rts5228.c 20 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /* Driver for Realtek PCI-Express card reader
  3. *
  4. * Copyright(c) 2018-2019 Realtek Semiconductor Corp. All rights reserved.
  5. *
  6. * Author:
  7. * Ricky WU <ricky_wu@realtek.com>
  8. * Rui FENG <rui_feng@realsil.com.cn>
  9. * Wei WANG <wei_wang@realsil.com.cn>
  10. */
  11. #include <linux/module.h>
  12. #include <linux/delay.h>
  13. #include <linux/rtsx_pci.h>
  14. #include "rts5228.h"
  15. #include "rtsx_pcr.h"
  16. static u8 rts5228_get_ic_version(struct rtsx_pcr *pcr)
  17. {
  18. u8 val;
  19. rtsx_pci_read_register(pcr, DUMMY_REG_RESET_0, &val);
  20. return val & IC_VERSION_MASK;
  21. }
  22. static void rts5228_fill_driving(struct rtsx_pcr *pcr, u8 voltage)
  23. {
  24. u8 driving_3v3[4][3] = {
  25. {0x13, 0x13, 0x13},
  26. {0x96, 0x96, 0x96},
  27. {0x7F, 0x7F, 0x7F},
  28. {0x96, 0x96, 0x96},
  29. };
  30. u8 driving_1v8[4][3] = {
  31. {0x99, 0x99, 0x99},
  32. {0xB5, 0xB5, 0xB5},
  33. {0xE6, 0x7E, 0xFE},
  34. {0x6B, 0x6B, 0x6B},
  35. };
  36. u8 (*driving)[3], drive_sel;
  37. if (voltage == OUTPUT_3V3) {
  38. driving = driving_3v3;
  39. drive_sel = pcr->sd30_drive_sel_3v3;
  40. } else {
  41. driving = driving_1v8;
  42. drive_sel = pcr->sd30_drive_sel_1v8;
  43. }
  44. rtsx_pci_write_register(pcr, SD30_CLK_DRIVE_SEL,
  45. 0xFF, driving[drive_sel][0]);
  46. rtsx_pci_write_register(pcr, SD30_CMD_DRIVE_SEL,
  47. 0xFF, driving[drive_sel][1]);
  48. rtsx_pci_write_register(pcr, SD30_DAT_DRIVE_SEL,
  49. 0xFF, driving[drive_sel][2]);
  50. }
  51. static void rtsx5228_fetch_vendor_settings(struct rtsx_pcr *pcr)
  52. {
  53. struct pci_dev *pdev = pcr->pci;
  54. u32 reg;
  55. /* 0x724~0x727 */
  56. pci_read_config_dword(pdev, PCR_SETTING_REG1, &reg);
  57. pcr_dbg(pcr, "Cfg 0x%x: 0x%x\n", PCR_SETTING_REG1, reg);
  58. if (!rtsx_vendor_setting_valid(reg)) {
  59. pcr_dbg(pcr, "skip fetch vendor setting\n");
  60. return;
  61. }
  62. pcr->sd30_drive_sel_1v8 = rtsx_reg_to_sd30_drive_sel_1v8(reg);
  63. pcr->aspm_en = rtsx_reg_to_aspm(reg);
  64. /* 0x814~0x817 */
  65. pci_read_config_dword(pdev, PCR_SETTING_REG2, &reg);
  66. pcr_dbg(pcr, "Cfg 0x%x: 0x%x\n", PCR_SETTING_REG2, reg);
  67. pcr->rtd3_en = rtsx_reg_to_rtd3(reg);
  68. if (rtsx_check_mmc_support(reg))
  69. pcr->extra_caps |= EXTRA_CAPS_NO_MMC;
  70. pcr->sd30_drive_sel_3v3 = rtsx_reg_to_sd30_drive_sel_3v3(reg);
  71. if (rtsx_reg_check_reverse_socket(reg))
  72. pcr->flags |= PCR_REVERSE_SOCKET;
  73. if (rtsx_reg_check_cd_reverse(reg))
  74. pcr->option.sd_cd_reverse_en = 1;
  75. if (rtsx_reg_check_wp_reverse(reg))
  76. pcr->option.sd_wp_reverse_en = 1;
  77. }
  78. static int rts5228_optimize_phy(struct rtsx_pcr *pcr)
  79. {
  80. return rtsx_pci_write_phy_register(pcr, 0x07, 0x8F40);
  81. }
  82. static void rts5228_force_power_down(struct rtsx_pcr *pcr, u8 pm_state, bool runtime)
  83. {
  84. /* Set relink_time to 0 */
  85. rtsx_pci_write_register(pcr, AUTOLOAD_CFG_BASE + 1, MASK_8_BIT_DEF, 0);
  86. rtsx_pci_write_register(pcr, AUTOLOAD_CFG_BASE + 2, MASK_8_BIT_DEF, 0);
  87. rtsx_pci_write_register(pcr, AUTOLOAD_CFG_BASE + 3,
  88. RELINK_TIME_MASK, 0);
  89. rtsx_pci_write_register(pcr, pcr->reg_pm_ctrl3,
  90. D3_DELINK_MODE_EN, D3_DELINK_MODE_EN);
  91. if (!runtime) {
  92. rtsx_pci_write_register(pcr, RTS5228_AUTOLOAD_CFG1,
  93. CD_RESUME_EN_MASK, 0);
  94. rtsx_pci_write_register(pcr, pcr->reg_pm_ctrl3, 0x01, 0x00);
  95. rtsx_pci_write_register(pcr, RTS5228_REG_PME_FORCE_CTL,
  96. FORCE_PM_CONTROL | FORCE_PM_VALUE, FORCE_PM_CONTROL);
  97. }
  98. rtsx_pci_write_register(pcr, FPDCTL,
  99. SSC_POWER_DOWN, SSC_POWER_DOWN);
  100. }
  101. static int rts5228_enable_auto_blink(struct rtsx_pcr *pcr)
  102. {
  103. return rtsx_pci_write_register(pcr, OLT_LED_CTL,
  104. LED_SHINE_MASK, LED_SHINE_EN);
  105. }
  106. static int rts5228_disable_auto_blink(struct rtsx_pcr *pcr)
  107. {
  108. return rtsx_pci_write_register(pcr, OLT_LED_CTL,
  109. LED_SHINE_MASK, LED_SHINE_DISABLE);
  110. }
  111. static int rts5228_turn_on_led(struct rtsx_pcr *pcr)
  112. {
  113. return rtsx_pci_write_register(pcr, GPIO_CTL,
  114. 0x02, 0x02);
  115. }
  116. static int rts5228_turn_off_led(struct rtsx_pcr *pcr)
  117. {
  118. return rtsx_pci_write_register(pcr, GPIO_CTL,
  119. 0x02, 0x00);
  120. }
  121. /* SD Pull Control Enable:
  122. * SD_DAT[3:0] ==> pull up
  123. * SD_CD ==> pull up
  124. * SD_WP ==> pull up
  125. * SD_CMD ==> pull up
  126. * SD_CLK ==> pull down
  127. */
  128. static const u32 rts5228_sd_pull_ctl_enable_tbl[] = {
  129. RTSX_REG_PAIR(CARD_PULL_CTL2, 0xAA),
  130. RTSX_REG_PAIR(CARD_PULL_CTL3, 0xE9),
  131. 0,
  132. };
  133. /* SD Pull Control Disable:
  134. * SD_DAT[3:0] ==> pull down
  135. * SD_CD ==> pull up
  136. * SD_WP ==> pull down
  137. * SD_CMD ==> pull down
  138. * SD_CLK ==> pull down
  139. */
  140. static const u32 rts5228_sd_pull_ctl_disable_tbl[] = {
  141. RTSX_REG_PAIR(CARD_PULL_CTL2, 0x55),
  142. RTSX_REG_PAIR(CARD_PULL_CTL3, 0xD5),
  143. 0,
  144. };
  145. static int rts5228_sd_set_sample_push_timing_sd30(struct rtsx_pcr *pcr)
  146. {
  147. rtsx_pci_write_register(pcr, SD_CFG1, SD_MODE_SELECT_MASK
  148. | SD_ASYNC_FIFO_NOT_RST, SD_30_MODE | SD_ASYNC_FIFO_NOT_RST);
  149. rtsx_pci_write_register(pcr, CLK_CTL, CLK_LOW_FREQ, CLK_LOW_FREQ);
  150. rtsx_pci_write_register(pcr, CARD_CLK_SOURCE, 0xFF,
  151. CRC_VAR_CLK0 | SD30_FIX_CLK | SAMPLE_VAR_CLK1);
  152. rtsx_pci_write_register(pcr, CLK_CTL, CLK_LOW_FREQ, 0);
  153. return 0;
  154. }
  155. static int rts5228_card_power_on(struct rtsx_pcr *pcr, int card)
  156. {
  157. struct rtsx_cr_option *option = &pcr->option;
  158. if (option->ocp_en)
  159. rtsx_pci_enable_ocp(pcr);
  160. rtsx_pci_write_register(pcr, REG_CRC_DUMMY_0,
  161. CFG_SD_POW_AUTO_PD, CFG_SD_POW_AUTO_PD);
  162. rtsx_pci_write_register(pcr, RTS5228_LDO1_CFG1,
  163. RTS5228_LDO1_TUNE_MASK, RTS5228_LDO1_33);
  164. rtsx_pci_write_register(pcr, RTS5228_LDO1233318_POW_CTL,
  165. RTS5228_LDO1_POWERON_MASK, RTS5228_LDO1_SOFTSTART);
  166. mdelay(2);
  167. rtsx_pci_write_register(pcr, RTS5228_LDO1233318_POW_CTL,
  168. RTS5228_LDO1_POWERON_MASK, RTS5228_LDO1_FULLON);
  169. rtsx_pci_write_register(pcr, RTS5228_LDO1233318_POW_CTL,
  170. RTS5228_LDO3318_POWERON, RTS5228_LDO3318_POWERON);
  171. msleep(20);
  172. rtsx_pci_write_register(pcr, CARD_OE, SD_OUTPUT_EN, SD_OUTPUT_EN);
  173. /* Initialize SD_CFG1 register */
  174. rtsx_pci_write_register(pcr, SD_CFG1, 0xFF,
  175. SD_CLK_DIVIDE_128 | SD_20_MODE | SD_BUS_WIDTH_1BIT);
  176. rtsx_pci_write_register(pcr, SD_SAMPLE_POINT_CTL,
  177. 0xFF, SD20_RX_POS_EDGE);
  178. rtsx_pci_write_register(pcr, SD_PUSH_POINT_CTL, 0xFF, 0);
  179. rtsx_pci_write_register(pcr, CARD_STOP, SD_STOP | SD_CLR_ERR,
  180. SD_STOP | SD_CLR_ERR);
  181. /* Reset SD_CFG3 register */
  182. rtsx_pci_write_register(pcr, SD_CFG3, SD30_CLK_END_EN, 0);
  183. rtsx_pci_write_register(pcr, REG_SD_STOP_SDCLK_CFG,
  184. SD30_CLK_STOP_CFG_EN | SD30_CLK_STOP_CFG1 |
  185. SD30_CLK_STOP_CFG0, 0);
  186. if (pcr->extra_caps & EXTRA_CAPS_SD_SDR50 ||
  187. pcr->extra_caps & EXTRA_CAPS_SD_SDR104)
  188. rts5228_sd_set_sample_push_timing_sd30(pcr);
  189. return 0;
  190. }
  191. static int rts5228_switch_output_voltage(struct rtsx_pcr *pcr, u8 voltage)
  192. {
  193. int err;
  194. u16 val = 0;
  195. rtsx_pci_write_register(pcr, RTS5228_CARD_PWR_CTL,
  196. RTS5228_PUPDC, RTS5228_PUPDC);
  197. switch (voltage) {
  198. case OUTPUT_3V3:
  199. rtsx_pci_read_phy_register(pcr, PHY_TUNE, &val);
  200. val |= PHY_TUNE_SDBUS_33;
  201. err = rtsx_pci_write_phy_register(pcr, PHY_TUNE, val);
  202. if (err < 0)
  203. return err;
  204. rtsx_pci_write_register(pcr, RTS5228_DV3318_CFG,
  205. RTS5228_DV3318_TUNE_MASK, RTS5228_DV3318_33);
  206. rtsx_pci_write_register(pcr, SD_PAD_CTL,
  207. SD_IO_USING_1V8, 0);
  208. break;
  209. case OUTPUT_1V8:
  210. rtsx_pci_read_phy_register(pcr, PHY_TUNE, &val);
  211. val &= ~PHY_TUNE_SDBUS_33;
  212. err = rtsx_pci_write_phy_register(pcr, PHY_TUNE, val);
  213. if (err < 0)
  214. return err;
  215. rtsx_pci_write_register(pcr, RTS5228_DV3318_CFG,
  216. RTS5228_DV3318_TUNE_MASK, RTS5228_DV3318_18);
  217. rtsx_pci_write_register(pcr, SD_PAD_CTL,
  218. SD_IO_USING_1V8, SD_IO_USING_1V8);
  219. break;
  220. default:
  221. return -EINVAL;
  222. }
  223. /* set pad drive */
  224. rts5228_fill_driving(pcr, voltage);
  225. return 0;
  226. }
  227. static void rts5228_stop_cmd(struct rtsx_pcr *pcr)
  228. {
  229. rtsx_pci_writel(pcr, RTSX_HCBCTLR, STOP_CMD);
  230. rtsx_pci_writel(pcr, RTSX_HDBCTLR, STOP_DMA);
  231. rtsx_pci_write_register(pcr, RTS5260_DMA_RST_CTL_0,
  232. RTS5260_DMA_RST | RTS5260_ADMA3_RST,
  233. RTS5260_DMA_RST | RTS5260_ADMA3_RST);
  234. rtsx_pci_write_register(pcr, RBCTL, RB_FLUSH, RB_FLUSH);
  235. }
  236. static void rts5228_card_before_power_off(struct rtsx_pcr *pcr)
  237. {
  238. rts5228_stop_cmd(pcr);
  239. rts5228_switch_output_voltage(pcr, OUTPUT_3V3);
  240. }
  241. static void rts5228_enable_ocp(struct rtsx_pcr *pcr)
  242. {
  243. u8 val = 0;
  244. val = SD_OCP_INT_EN | SD_DETECT_EN;
  245. rtsx_pci_write_register(pcr, REG_OCPCTL, 0xFF, val);
  246. rtsx_pci_write_register(pcr, RTS5228_LDO1_CFG0,
  247. RTS5228_LDO1_OCP_EN | RTS5228_LDO1_OCP_LMT_EN,
  248. RTS5228_LDO1_OCP_EN | RTS5228_LDO1_OCP_LMT_EN);
  249. }
  250. static void rts5228_disable_ocp(struct rtsx_pcr *pcr)
  251. {
  252. u8 mask = 0;
  253. mask = SD_OCP_INT_EN | SD_DETECT_EN;
  254. rtsx_pci_write_register(pcr, REG_OCPCTL, mask, 0);
  255. rtsx_pci_write_register(pcr, RTS5228_LDO1_CFG0,
  256. RTS5228_LDO1_OCP_EN | RTS5228_LDO1_OCP_LMT_EN, 0);
  257. }
  258. static int rts5228_card_power_off(struct rtsx_pcr *pcr, int card)
  259. {
  260. int err = 0;
  261. rts5228_card_before_power_off(pcr);
  262. err = rtsx_pci_write_register(pcr, RTS5228_LDO1233318_POW_CTL,
  263. RTS5228_LDO_POWERON_MASK, 0);
  264. rtsx_pci_write_register(pcr, REG_CRC_DUMMY_0, CFG_SD_POW_AUTO_PD, 0);
  265. if (pcr->option.ocp_en)
  266. rtsx_pci_disable_ocp(pcr);
  267. return err;
  268. }
  269. static void rts5228_init_ocp(struct rtsx_pcr *pcr)
  270. {
  271. struct rtsx_cr_option *option = &pcr->option;
  272. if (option->ocp_en) {
  273. u8 mask, val;
  274. rtsx_pci_write_register(pcr, RTS5228_LDO1_CFG0,
  275. RTS5228_LDO1_OCP_EN | RTS5228_LDO1_OCP_LMT_EN,
  276. RTS5228_LDO1_OCP_EN | RTS5228_LDO1_OCP_LMT_EN);
  277. rtsx_pci_write_register(pcr, RTS5228_LDO1_CFG0,
  278. RTS5228_LDO1_OCP_THD_MASK, option->sd_800mA_ocp_thd);
  279. rtsx_pci_write_register(pcr, RTS5228_LDO1_CFG0,
  280. RTS5228_LDO1_OCP_LMT_THD_MASK,
  281. RTS5228_LDO1_LMT_THD_1500);
  282. rtsx_pci_read_register(pcr, RTS5228_LDO1_CFG0, &val);
  283. mask = SD_OCP_GLITCH_MASK;
  284. val = pcr->hw_param.ocp_glitch;
  285. rtsx_pci_write_register(pcr, REG_OCPGLITCH, mask, val);
  286. rts5228_enable_ocp(pcr);
  287. } else {
  288. rtsx_pci_write_register(pcr, RTS5228_LDO1_CFG0,
  289. RTS5228_LDO1_OCP_EN | RTS5228_LDO1_OCP_LMT_EN, 0);
  290. }
  291. }
  292. static void rts5228_clear_ocpstat(struct rtsx_pcr *pcr)
  293. {
  294. u8 mask = 0;
  295. u8 val = 0;
  296. mask = SD_OCP_INT_CLR | SD_OC_CLR;
  297. val = SD_OCP_INT_CLR | SD_OC_CLR;
  298. rtsx_pci_write_register(pcr, REG_OCPCTL, mask, val);
  299. udelay(1000);
  300. rtsx_pci_write_register(pcr, REG_OCPCTL, mask, 0);
  301. }
  302. static void rts5228_process_ocp(struct rtsx_pcr *pcr)
  303. {
  304. if (!pcr->option.ocp_en)
  305. return;
  306. rtsx_pci_get_ocpstat(pcr, &pcr->ocp_stat);
  307. if (pcr->ocp_stat & (SD_OC_NOW | SD_OC_EVER)) {
  308. rts5228_clear_ocpstat(pcr);
  309. rts5228_card_power_off(pcr, RTSX_SD_CARD);
  310. rtsx_pci_write_register(pcr, CARD_OE, SD_OUTPUT_EN, 0);
  311. pcr->ocp_stat = 0;
  312. }
  313. }
  314. static void rts5228_init_from_cfg(struct rtsx_pcr *pcr)
  315. {
  316. struct rtsx_cr_option *option = &pcr->option;
  317. if (rtsx_check_dev_flag(pcr, ASPM_L1_1_EN | ASPM_L1_2_EN
  318. | PM_L1_1_EN | PM_L1_2_EN))
  319. rtsx_pci_disable_oobs_polling(pcr);
  320. else
  321. rtsx_pci_enable_oobs_polling(pcr);
  322. rtsx_pci_write_register(pcr, ASPM_FORCE_CTL, 0xFF, 0);
  323. if (option->ltr_en) {
  324. if (option->ltr_enabled)
  325. rtsx_set_ltr_latency(pcr, option->ltr_active_latency);
  326. }
  327. }
  328. static int rts5228_extra_init_hw(struct rtsx_pcr *pcr)
  329. {
  330. struct rtsx_cr_option *option = &pcr->option;
  331. rtsx_pci_write_register(pcr, RTS5228_AUTOLOAD_CFG1,
  332. CD_RESUME_EN_MASK, CD_RESUME_EN_MASK);
  333. rts5228_init_from_cfg(pcr);
  334. rtsx_pci_write_register(pcr, L1SUB_CONFIG1,
  335. AUX_CLK_ACTIVE_SEL_MASK, MAC_CKSW_DONE);
  336. rtsx_pci_write_register(pcr, L1SUB_CONFIG3, 0xFF, 0);
  337. rtsx_pci_write_register(pcr, FUNC_FORCE_CTL,
  338. FUNC_FORCE_UPME_XMT_DBG, FUNC_FORCE_UPME_XMT_DBG);
  339. rtsx_pci_write_register(pcr, PCLK_CTL,
  340. PCLK_MODE_SEL, PCLK_MODE_SEL);
  341. rtsx_pci_write_register(pcr, PM_EVENT_DEBUG, PME_DEBUG_0, PME_DEBUG_0);
  342. rtsx_pci_write_register(pcr, PM_CLK_FORCE_CTL, CLK_PM_EN, CLK_PM_EN);
  343. /* LED shine disabled, set initial shine cycle period */
  344. rtsx_pci_write_register(pcr, OLT_LED_CTL, 0x0F, 0x02);
  345. /* Configure driving */
  346. rts5228_fill_driving(pcr, OUTPUT_3V3);
  347. if (pcr->flags & PCR_REVERSE_SOCKET)
  348. rtsx_pci_write_register(pcr, PETXCFG, 0x30, 0x30);
  349. else {
  350. rtsx_pci_write_register(pcr, PETXCFG, 0x20, option->sd_cd_reverse_en << 5);
  351. rtsx_pci_write_register(pcr, PETXCFG, 0x10, option->sd_wp_reverse_en << 4);
  352. }
  353. /*
  354. * If u_force_clkreq_0 is enabled, CLKREQ# PIN will be forced
  355. * to drive low, and we forcibly request clock.
  356. */
  357. if (option->force_clkreq_0)
  358. rtsx_pci_write_register(pcr, PETXCFG,
  359. FORCE_CLKREQ_DELINK_MASK, FORCE_CLKREQ_LOW);
  360. else
  361. rtsx_pci_write_register(pcr, PETXCFG,
  362. FORCE_CLKREQ_DELINK_MASK, FORCE_CLKREQ_HIGH);
  363. rtsx_pci_write_register(pcr, PWD_SUSPEND_EN, 0xFF, 0xFB);
  364. if (pcr->rtd3_en) {
  365. rtsx_pci_write_register(pcr, pcr->reg_pm_ctrl3, 0x01, 0x01);
  366. rtsx_pci_write_register(pcr, RTS5228_REG_PME_FORCE_CTL,
  367. FORCE_PM_CONTROL | FORCE_PM_VALUE,
  368. FORCE_PM_CONTROL | FORCE_PM_VALUE);
  369. } else {
  370. rtsx_pci_write_register(pcr, pcr->reg_pm_ctrl3, 0x01, 0x00);
  371. rtsx_pci_write_register(pcr, RTS5228_REG_PME_FORCE_CTL,
  372. FORCE_PM_CONTROL | FORCE_PM_VALUE, FORCE_PM_CONTROL);
  373. }
  374. rtsx_pci_write_register(pcr, pcr->reg_pm_ctrl3, D3_DELINK_MODE_EN, 0x00);
  375. return 0;
  376. }
  377. static void rts5228_enable_aspm(struct rtsx_pcr *pcr, bool enable)
  378. {
  379. u8 mask, val;
  380. if (pcr->aspm_enabled == enable)
  381. return;
  382. mask = FORCE_ASPM_VAL_MASK | FORCE_ASPM_CTL0 | FORCE_ASPM_CTL1;
  383. val = FORCE_ASPM_CTL0 | FORCE_ASPM_CTL1;
  384. val |= (pcr->aspm_en & 0x02);
  385. rtsx_pci_write_register(pcr, ASPM_FORCE_CTL, mask, val);
  386. pcie_capability_clear_and_set_word(pcr->pci, PCI_EXP_LNKCTL,
  387. PCI_EXP_LNKCTL_ASPMC, pcr->aspm_en);
  388. pcr->aspm_enabled = enable;
  389. }
  390. static void rts5228_disable_aspm(struct rtsx_pcr *pcr, bool enable)
  391. {
  392. u8 mask, val;
  393. if (pcr->aspm_enabled == enable)
  394. return;
  395. pcie_capability_clear_and_set_word(pcr->pci, PCI_EXP_LNKCTL,
  396. PCI_EXP_LNKCTL_ASPMC, 0);
  397. mask = FORCE_ASPM_VAL_MASK | FORCE_ASPM_CTL0 | FORCE_ASPM_CTL1;
  398. val = FORCE_ASPM_CTL0 | FORCE_ASPM_CTL1;
  399. rtsx_pci_write_register(pcr, ASPM_FORCE_CTL, mask, val);
  400. rtsx_pci_write_register(pcr, SD_CFG1, SD_ASYNC_FIFO_NOT_RST, 0);
  401. mdelay(10);
  402. pcr->aspm_enabled = enable;
  403. }
  404. static void rts5228_set_aspm(struct rtsx_pcr *pcr, bool enable)
  405. {
  406. if (enable)
  407. rts5228_enable_aspm(pcr, true);
  408. else
  409. rts5228_disable_aspm(pcr, false);
  410. }
  411. static void rts5228_set_l1off_cfg_sub_d0(struct rtsx_pcr *pcr, int active)
  412. {
  413. struct rtsx_cr_option *option = &pcr->option;
  414. int aspm_L1_1, aspm_L1_2;
  415. u8 val = 0;
  416. aspm_L1_1 = rtsx_check_dev_flag(pcr, ASPM_L1_1_EN);
  417. aspm_L1_2 = rtsx_check_dev_flag(pcr, ASPM_L1_2_EN);
  418. if (active) {
  419. /* run, latency: 60us */
  420. if (aspm_L1_1)
  421. val = option->ltr_l1off_snooze_sspwrgate;
  422. } else {
  423. /* l1off, latency: 300us */
  424. if (aspm_L1_2)
  425. val = option->ltr_l1off_sspwrgate;
  426. }
  427. rtsx_set_l1off_sub(pcr, val);
  428. }
  429. static const struct pcr_ops rts5228_pcr_ops = {
  430. .fetch_vendor_settings = rtsx5228_fetch_vendor_settings,
  431. .turn_on_led = rts5228_turn_on_led,
  432. .turn_off_led = rts5228_turn_off_led,
  433. .extra_init_hw = rts5228_extra_init_hw,
  434. .enable_auto_blink = rts5228_enable_auto_blink,
  435. .disable_auto_blink = rts5228_disable_auto_blink,
  436. .card_power_on = rts5228_card_power_on,
  437. .card_power_off = rts5228_card_power_off,
  438. .switch_output_voltage = rts5228_switch_output_voltage,
  439. .force_power_down = rts5228_force_power_down,
  440. .stop_cmd = rts5228_stop_cmd,
  441. .set_aspm = rts5228_set_aspm,
  442. .set_l1off_cfg_sub_d0 = rts5228_set_l1off_cfg_sub_d0,
  443. .enable_ocp = rts5228_enable_ocp,
  444. .disable_ocp = rts5228_disable_ocp,
  445. .init_ocp = rts5228_init_ocp,
  446. .process_ocp = rts5228_process_ocp,
  447. .clear_ocpstat = rts5228_clear_ocpstat,
  448. .optimize_phy = rts5228_optimize_phy,
  449. };
  450. static inline u8 double_ssc_depth(u8 depth)
  451. {
  452. return ((depth > 1) ? (depth - 1) : depth);
  453. }
  454. int rts5228_pci_switch_clock(struct rtsx_pcr *pcr, unsigned int card_clock,
  455. u8 ssc_depth, bool initial_mode, bool double_clk, bool vpclk)
  456. {
  457. int err, clk;
  458. u16 n;
  459. u8 clk_divider, mcu_cnt, div;
  460. static const u8 depth[] = {
  461. [RTSX_SSC_DEPTH_4M] = RTS5228_SSC_DEPTH_4M,
  462. [RTSX_SSC_DEPTH_2M] = RTS5228_SSC_DEPTH_2M,
  463. [RTSX_SSC_DEPTH_1M] = RTS5228_SSC_DEPTH_1M,
  464. [RTSX_SSC_DEPTH_500K] = RTS5228_SSC_DEPTH_512K,
  465. };
  466. if (initial_mode) {
  467. /* We use 250k(around) here, in initial stage */
  468. clk_divider = SD_CLK_DIVIDE_128;
  469. card_clock = 30000000;
  470. } else {
  471. clk_divider = SD_CLK_DIVIDE_0;
  472. }
  473. err = rtsx_pci_write_register(pcr, SD_CFG1,
  474. SD_CLK_DIVIDE_MASK, clk_divider);
  475. if (err < 0)
  476. return err;
  477. card_clock /= 1000000;
  478. pcr_dbg(pcr, "Switch card clock to %dMHz\n", card_clock);
  479. clk = card_clock;
  480. if (!initial_mode && double_clk)
  481. clk = card_clock * 2;
  482. pcr_dbg(pcr, "Internal SSC clock: %dMHz (cur_clock = %d)\n",
  483. clk, pcr->cur_clock);
  484. if (clk == pcr->cur_clock)
  485. return 0;
  486. if (pcr->ops->conv_clk_and_div_n)
  487. n = pcr->ops->conv_clk_and_div_n(clk, CLK_TO_DIV_N);
  488. else
  489. n = clk - 4;
  490. if ((clk <= 4) || (n > 396))
  491. return -EINVAL;
  492. mcu_cnt = 125/clk + 3;
  493. if (mcu_cnt > 15)
  494. mcu_cnt = 15;
  495. div = CLK_DIV_1;
  496. while ((n < MIN_DIV_N_PCR - 4) && (div < CLK_DIV_8)) {
  497. if (pcr->ops->conv_clk_and_div_n) {
  498. int dbl_clk = pcr->ops->conv_clk_and_div_n(n,
  499. DIV_N_TO_CLK) * 2;
  500. n = pcr->ops->conv_clk_and_div_n(dbl_clk,
  501. CLK_TO_DIV_N);
  502. } else {
  503. n = (n + 4) * 2 - 4;
  504. }
  505. div++;
  506. }
  507. n = (n / 2) - 1;
  508. pcr_dbg(pcr, "n = %d, div = %d\n", n, div);
  509. ssc_depth = depth[ssc_depth];
  510. if (double_clk)
  511. ssc_depth = double_ssc_depth(ssc_depth);
  512. if (ssc_depth) {
  513. if (div == CLK_DIV_2) {
  514. if (ssc_depth > 1)
  515. ssc_depth -= 1;
  516. else
  517. ssc_depth = RTS5228_SSC_DEPTH_8M;
  518. } else if (div == CLK_DIV_4) {
  519. if (ssc_depth > 2)
  520. ssc_depth -= 2;
  521. else
  522. ssc_depth = RTS5228_SSC_DEPTH_8M;
  523. } else if (div == CLK_DIV_8) {
  524. if (ssc_depth > 3)
  525. ssc_depth -= 3;
  526. else
  527. ssc_depth = RTS5228_SSC_DEPTH_8M;
  528. }
  529. } else {
  530. ssc_depth = 0;
  531. }
  532. pcr_dbg(pcr, "ssc_depth = %d\n", ssc_depth);
  533. rtsx_pci_init_cmd(pcr);
  534. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, CLK_CTL,
  535. CLK_LOW_FREQ, CLK_LOW_FREQ);
  536. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, CLK_DIV,
  537. 0xFF, (div << 4) | mcu_cnt);
  538. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SSC_CTL1, SSC_RSTB, 0);
  539. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SSC_CTL2,
  540. SSC_DEPTH_MASK, ssc_depth);
  541. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SSC_DIV_N_0, 0xFF, n);
  542. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SSC_CTL1, SSC_RSTB, SSC_RSTB);
  543. if (vpclk) {
  544. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SD_VPCLK0_CTL,
  545. PHASE_NOT_RESET, 0);
  546. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SD_VPCLK1_CTL,
  547. PHASE_NOT_RESET, 0);
  548. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SD_VPCLK0_CTL,
  549. PHASE_NOT_RESET, PHASE_NOT_RESET);
  550. rtsx_pci_add_cmd(pcr, WRITE_REG_CMD, SD_VPCLK1_CTL,
  551. PHASE_NOT_RESET, PHASE_NOT_RESET);
  552. }
  553. err = rtsx_pci_send_cmd(pcr, 2000);
  554. if (err < 0)
  555. return err;
  556. /* Wait SSC clock stable */
  557. udelay(SSC_CLOCK_STABLE_WAIT);
  558. err = rtsx_pci_write_register(pcr, CLK_CTL, CLK_LOW_FREQ, 0);
  559. if (err < 0)
  560. return err;
  561. pcr->cur_clock = clk;
  562. return 0;
  563. }
  564. void rts5228_init_params(struct rtsx_pcr *pcr)
  565. {
  566. struct rtsx_cr_option *option = &pcr->option;
  567. struct rtsx_hw_param *hw_param = &pcr->hw_param;
  568. pcr->extra_caps = EXTRA_CAPS_SD_SDR50 | EXTRA_CAPS_SD_SDR104;
  569. pcr->num_slots = 1;
  570. pcr->ops = &rts5228_pcr_ops;
  571. pcr->flags = 0;
  572. pcr->card_drive_sel = RTSX_CARD_DRIVE_DEFAULT;
  573. pcr->sd30_drive_sel_1v8 = CFG_DRIVER_TYPE_B;
  574. pcr->sd30_drive_sel_3v3 = CFG_DRIVER_TYPE_B;
  575. pcr->aspm_en = ASPM_L1_EN;
  576. pcr->aspm_mode = ASPM_MODE_REG;
  577. pcr->tx_initial_phase = SET_CLOCK_PHASE(28, 27, 11);
  578. pcr->rx_initial_phase = SET_CLOCK_PHASE(24, 6, 5);
  579. pcr->ic_version = rts5228_get_ic_version(pcr);
  580. pcr->sd_pull_ctl_enable_tbl = rts5228_sd_pull_ctl_enable_tbl;
  581. pcr->sd_pull_ctl_disable_tbl = rts5228_sd_pull_ctl_disable_tbl;
  582. pcr->reg_pm_ctrl3 = RTS5228_AUTOLOAD_CFG3;
  583. option->dev_flags = (LTR_L1SS_PWR_GATE_CHECK_CARD_EN
  584. | LTR_L1SS_PWR_GATE_EN);
  585. option->ltr_en = true;
  586. /* init latency of active, idle, L1OFF to 60us, 300us, 3ms */
  587. option->ltr_active_latency = LTR_ACTIVE_LATENCY_DEF;
  588. option->ltr_idle_latency = LTR_IDLE_LATENCY_DEF;
  589. option->ltr_l1off_latency = LTR_L1OFF_LATENCY_DEF;
  590. option->l1_snooze_delay = L1_SNOOZE_DELAY_DEF;
  591. option->ltr_l1off_sspwrgate = 0x7F;
  592. option->ltr_l1off_snooze_sspwrgate = 0x78;
  593. option->ocp_en = 1;
  594. hw_param->interrupt_en |= SD_OC_INT_EN;
  595. hw_param->ocp_glitch = SD_OCP_GLITCH_800U;
  596. option->sd_800mA_ocp_thd = RTS5228_LDO1_OCP_THD_930;
  597. option->sd_cd_reverse_en = 0;
  598. option->sd_wp_reverse_en = 0;
  599. }