mmp_ctrl.c 15 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /*
  3. * linux/drivers/video/mmp/hw/mmp_ctrl.c
  4. * Marvell MMP series Display Controller support
  5. *
  6. * Copyright (C) 2012 Marvell Technology Group Ltd.
  7. * Authors: Guoqing Li <ligq@marvell.com>
  8. * Lisa Du <cldu@marvell.com>
  9. * Zhou Zhu <zzhu3@marvell.com>
  10. */
  11. #include <linux/module.h>
  12. #include <linux/moduleparam.h>
  13. #include <linux/kernel.h>
  14. #include <linux/errno.h>
  15. #include <linux/string.h>
  16. #include <linux/interrupt.h>
  17. #include <linux/slab.h>
  18. #include <linux/delay.h>
  19. #include <linux/platform_device.h>
  20. #include <linux/dma-mapping.h>
  21. #include <linux/clk.h>
  22. #include <linux/err.h>
  23. #include <linux/vmalloc.h>
  24. #include <linux/uaccess.h>
  25. #include <linux/kthread.h>
  26. #include <linux/io.h>
  27. #include "mmp_ctrl.h"
  28. static irqreturn_t ctrl_handle_irq(int irq, void *dev_id)
  29. {
  30. struct mmphw_ctrl *ctrl = (struct mmphw_ctrl *)dev_id;
  31. u32 isr, imask, tmp;
  32. isr = readl_relaxed(ctrl->reg_base + SPU_IRQ_ISR);
  33. imask = readl_relaxed(ctrl->reg_base + SPU_IRQ_ENA);
  34. do {
  35. /* clear clock only */
  36. tmp = readl_relaxed(ctrl->reg_base + SPU_IRQ_ISR);
  37. if (tmp & isr)
  38. writel_relaxed(~isr, ctrl->reg_base + SPU_IRQ_ISR);
  39. } while ((isr = readl_relaxed(ctrl->reg_base + SPU_IRQ_ISR)) & imask);
  40. return IRQ_HANDLED;
  41. }
  42. static u32 fmt_to_reg(struct mmp_overlay *overlay, int pix_fmt)
  43. {
  44. u32 rbswap = 0, uvswap = 0, yuvswap = 0,
  45. csc_en = 0, val = 0,
  46. vid = overlay_is_vid(overlay);
  47. switch (pix_fmt) {
  48. case PIXFMT_RGB565:
  49. case PIXFMT_RGB1555:
  50. case PIXFMT_RGB888PACK:
  51. case PIXFMT_RGB888UNPACK:
  52. case PIXFMT_RGBA888:
  53. rbswap = 1;
  54. break;
  55. case PIXFMT_VYUY:
  56. case PIXFMT_YVU422P:
  57. case PIXFMT_YVU420P:
  58. uvswap = 1;
  59. break;
  60. case PIXFMT_YUYV:
  61. yuvswap = 1;
  62. break;
  63. default:
  64. break;
  65. }
  66. switch (pix_fmt) {
  67. case PIXFMT_RGB565:
  68. case PIXFMT_BGR565:
  69. break;
  70. case PIXFMT_RGB1555:
  71. case PIXFMT_BGR1555:
  72. val = 0x1;
  73. break;
  74. case PIXFMT_RGB888PACK:
  75. case PIXFMT_BGR888PACK:
  76. val = 0x2;
  77. break;
  78. case PIXFMT_RGB888UNPACK:
  79. case PIXFMT_BGR888UNPACK:
  80. val = 0x3;
  81. break;
  82. case PIXFMT_RGBA888:
  83. case PIXFMT_BGRA888:
  84. val = 0x4;
  85. break;
  86. case PIXFMT_UYVY:
  87. case PIXFMT_VYUY:
  88. case PIXFMT_YUYV:
  89. val = 0x5;
  90. csc_en = 1;
  91. break;
  92. case PIXFMT_YUV422P:
  93. case PIXFMT_YVU422P:
  94. val = 0x6;
  95. csc_en = 1;
  96. break;
  97. case PIXFMT_YUV420P:
  98. case PIXFMT_YVU420P:
  99. val = 0x7;
  100. csc_en = 1;
  101. break;
  102. default:
  103. break;
  104. }
  105. return (dma_palette(0) | dma_fmt(vid, val) |
  106. dma_swaprb(vid, rbswap) | dma_swapuv(vid, uvswap) |
  107. dma_swapyuv(vid, yuvswap) | dma_csc(vid, csc_en));
  108. }
  109. static void dmafetch_set_fmt(struct mmp_overlay *overlay)
  110. {
  111. u32 tmp;
  112. struct mmp_path *path = overlay->path;
  113. tmp = readl_relaxed(ctrl_regs(path) + dma_ctrl(0, path->id));
  114. tmp &= ~dma_mask(overlay_is_vid(overlay));
  115. tmp |= fmt_to_reg(overlay, overlay->win.pix_fmt);
  116. writel_relaxed(tmp, ctrl_regs(path) + dma_ctrl(0, path->id));
  117. }
  118. static void overlay_set_win(struct mmp_overlay *overlay, struct mmp_win *win)
  119. {
  120. struct lcd_regs *regs = path_regs(overlay->path);
  121. /* assert win supported */
  122. memcpy(&overlay->win, win, sizeof(struct mmp_win));
  123. mutex_lock(&overlay->access_ok);
  124. if (overlay_is_vid(overlay)) {
  125. writel_relaxed(win->pitch[0],
  126. (void __iomem *)&regs->v_pitch_yc);
  127. writel_relaxed(win->pitch[2] << 16 | win->pitch[1],
  128. (void __iomem *)&regs->v_pitch_uv);
  129. writel_relaxed((win->ysrc << 16) | win->xsrc,
  130. (void __iomem *)&regs->v_size);
  131. writel_relaxed((win->ydst << 16) | win->xdst,
  132. (void __iomem *)&regs->v_size_z);
  133. writel_relaxed(win->ypos << 16 | win->xpos,
  134. (void __iomem *)&regs->v_start);
  135. } else {
  136. writel_relaxed(win->pitch[0], (void __iomem *)&regs->g_pitch);
  137. writel_relaxed((win->ysrc << 16) | win->xsrc,
  138. (void __iomem *)&regs->g_size);
  139. writel_relaxed((win->ydst << 16) | win->xdst,
  140. (void __iomem *)&regs->g_size_z);
  141. writel_relaxed(win->ypos << 16 | win->xpos,
  142. (void __iomem *)&regs->g_start);
  143. }
  144. dmafetch_set_fmt(overlay);
  145. mutex_unlock(&overlay->access_ok);
  146. }
  147. static void dmafetch_onoff(struct mmp_overlay *overlay, int on)
  148. {
  149. u32 mask = overlay_is_vid(overlay) ? CFG_DMA_ENA_MASK :
  150. CFG_GRA_ENA_MASK;
  151. u32 enable = overlay_is_vid(overlay) ? CFG_DMA_ENA(1) : CFG_GRA_ENA(1);
  152. u32 tmp;
  153. struct mmp_path *path = overlay->path;
  154. mutex_lock(&overlay->access_ok);
  155. tmp = readl_relaxed(ctrl_regs(path) + dma_ctrl(0, path->id));
  156. tmp &= ~mask;
  157. tmp |= (on ? enable : 0);
  158. writel(tmp, ctrl_regs(path) + dma_ctrl(0, path->id));
  159. mutex_unlock(&overlay->access_ok);
  160. }
  161. static void path_enabledisable(struct mmp_path *path, int on)
  162. {
  163. u32 tmp;
  164. mutex_lock(&path->access_ok);
  165. tmp = readl_relaxed(ctrl_regs(path) + LCD_SCLK(path));
  166. if (on)
  167. tmp &= ~SCLK_DISABLE;
  168. else
  169. tmp |= SCLK_DISABLE;
  170. writel_relaxed(tmp, ctrl_regs(path) + LCD_SCLK(path));
  171. mutex_unlock(&path->access_ok);
  172. }
  173. static void path_onoff(struct mmp_path *path, int on)
  174. {
  175. if (path->status == on) {
  176. dev_info(path->dev, "path %s is already %s\n",
  177. path->name, stat_name(path->status));
  178. return;
  179. }
  180. if (on) {
  181. path_enabledisable(path, 1);
  182. if (path->panel && path->panel->set_onoff)
  183. path->panel->set_onoff(path->panel, 1);
  184. } else {
  185. if (path->panel && path->panel->set_onoff)
  186. path->panel->set_onoff(path->panel, 0);
  187. path_enabledisable(path, 0);
  188. }
  189. path->status = on;
  190. }
  191. static void overlay_set_onoff(struct mmp_overlay *overlay, int on)
  192. {
  193. if (overlay->status == on) {
  194. dev_info(overlay_to_ctrl(overlay)->dev, "overlay %s is already %s\n",
  195. overlay->path->name, stat_name(overlay->status));
  196. return;
  197. }
  198. overlay->status = on;
  199. dmafetch_onoff(overlay, on);
  200. if (overlay->path->ops.check_status(overlay->path)
  201. != overlay->path->status)
  202. path_onoff(overlay->path, on);
  203. }
  204. static void overlay_set_fetch(struct mmp_overlay *overlay, int fetch_id)
  205. {
  206. overlay->dmafetch_id = fetch_id;
  207. }
  208. static int overlay_set_addr(struct mmp_overlay *overlay, struct mmp_addr *addr)
  209. {
  210. struct lcd_regs *regs = path_regs(overlay->path);
  211. /* FIXME: assert addr supported */
  212. memcpy(&overlay->addr, addr, sizeof(struct mmp_addr));
  213. if (overlay_is_vid(overlay)) {
  214. writel_relaxed(addr->phys[0], (void __iomem *)&regs->v_y0);
  215. writel_relaxed(addr->phys[1], (void __iomem *)&regs->v_u0);
  216. writel_relaxed(addr->phys[2], (void __iomem *)&regs->v_v0);
  217. } else
  218. writel_relaxed(addr->phys[0], (void __iomem *)&regs->g_0);
  219. return overlay->addr.phys[0];
  220. }
  221. static void path_set_mode(struct mmp_path *path, struct mmp_mode *mode)
  222. {
  223. struct lcd_regs *regs = path_regs(path);
  224. u32 total_x, total_y, vsync_ctrl, tmp, sclk_src, sclk_div,
  225. link_config = path_to_path_plat(path)->link_config,
  226. dsi_rbswap = path_to_path_plat(path)->link_config;
  227. /* FIXME: assert videomode supported */
  228. memcpy(&path->mode, mode, sizeof(struct mmp_mode));
  229. mutex_lock(&path->access_ok);
  230. /* polarity of timing signals */
  231. tmp = readl_relaxed(ctrl_regs(path) + intf_ctrl(path->id)) & 0x1;
  232. tmp |= mode->vsync_invert ? 0 : 0x8;
  233. tmp |= mode->hsync_invert ? 0 : 0x4;
  234. tmp |= link_config & CFG_DUMBMODE_MASK;
  235. tmp |= CFG_DUMB_ENA(1);
  236. writel_relaxed(tmp, ctrl_regs(path) + intf_ctrl(path->id));
  237. /* interface rb_swap setting */
  238. tmp = readl_relaxed(ctrl_regs(path) + intf_rbswap_ctrl(path->id)) &
  239. (~(CFG_INTFRBSWAP_MASK));
  240. tmp |= dsi_rbswap & CFG_INTFRBSWAP_MASK;
  241. writel_relaxed(tmp, ctrl_regs(path) + intf_rbswap_ctrl(path->id));
  242. writel_relaxed((mode->yres << 16) | mode->xres,
  243. (void __iomem *)&regs->screen_active);
  244. writel_relaxed((mode->left_margin << 16) | mode->right_margin,
  245. (void __iomem *)&regs->screen_h_porch);
  246. writel_relaxed((mode->upper_margin << 16) | mode->lower_margin,
  247. (void __iomem *)&regs->screen_v_porch);
  248. total_x = mode->xres + mode->left_margin + mode->right_margin +
  249. mode->hsync_len;
  250. total_y = mode->yres + mode->upper_margin + mode->lower_margin +
  251. mode->vsync_len;
  252. writel_relaxed((total_y << 16) | total_x,
  253. (void __iomem *)&regs->screen_size);
  254. /* vsync ctrl */
  255. if (path->output_type == PATH_OUT_DSI)
  256. vsync_ctrl = 0x01330133;
  257. else
  258. vsync_ctrl = ((mode->xres + mode->right_margin) << 16)
  259. | (mode->xres + mode->right_margin);
  260. writel_relaxed(vsync_ctrl, (void __iomem *)&regs->vsync_ctrl);
  261. /* set pixclock div */
  262. sclk_src = clk_get_rate(path_to_ctrl(path)->clk);
  263. sclk_div = sclk_src / mode->pixclock_freq;
  264. if (sclk_div * mode->pixclock_freq < sclk_src)
  265. sclk_div++;
  266. dev_info(path->dev, "%s sclk_src %d sclk_div 0x%x pclk %d\n",
  267. __func__, sclk_src, sclk_div, mode->pixclock_freq);
  268. tmp = readl_relaxed(ctrl_regs(path) + LCD_SCLK(path));
  269. tmp &= ~CLK_INT_DIV_MASK;
  270. tmp |= sclk_div;
  271. writel_relaxed(tmp, ctrl_regs(path) + LCD_SCLK(path));
  272. mutex_unlock(&path->access_ok);
  273. }
  274. static const struct mmp_overlay_ops mmphw_overlay_ops = {
  275. .set_fetch = overlay_set_fetch,
  276. .set_onoff = overlay_set_onoff,
  277. .set_win = overlay_set_win,
  278. .set_addr = overlay_set_addr,
  279. };
  280. static void ctrl_set_default(struct mmphw_ctrl *ctrl)
  281. {
  282. u32 tmp, irq_mask;
  283. /*
  284. * LCD Global control(LCD_TOP_CTRL) should be configed before
  285. * any other LCD registers read/write, or there maybe issues.
  286. */
  287. tmp = readl_relaxed(ctrl->reg_base + LCD_TOP_CTRL);
  288. tmp |= 0xfff0;
  289. writel_relaxed(tmp, ctrl->reg_base + LCD_TOP_CTRL);
  290. /* disable all interrupts */
  291. irq_mask = path_imasks(0) | err_imask(0) |
  292. path_imasks(1) | err_imask(1);
  293. tmp = readl_relaxed(ctrl->reg_base + SPU_IRQ_ENA);
  294. tmp &= ~irq_mask;
  295. tmp |= irq_mask;
  296. writel_relaxed(tmp, ctrl->reg_base + SPU_IRQ_ENA);
  297. }
  298. static void path_set_default(struct mmp_path *path)
  299. {
  300. struct lcd_regs *regs = path_regs(path);
  301. u32 dma_ctrl1, mask, tmp, path_config;
  302. path_config = path_to_path_plat(path)->path_config;
  303. /* Configure IOPAD: should be parallel only */
  304. if (PATH_OUT_PARALLEL == path->output_type) {
  305. mask = CFG_IOPADMODE_MASK | CFG_BURST_MASK | CFG_BOUNDARY_MASK;
  306. tmp = readl_relaxed(ctrl_regs(path) + SPU_IOPAD_CONTROL);
  307. tmp &= ~mask;
  308. tmp |= path_config;
  309. writel_relaxed(tmp, ctrl_regs(path) + SPU_IOPAD_CONTROL);
  310. }
  311. /* Select path clock source */
  312. tmp = readl_relaxed(ctrl_regs(path) + LCD_SCLK(path));
  313. tmp &= ~SCLK_SRC_SEL_MASK;
  314. tmp |= path_config;
  315. writel_relaxed(tmp, ctrl_regs(path) + LCD_SCLK(path));
  316. /*
  317. * Configure default bits: vsync triggers DMA,
  318. * power save enable, configure alpha registers to
  319. * display 100% graphics, and set pixel command.
  320. */
  321. dma_ctrl1 = 0x2032ff81;
  322. dma_ctrl1 |= CFG_VSYNC_INV_MASK;
  323. writel_relaxed(dma_ctrl1, ctrl_regs(path) + dma_ctrl(1, path->id));
  324. /* Configure default register values */
  325. writel_relaxed(0x00000000, (void __iomem *)&regs->blank_color);
  326. writel_relaxed(0x00000000, (void __iomem *)&regs->g_1);
  327. writel_relaxed(0x00000000, (void __iomem *)&regs->g_start);
  328. /*
  329. * 1.enable multiple burst request in DMA AXI
  330. * bus arbiter for faster read if not tv path;
  331. * 2.enable horizontal smooth filter;
  332. */
  333. mask = CFG_GRA_HSMOOTH_MASK | CFG_DMA_HSMOOTH_MASK | CFG_ARBFAST_ENA(1);
  334. tmp = readl_relaxed(ctrl_regs(path) + dma_ctrl(0, path->id));
  335. tmp |= mask;
  336. if (PATH_TV == path->id)
  337. tmp &= ~CFG_ARBFAST_ENA(1);
  338. writel_relaxed(tmp, ctrl_regs(path) + dma_ctrl(0, path->id));
  339. }
  340. static int path_init(struct mmphw_path_plat *path_plat,
  341. struct mmp_mach_path_config *config)
  342. {
  343. struct mmphw_ctrl *ctrl = path_plat->ctrl;
  344. struct mmp_path_info *path_info;
  345. struct mmp_path *path = NULL;
  346. dev_info(ctrl->dev, "%s: %s\n", __func__, config->name);
  347. /* init driver data */
  348. path_info = kzalloc_obj(*path_info);
  349. if (!path_info)
  350. return 0;
  351. path_info->name = config->name;
  352. path_info->id = path_plat->id;
  353. path_info->dev = ctrl->dev;
  354. path_info->overlay_num = config->overlay_num;
  355. path_info->overlay_ops = &mmphw_overlay_ops;
  356. path_info->set_mode = path_set_mode;
  357. path_info->plat_data = path_plat;
  358. /* create/register platform device */
  359. path = mmp_register_path(path_info);
  360. if (!path) {
  361. kfree(path_info);
  362. return 0;
  363. }
  364. path_plat->path = path;
  365. path_plat->path_config = config->path_config;
  366. path_plat->link_config = config->link_config;
  367. path_plat->dsi_rbswap = config->dsi_rbswap;
  368. path_set_default(path);
  369. kfree(path_info);
  370. return 1;
  371. }
  372. static void path_deinit(struct mmphw_path_plat *path_plat)
  373. {
  374. if (!path_plat)
  375. return;
  376. mmp_unregister_path(path_plat->path);
  377. }
  378. static int mmphw_probe(struct platform_device *pdev)
  379. {
  380. struct mmp_mach_plat_info *mi;
  381. struct resource *res;
  382. int ret, i, irq;
  383. struct mmphw_path_plat *path_plat;
  384. struct mmphw_ctrl *ctrl = NULL;
  385. /* get resources from platform data */
  386. res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
  387. if (res == NULL) {
  388. dev_err(&pdev->dev, "%s: no IO memory defined\n", __func__);
  389. ret = -ENOENT;
  390. goto failed;
  391. }
  392. irq = platform_get_irq(pdev, 0);
  393. if (irq < 0) {
  394. ret = -ENOENT;
  395. goto failed;
  396. }
  397. /* get configs from platform data */
  398. mi = pdev->dev.platform_data;
  399. if (mi == NULL || !mi->path_num || !mi->paths) {
  400. dev_err(&pdev->dev, "%s: no platform data defined\n", __func__);
  401. ret = -EINVAL;
  402. goto failed;
  403. }
  404. /* allocate */
  405. ctrl = devm_kzalloc(&pdev->dev,
  406. struct_size(ctrl, path_plats, mi->path_num),
  407. GFP_KERNEL);
  408. if (!ctrl) {
  409. ret = -ENOMEM;
  410. goto failed;
  411. }
  412. ctrl->name = mi->name;
  413. ctrl->path_num = mi->path_num;
  414. ctrl->dev = &pdev->dev;
  415. ctrl->irq = irq;
  416. platform_set_drvdata(pdev, ctrl);
  417. mutex_init(&ctrl->access_ok);
  418. /* map registers.*/
  419. if (!devm_request_mem_region(ctrl->dev, res->start,
  420. resource_size(res), ctrl->name)) {
  421. dev_err(ctrl->dev,
  422. "can't request region for resource %pR\n", res);
  423. ret = -EINVAL;
  424. goto failed;
  425. }
  426. ctrl->reg_base = devm_ioremap(ctrl->dev,
  427. res->start, resource_size(res));
  428. if (ctrl->reg_base == NULL) {
  429. dev_err(ctrl->dev, "%s: res %pR map failed\n", __func__, res);
  430. ret = -ENOMEM;
  431. goto failed;
  432. }
  433. /* request irq */
  434. ret = devm_request_irq(ctrl->dev, ctrl->irq, ctrl_handle_irq,
  435. IRQF_SHARED, "lcd_controller", ctrl);
  436. if (ret < 0) {
  437. dev_err(ctrl->dev, "%s unable to request IRQ %d\n",
  438. __func__, ctrl->irq);
  439. ret = -ENXIO;
  440. goto failed;
  441. }
  442. /* get clock */
  443. ctrl->clk = devm_clk_get_enabled(ctrl->dev, mi->clk_name);
  444. if (IS_ERR(ctrl->clk)) {
  445. ret = PTR_ERR(ctrl->clk);
  446. dev_err_probe(ctrl->dev, ret,
  447. "unable to get clk %s\n", mi->clk_name);
  448. goto failed;
  449. }
  450. /* init global regs */
  451. ctrl_set_default(ctrl);
  452. /* init pathes from machine info and register them */
  453. for (i = 0; i < ctrl->path_num; i++) {
  454. /* get from config and machine info */
  455. path_plat = &ctrl->path_plats[i];
  456. path_plat->id = i;
  457. path_plat->ctrl = ctrl;
  458. /* path init */
  459. if (!path_init(path_plat, &mi->paths[i])) {
  460. ret = -EINVAL;
  461. goto failed_path_init;
  462. }
  463. }
  464. #ifdef CONFIG_MMP_DISP_SPI
  465. ret = lcd_spi_register(ctrl);
  466. if (ret < 0)
  467. goto failed_path_init;
  468. #endif
  469. dev_info(ctrl->dev, "device init done\n");
  470. return 0;
  471. failed_path_init:
  472. for (i = 0; i < ctrl->path_num; i++) {
  473. path_plat = &ctrl->path_plats[i];
  474. path_deinit(path_plat);
  475. }
  476. failed:
  477. dev_err(&pdev->dev, "device init failed\n");
  478. return ret;
  479. }
  480. static struct platform_driver mmphw_driver = {
  481. .driver = {
  482. .name = "mmp-disp",
  483. },
  484. .probe = mmphw_probe,
  485. };
  486. static int mmphw_init(void)
  487. {
  488. return platform_driver_register(&mmphw_driver);
  489. }
  490. module_init(mmphw_init);
  491. MODULE_AUTHOR("Li Guoqing<ligq@marvell.com>");
  492. MODULE_DESCRIPTION("Framebuffer driver for mmp");
  493. MODULE_LICENSE("GPL");