bcm2835-power.c 18 KB

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  1. // SPDX-License-Identifier: GPL-2.0+
  2. /*
  3. * Power domain driver for Broadcom BCM2835
  4. *
  5. * Copyright (C) 2018 Broadcom
  6. */
  7. #include <dt-bindings/soc/bcm2835-pm.h>
  8. #include <linux/clk.h>
  9. #include <linux/delay.h>
  10. #include <linux/io.h>
  11. #include <linux/iopoll.h>
  12. #include <linux/mfd/bcm2835-pm.h>
  13. #include <linux/module.h>
  14. #include <linux/platform_device.h>
  15. #include <linux/pm_domain.h>
  16. #include <linux/reset-controller.h>
  17. #include <linux/types.h>
  18. #define PM_GNRIC 0x00
  19. #define PM_AUDIO 0x04
  20. #define PM_STATUS 0x18
  21. #define PM_RSTC 0x1c
  22. #define PM_RSTS 0x20
  23. #define PM_WDOG 0x24
  24. #define PM_PADS0 0x28
  25. #define PM_PADS2 0x2c
  26. #define PM_PADS3 0x30
  27. #define PM_PADS4 0x34
  28. #define PM_PADS5 0x38
  29. #define PM_PADS6 0x3c
  30. #define PM_CAM0 0x44
  31. #define PM_CAM0_LDOHPEN BIT(2)
  32. #define PM_CAM0_LDOLPEN BIT(1)
  33. #define PM_CAM0_CTRLEN BIT(0)
  34. #define PM_CAM1 0x48
  35. #define PM_CAM1_LDOHPEN BIT(2)
  36. #define PM_CAM1_LDOLPEN BIT(1)
  37. #define PM_CAM1_CTRLEN BIT(0)
  38. #define PM_CCP2TX 0x4c
  39. #define PM_CCP2TX_LDOEN BIT(1)
  40. #define PM_CCP2TX_CTRLEN BIT(0)
  41. #define PM_DSI0 0x50
  42. #define PM_DSI0_LDOHPEN BIT(2)
  43. #define PM_DSI0_LDOLPEN BIT(1)
  44. #define PM_DSI0_CTRLEN BIT(0)
  45. #define PM_DSI1 0x54
  46. #define PM_DSI1_LDOHPEN BIT(2)
  47. #define PM_DSI1_LDOLPEN BIT(1)
  48. #define PM_DSI1_CTRLEN BIT(0)
  49. #define PM_HDMI 0x58
  50. #define PM_HDMI_RSTDR BIT(19)
  51. #define PM_HDMI_LDOPD BIT(1)
  52. #define PM_HDMI_CTRLEN BIT(0)
  53. #define PM_USB 0x5c
  54. /* The power gates must be enabled with this bit before enabling the LDO in the
  55. * USB block.
  56. */
  57. #define PM_USB_CTRLEN BIT(0)
  58. #define PM_PXLDO 0x60
  59. #define PM_PXBG 0x64
  60. #define PM_DFT 0x68
  61. #define PM_SMPS 0x6c
  62. #define PM_XOSC 0x70
  63. #define PM_SPAREW 0x74
  64. #define PM_SPARER 0x78
  65. #define PM_AVS_RSTDR 0x7c
  66. #define PM_AVS_STAT 0x80
  67. #define PM_AVS_EVENT 0x84
  68. #define PM_AVS_INTEN 0x88
  69. #define PM_DUMMY 0xfc
  70. #define PM_IMAGE 0x108
  71. #define PM_GRAFX 0x10c
  72. #define PM_PROC 0x110
  73. #define PM_GRAFX_2712 0x304
  74. #define PM_ENAB BIT(12)
  75. #define PM_ISPRSTN BIT(8)
  76. #define PM_H264RSTN BIT(7)
  77. #define PM_PERIRSTN BIT(6)
  78. #define PM_V3DRSTN BIT(6)
  79. #define PM_ISFUNC BIT(5)
  80. #define PM_MRDONE BIT(4)
  81. #define PM_MEMREP BIT(3)
  82. #define PM_ISPOW BIT(2)
  83. #define PM_POWOK BIT(1)
  84. #define PM_POWUP BIT(0)
  85. #define PM_INRUSH_SHIFT 13
  86. #define PM_INRUSH_3_5_MA 0
  87. #define PM_INRUSH_5_MA 1
  88. #define PM_INRUSH_10_MA 2
  89. #define PM_INRUSH_20_MA 3
  90. #define PM_INRUSH_MASK (3 << PM_INRUSH_SHIFT)
  91. #define PM_PASSWORD 0x5a000000
  92. #define PM_WDOG_TIME_SET 0x000fffff
  93. #define PM_RSTC_WRCFG_CLR 0xffffffcf
  94. #define PM_RSTS_HADWRH_SET 0x00000040
  95. #define PM_RSTC_WRCFG_SET 0x00000030
  96. #define PM_RSTC_WRCFG_FULL_RESET 0x00000020
  97. #define PM_RSTC_RESET 0x00000102
  98. #define PM_READ(reg) readl(power->base + (reg))
  99. #define PM_WRITE(reg, val) writel(PM_PASSWORD | (val), power->base + (reg))
  100. #define ASB_BRDG_VERSION 0x00
  101. #define ASB_CPR_CTRL 0x04
  102. #define ASB_V3D_S_CTRL 0x08
  103. #define ASB_V3D_M_CTRL 0x0c
  104. #define ASB_ISP_S_CTRL 0x10
  105. #define ASB_ISP_M_CTRL 0x14
  106. #define ASB_H264_S_CTRL 0x18
  107. #define ASB_H264_M_CTRL 0x1c
  108. #define ASB_REQ_STOP BIT(0)
  109. #define ASB_ACK BIT(1)
  110. #define ASB_EMPTY BIT(2)
  111. #define ASB_FULL BIT(3)
  112. #define ASB_AXI_BRDG_ID 0x20
  113. #define BCM2835_BRDG_ID 0x62726467
  114. struct bcm2835_power_domain {
  115. struct generic_pm_domain base;
  116. struct bcm2835_power *power;
  117. u32 domain;
  118. struct clk *clk;
  119. };
  120. struct bcm2835_power {
  121. struct device *dev;
  122. /* PM registers. */
  123. void __iomem *base;
  124. /* AXI Async bridge registers. */
  125. void __iomem *asb;
  126. /* RPiVid bridge registers. */
  127. void __iomem *rpivid_asb;
  128. struct genpd_onecell_data pd_xlate;
  129. struct bcm2835_power_domain domains[BCM2835_POWER_DOMAIN_COUNT];
  130. struct reset_controller_dev reset;
  131. };
  132. static int bcm2835_asb_control(struct bcm2835_power *power, u32 reg, bool enable)
  133. {
  134. void __iomem *base = power->asb;
  135. u32 val;
  136. switch (reg) {
  137. case 0:
  138. return 0;
  139. case ASB_V3D_S_CTRL:
  140. case ASB_V3D_M_CTRL:
  141. if (power->rpivid_asb)
  142. base = power->rpivid_asb;
  143. break;
  144. }
  145. /* Enable the module's async AXI bridges. */
  146. if (enable) {
  147. val = readl(base + reg) & ~ASB_REQ_STOP;
  148. } else {
  149. val = readl(base + reg) | ASB_REQ_STOP;
  150. }
  151. writel(PM_PASSWORD | val, base + reg);
  152. if (readl_poll_timeout_atomic(base + reg, val,
  153. !!(val & ASB_ACK) != enable, 0, 5))
  154. return -ETIMEDOUT;
  155. return 0;
  156. }
  157. static int bcm2835_asb_enable(struct bcm2835_power *power, u32 reg)
  158. {
  159. return bcm2835_asb_control(power, reg, true);
  160. }
  161. static int bcm2835_asb_disable(struct bcm2835_power *power, u32 reg)
  162. {
  163. return bcm2835_asb_control(power, reg, false);
  164. }
  165. static int bcm2835_power_power_off(struct bcm2835_power_domain *pd, u32 pm_reg)
  166. {
  167. struct bcm2835_power *power = pd->power;
  168. /* We don't run this on BCM2711 */
  169. if (power->rpivid_asb)
  170. return 0;
  171. /* Enable functional isolation */
  172. PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISFUNC);
  173. /* Enable electrical isolation */
  174. PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISPOW);
  175. /* Open the power switches. */
  176. PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_POWUP);
  177. return 0;
  178. }
  179. static int bcm2835_power_power_on(struct bcm2835_power_domain *pd, u32 pm_reg)
  180. {
  181. struct bcm2835_power *power = pd->power;
  182. struct device *dev = power->dev;
  183. u64 start;
  184. int ret;
  185. int inrush;
  186. bool powok;
  187. /* We don't run this on BCM2711 */
  188. if (power->rpivid_asb)
  189. return 0;
  190. /* If it was already powered on by the fw, leave it that way. */
  191. if (PM_READ(pm_reg) & PM_POWUP)
  192. return 0;
  193. /* Enable power. Allowing too much current at once may result
  194. * in POWOK never getting set, so start low and ramp it up as
  195. * necessary to succeed.
  196. */
  197. powok = false;
  198. for (inrush = PM_INRUSH_3_5_MA; inrush <= PM_INRUSH_20_MA; inrush++) {
  199. PM_WRITE(pm_reg,
  200. (PM_READ(pm_reg) & ~PM_INRUSH_MASK) |
  201. (inrush << PM_INRUSH_SHIFT) |
  202. PM_POWUP);
  203. start = ktime_get_ns();
  204. while (!(powok = !!(PM_READ(pm_reg) & PM_POWOK))) {
  205. cpu_relax();
  206. if (ktime_get_ns() - start >= 3000)
  207. break;
  208. }
  209. }
  210. if (!powok) {
  211. dev_err(dev, "Timeout waiting for %s power OK\n",
  212. pd->base.name);
  213. ret = -ETIMEDOUT;
  214. goto err_disable_powup;
  215. }
  216. /* Disable electrical isolation */
  217. PM_WRITE(pm_reg, PM_READ(pm_reg) | PM_ISPOW);
  218. /* Repair memory */
  219. PM_WRITE(pm_reg, PM_READ(pm_reg) | PM_MEMREP);
  220. start = ktime_get_ns();
  221. while (!(PM_READ(pm_reg) & PM_MRDONE)) {
  222. cpu_relax();
  223. if (ktime_get_ns() - start >= 1000) {
  224. dev_err(dev, "Timeout waiting for %s memory repair\n",
  225. pd->base.name);
  226. ret = -ETIMEDOUT;
  227. goto err_disable_ispow;
  228. }
  229. }
  230. /* Disable functional isolation */
  231. PM_WRITE(pm_reg, PM_READ(pm_reg) | PM_ISFUNC);
  232. return 0;
  233. err_disable_ispow:
  234. PM_WRITE(pm_reg, PM_READ(pm_reg) & ~PM_ISPOW);
  235. err_disable_powup:
  236. PM_WRITE(pm_reg, PM_READ(pm_reg) & ~(PM_POWUP | PM_INRUSH_MASK));
  237. return ret;
  238. }
  239. static int bcm2835_asb_power_on(struct bcm2835_power_domain *pd,
  240. u32 pm_reg,
  241. u32 asb_m_reg,
  242. u32 asb_s_reg,
  243. u32 reset_flags)
  244. {
  245. struct bcm2835_power *power = pd->power;
  246. int ret;
  247. ret = clk_prepare_enable(pd->clk);
  248. if (ret) {
  249. dev_err(power->dev, "Failed to enable clock for %s\n",
  250. pd->base.name);
  251. return ret;
  252. }
  253. /* Wait 32 clocks for reset to propagate, 1 us will be enough */
  254. udelay(1);
  255. clk_disable_unprepare(pd->clk);
  256. /* Deassert the resets. */
  257. PM_WRITE(pm_reg, PM_READ(pm_reg) | reset_flags);
  258. ret = clk_prepare_enable(pd->clk);
  259. if (ret) {
  260. dev_err(power->dev, "Failed to enable clock for %s\n",
  261. pd->base.name);
  262. goto err_enable_resets;
  263. }
  264. ret = bcm2835_asb_enable(power, asb_m_reg);
  265. if (ret) {
  266. dev_err(power->dev, "Failed to enable ASB master for %s\n",
  267. pd->base.name);
  268. goto err_disable_clk;
  269. }
  270. ret = bcm2835_asb_enable(power, asb_s_reg);
  271. if (ret) {
  272. dev_err(power->dev, "Failed to enable ASB slave for %s\n",
  273. pd->base.name);
  274. goto err_disable_asb_master;
  275. }
  276. return 0;
  277. err_disable_asb_master:
  278. bcm2835_asb_disable(power, asb_m_reg);
  279. err_disable_clk:
  280. clk_disable_unprepare(pd->clk);
  281. err_enable_resets:
  282. PM_WRITE(pm_reg, PM_READ(pm_reg) & ~reset_flags);
  283. return ret;
  284. }
  285. static int bcm2835_asb_power_off(struct bcm2835_power_domain *pd,
  286. u32 pm_reg,
  287. u32 asb_m_reg,
  288. u32 asb_s_reg,
  289. u32 reset_flags)
  290. {
  291. struct bcm2835_power *power = pd->power;
  292. int ret;
  293. ret = bcm2835_asb_disable(power, asb_s_reg);
  294. if (ret) {
  295. dev_warn(power->dev, "Failed to disable ASB slave for %s\n",
  296. pd->base.name);
  297. return ret;
  298. }
  299. ret = bcm2835_asb_disable(power, asb_m_reg);
  300. if (ret) {
  301. dev_warn(power->dev, "Failed to disable ASB master for %s\n",
  302. pd->base.name);
  303. bcm2835_asb_enable(power, asb_s_reg);
  304. return ret;
  305. }
  306. clk_disable_unprepare(pd->clk);
  307. /* Assert the resets. */
  308. PM_WRITE(pm_reg, PM_READ(pm_reg) & ~reset_flags);
  309. return 0;
  310. }
  311. static int bcm2835_power_pd_power_on(struct generic_pm_domain *domain)
  312. {
  313. struct bcm2835_power_domain *pd =
  314. container_of(domain, struct bcm2835_power_domain, base);
  315. struct bcm2835_power *power = pd->power;
  316. switch (pd->domain) {
  317. case BCM2835_POWER_DOMAIN_GRAFX:
  318. return bcm2835_power_power_on(pd, PM_GRAFX);
  319. case BCM2835_POWER_DOMAIN_GRAFX_V3D:
  320. if (!power->asb)
  321. return bcm2835_asb_power_on(pd, PM_GRAFX_2712,
  322. 0, 0, PM_V3DRSTN);
  323. return bcm2835_asb_power_on(pd, PM_GRAFX,
  324. ASB_V3D_M_CTRL, ASB_V3D_S_CTRL,
  325. PM_V3DRSTN);
  326. case BCM2835_POWER_DOMAIN_IMAGE:
  327. return bcm2835_power_power_on(pd, PM_IMAGE);
  328. case BCM2835_POWER_DOMAIN_IMAGE_PERI:
  329. return bcm2835_asb_power_on(pd, PM_IMAGE,
  330. 0, 0,
  331. PM_PERIRSTN);
  332. case BCM2835_POWER_DOMAIN_IMAGE_ISP:
  333. return bcm2835_asb_power_on(pd, PM_IMAGE,
  334. ASB_ISP_M_CTRL, ASB_ISP_S_CTRL,
  335. PM_ISPRSTN);
  336. case BCM2835_POWER_DOMAIN_IMAGE_H264:
  337. return bcm2835_asb_power_on(pd, PM_IMAGE,
  338. ASB_H264_M_CTRL, ASB_H264_S_CTRL,
  339. PM_H264RSTN);
  340. case BCM2835_POWER_DOMAIN_USB:
  341. PM_WRITE(PM_USB, PM_USB_CTRLEN);
  342. return 0;
  343. case BCM2835_POWER_DOMAIN_DSI0:
  344. PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN);
  345. PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN | PM_DSI0_LDOHPEN);
  346. return 0;
  347. case BCM2835_POWER_DOMAIN_DSI1:
  348. PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN);
  349. PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN | PM_DSI1_LDOHPEN);
  350. return 0;
  351. case BCM2835_POWER_DOMAIN_CCP2TX:
  352. PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN);
  353. PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN | PM_CCP2TX_LDOEN);
  354. return 0;
  355. case BCM2835_POWER_DOMAIN_HDMI:
  356. PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) | PM_HDMI_RSTDR);
  357. PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) | PM_HDMI_CTRLEN);
  358. PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_LDOPD);
  359. usleep_range(100, 200);
  360. PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_RSTDR);
  361. return 0;
  362. default:
  363. dev_err(power->dev, "Invalid domain %d\n", pd->domain);
  364. return -EINVAL;
  365. }
  366. }
  367. static int bcm2835_power_pd_power_off(struct generic_pm_domain *domain)
  368. {
  369. struct bcm2835_power_domain *pd =
  370. container_of(domain, struct bcm2835_power_domain, base);
  371. struct bcm2835_power *power = pd->power;
  372. switch (pd->domain) {
  373. case BCM2835_POWER_DOMAIN_GRAFX:
  374. return bcm2835_power_power_off(pd, PM_GRAFX);
  375. case BCM2835_POWER_DOMAIN_GRAFX_V3D:
  376. if (!power->asb)
  377. return bcm2835_asb_power_off(pd, PM_GRAFX_2712,
  378. 0, 0, PM_V3DRSTN);
  379. return bcm2835_asb_power_off(pd, PM_GRAFX,
  380. ASB_V3D_M_CTRL, ASB_V3D_S_CTRL,
  381. PM_V3DRSTN);
  382. case BCM2835_POWER_DOMAIN_IMAGE:
  383. return bcm2835_power_power_off(pd, PM_IMAGE);
  384. case BCM2835_POWER_DOMAIN_IMAGE_PERI:
  385. return bcm2835_asb_power_off(pd, PM_IMAGE,
  386. 0, 0,
  387. PM_PERIRSTN);
  388. case BCM2835_POWER_DOMAIN_IMAGE_ISP:
  389. return bcm2835_asb_power_off(pd, PM_IMAGE,
  390. ASB_ISP_M_CTRL, ASB_ISP_S_CTRL,
  391. PM_ISPRSTN);
  392. case BCM2835_POWER_DOMAIN_IMAGE_H264:
  393. return bcm2835_asb_power_off(pd, PM_IMAGE,
  394. ASB_H264_M_CTRL, ASB_H264_S_CTRL,
  395. PM_H264RSTN);
  396. case BCM2835_POWER_DOMAIN_USB:
  397. PM_WRITE(PM_USB, 0);
  398. return 0;
  399. case BCM2835_POWER_DOMAIN_DSI0:
  400. PM_WRITE(PM_DSI0, PM_DSI0_CTRLEN);
  401. PM_WRITE(PM_DSI0, 0);
  402. return 0;
  403. case BCM2835_POWER_DOMAIN_DSI1:
  404. PM_WRITE(PM_DSI1, PM_DSI1_CTRLEN);
  405. PM_WRITE(PM_DSI1, 0);
  406. return 0;
  407. case BCM2835_POWER_DOMAIN_CCP2TX:
  408. PM_WRITE(PM_CCP2TX, PM_CCP2TX_CTRLEN);
  409. PM_WRITE(PM_CCP2TX, 0);
  410. return 0;
  411. case BCM2835_POWER_DOMAIN_HDMI:
  412. PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) | PM_HDMI_LDOPD);
  413. PM_WRITE(PM_HDMI, PM_READ(PM_HDMI) & ~PM_HDMI_CTRLEN);
  414. return 0;
  415. default:
  416. dev_err(power->dev, "Invalid domain %d\n", pd->domain);
  417. return -EINVAL;
  418. }
  419. }
  420. static int
  421. bcm2835_init_power_domain(struct bcm2835_power *power,
  422. int pd_xlate_index, const char *name)
  423. {
  424. struct device *dev = power->dev;
  425. struct bcm2835_power_domain *dom = &power->domains[pd_xlate_index];
  426. dom->clk = devm_clk_get_optional(dev->parent, name);
  427. if (IS_ERR(dom->clk))
  428. return dev_err_probe(dev, PTR_ERR(dom->clk), "Failed to get clock %s\n",
  429. name);
  430. dom->base.name = name;
  431. dom->base.flags = GENPD_FLAG_ACTIVE_WAKEUP;
  432. dom->base.power_on = bcm2835_power_pd_power_on;
  433. dom->base.power_off = bcm2835_power_pd_power_off;
  434. dom->domain = pd_xlate_index;
  435. dom->power = power;
  436. /* XXX: on/off at boot? */
  437. pm_genpd_init(&dom->base, NULL, true);
  438. power->pd_xlate.domains[pd_xlate_index] = &dom->base;
  439. return 0;
  440. }
  441. /** bcm2835_reset_reset - Resets a block that has a reset line in the
  442. * PM block.
  443. *
  444. * The consumer of the reset controller must have the power domain up
  445. * -- there's no reset ability with the power domain down. To reset
  446. * the sub-block, we just disable its access to memory through the
  447. * ASB, reset, and re-enable.
  448. */
  449. static int bcm2835_reset_reset(struct reset_controller_dev *rcdev,
  450. unsigned long id)
  451. {
  452. struct bcm2835_power *power = container_of(rcdev, struct bcm2835_power,
  453. reset);
  454. struct bcm2835_power_domain *pd;
  455. int ret;
  456. switch (id) {
  457. case BCM2835_RESET_V3D:
  458. pd = &power->domains[BCM2835_POWER_DOMAIN_GRAFX_V3D];
  459. break;
  460. case BCM2835_RESET_H264:
  461. pd = &power->domains[BCM2835_POWER_DOMAIN_IMAGE_H264];
  462. break;
  463. case BCM2835_RESET_ISP:
  464. pd = &power->domains[BCM2835_POWER_DOMAIN_IMAGE_ISP];
  465. break;
  466. default:
  467. dev_err(power->dev, "Bad reset id %ld\n", id);
  468. return -EINVAL;
  469. }
  470. ret = bcm2835_power_pd_power_off(&pd->base);
  471. if (ret)
  472. return ret;
  473. return bcm2835_power_pd_power_on(&pd->base);
  474. }
  475. static int bcm2835_reset_status(struct reset_controller_dev *rcdev,
  476. unsigned long id)
  477. {
  478. struct bcm2835_power *power = container_of(rcdev, struct bcm2835_power,
  479. reset);
  480. switch (id) {
  481. case BCM2835_RESET_V3D:
  482. return !(PM_READ(PM_GRAFX) & PM_V3DRSTN);
  483. case BCM2835_RESET_H264:
  484. return !(PM_READ(PM_IMAGE) & PM_H264RSTN);
  485. case BCM2835_RESET_ISP:
  486. return !(PM_READ(PM_IMAGE) & PM_ISPRSTN);
  487. default:
  488. return -EINVAL;
  489. }
  490. }
  491. static const struct reset_control_ops bcm2835_reset_ops = {
  492. .reset = bcm2835_reset_reset,
  493. .status = bcm2835_reset_status,
  494. };
  495. static const char *const power_domain_names[] = {
  496. [BCM2835_POWER_DOMAIN_GRAFX] = "grafx",
  497. [BCM2835_POWER_DOMAIN_GRAFX_V3D] = "v3d",
  498. [BCM2835_POWER_DOMAIN_IMAGE] = "image",
  499. [BCM2835_POWER_DOMAIN_IMAGE_PERI] = "peri_image",
  500. [BCM2835_POWER_DOMAIN_IMAGE_H264] = "h264",
  501. [BCM2835_POWER_DOMAIN_IMAGE_ISP] = "isp",
  502. [BCM2835_POWER_DOMAIN_USB] = "usb",
  503. [BCM2835_POWER_DOMAIN_DSI0] = "dsi0",
  504. [BCM2835_POWER_DOMAIN_DSI1] = "dsi1",
  505. [BCM2835_POWER_DOMAIN_CAM0] = "cam0",
  506. [BCM2835_POWER_DOMAIN_CAM1] = "cam1",
  507. [BCM2835_POWER_DOMAIN_CCP2TX] = "ccp2tx",
  508. [BCM2835_POWER_DOMAIN_HDMI] = "hdmi",
  509. };
  510. static int bcm2835_power_probe(struct platform_device *pdev)
  511. {
  512. struct bcm2835_pm *pm = dev_get_drvdata(pdev->dev.parent);
  513. struct device *dev = &pdev->dev;
  514. struct bcm2835_power *power;
  515. static const struct {
  516. int parent, child;
  517. } domain_deps[] = {
  518. { BCM2835_POWER_DOMAIN_GRAFX, BCM2835_POWER_DOMAIN_GRAFX_V3D },
  519. { BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_PERI },
  520. { BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_H264 },
  521. { BCM2835_POWER_DOMAIN_IMAGE, BCM2835_POWER_DOMAIN_IMAGE_ISP },
  522. { BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_USB },
  523. { BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_CAM0 },
  524. { BCM2835_POWER_DOMAIN_IMAGE_PERI, BCM2835_POWER_DOMAIN_CAM1 },
  525. };
  526. int ret = 0, i;
  527. u32 id;
  528. power = devm_kzalloc(dev, sizeof(*power), GFP_KERNEL);
  529. if (!power)
  530. return -ENOMEM;
  531. platform_set_drvdata(pdev, power);
  532. power->dev = dev;
  533. power->base = pm->base;
  534. power->asb = pm->asb;
  535. power->rpivid_asb = pm->rpivid_asb;
  536. if (power->asb) {
  537. id = readl(power->asb + ASB_AXI_BRDG_ID);
  538. if (id != BCM2835_BRDG_ID /* "BRDG" */) {
  539. dev_err(dev, "ASB register ID returned 0x%08x\n", id);
  540. return -ENODEV;
  541. }
  542. }
  543. if (power->rpivid_asb) {
  544. id = readl(power->rpivid_asb + ASB_AXI_BRDG_ID);
  545. if (id != BCM2835_BRDG_ID /* "BRDG" */) {
  546. dev_err(dev, "RPiVid ASB register ID returned 0x%08x\n",
  547. id);
  548. return -ENODEV;
  549. }
  550. }
  551. power->pd_xlate.domains = devm_kcalloc(dev,
  552. ARRAY_SIZE(power_domain_names),
  553. sizeof(*power->pd_xlate.domains),
  554. GFP_KERNEL);
  555. if (!power->pd_xlate.domains)
  556. return -ENOMEM;
  557. power->pd_xlate.num_domains = ARRAY_SIZE(power_domain_names);
  558. for (i = 0; i < ARRAY_SIZE(power_domain_names); i++) {
  559. ret = bcm2835_init_power_domain(power, i, power_domain_names[i]);
  560. if (ret)
  561. goto fail;
  562. }
  563. for (i = 0; i < ARRAY_SIZE(domain_deps); i++) {
  564. pm_genpd_add_subdomain(&power->domains[domain_deps[i].parent].base,
  565. &power->domains[domain_deps[i].child].base);
  566. }
  567. power->reset.owner = THIS_MODULE;
  568. power->reset.nr_resets = BCM2835_RESET_COUNT;
  569. power->reset.ops = &bcm2835_reset_ops;
  570. power->reset.of_node = dev->parent->of_node;
  571. ret = devm_reset_controller_register(dev, &power->reset);
  572. if (ret)
  573. goto fail;
  574. of_genpd_add_provider_onecell(dev->parent->of_node, &power->pd_xlate);
  575. dev_info(dev, "Broadcom BCM2835 power domains driver");
  576. return 0;
  577. fail:
  578. for (i = 0; i < ARRAY_SIZE(power_domain_names); i++) {
  579. struct generic_pm_domain *dom = &power->domains[i].base;
  580. if (dom->name)
  581. pm_genpd_remove(dom);
  582. }
  583. return ret;
  584. }
  585. static struct platform_driver bcm2835_power_driver = {
  586. .probe = bcm2835_power_probe,
  587. .driver = {
  588. .name = "bcm2835-power",
  589. },
  590. };
  591. module_platform_driver(bcm2835_power_driver);
  592. MODULE_AUTHOR("Eric Anholt <eric@anholt.net>");
  593. MODULE_DESCRIPTION("Driver for Broadcom BCM2835 PM power domains and reset");