reset-spacemit-k1.c 10 KB

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  1. // SPDX-License-Identifier: GPL-2.0-only
  2. /* SpacemiT K1 reset controller driver */
  3. #include <linux/module.h>
  4. #include <dt-bindings/clock/spacemit,k1-syscon.h>
  5. #include <soc/spacemit/k1-syscon.h>
  6. #include "reset-spacemit-common.h"
  7. static const struct ccu_reset_data k1_mpmu_resets[] = {
  8. [RESET_WDT] = RESET_DATA(MPMU_WDTPCR, BIT(2), 0),
  9. };
  10. static const struct ccu_reset_controller_data k1_mpmu_reset_data = {
  11. .reset_data = k1_mpmu_resets,
  12. .count = ARRAY_SIZE(k1_mpmu_resets),
  13. };
  14. static const struct ccu_reset_data k1_apbc_resets[] = {
  15. [RESET_UART0] = RESET_DATA(APBC_UART1_CLK_RST, BIT(2), 0),
  16. [RESET_UART2] = RESET_DATA(APBC_UART2_CLK_RST, BIT(2), 0),
  17. [RESET_GPIO] = RESET_DATA(APBC_GPIO_CLK_RST, BIT(2), 0),
  18. [RESET_PWM0] = RESET_DATA(APBC_PWM0_CLK_RST, BIT(2), BIT(0)),
  19. [RESET_PWM1] = RESET_DATA(APBC_PWM1_CLK_RST, BIT(2), BIT(0)),
  20. [RESET_PWM2] = RESET_DATA(APBC_PWM2_CLK_RST, BIT(2), BIT(0)),
  21. [RESET_PWM3] = RESET_DATA(APBC_PWM3_CLK_RST, BIT(2), BIT(0)),
  22. [RESET_PWM4] = RESET_DATA(APBC_PWM4_CLK_RST, BIT(2), BIT(0)),
  23. [RESET_PWM5] = RESET_DATA(APBC_PWM5_CLK_RST, BIT(2), BIT(0)),
  24. [RESET_PWM6] = RESET_DATA(APBC_PWM6_CLK_RST, BIT(2), BIT(0)),
  25. [RESET_PWM7] = RESET_DATA(APBC_PWM7_CLK_RST, BIT(2), BIT(0)),
  26. [RESET_PWM8] = RESET_DATA(APBC_PWM8_CLK_RST, BIT(2), BIT(0)),
  27. [RESET_PWM9] = RESET_DATA(APBC_PWM9_CLK_RST, BIT(2), BIT(0)),
  28. [RESET_PWM10] = RESET_DATA(APBC_PWM10_CLK_RST, BIT(2), BIT(0)),
  29. [RESET_PWM11] = RESET_DATA(APBC_PWM11_CLK_RST, BIT(2), BIT(0)),
  30. [RESET_PWM12] = RESET_DATA(APBC_PWM12_CLK_RST, BIT(2), BIT(0)),
  31. [RESET_PWM13] = RESET_DATA(APBC_PWM13_CLK_RST, BIT(2), BIT(0)),
  32. [RESET_PWM14] = RESET_DATA(APBC_PWM14_CLK_RST, BIT(2), BIT(0)),
  33. [RESET_PWM15] = RESET_DATA(APBC_PWM15_CLK_RST, BIT(2), BIT(0)),
  34. [RESET_PWM16] = RESET_DATA(APBC_PWM16_CLK_RST, BIT(2), BIT(0)),
  35. [RESET_PWM17] = RESET_DATA(APBC_PWM17_CLK_RST, BIT(2), BIT(0)),
  36. [RESET_PWM18] = RESET_DATA(APBC_PWM18_CLK_RST, BIT(2), BIT(0)),
  37. [RESET_PWM19] = RESET_DATA(APBC_PWM19_CLK_RST, BIT(2), BIT(0)),
  38. [RESET_SSP3] = RESET_DATA(APBC_SSP3_CLK_RST, BIT(2), 0),
  39. [RESET_UART3] = RESET_DATA(APBC_UART3_CLK_RST, BIT(2), 0),
  40. [RESET_RTC] = RESET_DATA(APBC_RTC_CLK_RST, BIT(2), 0),
  41. [RESET_TWSI0] = RESET_DATA(APBC_TWSI0_CLK_RST, BIT(2), 0),
  42. [RESET_TIMERS1] = RESET_DATA(APBC_TIMERS1_CLK_RST, BIT(2), 0),
  43. [RESET_AIB] = RESET_DATA(APBC_AIB_CLK_RST, BIT(2), 0),
  44. [RESET_TIMERS2] = RESET_DATA(APBC_TIMERS2_CLK_RST, BIT(2), 0),
  45. [RESET_ONEWIRE] = RESET_DATA(APBC_ONEWIRE_CLK_RST, BIT(2), 0),
  46. [RESET_SSPA0] = RESET_DATA(APBC_SSPA0_CLK_RST, BIT(2), 0),
  47. [RESET_SSPA1] = RESET_DATA(APBC_SSPA1_CLK_RST, BIT(2), 0),
  48. [RESET_DRO] = RESET_DATA(APBC_DRO_CLK_RST, BIT(2), 0),
  49. [RESET_IR] = RESET_DATA(APBC_IR_CLK_RST, BIT(2), 0),
  50. [RESET_TWSI1] = RESET_DATA(APBC_TWSI1_CLK_RST, BIT(2), 0),
  51. [RESET_TSEN] = RESET_DATA(APBC_TSEN_CLK_RST, BIT(2), 0),
  52. [RESET_TWSI2] = RESET_DATA(APBC_TWSI2_CLK_RST, BIT(2), 0),
  53. [RESET_TWSI4] = RESET_DATA(APBC_TWSI4_CLK_RST, BIT(2), 0),
  54. [RESET_TWSI5] = RESET_DATA(APBC_TWSI5_CLK_RST, BIT(2), 0),
  55. [RESET_TWSI6] = RESET_DATA(APBC_TWSI6_CLK_RST, BIT(2), 0),
  56. [RESET_TWSI7] = RESET_DATA(APBC_TWSI7_CLK_RST, BIT(2), 0),
  57. [RESET_TWSI8] = RESET_DATA(APBC_TWSI8_CLK_RST, BIT(2), 0),
  58. [RESET_IPC_AP2AUD] = RESET_DATA(APBC_IPC_AP2AUD_CLK_RST, BIT(2), 0),
  59. [RESET_UART4] = RESET_DATA(APBC_UART4_CLK_RST, BIT(2), 0),
  60. [RESET_UART5] = RESET_DATA(APBC_UART5_CLK_RST, BIT(2), 0),
  61. [RESET_UART6] = RESET_DATA(APBC_UART6_CLK_RST, BIT(2), 0),
  62. [RESET_UART7] = RESET_DATA(APBC_UART7_CLK_RST, BIT(2), 0),
  63. [RESET_UART8] = RESET_DATA(APBC_UART8_CLK_RST, BIT(2), 0),
  64. [RESET_UART9] = RESET_DATA(APBC_UART9_CLK_RST, BIT(2), 0),
  65. [RESET_CAN0] = RESET_DATA(APBC_CAN0_CLK_RST, BIT(2), 0),
  66. };
  67. static const struct ccu_reset_controller_data k1_apbc_reset_data = {
  68. .reset_data = k1_apbc_resets,
  69. .count = ARRAY_SIZE(k1_apbc_resets),
  70. };
  71. static const struct ccu_reset_data k1_apmu_resets[] = {
  72. [RESET_CCIC_4X] = RESET_DATA(APMU_CCIC_CLK_RES_CTRL, 0, BIT(1)),
  73. [RESET_CCIC1_PHY] = RESET_DATA(APMU_CCIC_CLK_RES_CTRL, 0, BIT(2)),
  74. [RESET_SDH_AXI] = RESET_DATA(APMU_SDH0_CLK_RES_CTRL, 0, BIT(0)),
  75. [RESET_SDH0] = RESET_DATA(APMU_SDH0_CLK_RES_CTRL, 0, BIT(1)),
  76. [RESET_SDH1] = RESET_DATA(APMU_SDH1_CLK_RES_CTRL, 0, BIT(1)),
  77. [RESET_SDH2] = RESET_DATA(APMU_SDH2_CLK_RES_CTRL, 0, BIT(1)),
  78. [RESET_USBP1_AXI] = RESET_DATA(APMU_USB_CLK_RES_CTRL, 0, BIT(4)),
  79. [RESET_USB_AXI] = RESET_DATA(APMU_USB_CLK_RES_CTRL, 0, BIT(0)),
  80. [RESET_USB30_AHB] = RESET_DATA(APMU_USB_CLK_RES_CTRL, 0, BIT(9)),
  81. [RESET_USB30_VCC] = RESET_DATA(APMU_USB_CLK_RES_CTRL, 0, BIT(10)),
  82. [RESET_USB30_PHY] = RESET_DATA(APMU_USB_CLK_RES_CTRL, 0, BIT(11)),
  83. [RESET_QSPI] = RESET_DATA(APMU_QSPI_CLK_RES_CTRL, 0, BIT(1)),
  84. [RESET_QSPI_BUS] = RESET_DATA(APMU_QSPI_CLK_RES_CTRL, 0, BIT(0)),
  85. [RESET_DMA] = RESET_DATA(APMU_DMA_CLK_RES_CTRL, 0, BIT(0)),
  86. [RESET_AES] = RESET_DATA(APMU_AES_CLK_RES_CTRL, 0, BIT(4)),
  87. [RESET_VPU] = RESET_DATA(APMU_VPU_CLK_RES_CTRL, 0, BIT(0)),
  88. [RESET_GPU] = RESET_DATA(APMU_GPU_CLK_RES_CTRL, 0, BIT(1)),
  89. [RESET_EMMC] = RESET_DATA(APMU_PMUA_EM_CLK_RES_CTRL, 0, BIT(1)),
  90. [RESET_EMMC_X] = RESET_DATA(APMU_PMUA_EM_CLK_RES_CTRL, 0, BIT(0)),
  91. [RESET_AUDIO_SYS] = RESET_DATA(APMU_AUDIO_CLK_RES_CTRL, 0, BIT(0)),
  92. [RESET_AUDIO_MCU] = RESET_DATA(APMU_AUDIO_CLK_RES_CTRL, 0, BIT(2)),
  93. [RESET_AUDIO_APMU] = RESET_DATA(APMU_AUDIO_CLK_RES_CTRL, 0, BIT(3)),
  94. [RESET_HDMI] = RESET_DATA(APMU_HDMI_CLK_RES_CTRL, 0, BIT(9)),
  95. [RESET_PCIE0_DBI] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_0, 0, BIT(3)),
  96. [RESET_PCIE0_SLAVE] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_0, 0, BIT(4)),
  97. [RESET_PCIE0_MASTER] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_0, 0, BIT(5)),
  98. [RESET_PCIE0_GLOBAL] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_0, BIT(8), 0),
  99. [RESET_PCIE1_DBI] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_1, 0, BIT(3)),
  100. [RESET_PCIE1_SLAVE] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_1, 0, BIT(4)),
  101. [RESET_PCIE1_MASTER] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_1, 0, BIT(5)),
  102. [RESET_PCIE1_GLOBAL] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_1, BIT(8), 0),
  103. [RESET_PCIE2_DBI] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_2, 0, BIT(3)),
  104. [RESET_PCIE2_SLAVE] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_2, 0, BIT(4)),
  105. [RESET_PCIE2_MASTER] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_2, 0, BIT(5)),
  106. [RESET_PCIE2_GLOBAL] = RESET_DATA(APMU_PCIE_CLK_RES_CTRL_2, BIT(8), 0),
  107. [RESET_EMAC0] = RESET_DATA(APMU_EMAC0_CLK_RES_CTRL, 0, BIT(1)),
  108. [RESET_EMAC1] = RESET_DATA(APMU_EMAC1_CLK_RES_CTRL, 0, BIT(1)),
  109. [RESET_JPG] = RESET_DATA(APMU_JPG_CLK_RES_CTRL, 0, BIT(0)),
  110. [RESET_CCIC2PHY] = RESET_DATA(APMU_CSI_CCIC2_CLK_RES_CTRL, 0, BIT(2)),
  111. [RESET_CCIC3PHY] = RESET_DATA(APMU_CSI_CCIC2_CLK_RES_CTRL, 0, BIT(29)),
  112. [RESET_CSI] = RESET_DATA(APMU_CSI_CCIC2_CLK_RES_CTRL, 0, BIT(1)),
  113. [RESET_ISP] = RESET_DATA(APMU_ISP_CLK_RES_CTRL, 0, BIT(0)),
  114. [RESET_ISP_CPP] = RESET_DATA(APMU_ISP_CLK_RES_CTRL, 0, BIT(27)),
  115. [RESET_ISP_BUS] = RESET_DATA(APMU_ISP_CLK_RES_CTRL, 0, BIT(3)),
  116. [RESET_ISP_CI] = RESET_DATA(APMU_ISP_CLK_RES_CTRL, 0, BIT(16)),
  117. [RESET_DPU_MCLK] = RESET_DATA(APMU_LCD_CLK_RES_CTRL2, 0, BIT(9)),
  118. [RESET_DPU_ESC] = RESET_DATA(APMU_LCD_CLK_RES_CTRL1, 0, BIT(3)),
  119. [RESET_DPU_HCLK] = RESET_DATA(APMU_LCD_CLK_RES_CTRL1, 0, BIT(4)),
  120. [RESET_DPU_SPIBUS] = RESET_DATA(APMU_LCD_SPI_CLK_RES_CTRL, 0, BIT(4)),
  121. [RESET_DPU_SPI_HBUS] = RESET_DATA(APMU_LCD_SPI_CLK_RES_CTRL, 0, BIT(2)),
  122. [RESET_V2D] = RESET_DATA(APMU_LCD_CLK_RES_CTRL1, 0, BIT(27)),
  123. [RESET_MIPI] = RESET_DATA(APMU_LCD_CLK_RES_CTRL1, 0, BIT(15)),
  124. [RESET_MC] = RESET_DATA(APMU_PMUA_MC_CTRL, 0, BIT(0)),
  125. };
  126. static const struct ccu_reset_controller_data k1_apmu_reset_data = {
  127. .reset_data = k1_apmu_resets,
  128. .count = ARRAY_SIZE(k1_apmu_resets),
  129. };
  130. static const struct ccu_reset_data k1_rcpu_resets[] = {
  131. [RESET_RCPU_SSP0] = RESET_DATA(RCPU_SSP0_CLK_RST, 0, BIT(0)),
  132. [RESET_RCPU_I2C0] = RESET_DATA(RCPU_I2C0_CLK_RST, 0, BIT(0)),
  133. [RESET_RCPU_UART1] = RESET_DATA(RCPU_UART1_CLK_RST, 0, BIT(0)),
  134. [RESET_RCPU_IR] = RESET_DATA(RCPU_CAN_CLK_RST, 0, BIT(0)),
  135. [RESET_RCPU_CAN] = RESET_DATA(RCPU_IR_CLK_RST, 0, BIT(0)),
  136. [RESET_RCPU_UART0] = RESET_DATA(RCPU_UART0_CLK_RST, 0, BIT(0)),
  137. [RESET_RCPU_HDMI_AUDIO] = RESET_DATA(AUDIO_HDMI_CLK_CTRL, 0, BIT(0)),
  138. };
  139. static const struct ccu_reset_controller_data k1_rcpu_reset_data = {
  140. .reset_data = k1_rcpu_resets,
  141. .count = ARRAY_SIZE(k1_rcpu_resets),
  142. };
  143. static const struct ccu_reset_data k1_rcpu2_resets[] = {
  144. [RESET_RCPU2_PWM0] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  145. [RESET_RCPU2_PWM1] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  146. [RESET_RCPU2_PWM2] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  147. [RESET_RCPU2_PWM3] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  148. [RESET_RCPU2_PWM4] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  149. [RESET_RCPU2_PWM5] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  150. [RESET_RCPU2_PWM6] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  151. [RESET_RCPU2_PWM7] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  152. [RESET_RCPU2_PWM8] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  153. [RESET_RCPU2_PWM9] = RESET_DATA(RCPU2_PWM9_CLK_RST, BIT(2), BIT(0)),
  154. };
  155. static const struct ccu_reset_controller_data k1_rcpu2_reset_data = {
  156. .reset_data = k1_rcpu2_resets,
  157. .count = ARRAY_SIZE(k1_rcpu2_resets),
  158. };
  159. static const struct ccu_reset_data k1_apbc2_resets[] = {
  160. [RESET_APBC2_UART1] = RESET_DATA(APBC2_UART1_CLK_RST, BIT(2), 0),
  161. [RESET_APBC2_SSP2] = RESET_DATA(APBC2_SSP2_CLK_RST, BIT(2), 0),
  162. [RESET_APBC2_TWSI3] = RESET_DATA(APBC2_TWSI3_CLK_RST, BIT(2), 0),
  163. [RESET_APBC2_RTC] = RESET_DATA(APBC2_RTC_CLK_RST, BIT(2), 0),
  164. [RESET_APBC2_TIMERS0] = RESET_DATA(APBC2_TIMERS0_CLK_RST, BIT(2), 0),
  165. [RESET_APBC2_KPC] = RESET_DATA(APBC2_KPC_CLK_RST, BIT(2), 0),
  166. [RESET_APBC2_GPIO] = RESET_DATA(APBC2_GPIO_CLK_RST, BIT(2), 0),
  167. };
  168. static const struct ccu_reset_controller_data k1_apbc2_reset_data = {
  169. .reset_data = k1_apbc2_resets,
  170. .count = ARRAY_SIZE(k1_apbc2_resets),
  171. };
  172. #define K1_AUX_DEV_ID(_unit) \
  173. { \
  174. .name = "spacemit_ccu.k1-" #_unit "-reset", \
  175. .driver_data = (kernel_ulong_t)&k1_ ## _unit ## _reset_data, \
  176. }
  177. static const struct auxiliary_device_id spacemit_k1_reset_ids[] = {
  178. K1_AUX_DEV_ID(mpmu),
  179. K1_AUX_DEV_ID(apbc),
  180. K1_AUX_DEV_ID(apmu),
  181. K1_AUX_DEV_ID(rcpu),
  182. K1_AUX_DEV_ID(rcpu2),
  183. K1_AUX_DEV_ID(apbc2),
  184. { /* sentinel */ }
  185. };
  186. MODULE_DEVICE_TABLE(auxiliary, spacemit_k1_reset_ids);
  187. static struct auxiliary_driver spacemit_k1_reset_driver = {
  188. .probe = spacemit_reset_probe,
  189. .id_table = spacemit_k1_reset_ids,
  190. };
  191. module_auxiliary_driver(spacemit_k1_reset_driver);
  192. MODULE_IMPORT_NS("RESET_SPACEMIT");
  193. MODULE_AUTHOR("Alex Elder <elder@kernel.org>");
  194. MODULE_DESCRIPTION("SpacemiT K1 reset controller driver");
  195. MODULE_LICENSE("GPL");