~|__________
  42. * 22 blanking lines. VSYNC at 1320 (referenced to the HSYNC rising edge).
  43. *
  44. * LN: 1123 1124 1125 1 5 6 7
  45. * DE: ~~~|____________________________//__________________________
  46. * HSYNC: ____|~|_____|~|_____|~|_____|~|_//__|~|_____|~|_____|~|_____
  47. * VSYNC: ____________________|~~~~~~~~~~~//~~~~~~~~~~|_______________
  48. * 23 blanking lines
  49. *
  50. * The Armada LCD Controller line and pixel numbers are, like X timings,
  51. * referenced to the top left of the active frame.
  52. *
  53. * So, translating these to our LCD controller:
  54. * Odd frame, 563 total lines, VSYNC at line 543-548, pixel 1128.
  55. * Even frame, 562 total lines, VSYNC at line 542-547, pixel 2448.
  56. * Note: Vsync front porch remains constant!
  57. *
  58. * if (odd_frame) {
  59. * vtotal = mode->crtc_vtotal + 1;
  60. * vbackporch = mode->crtc_vsync_start - mode->crtc_vdisplay + 1;
  61. * vhorizpos = mode->crtc_hsync_start - mode->crtc_htotal / 2
  62. * } else {
  63. * vtotal = mode->crtc_vtotal;
  64. * vbackporch = mode->crtc_vsync_start - mode->crtc_vdisplay;
  65. * vhorizpos = mode->crtc_hsync_start;
  66. * }
  67. * vfrontporch = mode->crtc_vtotal - mode->crtc_vsync_end;
  68. *
  69. * So, we need to reprogram these registers on each vsync event:
  70. * LCD_SPU_V_PORCH, LCD_SPU_ADV_REG, LCD_SPUT_V_H_TOTAL
  71. *
  72. * Note: we do not use the frame done interrupts because these appear
  73. * to happen too early, and lead to jitter on the display (presumably
  74. * they occur at the end of the last active line, before the vsync back
  75. * porch, which we're reprogramming.)
  76. */
  77. void
  78. armada_drm_crtc_update_regs(struct armada_crtc *dcrtc, struct armada_regs *regs)
  79. {
  80. while (regs->offset != ~0) {
  81. void __iomem *reg = dcrtc->base + regs->offset;
  82. uint32_t val;
  83. val = regs->mask;
  84. if (val != 0)
  85. val &= readl_relaxed(reg);
  86. writel_relaxed(val | regs->val, reg);
  87. ++regs;
  88. }
  89. }
  90. static void armada_drm_crtc_update(struct armada_crtc *dcrtc, bool enable)
  91. {
  92. uint32_t dumb_ctrl;
  93. dumb_ctrl = dcrtc->cfg_dumb_ctrl;
  94. if (enable)
  95. dumb_ctrl |= CFG_DUMB_ENA;
  96. /*
  97. * When the dumb interface isn't in DUMB24_RGB888_0 mode, it might
  98. * be using SPI or GPIO. If we set this to DUMB_BLANK, we will
  99. * force LCD_D[23:0] to output blank color, overriding the GPIO or
  100. * SPI usage. So leave it as-is unless in DUMB24_RGB888_0 mode.
  101. */
  102. if (!enable && (dumb_ctrl & DUMB_MASK) == DUMB24_RGB888_0) {
  103. dumb_ctrl &= ~DUMB_MASK;
  104. dumb_ctrl |= DUMB_BLANK;
  105. }
  106. armada_updatel(dumb_ctrl,
  107. ~(CFG_INV_CSYNC | CFG_INV_HSYNC | CFG_INV_VSYNC),
  108. dcrtc->base + LCD_SPU_DUMB_CTRL);
  109. }
  110. static void armada_drm_crtc_queue_state_event(struct drm_crtc *crtc)
  111. {
  112. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  113. struct drm_pending_vblank_event *event;
  114. /* If we have an event, we need vblank events enabled */
  115. event = xchg(&crtc->state->event, NULL);
  116. if (event) {
  117. WARN_ON(drm_crtc_vblank_get(crtc) != 0);
  118. dcrtc->event = event;
  119. }
  120. }
  121. static void armada_drm_update_gamma(struct drm_crtc *crtc)
  122. {
  123. struct drm_property_blob *blob = crtc->state->gamma_lut;
  124. void __iomem *base = drm_to_armada_crtc(crtc)->base;
  125. int i;
  126. if (blob) {
  127. struct drm_color_lut *lut = blob->data;
  128. armada_updatel(CFG_CSB_256x8, CFG_CSB_256x8 | CFG_PDWN256x8,
  129. base + LCD_SPU_SRAM_PARA1);
  130. for (i = 0; i < 256; i++) {
  131. writel_relaxed(drm_color_lut_extract(lut[i].red, 8),
  132. base + LCD_SPU_SRAM_WRDAT);
  133. writel_relaxed(i | SRAM_WRITE | SRAM_GAMMA_YR,
  134. base + LCD_SPU_SRAM_CTRL);
  135. readl_relaxed(base + LCD_SPU_HWC_OVSA_HPXL_VLN);
  136. writel_relaxed(drm_color_lut_extract(lut[i].green, 8),
  137. base + LCD_SPU_SRAM_WRDAT);
  138. writel_relaxed(i | SRAM_WRITE | SRAM_GAMMA_UG,
  139. base + LCD_SPU_SRAM_CTRL);
  140. readl_relaxed(base + LCD_SPU_HWC_OVSA_HPXL_VLN);
  141. writel_relaxed(drm_color_lut_extract(lut[i].blue, 8),
  142. base + LCD_SPU_SRAM_WRDAT);
  143. writel_relaxed(i | SRAM_WRITE | SRAM_GAMMA_VB,
  144. base + LCD_SPU_SRAM_CTRL);
  145. readl_relaxed(base + LCD_SPU_HWC_OVSA_HPXL_VLN);
  146. }
  147. armada_updatel(CFG_GAMMA_ENA, CFG_GAMMA_ENA,
  148. base + LCD_SPU_DMA_CTRL0);
  149. } else {
  150. armada_updatel(0, CFG_GAMMA_ENA, base + LCD_SPU_DMA_CTRL0);
  151. armada_updatel(CFG_PDWN256x8, CFG_CSB_256x8 | CFG_PDWN256x8,
  152. base + LCD_SPU_SRAM_PARA1);
  153. }
  154. }
  155. static enum drm_mode_status armada_drm_crtc_mode_valid(struct drm_crtc *crtc,
  156. const struct drm_display_mode *mode)
  157. {
  158. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  159. if (mode->vscan > 1)
  160. return MODE_NO_VSCAN;
  161. if (mode->flags & DRM_MODE_FLAG_DBLSCAN)
  162. return MODE_NO_DBLESCAN;
  163. if (mode->flags & DRM_MODE_FLAG_HSKEW)
  164. return MODE_H_ILLEGAL;
  165. /* We can't do interlaced modes if we don't have the SPU_ADV_REG */
  166. if (!dcrtc->variant->has_spu_adv_reg &&
  167. mode->flags & DRM_MODE_FLAG_INTERLACE)
  168. return MODE_NO_INTERLACE;
  169. if (mode->flags & (DRM_MODE_FLAG_BCAST | DRM_MODE_FLAG_PIXMUX |
  170. DRM_MODE_FLAG_CLKDIV2))
  171. return MODE_BAD;
  172. return MODE_OK;
  173. }
  174. /* The mode_config.mutex will be held for this call */
  175. static bool armada_drm_crtc_mode_fixup(struct drm_crtc *crtc,
  176. const struct drm_display_mode *mode, struct drm_display_mode *adj)
  177. {
  178. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  179. int ret;
  180. /*
  181. * Set CRTC modesetting parameters for the adjusted mode. This is
  182. * applied after the connectors, bridges, and encoders have fixed up
  183. * this mode, as described above drm_atomic_helper_check_modeset().
  184. */
  185. drm_mode_set_crtcinfo(adj, CRTC_INTERLACE_HALVE_V);
  186. /*
  187. * Validate the adjusted mode in case an encoder/bridge has set
  188. * something we don't support.
  189. */
  190. if (armada_drm_crtc_mode_valid(crtc, adj) != MODE_OK)
  191. return false;
  192. /* Check whether the display mode is possible */
  193. ret = dcrtc->variant->compute_clock(dcrtc, adj, NULL);
  194. if (ret)
  195. return false;
  196. return true;
  197. }
  198. /* These are locked by dev->vbl_lock */
  199. static void armada_drm_crtc_disable_irq(struct armada_crtc *dcrtc, u32 mask)
  200. {
  201. if (dcrtc->irq_ena & mask) {
  202. dcrtc->irq_ena &= ~mask;
  203. writel(dcrtc->irq_ena, dcrtc->base + LCD_SPU_IRQ_ENA);
  204. }
  205. }
  206. static void armada_drm_crtc_enable_irq(struct armada_crtc *dcrtc, u32 mask)
  207. {
  208. if ((dcrtc->irq_ena & mask) != mask) {
  209. dcrtc->irq_ena |= mask;
  210. writel(dcrtc->irq_ena, dcrtc->base + LCD_SPU_IRQ_ENA);
  211. if (readl_relaxed(dcrtc->base + LCD_SPU_IRQ_ISR) & mask)
  212. writel(0, dcrtc->base + LCD_SPU_IRQ_ISR);
  213. }
  214. }
  215. static void armada_drm_crtc_irq(struct armada_crtc *dcrtc, u32 stat)
  216. {
  217. struct drm_pending_vblank_event *event;
  218. void __iomem *base = dcrtc->base;
  219. if (stat & DMA_FF_UNDERFLOW)
  220. DRM_ERROR("video underflow on crtc %u\n", dcrtc->num);
  221. if (stat & GRA_FF_UNDERFLOW)
  222. DRM_ERROR("graphics underflow on crtc %u\n", dcrtc->num);
  223. if (stat & VSYNC_IRQ)
  224. drm_crtc_handle_vblank(&dcrtc->crtc);
  225. spin_lock(&dcrtc->irq_lock);
  226. if (stat & GRA_FRAME_IRQ && dcrtc->interlaced) {
  227. int i = stat & GRA_FRAME_IRQ0 ? 0 : 1;
  228. uint32_t val;
  229. writel_relaxed(dcrtc->v[i].spu_v_porch, base + LCD_SPU_V_PORCH);
  230. writel_relaxed(dcrtc->v[i].spu_v_h_total,
  231. base + LCD_SPUT_V_H_TOTAL);
  232. val = readl_relaxed(base + LCD_SPU_ADV_REG);
  233. val &= ~(ADV_VSYNC_L_OFF | ADV_VSYNC_H_OFF | ADV_VSYNCOFFEN);
  234. val |= dcrtc->v[i].spu_adv_reg;
  235. writel_relaxed(val, base + LCD_SPU_ADV_REG);
  236. }
  237. if (stat & dcrtc->irq_ena & DUMB_FRAMEDONE) {
  238. if (dcrtc->update_pending) {
  239. armada_drm_crtc_update_regs(dcrtc, dcrtc->regs);
  240. dcrtc->update_pending = false;
  241. }
  242. if (dcrtc->cursor_update) {
  243. writel_relaxed(dcrtc->cursor_hw_pos,
  244. base + LCD_SPU_HWC_OVSA_HPXL_VLN);
  245. writel_relaxed(dcrtc->cursor_hw_sz,
  246. base + LCD_SPU_HWC_HPXL_VLN);
  247. armada_updatel(CFG_HWC_ENA,
  248. CFG_HWC_ENA | CFG_HWC_1BITMOD |
  249. CFG_HWC_1BITENA,
  250. base + LCD_SPU_DMA_CTRL0);
  251. dcrtc->cursor_update = false;
  252. }
  253. armada_drm_crtc_disable_irq(dcrtc, DUMB_FRAMEDONE_ENA);
  254. }
  255. spin_unlock(&dcrtc->irq_lock);
  256. if (stat & VSYNC_IRQ && !dcrtc->update_pending) {
  257. event = xchg(&dcrtc->event, NULL);
  258. if (event) {
  259. spin_lock(&dcrtc->crtc.dev->event_lock);
  260. drm_crtc_send_vblank_event(&dcrtc->crtc, event);
  261. spin_unlock(&dcrtc->crtc.dev->event_lock);
  262. drm_crtc_vblank_put(&dcrtc->crtc);
  263. }
  264. }
  265. }
  266. static irqreturn_t armada_drm_irq(int irq, void *arg)
  267. {
  268. struct armada_crtc *dcrtc = arg;
  269. u32 v, stat = readl_relaxed(dcrtc->base + LCD_SPU_IRQ_ISR);
  270. /*
  271. * Reading the ISR appears to clear bits provided CLEAN_SPU_IRQ_ISR
  272. * is set. Writing has some other effect to acknowledge the IRQ -
  273. * without this, we only get a single IRQ.
  274. */
  275. writel_relaxed(0, dcrtc->base + LCD_SPU_IRQ_ISR);
  276. trace_armada_drm_irq(&dcrtc->crtc, stat);
  277. /* Mask out those interrupts we haven't enabled */
  278. v = stat & dcrtc->irq_ena;
  279. if (v & (VSYNC_IRQ|GRA_FRAME_IRQ|DUMB_FRAMEDONE)) {
  280. armada_drm_crtc_irq(dcrtc, stat);
  281. return IRQ_HANDLED;
  282. }
  283. return IRQ_NONE;
  284. }
  285. /* The mode_config.mutex will be held for this call */
  286. static void armada_drm_crtc_mode_set_nofb(struct drm_crtc *crtc)
  287. {
  288. struct drm_display_mode *adj = &crtc->state->adjusted_mode;
  289. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  290. struct armada_regs regs[17];
  291. uint32_t lm, rm, tm, bm, val, sclk;
  292. unsigned long flags;
  293. unsigned i;
  294. bool interlaced = !!(adj->flags & DRM_MODE_FLAG_INTERLACE);
  295. i = 0;
  296. rm = adj->crtc_hsync_start - adj->crtc_hdisplay;
  297. lm = adj->crtc_htotal - adj->crtc_hsync_end;
  298. bm = adj->crtc_vsync_start - adj->crtc_vdisplay;
  299. tm = adj->crtc_vtotal - adj->crtc_vsync_end;
  300. DRM_DEBUG_KMS("[CRTC:%d:%s] mode " DRM_MODE_FMT "\n",
  301. crtc->base.id, crtc->name, DRM_MODE_ARG(adj));
  302. DRM_DEBUG_KMS("lm %d rm %d tm %d bm %d\n", lm, rm, tm, bm);
  303. /* Now compute the divider for real */
  304. dcrtc->variant->compute_clock(dcrtc, adj, &sclk);
  305. armada_reg_queue_set(regs, i, sclk, LCD_CFG_SCLK_DIV);
  306. spin_lock_irqsave(&dcrtc->irq_lock, flags);
  307. dcrtc->interlaced = interlaced;
  308. /* Even interlaced/progressive frame */
  309. dcrtc->v[1].spu_v_h_total = adj->crtc_vtotal << 16 |
  310. adj->crtc_htotal;
  311. dcrtc->v[1].spu_v_porch = tm << 16 | bm;
  312. val = adj->crtc_hsync_start;
  313. dcrtc->v[1].spu_adv_reg = val << 20 | val | ADV_VSYNCOFFEN;
  314. if (interlaced) {
  315. /* Odd interlaced frame */
  316. val -= adj->crtc_htotal / 2;
  317. dcrtc->v[0].spu_adv_reg = val << 20 | val | ADV_VSYNCOFFEN;
  318. dcrtc->v[0].spu_v_h_total = dcrtc->v[1].spu_v_h_total +
  319. (1 << 16);
  320. dcrtc->v[0].spu_v_porch = dcrtc->v[1].spu_v_porch + 1;
  321. } else {
  322. dcrtc->v[0] = dcrtc->v[1];
  323. }
  324. val = adj->crtc_vdisplay << 16 | adj->crtc_hdisplay;
  325. armada_reg_queue_set(regs, i, val, LCD_SPU_V_H_ACTIVE);
  326. armada_reg_queue_set(regs, i, (lm << 16) | rm, LCD_SPU_H_PORCH);
  327. armada_reg_queue_set(regs, i, dcrtc->v[0].spu_v_porch, LCD_SPU_V_PORCH);
  328. armada_reg_queue_set(regs, i, dcrtc->v[0].spu_v_h_total,
  329. LCD_SPUT_V_H_TOTAL);
  330. if (dcrtc->variant->has_spu_adv_reg)
  331. armada_reg_queue_mod(regs, i, dcrtc->v[0].spu_adv_reg,
  332. ADV_VSYNC_L_OFF | ADV_VSYNC_H_OFF |
  333. ADV_VSYNCOFFEN, LCD_SPU_ADV_REG);
  334. val = adj->flags & DRM_MODE_FLAG_NVSYNC ? CFG_VSYNC_INV : 0;
  335. armada_reg_queue_mod(regs, i, val, CFG_VSYNC_INV, LCD_SPU_DMA_CTRL1);
  336. /*
  337. * The documentation doesn't indicate what the normal state of
  338. * the sync signals are. Sebastian Hesselbart kindly probed
  339. * these signals on his board to determine their state.
  340. *
  341. * The non-inverted state of the sync signals is active high.
  342. * Setting these bits makes the appropriate signal active low.
  343. */
  344. val = 0;
  345. if (adj->flags & DRM_MODE_FLAG_NCSYNC)
  346. val |= CFG_INV_CSYNC;
  347. if (adj->flags & DRM_MODE_FLAG_NHSYNC)
  348. val |= CFG_INV_HSYNC;
  349. if (adj->flags & DRM_MODE_FLAG_NVSYNC)
  350. val |= CFG_INV_VSYNC;
  351. armada_reg_queue_mod(regs, i, val, CFG_INV_CSYNC | CFG_INV_HSYNC |
  352. CFG_INV_VSYNC, LCD_SPU_DUMB_CTRL);
  353. armada_reg_queue_end(regs, i);
  354. armada_drm_crtc_update_regs(dcrtc, regs);
  355. spin_unlock_irqrestore(&dcrtc->irq_lock, flags);
  356. }
  357. static int armada_drm_crtc_atomic_check(struct drm_crtc *crtc,
  358. struct drm_atomic_state *state)
  359. {
  360. struct drm_crtc_state *crtc_state = drm_atomic_get_new_crtc_state(state,
  361. crtc);
  362. DRM_DEBUG_KMS("[CRTC:%d:%s]\n", crtc->base.id, crtc->name);
  363. if (crtc_state->gamma_lut && drm_color_lut_size(crtc_state->gamma_lut) != 256)
  364. return -EINVAL;
  365. if (crtc_state->color_mgmt_changed)
  366. crtc_state->planes_changed = true;
  367. return 0;
  368. }
  369. static void armada_drm_crtc_atomic_begin(struct drm_crtc *crtc,
  370. struct drm_atomic_state *state)
  371. {
  372. struct drm_crtc_state *crtc_state = drm_atomic_get_new_crtc_state(state,
  373. crtc);
  374. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  375. DRM_DEBUG_KMS("[CRTC:%d:%s]\n", crtc->base.id, crtc->name);
  376. if (crtc_state->color_mgmt_changed)
  377. armada_drm_update_gamma(crtc);
  378. dcrtc->regs_idx = 0;
  379. dcrtc->regs = dcrtc->atomic_regs;
  380. }
  381. static void armada_drm_crtc_atomic_flush(struct drm_crtc *crtc,
  382. struct drm_atomic_state *state)
  383. {
  384. struct drm_crtc_state *crtc_state = drm_atomic_get_new_crtc_state(state,
  385. crtc);
  386. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  387. DRM_DEBUG_KMS("[CRTC:%d:%s]\n", crtc->base.id, crtc->name);
  388. armada_reg_queue_end(dcrtc->regs, dcrtc->regs_idx);
  389. /*
  390. * If we aren't doing a full modeset, then we need to queue
  391. * the event here.
  392. */
  393. if (!drm_atomic_crtc_needs_modeset(crtc_state)) {
  394. dcrtc->update_pending = true;
  395. armada_drm_crtc_queue_state_event(crtc);
  396. spin_lock_irq(&dcrtc->irq_lock);
  397. armada_drm_crtc_enable_irq(dcrtc, DUMB_FRAMEDONE_ENA);
  398. spin_unlock_irq(&dcrtc->irq_lock);
  399. } else {
  400. spin_lock_irq(&dcrtc->irq_lock);
  401. armada_drm_crtc_update_regs(dcrtc, dcrtc->regs);
  402. spin_unlock_irq(&dcrtc->irq_lock);
  403. }
  404. }
  405. static void armada_drm_crtc_atomic_disable(struct drm_crtc *crtc,
  406. struct drm_atomic_state *state)
  407. {
  408. struct drm_crtc_state *old_state = drm_atomic_get_old_crtc_state(state,
  409. crtc);
  410. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  411. struct drm_pending_vblank_event *event;
  412. DRM_DEBUG_KMS("[CRTC:%d:%s]\n", crtc->base.id, crtc->name);
  413. if (old_state->adjusted_mode.flags & DRM_MODE_FLAG_INTERLACE)
  414. drm_crtc_vblank_put(crtc);
  415. drm_crtc_vblank_off(crtc);
  416. armada_drm_crtc_update(dcrtc, false);
  417. if (!crtc->state->active) {
  418. /*
  419. * This modeset will be leaving the CRTC disabled, so
  420. * call the backend to disable upstream clocks etc.
  421. */
  422. if (dcrtc->variant->disable)
  423. dcrtc->variant->disable(dcrtc);
  424. /*
  425. * We will not receive any further vblank events.
  426. * Send the flip_done event manually.
  427. */
  428. event = crtc->state->event;
  429. crtc->state->event = NULL;
  430. if (event) {
  431. spin_lock_irq(&crtc->dev->event_lock);
  432. drm_crtc_send_vblank_event(crtc, event);
  433. spin_unlock_irq(&crtc->dev->event_lock);
  434. }
  435. }
  436. }
  437. static void armada_drm_crtc_atomic_enable(struct drm_crtc *crtc,
  438. struct drm_atomic_state *state)
  439. {
  440. struct drm_crtc_state *old_state = drm_atomic_get_old_crtc_state(state,
  441. crtc);
  442. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  443. DRM_DEBUG_KMS("[CRTC:%d:%s]\n", crtc->base.id, crtc->name);
  444. if (!old_state->active) {
  445. /*
  446. * This modeset is enabling the CRTC after it having
  447. * been disabled. Reverse the call to ->disable in
  448. * the atomic_disable().
  449. */
  450. if (dcrtc->variant->enable)
  451. dcrtc->variant->enable(dcrtc, &crtc->state->adjusted_mode);
  452. }
  453. armada_drm_crtc_update(dcrtc, true);
  454. drm_crtc_vblank_on(crtc);
  455. if (crtc->state->adjusted_mode.flags & DRM_MODE_FLAG_INTERLACE)
  456. WARN_ON(drm_crtc_vblank_get(crtc));
  457. armada_drm_crtc_queue_state_event(crtc);
  458. }
  459. static const struct drm_crtc_helper_funcs armada_crtc_helper_funcs = {
  460. .mode_valid = armada_drm_crtc_mode_valid,
  461. .mode_fixup = armada_drm_crtc_mode_fixup,
  462. .mode_set_nofb = armada_drm_crtc_mode_set_nofb,
  463. .atomic_check = armada_drm_crtc_atomic_check,
  464. .atomic_begin = armada_drm_crtc_atomic_begin,
  465. .atomic_flush = armada_drm_crtc_atomic_flush,
  466. .atomic_disable = armada_drm_crtc_atomic_disable,
  467. .atomic_enable = armada_drm_crtc_atomic_enable,
  468. };
  469. static void armada_load_cursor_argb(void __iomem *base, uint32_t *pix,
  470. unsigned stride, unsigned width, unsigned height)
  471. {
  472. uint32_t addr;
  473. unsigned y;
  474. addr = SRAM_HWC32_RAM1;
  475. for (y = 0; y < height; y++) {
  476. uint32_t *p = &pix[y * stride];
  477. unsigned x;
  478. for (x = 0; x < width; x++, p++) {
  479. uint32_t val = *p;
  480. /*
  481. * In "ARGB888" (HWC32) mode, writing to the SRAM
  482. * requires these bits to contain:
  483. * 31:24 = alpha 23:16 = blue 15:8 = green 7:0 = red
  484. * So, it's actually ABGR8888. This is independent
  485. * of the SWAPRB bits in DMA control register 0.
  486. */
  487. val = (val & 0xff00ff00) |
  488. (val & 0x000000ff) << 16 |
  489. (val & 0x00ff0000) >> 16;
  490. writel_relaxed(val,
  491. base + LCD_SPU_SRAM_WRDAT);
  492. writel_relaxed(addr | SRAM_WRITE,
  493. base + LCD_SPU_SRAM_CTRL);
  494. readl_relaxed(base + LCD_SPU_HWC_OVSA_HPXL_VLN);
  495. addr += 1;
  496. if ((addr & 0x00ff) == 0)
  497. addr += 0xf00;
  498. if ((addr & 0x30ff) == 0)
  499. addr = SRAM_HWC32_RAM2;
  500. }
  501. }
  502. }
  503. static void armada_drm_crtc_cursor_tran(void __iomem *base)
  504. {
  505. unsigned addr;
  506. for (addr = 0; addr < 256; addr++) {
  507. /* write the default value */
  508. writel_relaxed(0x55555555, base + LCD_SPU_SRAM_WRDAT);
  509. writel_relaxed(addr | SRAM_WRITE | SRAM_HWC32_TRAN,
  510. base + LCD_SPU_SRAM_CTRL);
  511. }
  512. }
  513. static int armada_drm_crtc_cursor_update(struct armada_crtc *dcrtc, bool reload)
  514. {
  515. uint32_t xoff, xscr, w = dcrtc->cursor_w, s;
  516. uint32_t yoff, yscr, h = dcrtc->cursor_h;
  517. uint32_t para1;
  518. /*
  519. * Calculate the visible width and height of the cursor,
  520. * screen position, and the position in the cursor bitmap.
  521. */
  522. if (dcrtc->cursor_x < 0) {
  523. xoff = -dcrtc->cursor_x;
  524. xscr = 0;
  525. w -= min(xoff, w);
  526. } else if (dcrtc->cursor_x + w > dcrtc->crtc.mode.hdisplay) {
  527. xoff = 0;
  528. xscr = dcrtc->cursor_x;
  529. w = max_t(int, dcrtc->crtc.mode.hdisplay - dcrtc->cursor_x, 0);
  530. } else {
  531. xoff = 0;
  532. xscr = dcrtc->cursor_x;
  533. }
  534. if (dcrtc->cursor_y < 0) {
  535. yoff = -dcrtc->cursor_y;
  536. yscr = 0;
  537. h -= min(yoff, h);
  538. } else if (dcrtc->cursor_y + h > dcrtc->crtc.mode.vdisplay) {
  539. yoff = 0;
  540. yscr = dcrtc->cursor_y;
  541. h = max_t(int, dcrtc->crtc.mode.vdisplay - dcrtc->cursor_y, 0);
  542. } else {
  543. yoff = 0;
  544. yscr = dcrtc->cursor_y;
  545. }
  546. /* On interlaced modes, the vertical cursor size must be halved */
  547. s = dcrtc->cursor_w;
  548. if (dcrtc->interlaced) {
  549. s *= 2;
  550. yscr /= 2;
  551. h /= 2;
  552. }
  553. if (!dcrtc->cursor_obj || !h || !w) {
  554. spin_lock_irq(&dcrtc->irq_lock);
  555. dcrtc->cursor_update = false;
  556. armada_updatel(0, CFG_HWC_ENA, dcrtc->base + LCD_SPU_DMA_CTRL0);
  557. spin_unlock_irq(&dcrtc->irq_lock);
  558. return 0;
  559. }
  560. spin_lock_irq(&dcrtc->irq_lock);
  561. para1 = readl_relaxed(dcrtc->base + LCD_SPU_SRAM_PARA1);
  562. armada_updatel(CFG_CSB_256x32, CFG_CSB_256x32 | CFG_PDWN256x32,
  563. dcrtc->base + LCD_SPU_SRAM_PARA1);
  564. spin_unlock_irq(&dcrtc->irq_lock);
  565. /*
  566. * Initialize the transparency if the SRAM was powered down.
  567. * We must also reload the cursor data as well.
  568. */
  569. if (!(para1 & CFG_CSB_256x32)) {
  570. armada_drm_crtc_cursor_tran(dcrtc->base);
  571. reload = true;
  572. }
  573. if (dcrtc->cursor_hw_sz != (h << 16 | w)) {
  574. spin_lock_irq(&dcrtc->irq_lock);
  575. dcrtc->cursor_update = false;
  576. armada_updatel(0, CFG_HWC_ENA, dcrtc->base + LCD_SPU_DMA_CTRL0);
  577. spin_unlock_irq(&dcrtc->irq_lock);
  578. reload = true;
  579. }
  580. if (reload) {
  581. struct armada_gem_object *obj = dcrtc->cursor_obj;
  582. uint32_t *pix;
  583. /* Set the top-left corner of the cursor image */
  584. pix = obj->addr;
  585. pix += yoff * s + xoff;
  586. armada_load_cursor_argb(dcrtc->base, pix, s, w, h);
  587. }
  588. /* Reload the cursor position, size and enable in the IRQ handler */
  589. spin_lock_irq(&dcrtc->irq_lock);
  590. dcrtc->cursor_hw_pos = yscr << 16 | xscr;
  591. dcrtc->cursor_hw_sz = h << 16 | w;
  592. dcrtc->cursor_update = true;
  593. armada_drm_crtc_enable_irq(dcrtc, DUMB_FRAMEDONE_ENA);
  594. spin_unlock_irq(&dcrtc->irq_lock);
  595. return 0;
  596. }
  597. static void cursor_update(void *data)
  598. {
  599. armada_drm_crtc_cursor_update(data, true);
  600. }
  601. static int armada_drm_crtc_cursor_set(struct drm_crtc *crtc,
  602. struct drm_file *file, uint32_t handle, uint32_t w, uint32_t h)
  603. {
  604. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  605. struct armada_gem_object *obj = NULL;
  606. int ret;
  607. /* If no cursor support, replicate drm's return value */
  608. if (!dcrtc->variant->has_spu_adv_reg)
  609. return -ENXIO;
  610. if (handle && w > 0 && h > 0) {
  611. /* maximum size is 64x32 or 32x64 */
  612. if (w > 64 || h > 64 || (w > 32 && h > 32))
  613. return -ENOMEM;
  614. obj = armada_gem_object_lookup(file, handle);
  615. if (!obj)
  616. return -ENOENT;
  617. /* Must be a kernel-mapped object */
  618. if (!obj->addr) {
  619. drm_gem_object_put(&obj->obj);
  620. return -EINVAL;
  621. }
  622. if (obj->obj.size < w * h * 4) {
  623. DRM_ERROR("buffer is too small\n");
  624. drm_gem_object_put(&obj->obj);
  625. return -ENOMEM;
  626. }
  627. }
  628. if (dcrtc->cursor_obj) {
  629. dcrtc->cursor_obj->update = NULL;
  630. dcrtc->cursor_obj->update_data = NULL;
  631. drm_gem_object_put(&dcrtc->cursor_obj->obj);
  632. }
  633. dcrtc->cursor_obj = obj;
  634. dcrtc->cursor_w = w;
  635. dcrtc->cursor_h = h;
  636. ret = armada_drm_crtc_cursor_update(dcrtc, true);
  637. if (obj) {
  638. obj->update_data = dcrtc;
  639. obj->update = cursor_update;
  640. }
  641. return ret;
  642. }
  643. static int armada_drm_crtc_cursor_move(struct drm_crtc *crtc, int x, int y)
  644. {
  645. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  646. int ret;
  647. /* If no cursor support, replicate drm's return value */
  648. if (!dcrtc->variant->has_spu_adv_reg)
  649. return -EFAULT;
  650. dcrtc->cursor_x = x;
  651. dcrtc->cursor_y = y;
  652. ret = armada_drm_crtc_cursor_update(dcrtc, false);
  653. return ret;
  654. }
  655. static void armada_drm_crtc_destroy(struct drm_crtc *crtc)
  656. {
  657. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  658. struct armada_private *priv = drm_to_armada_dev(crtc->dev);
  659. if (dcrtc->cursor_obj)
  660. drm_gem_object_put(&dcrtc->cursor_obj->obj);
  661. priv->dcrtc[dcrtc->num] = NULL;
  662. drm_crtc_cleanup(&dcrtc->crtc);
  663. if (dcrtc->variant->disable)
  664. dcrtc->variant->disable(dcrtc);
  665. writel_relaxed(0, dcrtc->base + LCD_SPU_IRQ_ENA);
  666. of_node_put(dcrtc->crtc.port);
  667. kfree(dcrtc);
  668. }
  669. static int armada_drm_crtc_late_register(struct drm_crtc *crtc)
  670. {
  671. if (IS_ENABLED(CONFIG_DEBUG_FS))
  672. armada_drm_crtc_debugfs_init(drm_to_armada_crtc(crtc));
  673. return 0;
  674. }
  675. /* These are called under the vbl_lock. */
  676. static int armada_drm_crtc_enable_vblank(struct drm_crtc *crtc)
  677. {
  678. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  679. unsigned long flags;
  680. spin_lock_irqsave(&dcrtc->irq_lock, flags);
  681. armada_drm_crtc_enable_irq(dcrtc, VSYNC_IRQ_ENA);
  682. spin_unlock_irqrestore(&dcrtc->irq_lock, flags);
  683. return 0;
  684. }
  685. static void armada_drm_crtc_disable_vblank(struct drm_crtc *crtc)
  686. {
  687. struct armada_crtc *dcrtc = drm_to_armada_crtc(crtc);
  688. unsigned long flags;
  689. spin_lock_irqsave(&dcrtc->irq_lock, flags);
  690. armada_drm_crtc_disable_irq(dcrtc, VSYNC_IRQ_ENA);
  691. spin_unlock_irqrestore(&dcrtc->irq_lock, flags);
  692. }
  693. static const struct drm_crtc_funcs armada_crtc_funcs = {
  694. .reset = drm_atomic_helper_crtc_reset,
  695. .cursor_set = armada_drm_crtc_cursor_set,
  696. .cursor_move = armada_drm_crtc_cursor_move,
  697. .destroy = armada_drm_crtc_destroy,
  698. .set_config = drm_atomic_helper_set_config,
  699. .page_flip = drm_atomic_helper_page_flip,
  700. .atomic_duplicate_state = drm_atomic_helper_crtc_duplicate_state,
  701. .atomic_destroy_state = drm_atomic_helper_crtc_destroy_state,
  702. .late_register = armada_drm_crtc_late_register,
  703. .enable_vblank = armada_drm_crtc_enable_vblank,
  704. .disable_vblank = armada_drm_crtc_disable_vblank,
  705. };
  706. int armada_crtc_select_clock(struct armada_crtc *dcrtc,
  707. struct armada_clk_result *res,
  708. const struct armada_clocking_params *params,
  709. struct clk *clks[], size_t num_clks,
  710. unsigned long desired_khz)
  711. {
  712. unsigned long desired_hz = desired_khz * 1000;
  713. unsigned long desired_clk_hz; // requested clk input
  714. unsigned long real_clk_hz; // actual clk input
  715. unsigned long real_hz; // actual pixel clk
  716. unsigned long permillage;
  717. struct clk *clk;
  718. u32 div;
  719. int i;
  720. DRM_DEBUG_KMS("[CRTC:%u:%s] desired clock=%luHz\n",
  721. dcrtc->crtc.base.id, dcrtc->crtc.name, desired_hz);
  722. for (i = 0; i < num_clks; i++) {
  723. clk = clks[i];
  724. if (!clk)
  725. continue;
  726. if (params->settable & BIT(i)) {
  727. real_clk_hz = clk_round_rate(clk, desired_hz);
  728. desired_clk_hz = desired_hz;
  729. } else {
  730. real_clk_hz = clk_get_rate(clk);
  731. desired_clk_hz = real_clk_hz;
  732. }
  733. /* If the clock can do exactly the desired rate, we're done */
  734. if (real_clk_hz == desired_hz) {
  735. real_hz = real_clk_hz;
  736. div = 1;
  737. goto found;
  738. }
  739. /* Calculate the divider - if invalid, we can't do this rate */
  740. div = DIV_ROUND_CLOSEST(real_clk_hz, desired_hz);
  741. if (div == 0 || div > params->div_max)
  742. continue;
  743. /* Calculate the actual rate - HDMI requires -0.6%..+0.5% */
  744. real_hz = DIV_ROUND_CLOSEST(real_clk_hz, div);
  745. DRM_DEBUG_KMS("[CRTC:%u:%s] clk=%u %luHz div=%u real=%luHz\n",
  746. dcrtc->crtc.base.id, dcrtc->crtc.name,
  747. i, real_clk_hz, div, real_hz);
  748. /* Avoid repeated division */
  749. if (real_hz < desired_hz) {
  750. permillage = real_hz / desired_khz;
  751. if (permillage < params->permillage_min)
  752. continue;
  753. } else {
  754. permillage = DIV_ROUND_UP(real_hz, desired_khz);
  755. if (permillage > params->permillage_max)
  756. continue;
  757. }
  758. goto found;
  759. }
  760. return -ERANGE;
  761. found:
  762. DRM_DEBUG_KMS("[CRTC:%u:%s] selected clk=%u %luHz div=%u real=%luHz\n",
  763. dcrtc->crtc.base.id, dcrtc->crtc.name,
  764. i, real_clk_hz, div, real_hz);
  765. res->desired_clk_hz = desired_clk_hz;
  766. res->clk = clk;
  767. res->div = div;
  768. return i;
  769. }
  770. static int armada_drm_crtc_create(struct drm_device *drm, struct device *dev,
  771. struct resource *res, int irq, const struct armada_variant *variant,
  772. struct device_node *port)
  773. {
  774. struct armada_private *priv = drm_to_armada_dev(drm);
  775. struct armada_crtc *dcrtc;
  776. struct drm_plane *primary;
  777. void __iomem *base;
  778. int ret;
  779. base = devm_ioremap_resource(dev, res);
  780. if (IS_ERR(base))
  781. return PTR_ERR(base);
  782. dcrtc = kzalloc_obj(*dcrtc);
  783. if (!dcrtc) {
  784. DRM_ERROR("failed to allocate Armada crtc\n");
  785. return -ENOMEM;
  786. }
  787. if (dev != drm->dev)
  788. dev_set_drvdata(dev, dcrtc);
  789. dcrtc->variant = variant;
  790. dcrtc->base = base;
  791. dcrtc->num = drm->mode_config.num_crtc;
  792. dcrtc->cfg_dumb_ctrl = DUMB24_RGB888_0;
  793. dcrtc->spu_iopad_ctrl = CFG_VSCALE_LN_EN | CFG_IOPAD_DUMB24;
  794. spin_lock_init(&dcrtc->irq_lock);
  795. dcrtc->irq_ena = CLEAN_SPU_IRQ_ISR;
  796. /* Initialize some registers which we don't otherwise set */
  797. writel_relaxed(0x00000001, dcrtc->base + LCD_CFG_SCLK_DIV);
  798. writel_relaxed(0x00000000, dcrtc->base + LCD_SPU_BLANKCOLOR);
  799. writel_relaxed(dcrtc->spu_iopad_ctrl,
  800. dcrtc->base + LCD_SPU_IOPAD_CONTROL);
  801. writel_relaxed(0x00000000, dcrtc->base + LCD_SPU_SRAM_PARA0);
  802. writel_relaxed(CFG_PDWN256x32 | CFG_PDWN256x24 | CFG_PDWN256x8 |
  803. CFG_PDWN32x32 | CFG_PDWN16x66 | CFG_PDWN32x66 |
  804. CFG_PDWN64x66, dcrtc->base + LCD_SPU_SRAM_PARA1);
  805. writel_relaxed(0x2032ff81, dcrtc->base + LCD_SPU_DMA_CTRL1);
  806. writel_relaxed(dcrtc->irq_ena, dcrtc->base + LCD_SPU_IRQ_ENA);
  807. readl_relaxed(dcrtc->base + LCD_SPU_IRQ_ISR);
  808. writel_relaxed(0, dcrtc->base + LCD_SPU_IRQ_ISR);
  809. ret = devm_request_irq(dev, irq, armada_drm_irq, 0, "armada_drm_crtc",
  810. dcrtc);
  811. if (ret < 0)
  812. goto err_crtc;
  813. if (dcrtc->variant->init) {
  814. ret = dcrtc->variant->init(dcrtc, dev);
  815. if (ret)
  816. goto err_crtc;
  817. }
  818. /* Ensure AXI pipeline is enabled */
  819. armada_updatel(CFG_ARBFAST_ENA, 0, dcrtc->base + LCD_SPU_DMA_CTRL0);
  820. priv->dcrtc[dcrtc->num] = dcrtc;
  821. dcrtc->crtc.port = port;
  822. primary = kzalloc_obj(*primary);
  823. if (!primary) {
  824. ret = -ENOMEM;
  825. goto err_crtc;
  826. }
  827. ret = armada_drm_primary_plane_init(drm, primary);
  828. if (ret) {
  829. kfree(primary);
  830. goto err_crtc;
  831. }
  832. ret = drm_crtc_init_with_planes(drm, &dcrtc->crtc, primary, NULL,
  833. &armada_crtc_funcs, NULL);
  834. if (ret)
  835. goto err_crtc_init;
  836. drm_crtc_helper_add(&dcrtc->crtc, &armada_crtc_helper_funcs);
  837. ret = drm_mode_crtc_set_gamma_size(&dcrtc->crtc, 256);
  838. if (ret)
  839. return ret;
  840. drm_crtc_enable_color_mgmt(&dcrtc->crtc, 0, false, 256);
  841. return armada_overlay_plane_create(drm, 1 << dcrtc->num);
  842. err_crtc_init:
  843. primary->funcs->destroy(primary);
  844. err_crtc:
  845. kfree(dcrtc);
  846. return ret;
  847. }
  848. static int
  849. armada_lcd_bind(struct device *dev, struct device *master, void *data)
  850. {
  851. struct platform_device *pdev = to_platform_device(dev);
  852. struct drm_device *drm = data;
  853. struct resource *res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
  854. int irq = platform_get_irq(pdev, 0);
  855. const struct armada_variant *variant;
  856. struct device_node *port = NULL;
  857. struct device_node *np, *parent = dev->of_node;
  858. if (irq < 0)
  859. return irq;
  860. variant = device_get_match_data(dev);
  861. if (!variant)
  862. return -ENXIO;
  863. if (parent) {
  864. np = of_get_child_by_name(parent, "ports");
  865. if (np)
  866. parent = np;
  867. port = of_get_child_by_name(parent, "port");
  868. of_node_put(np);
  869. if (!port) {
  870. dev_err(dev, "no port node found in %pOF\n", parent);
  871. return -ENXIO;
  872. }
  873. }
  874. return armada_drm_crtc_create(drm, dev, res, irq, variant, port);
  875. }
  876. static void
  877. armada_lcd_unbind(struct device *dev, struct device *master, void *data)
  878. {
  879. struct armada_crtc *dcrtc = dev_get_drvdata(dev);
  880. armada_drm_crtc_destroy(&dcrtc->crtc);
  881. }
  882. static const struct component_ops armada_lcd_ops = {
  883. .bind = armada_lcd_bind,
  884. .unbind = armada_lcd_unbind,
  885. };
  886. static int armada_lcd_probe(struct platform_device *pdev)
  887. {
  888. return component_add(&pdev->dev, &armada_lcd_ops);
  889. }
  890. static void armada_lcd_remove(struct platform_device *pdev)
  891. {
  892. component_del(&pdev->dev, &armada_lcd_ops);
  893. }
  894. static const struct of_device_id armada_lcd_of_match[] = {
  895. {
  896. .compatible = "marvell,dove-lcd",
  897. .data = &armada510_ops,
  898. },
  899. {}
  900. };
  901. MODULE_DEVICE_TABLE(of, armada_lcd_of_match);
  902. static const struct platform_device_id armada_lcd_platform_ids[] = {
  903. {
  904. .name = "armada-lcd",
  905. .driver_data = (unsigned long)&armada510_ops,
  906. }, {
  907. .name = "armada-510-lcd",
  908. .driver_data = (unsigned long)&armada510_ops,
  909. },
  910. { },
  911. };
  912. MODULE_DEVICE_TABLE(platform, armada_lcd_platform_ids);
  913. struct platform_driver armada_lcd_platform_driver = {
  914. .probe = armada_lcd_probe,
  915. .remove = armada_lcd_remove,
  916. .driver = {
  917. .name = "armada-lcd",
  918. .owner = THIS_MODULE,
  919. .of_match_table = armada_lcd_of_match,
  920. },
  921. .id_table = armada_lcd_platform_ids,
  922. };