// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (C) 2022 Spacemit Inc. * Copyright (C) 2025 Huan Zhou */ #include #include #include #include #include #include #include #include #include /* APBC register offset */ #define APBC_UART1_CLK_RST 0x0 #define APBC_UART2_CLK_RST 0x4 #define APBC_GPIO_CLK_RST 0x8 #define APBC_PWM0_CLK_RST 0xc #define APBC_PWM1_CLK_RST 0x10 #define APBC_PWM2_CLK_RST 0x14 #define APBC_PWM3_CLK_RST 0x18 #define APBC_TWSI8_CLK_RST 0x20 #define APBC_UART3_CLK_RST 0x24 #define APBC_RTC_CLK_RST 0x28 #define APBC_TWSI0_CLK_RST 0x2c #define APBC_TWSI1_CLK_RST 0x30 #define APBC_TIMERS1_CLK_RST 0x34 #define APBC_TWSI2_CLK_RST 0x38 #define APBC_AIB_CLK_RST 0x3c #define APBC_TWSI4_CLK_RST 0x40 #define APBC_TIMERS2_CLK_RST 0x44 #define APBC_ONEWIRE_CLK_RST 0x48 #define APBC_TWSI5_CLK_RST 0x4c #define APBC_DRO_CLK_RST 0x58 #define APBC_IR_CLK_RST 0x5c #define APBC_TWSI6_CLK_RST 0x60 #define APBC_TWSI7_CLK_RST 0x68 #define APBC_TSEN_CLK_RST 0x6c #define APBC_UART4_CLK_RST 0x70 #define APBC_UART5_CLK_RST 0x74 #define APBC_UART6_CLK_RST 0x78 #define APBC_SSP3_CLK_RST 0x7c #define APBC_SSPA0_CLK_RST 0x80 #define APBC_SSPA1_CLK_RST 0x84 #define APBC_IPC_AP2AUD_CLK_RST 0x90 #define APBC_UART7_CLK_RST 0x94 #define APBC_UART8_CLK_RST 0x98 #define APBC_UART9_CLK_RST 0x9c #define APBC_CAN0_CLK_RST 0xa0 #define APBC_PWM4_CLK_RST 0xa8 #define APBC_PWM5_CLK_RST 0xac #define APBC_PWM6_CLK_RST 0xb0 #define APBC_PWM7_CLK_RST 0xb4 #define APBC_PWM8_CLK_RST 0xb8 #define APBC_PWM9_CLK_RST 0xbc #define APBC_PWM10_CLK_RST 0xc0 #define APBC_PWM11_CLK_RST 0xc4 #define APBC_PWM12_CLK_RST 0xc8 #define APBC_PWM13_CLK_RST 0xcc #define APBC_PWM14_CLK_RST 0xd0 #define APBC_PWM15_CLK_RST 0xd4 #define APBC_PWM16_CLK_RST 0xd8 #define APBC_PWM17_CLK_RST 0xdc #define APBC_PWM18_CLK_RST 0xe0 #define APBC_PWM19_CLK_RST 0xe4 /* end of APBC register offset */ /* MPMU register offset */ #define MPMU_WDTPCR 0x200 /* end of MPMU register offset */ /* APMU register offset */ #define APMU_JPG_CLK_RES_CTRL 0x20 #define APMU_CSI_CCIC2_CLK_RES_CTRL 0x24 #define APMU_ISP_CLK_RES_CTRL 0x38 #define APMU_LCD_CLK_RES_CTRL1 0x44 #define APMU_LCD_SPI_CLK_RES_CTRL 0x48 #define APMU_LCD_CLK_RES_CTRL2 0x4c #define APMU_CCIC_CLK_RES_CTRL 0x50 #define APMU_SDH0_CLK_RES_CTRL 0x54 #define APMU_SDH1_CLK_RES_CTRL 0x58 #define APMU_USB_CLK_RES_CTRL 0x5c #define APMU_QSPI_CLK_RES_CTRL 0x60 #define APMU_USB_CLK_RES_CTRL 0x5c #define APMU_DMA_CLK_RES_CTRL 0x64 #define APMU_AES_CLK_RES_CTRL 0x68 #define APMU_VPU_CLK_RES_CTRL 0xa4 #define APMU_GPU_CLK_RES_CTRL 0xcc #define APMU_SDH2_CLK_RES_CTRL 0xe0 #define APMU_PMUA_MC_CTRL 0xe8 #define APMU_PMU_CC2_AP 0x100 #define APMU_PMUA_EM_CLK_RES_CTRL 0x104 #define APMU_AUDIO_CLK_RES_CTRL 0x14c #define APMU_HDMI_CLK_RES_CTRL 0x1B8 #define APMU_PCIE_CLK_RES_CTRL_0 0x3cc #define APMU_PCIE_CLK_RES_CTRL_1 0x3d4 #define APMU_PCIE_CLK_RES_CTRL_2 0x3dc #define APMU_EMAC0_CLK_RES_CTRL 0x3e4 #define APMU_EMAC1_CLK_RES_CTRL 0x3ec /* end of APMU register offset */ /* APBC2 register offset */ #define APBC2_UART1_CLK_RST 0x00 #define APBC2_SSP2_CLK_RST 0x04 #define APBC2_TWSI3_CLK_RST 0x08 #define APBC2_RTC_CLK_RST 0x0c #define APBC2_TIMERS0_CLK_RST 0x10 #define APBC2_KPC_CLK_RST 0x14 #define APBC2_GPIO_CLK_RST 0x1c /* end of APBC2 register offset */ enum spacemit_reset_base_type { RST_BASE_TYPE_MPMU = 0, RST_BASE_TYPE_APMU = 1, RST_BASE_TYPE_APBC = 2, RST_BASE_TYPE_APBS = 3, RST_BASE_TYPE_CIU = 4, RST_BASE_TYPE_DCIU = 5, RST_BASE_TYPE_DDRC = 6, RST_BASE_TYPE_AUDC = 7, RST_BASE_TYPE_APBC2 = 8, }; struct spacemit_reset_signal { u32 offset; u32 mask; u32 deassert_val; u32 assert_val; enum spacemit_reset_base_type type; }; struct spacemit_reset_base { void __iomem *mpmu_base; void __iomem *apmu_base; void __iomem *apbc_base; void __iomem *apbs_base; void __iomem *ciu_base; void __iomem *dciu_base; void __iomem *ddrc_base; void __iomem *audio_ctrl_base; void __iomem *apbc2_base; }; struct spacemit_reset { struct spacemit_reset_base io_base; const struct spacemit_reset_signal *signals; }; enum { RESET_TWSI6_SPL = 0, RESET_TWSI8_SPL, RESET_SDH_AXI_SPL, RESET_SDH0_SPL, RESET_USB_AXI_SPL, RESET_USBP1_AXI_SPL, RESET_USB3_0_SPL, RESET_QSPI_SPL, RESET_QSPI_BUS_SPL, RESET_AES_SPL, RESET_SDH2_SPL, RESET_NUMBER_SPL }; static const struct spacemit_reset_signal k1_reset_signals[RESET_NUMBER] = { [RESET_UART1] = { APBC_UART1_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART2] = { APBC_UART2_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_GPIO] = { APBC_GPIO_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM0] = { APBC_PWM0_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM1] = { APBC_PWM1_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM2] = { APBC_PWM2_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM3] = { APBC_PWM3_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM4] = { APBC_PWM4_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM5] = { APBC_PWM5_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM6] = { APBC_PWM6_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM7] = { APBC_PWM7_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM8] = { APBC_PWM8_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM9] = { APBC_PWM9_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM10] = { APBC_PWM10_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM11] = { APBC_PWM11_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM12] = { APBC_PWM12_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM13] = { APBC_PWM13_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM14] = { APBC_PWM14_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM15] = { APBC_PWM15_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM16] = { APBC_PWM16_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM17] = { APBC_PWM17_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM18] = { APBC_PWM18_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_PWM19] = { APBC_PWM19_CLK_RST, BIT(2) | BIT(0), BIT(0), BIT(2), RST_BASE_TYPE_APBC }, [RESET_SSP3] = { APBC_SSP3_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART3] = { APBC_UART3_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_RTC] = { APBC_RTC_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI0] = { APBC_TWSI0_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TIMERS1] = { APBC_TIMERS1_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_AIB] = { APBC_AIB_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TIMERS2] = { APBC_TIMERS2_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_ONEWIRE] = { APBC_ONEWIRE_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_SSPA0] = { APBC_SSPA0_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_SSPA1] = { APBC_SSPA1_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_DRO] = { APBC_DRO_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_IR] = { APBC_IR_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI1] = { APBC_TWSI1_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TSEN] = { APBC_TSEN_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI2] = { APBC_TWSI2_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI4] = { APBC_TWSI4_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI5] = { APBC_TWSI5_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI6] = { APBC_TWSI6_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI7] = { APBC_TWSI7_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_TWSI8] = { APBC_TWSI8_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_IPC_AP2AUD] = { APBC_IPC_AP2AUD_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART4] = { APBC_UART4_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART5] = { APBC_UART5_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART6] = { APBC_UART6_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART7] = { APBC_UART7_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART8] = { APBC_UART8_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_UART9] = { APBC_UART9_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, [RESET_CAN0] = { APBC_CAN0_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC }, /* MPMU */ [RESET_WDT] = { MPMU_WDTPCR, BIT(2), 0, BIT(2), RST_BASE_TYPE_MPMU }, /* APMU */ [RESET_JPG] = { APMU_JPG_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_CSI] = { APMU_CSI_CCIC2_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_CCIC2_PHY] = { APMU_CSI_CCIC2_CLK_RES_CTRL, BIT(2), BIT(2), 0, RST_BASE_TYPE_APMU }, [RESET_CCIC3_PHY] = { APMU_CSI_CCIC2_CLK_RES_CTRL, BIT(29), BIT(29), 0, RST_BASE_TYPE_APMU }, [RESET_ISP] = { APMU_ISP_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_ISP_AHB] = { APMU_ISP_CLK_RES_CTRL, BIT(3), BIT(3), 0, RST_BASE_TYPE_APMU }, [RESET_ISP_CI] = { APMU_ISP_CLK_RES_CTRL, BIT(16), BIT(16), 0, RST_BASE_TYPE_APMU }, [RESET_ISP_CPP] = { APMU_ISP_CLK_RES_CTRL, BIT(27), BIT(27), 0, RST_BASE_TYPE_APMU }, [RESET_LCD] = { APMU_LCD_CLK_RES_CTRL1, BIT(4), BIT(4), 0, RST_BASE_TYPE_APMU }, [RESET_DSI_ESC] = { APMU_LCD_CLK_RES_CTRL1, BIT(3), BIT(3), 0, RST_BASE_TYPE_APMU }, [RESET_V2D] = { APMU_LCD_CLK_RES_CTRL1, BIT(27), BIT(27), 0, RST_BASE_TYPE_APMU }, [RESET_MIPI] = { APMU_LCD_CLK_RES_CTRL1, BIT(15), BIT(15), 0, RST_BASE_TYPE_APMU }, [RESET_LCD_SPI] = { APMU_LCD_SPI_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_LCD_SPI_BUS] = { APMU_LCD_SPI_CLK_RES_CTRL, BIT(4), BIT(4), 0, RST_BASE_TYPE_APMU }, [RESET_LCD_SPI_HBUS] = { APMU_LCD_SPI_CLK_RES_CTRL, BIT(2), BIT(2), 0, RST_BASE_TYPE_APMU }, [RESET_LCD_MCLK] = { APMU_LCD_CLK_RES_CTRL2, BIT(9), BIT(9), 0, RST_BASE_TYPE_APMU }, [RESET_CCIC_4X] = { APMU_CCIC_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_CCIC1_PHY] = { APMU_CCIC_CLK_RES_CTRL, BIT(2), BIT(2), 0, RST_BASE_TYPE_APMU }, [RESET_SDH_AXI] = { APMU_SDH0_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_SDH0] = { APMU_SDH0_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_SDH1] = { APMU_SDH1_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_USB_AXI] = { APMU_USB_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_USBP1_AXI] = { APMU_USB_CLK_RES_CTRL, BIT(4), BIT(4), 0, RST_BASE_TYPE_APMU }, [RESET_USB3_0] = { APMU_USB_CLK_RES_CTRL, BIT(9) | BIT(10) | BIT(11), BIT(9) | BIT(10) | BIT(11), 0, RST_BASE_TYPE_APMU }, [RESET_QSPI] = { APMU_QSPI_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_QSPI_BUS] = { APMU_QSPI_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_DMA] = { APMU_DMA_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_AES] = { APMU_AES_CLK_RES_CTRL, BIT(4), BIT(4), 0, RST_BASE_TYPE_APMU }, [RESET_VPU] = { APMU_VPU_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_GPU] = { APMU_GPU_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_SDH2] = { APMU_SDH2_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_MC] = { APMU_PMUA_MC_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_EM_AXI] = { APMU_PMUA_EM_CLK_RES_CTRL, BIT(0), BIT(0), 0, RST_BASE_TYPE_APMU }, [RESET_EM] = { APMU_PMUA_EM_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_AUDIO_SYS] = { APMU_AUDIO_CLK_RES_CTRL, BIT(0) | BIT(2) | BIT(3), BIT(0) | BIT(2) | BIT(3), 0, RST_BASE_TYPE_APMU }, [RESET_HDMI] = { APMU_HDMI_CLK_RES_CTRL, BIT(9), BIT(9), 0, RST_BASE_TYPE_APMU }, [RESET_PCIE0] = { APMU_PCIE_CLK_RES_CTRL_0, BIT(3) | BIT(4) | BIT(5) | BIT(8), BIT(3) | BIT(4) | BIT(5), BIT(8), RST_BASE_TYPE_APMU }, [RESET_PCIE1] = { APMU_PCIE_CLK_RES_CTRL_1, BIT(3) | BIT(4) | BIT(5) | BIT(8), BIT(3) | BIT(4) | BIT(5), BIT(8), RST_BASE_TYPE_APMU }, [RESET_PCIE2] = { APMU_PCIE_CLK_RES_CTRL_2, 0x138, 0x38, 0x100, RST_BASE_TYPE_APMU }, [RESET_EMAC0] = { APMU_EMAC0_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_EMAC1] = { APMU_EMAC1_CLK_RES_CTRL, BIT(1), BIT(1), 0, RST_BASE_TYPE_APMU }, [RESET_SEC_UART1] = { APBC2_UART1_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC2 }, [RESET_SEC_SSP2] = { APBC2_SSP2_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC2 }, [RESET_SEC_TWSI3] = { APBC2_TWSI3_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC2 }, [RESET_SEC_RTC] = { APBC2_RTC_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC2 }, [RESET_SEC_TIMERS0] = { APBC2_TIMERS0_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC2 }, [RESET_SEC_KPC] = { APBC2_KPC_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC2 }, [RESET_SEC_GPIO] = { APBC2_GPIO_CLK_RST, BIT(2), 0, BIT(2), RST_BASE_TYPE_APBC2 }, }; static u32 spacemit_reset_read(struct spacemit_reset *reset, u32 id) { void __iomem *base; switch (reset->signals[id].type) { case RST_BASE_TYPE_APMU: base = reset->io_base.apmu_base; break; case RST_BASE_TYPE_APBC: base = reset->io_base.apbc_base; break; default: base = reset->io_base.apbc_base; break; } return readl(base + reset->signals[id].offset); } static void spacemit_reset_write(struct spacemit_reset *reset, u32 value, u32 id) { void __iomem *base; switch (reset->signals[id].type) { case RST_BASE_TYPE_APMU: base = reset->io_base.apmu_base; break; case RST_BASE_TYPE_APBC: base = reset->io_base.apbc_base; break; default: base = reset->io_base.apbc_base; break; } writel(value, base + reset->signals[id].offset); } static void spacemit_reset_set(struct reset_ctl *rst, u32 id, bool assert) { u32 value; struct spacemit_reset *reset = dev_get_priv(rst->dev); value = spacemit_reset_read(reset, id); if (assert) { value &= ~reset->signals[id].mask; value |= reset->signals[id].assert_val; } else { value &= ~reset->signals[id].mask; value |= reset->signals[id].deassert_val; } spacemit_reset_write(reset, value, id); } static int spacemit_reset_update(struct reset_ctl *rst, bool assert) { if (rst->id < RESET_UART1 || rst->id >= RESET_NUMBER) return 0; /* can not write to twsi8 */ if (rst->id == RESET_TWSI8) return 0; spacemit_reset_set(rst, rst->id, assert); return 0; } static int spacemit_reset_assert(struct reset_ctl *rst) { return spacemit_reset_update(rst, true); } static int spacemit_reset_deassert(struct reset_ctl *rst) { return spacemit_reset_update(rst, false); } static int spacemit_k1_reset_probe(struct udevice *dev) { struct spacemit_reset *reset = dev_get_priv(dev); reset->io_base.mpmu_base = (void *)dev_remap_addr_index(dev, 0); if (!reset->io_base.mpmu_base) { pr_err("failed to map mpmu registers\n"); goto out; } reset->io_base.apmu_base = (void *)dev_remap_addr_index(dev, 1); if (!reset->io_base.apmu_base) { pr_err("failed to map apmu registers\n"); goto out; } reset->io_base.apbc_base = (void *)dev_remap_addr_index(dev, 2); if (!reset->io_base.apbc_base) { pr_err("failed to map apbc registers\n"); goto out; } reset->io_base.apbs_base = (void *)dev_remap_addr_index(dev, 3); if (!reset->io_base.apbs_base) { pr_err("failed to map apbs registers\n"); goto out; } reset->io_base.ciu_base = (void *)dev_remap_addr_index(dev, 4); if (!reset->io_base.ciu_base) { pr_err("failed to map ciu registers\n"); goto out; } reset->io_base.dciu_base = (void *)dev_remap_addr_index(dev, 5); if (!reset->io_base.dciu_base) { pr_err("failed to map dragon ciu registers\n"); goto out; } reset->io_base.ddrc_base = (void *)dev_remap_addr_index(dev, 6); if (!reset->io_base.ddrc_base) { pr_err("failed to map ddrc registers\n"); goto out; } reset->io_base.apbc2_base = (void *)dev_remap_addr_index(dev, 7); if (!reset->io_base.apbc2_base) { pr_err("failed to map apbc2 registers\n"); goto out; } reset->signals = k1_reset_signals; out: return 0; } const struct reset_ops k1_reset_ops = { .rst_assert = spacemit_reset_assert, .rst_deassert = spacemit_reset_deassert, }; static const struct udevice_id k1_reset_ids[] = { { .compatible = "spacemit,k1-reset", }, {}, }; U_BOOT_DRIVER(k1_reset) = { .name = "spacemit,k1-reset", .id = UCLASS_RESET, .ops = &k1_reset_ops, .of_match = k1_reset_ids, .probe = spacemit_k1_reset_probe, .priv_auto = sizeof(struct spacemit_reset), };