// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (C) STMicroelectronics 2023 - All Rights Reserved * Author: Gabriel Fernandez for STMicroelectronics. */ #include #include #include #include #include "clk-stm32-core.h" #include "reset-stm32.h" #include "stm32mp21_rcc.h" #include #include /* Max clock binding value */ #define STM32MP21_LAST_CLK CK_SCMI_KER_ETR /* Clock security definition */ #define SECF_NONE -1 #define RCC_REG_SIZE 32 #define RCC_SECCFGR(x) (((x) / RCC_REG_SIZE) * 0x4 + RCC_SECCFGR0) #define RCC_CIDCFGR(x) ((x) * 0x8 + RCC_R0CIDCFGR) #define RCC_SEMCR(x) ((x) * 0x8 + RCC_R0SEMCR) #define RCC_CID1 1 /* Register: RIFSC_CIDCFGR */ #define RCC_CIDCFGR_CFEN BIT(0) #define RCC_CIDCFGR_SEM_EN BIT(1) #define RCC_CIDCFGR_SEMWLC1_EN BIT(17) #define RCC_CIDCFGR_SCID_MASK GENMASK(6, 4) /* Register: RIFSC_SEMCR */ #define RCC_SEMCR_SEMCID_MASK GENMASK(6, 4) #define MP21_RIF_RCC_MCO1 108 #define MP21_RIF_RCC_MCO2 109 #define SEC_RIFSC_FLAG BIT(31) #define SEC_RIFSC(_id) ((_id) | SEC_RIFSC_FLAG) enum { HSE, HSI, MSI, LSE, LSI, HSE_DIV2, ICN_HS_MCU, ICN_LS_MCU, ICN_SDMMC, ICN_DDR, ICN_DISPLAY, ICN_HSL, ICN_NIC, FLEXGEN_07, FLEXGEN_08, FLEXGEN_09, FLEXGEN_10, FLEXGEN_11, FLEXGEN_12, FLEXGEN_13, FLEXGEN_14, FLEXGEN_16, FLEXGEN_17, FLEXGEN_18, FLEXGEN_19, FLEXGEN_20, FLEXGEN_21, FLEXGEN_22, FLEXGEN_23, FLEXGEN_24, FLEXGEN_25, FLEXGEN_26, FLEXGEN_27, FLEXGEN_29, FLEXGEN_30, FLEXGEN_31, FLEXGEN_33, FLEXGEN_36, FLEXGEN_37, FLEXGEN_38, FLEXGEN_39, FLEXGEN_40, FLEXGEN_41, FLEXGEN_42, FLEXGEN_43, FLEXGEN_44, FLEXGEN_45, FLEXGEN_46, FLEXGEN_47, FLEXGEN_48, FLEXGEN_50, FLEXGEN_51, FLEXGEN_52, FLEXGEN_53, FLEXGEN_54, FLEXGEN_55, FLEXGEN_56, FLEXGEN_57, FLEXGEN_58, FLEXGEN_61, FLEXGEN_62, FLEXGEN_63, ICN_APB1, ICN_APB2, ICN_APB3, ICN_APB4, ICN_APB5, ICN_APBDBG, TIMG1, TIMG2, }; static const struct clk_parent_data adc1_src[] = { { .index = FLEXGEN_46 }, { .index = ICN_LS_MCU }, }; static const struct clk_parent_data adc2_src[] = { { .index = FLEXGEN_47 }, { .index = ICN_LS_MCU }, { .index = FLEXGEN_46 }, }; static const struct clk_parent_data usb2phy1_src[] = { { .index = FLEXGEN_57 }, { .index = HSE_DIV2 }, }; static const struct clk_parent_data usb2phy2_src[] = { { .index = FLEXGEN_58 }, { .index = HSE_DIV2 }, }; static const struct clk_parent_data dts_src[] = { { .index = HSI }, { .index = HSE }, { .index = MSI }, }; static const struct clk_parent_data mco1_src[] = { { .index = FLEXGEN_61 }, }; static const struct clk_parent_data mco2_src[] = { { .index = FLEXGEN_62 }, }; enum enum_mux_cfg { MUX_ADC1, MUX_ADC2, MUX_DTS, MUX_MCO1, MUX_MCO2, MUX_USB2PHY1, MUX_USB2PHY2, MUX_NB }; #define MUX_CFG(id, _offset, _shift, _width) \ [id] = { \ .offset = (_offset), \ .shift = (_shift), \ .width = (_width), \ } static const struct stm32_mux_cfg stm32mp21_muxes[MUX_NB] = { MUX_CFG(MUX_ADC1, RCC_ADC1CFGR, 12, 1), MUX_CFG(MUX_ADC2, RCC_ADC2CFGR, 12, 2), MUX_CFG(MUX_DTS, RCC_DTSCFGR, 12, 2), MUX_CFG(MUX_MCO1, RCC_MCO1CFGR, 0, 1), MUX_CFG(MUX_MCO2, RCC_MCO2CFGR, 0, 1), MUX_CFG(MUX_USB2PHY1, RCC_USB2PHY1CFGR, 15, 1), MUX_CFG(MUX_USB2PHY2, RCC_USB2PHY2CFGR, 15, 1), }; enum enum_gate_cfg { GATE_ADC1, GATE_ADC2, GATE_CRC, GATE_CRYP1, GATE_CRYP2, GATE_CSI, GATE_DCMIPP, GATE_DCMIPSSI, GATE_DDRPERFM, GATE_DTS, GATE_ETH1, GATE_ETH1MAC, GATE_ETH1RX, GATE_ETH1STP, GATE_ETH1TX, GATE_ETH2, GATE_ETH2MAC, GATE_ETH2RX, GATE_ETH2STP, GATE_ETH2TX, GATE_FDCAN, GATE_HASH1, GATE_HASH2, GATE_HDP, GATE_I2C1, GATE_I2C2, GATE_I2C3, GATE_I3C1, GATE_I3C2, GATE_I3C3, GATE_IWDG1, GATE_IWDG2, GATE_IWDG3, GATE_IWDG4, GATE_LPTIM1, GATE_LPTIM2, GATE_LPTIM3, GATE_LPTIM4, GATE_LPTIM5, GATE_LPUART1, GATE_LTDC, GATE_MCO1, GATE_MCO2, GATE_MDF1, GATE_OTG, GATE_PKA, GATE_RNG1, GATE_RNG2, GATE_SAES, GATE_SAI1, GATE_SAI2, GATE_SAI3, GATE_SAI4, GATE_SDMMC1, GATE_SDMMC2, GATE_SDMMC3, GATE_SERC, GATE_SPDIFRX, GATE_SPI1, GATE_SPI2, GATE_SPI3, GATE_SPI4, GATE_SPI5, GATE_SPI6, GATE_TIM1, GATE_TIM10, GATE_TIM11, GATE_TIM12, GATE_TIM13, GATE_TIM14, GATE_TIM15, GATE_TIM16, GATE_TIM17, GATE_TIM2, GATE_TIM3, GATE_TIM4, GATE_TIM5, GATE_TIM6, GATE_TIM7, GATE_TIM8, GATE_UART4, GATE_UART5, GATE_UART7, GATE_USART1, GATE_USART2, GATE_USART3, GATE_USART6, GATE_USB2PHY1, GATE_USB2PHY2, GATE_USBH, GATE_VREF, GATE_WWDG1, GATE_NB }; #define GATE_CFG(id, _offset, _bit_idx, _offset_clr) \ [id] = { \ .offset = (_offset), \ .bit_idx = (_bit_idx), \ .set_clr = (_offset_clr), \ } static const struct stm32_gate_cfg stm32mp21_gates[GATE_NB] = { GATE_CFG(GATE_ADC1, RCC_ADC1CFGR, 1, 0), GATE_CFG(GATE_ADC2, RCC_ADC2CFGR, 1, 0), GATE_CFG(GATE_CRC, RCC_CRCCFGR, 1, 0), GATE_CFG(GATE_CRYP1, RCC_CRYP1CFGR, 1, 0), GATE_CFG(GATE_CRYP2, RCC_CRYP2CFGR, 1, 0), GATE_CFG(GATE_CSI, RCC_CSICFGR, 1, 0), GATE_CFG(GATE_DCMIPP, RCC_DCMIPPCFGR, 1, 0), GATE_CFG(GATE_DCMIPSSI, RCC_DCMIPSSICFGR, 1, 0), GATE_CFG(GATE_DDRPERFM, RCC_DDRPERFMCFGR, 1, 0), GATE_CFG(GATE_DTS, RCC_DTSCFGR, 1, 0), GATE_CFG(GATE_ETH1, RCC_ETH1CFGR, 5, 0), GATE_CFG(GATE_ETH1MAC, RCC_ETH1CFGR, 1, 0), GATE_CFG(GATE_ETH1RX, RCC_ETH1CFGR, 10, 0), GATE_CFG(GATE_ETH1STP, RCC_ETH1CFGR, 4, 0), GATE_CFG(GATE_ETH1TX, RCC_ETH1CFGR, 8, 0), GATE_CFG(GATE_ETH2, RCC_ETH2CFGR, 5, 0), GATE_CFG(GATE_ETH2MAC, RCC_ETH2CFGR, 1, 0), GATE_CFG(GATE_ETH2RX, RCC_ETH2CFGR, 10, 0), GATE_CFG(GATE_ETH2STP, RCC_ETH2CFGR, 4, 0), GATE_CFG(GATE_ETH2TX, RCC_ETH2CFGR, 8, 0), GATE_CFG(GATE_FDCAN, RCC_FDCANCFGR, 1, 0), GATE_CFG(GATE_HASH1, RCC_HASH1CFGR, 1, 0), GATE_CFG(GATE_HASH2, RCC_HASH2CFGR, 1, 0), GATE_CFG(GATE_HDP, RCC_HDPCFGR, 1, 0), GATE_CFG(GATE_I2C1, RCC_I2C1CFGR, 1, 0), GATE_CFG(GATE_I2C2, RCC_I2C2CFGR, 1, 0), GATE_CFG(GATE_I2C3, RCC_I2C3CFGR, 1, 0), GATE_CFG(GATE_I3C1, RCC_I3C1CFGR, 1, 0), GATE_CFG(GATE_I3C2, RCC_I3C2CFGR, 1, 0), GATE_CFG(GATE_I3C3, RCC_I3C3CFGR, 1, 0), GATE_CFG(GATE_IWDG1, RCC_IWDG1CFGR, 1, 0), GATE_CFG(GATE_IWDG2, RCC_IWDG2CFGR, 1, 0), GATE_CFG(GATE_IWDG3, RCC_IWDG3CFGR, 1, 0), GATE_CFG(GATE_IWDG4, RCC_IWDG4CFGR, 1, 0), GATE_CFG(GATE_LPTIM1, RCC_LPTIM1CFGR, 1, 0), GATE_CFG(GATE_LPTIM2, RCC_LPTIM2CFGR, 1, 0), GATE_CFG(GATE_LPTIM3, RCC_LPTIM3CFGR, 1, 0), GATE_CFG(GATE_LPTIM4, RCC_LPTIM4CFGR, 1, 0), GATE_CFG(GATE_LPTIM5, RCC_LPTIM5CFGR, 1, 0), GATE_CFG(GATE_LPUART1, RCC_LPUART1CFGR, 1, 0), GATE_CFG(GATE_LTDC, RCC_LTDCCFGR, 1, 0), GATE_CFG(GATE_MCO1, RCC_MCO1CFGR, 8, 0), GATE_CFG(GATE_MCO2, RCC_MCO2CFGR, 8, 0), GATE_CFG(GATE_MDF1, RCC_MDF1CFGR, 1, 0), GATE_CFG(GATE_OTG, RCC_OTGCFGR, 1, 0), GATE_CFG(GATE_PKA, RCC_PKACFGR, 1, 0), GATE_CFG(GATE_RNG1, RCC_RNG1CFGR, 1, 0), GATE_CFG(GATE_RNG2, RCC_RNG2CFGR, 1, 0), GATE_CFG(GATE_SAES, RCC_SAESCFGR, 1, 0), GATE_CFG(GATE_SAI1, RCC_SAI1CFGR, 1, 0), GATE_CFG(GATE_SAI2, RCC_SAI2CFGR, 1, 0), GATE_CFG(GATE_SAI3, RCC_SAI3CFGR, 1, 0), GATE_CFG(GATE_SAI4, RCC_SAI4CFGR, 1, 0), GATE_CFG(GATE_SDMMC1, RCC_SDMMC1CFGR, 1, 0), GATE_CFG(GATE_SDMMC2, RCC_SDMMC2CFGR, 1, 0), GATE_CFG(GATE_SDMMC3, RCC_SDMMC3CFGR, 1, 0), GATE_CFG(GATE_SERC, RCC_SERCCFGR, 1, 0), GATE_CFG(GATE_SPDIFRX, RCC_SPDIFRXCFGR, 1, 0), GATE_CFG(GATE_SPI1, RCC_SPI1CFGR, 1, 0), GATE_CFG(GATE_SPI2, RCC_SPI2CFGR, 1, 0), GATE_CFG(GATE_SPI3, RCC_SPI3CFGR, 1, 0), GATE_CFG(GATE_SPI4, RCC_SPI4CFGR, 1, 0), GATE_CFG(GATE_SPI5, RCC_SPI5CFGR, 1, 0), GATE_CFG(GATE_SPI6, RCC_SPI6CFGR, 1, 0), GATE_CFG(GATE_TIM1, RCC_TIM1CFGR, 1, 0), GATE_CFG(GATE_TIM10, RCC_TIM10CFGR, 1, 0), GATE_CFG(GATE_TIM11, RCC_TIM11CFGR, 1, 0), GATE_CFG(GATE_TIM12, RCC_TIM12CFGR, 1, 0), GATE_CFG(GATE_TIM13, RCC_TIM13CFGR, 1, 0), GATE_CFG(GATE_TIM14, RCC_TIM14CFGR, 1, 0), GATE_CFG(GATE_TIM15, RCC_TIM15CFGR, 1, 0), GATE_CFG(GATE_TIM16, RCC_TIM16CFGR, 1, 0), GATE_CFG(GATE_TIM17, RCC_TIM17CFGR, 1, 0), GATE_CFG(GATE_TIM2, RCC_TIM2CFGR, 1, 0), GATE_CFG(GATE_TIM3, RCC_TIM3CFGR, 1, 0), GATE_CFG(GATE_TIM4, RCC_TIM4CFGR, 1, 0), GATE_CFG(GATE_TIM5, RCC_TIM5CFGR, 1, 0), GATE_CFG(GATE_TIM6, RCC_TIM6CFGR, 1, 0), GATE_CFG(GATE_TIM7, RCC_TIM7CFGR, 1, 0), GATE_CFG(GATE_TIM8, RCC_TIM8CFGR, 1, 0), GATE_CFG(GATE_UART4, RCC_UART4CFGR, 1, 0), GATE_CFG(GATE_UART5, RCC_UART5CFGR, 1, 0), GATE_CFG(GATE_UART7, RCC_UART7CFGR, 1, 0), GATE_CFG(GATE_USART1, RCC_USART1CFGR, 1, 0), GATE_CFG(GATE_USART2, RCC_USART2CFGR, 1, 0), GATE_CFG(GATE_USART3, RCC_USART3CFGR, 1, 0), GATE_CFG(GATE_USART6, RCC_USART6CFGR, 1, 0), GATE_CFG(GATE_USB2PHY1, RCC_USB2PHY1CFGR, 1, 0), GATE_CFG(GATE_USB2PHY2, RCC_USB2PHY2CFGR, 1, 0), GATE_CFG(GATE_USBH, RCC_USBHCFGR, 1, 0), GATE_CFG(GATE_VREF, RCC_VREFCFGR, 1, 0), GATE_CFG(GATE_WWDG1, RCC_WWDG1CFGR, 1, 0), }; #define CLK_HW_INIT_INDEX(_name, _parent, _ops, _flags) \ (&(struct clk_init_data) { \ .flags = _flags, \ .name = _name, \ .parent_data = (const struct clk_parent_data[]) { \ { .index = _parent }, \ }, \ .num_parents = 1, \ .ops = _ops, \ }) /* ADC */ static struct clk_stm32_gate ck_icn_p_adc1 = { .gate_id = GATE_ADC1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_adc1", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_composite ck_ker_adc1 = { .gate_id = GATE_ADC1, .mux_id = MUX_ADC1, .div_id = NO_STM32_DIV, .hw.init = CLK_HW_INIT_PARENTS_DATA("ck_ker_adc1", adc1_src, &clk_stm32_composite_ops, 0), }; static struct clk_stm32_gate ck_icn_p_adc2 = { .gate_id = GATE_ADC2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_adc2", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_composite ck_ker_adc2 = { .gate_id = GATE_ADC2, .mux_id = MUX_ADC2, .div_id = NO_STM32_DIV, .hw.init = CLK_HW_INIT_PARENTS_DATA("ck_ker_adc2", adc2_src, &clk_stm32_composite_ops, 0), }; /* CSI-HOST */ static struct clk_stm32_gate ck_icn_p_csi = { .gate_id = GATE_CSI, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_csi", ICN_APB4, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_csi = { .gate_id = GATE_CSI, .hw.init = CLK_HW_INIT_INDEX("ck_ker_csi", FLEXGEN_29, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_csitxesc = { .gate_id = GATE_CSI, .hw.init = CLK_HW_INIT_INDEX("ck_ker_csitxesc", FLEXGEN_30, &clk_stm32_gate_ops, 0), }; /* CSI-PHY */ static struct clk_stm32_gate ck_ker_csiphy = { .gate_id = GATE_CSI, .hw.init = CLK_HW_INIT_INDEX("ck_ker_csiphy", FLEXGEN_31, &clk_stm32_gate_ops, 0), }; /* DCMIPP */ static struct clk_stm32_gate ck_icn_p_dcmipp = { .gate_id = GATE_DCMIPP, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_dcmipp", ICN_APB4, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_dcmipssi = { .gate_id = GATE_DCMIPSSI, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_dcmipssi", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* DDRPERMF */ static struct clk_stm32_gate ck_icn_p_ddrperfm = { .gate_id = GATE_DDRPERFM, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_ddrperfm", ICN_APB4, &clk_stm32_gate_ops, 0), }; /* CRC */ static struct clk_stm32_gate ck_icn_p_crc = { .gate_id = GATE_CRC, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_crc", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* CRYP */ static struct clk_stm32_gate ck_icn_p_cryp1 = { .gate_id = GATE_CRYP1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_cryp1", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_cryp2 = { .gate_id = GATE_CRYP2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_cryp2", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* DBG & TRACE */ /* Trace and debug clocks are managed by SCMI */ /* LTDC */ static struct clk_stm32_gate ck_icn_p_ltdc = { .gate_id = GATE_LTDC, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_ltdc", ICN_APB4, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_ltdc = { .gate_id = GATE_LTDC, .hw.init = CLK_HW_INIT_INDEX("ck_ker_ltdc", FLEXGEN_27, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; /* DTS */ static struct clk_stm32_composite ck_ker_dts = { .gate_id = GATE_DTS, .mux_id = MUX_DTS, .div_id = NO_STM32_DIV, .hw.init = CLK_HW_INIT_PARENTS_DATA("ck_ker_dts", dts_src, &clk_stm32_composite_ops, 0), }; /* ETHERNET */ static struct clk_stm32_gate ck_icn_p_eth1 = { .gate_id = GATE_ETH1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_eth1", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth1stp = { .gate_id = GATE_ETH1STP, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth1stp", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth1 = { .gate_id = GATE_ETH1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth1", FLEXGEN_54, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth1ptp = { .gate_id = GATE_ETH1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth1ptp", FLEXGEN_56, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth1mac = { .gate_id = GATE_ETH1MAC, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth1mac", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth1tx = { .gate_id = GATE_ETH1TX, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth1tx", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth1rx = { .gate_id = GATE_ETH1RX, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth1rx", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_eth2 = { .gate_id = GATE_ETH2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_eth2", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth2stp = { .gate_id = GATE_ETH2STP, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth2stp", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth2 = { .gate_id = GATE_ETH2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth2", FLEXGEN_55, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth2ptp = { .gate_id = GATE_ETH2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth2ptp", FLEXGEN_56, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth2mac = { .gate_id = GATE_ETH2MAC, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth2mac", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth2tx = { .gate_id = GATE_ETH2TX, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth2tx", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_eth2rx = { .gate_id = GATE_ETH2RX, .hw.init = CLK_HW_INIT_INDEX("ck_ker_eth2rx", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* FDCAN */ static struct clk_stm32_gate ck_icn_p_fdcan = { .gate_id = GATE_FDCAN, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_fdcan", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_fdcan = { .gate_id = GATE_FDCAN, .hw.init = CLK_HW_INIT_INDEX("ck_ker_fdcan", FLEXGEN_26, &clk_stm32_gate_ops, 0), }; /* HASH */ static struct clk_stm32_gate ck_icn_p_hash1 = { .gate_id = GATE_HASH1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_hash1", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_hash2 = { .gate_id = GATE_HASH2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_hash2", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* HDP */ static struct clk_stm32_gate ck_icn_p_hdp = { .gate_id = GATE_HDP, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_hdp", ICN_APB3, &clk_stm32_gate_ops, 0), }; /* I2C */ static struct clk_stm32_gate ck_icn_p_i2c1 = { .gate_id = GATE_I2C1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_i2c1", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_i2c2 = { .gate_id = GATE_I2C2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_i2c2", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_i2c3 = { .gate_id = GATE_I2C3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_i2c3", ICN_APB5, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_i2c1 = { .gate_id = GATE_I2C1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_i2c1", FLEXGEN_13, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_i2c2 = { .gate_id = GATE_I2C2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_i2c2", FLEXGEN_13, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_i2c3 = { .gate_id = GATE_I2C3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_i2c3", FLEXGEN_38, &clk_stm32_gate_ops, 0), }; /* I3C */ static struct clk_stm32_gate ck_icn_p_i3c1 = { .gate_id = GATE_I3C1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_i3c1", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_i3c2 = { .gate_id = GATE_I3C2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_i3c2", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_i3c3 = { .gate_id = GATE_I3C3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_i3c3", ICN_APB5, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_i3c1 = { .gate_id = GATE_I3C1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_i3c1", FLEXGEN_14, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_i3c2 = { .gate_id = GATE_I3C2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_i3c2", FLEXGEN_14, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_i3c3 = { .gate_id = GATE_I3C3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_i3c3", FLEXGEN_36, &clk_stm32_gate_ops, 0), }; /* IWDG */ static struct clk_stm32_gate ck_icn_p_iwdg1 = { .gate_id = GATE_IWDG1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_iwdg1", ICN_APB3, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_iwdg2 = { .gate_id = GATE_IWDG2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_iwdg2", ICN_APB3, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_iwdg3 = { .gate_id = GATE_IWDG3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_iwdg3", ICN_APB3, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_iwdg4 = { .gate_id = GATE_IWDG4, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_iwdg4", ICN_APB3, &clk_stm32_gate_ops, 0), }; /* LPTIM */ static struct clk_stm32_gate ck_icn_p_lptim1 = { .gate_id = GATE_LPTIM1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_lptim1", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_lptim2 = { .gate_id = GATE_LPTIM2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_lptim2", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_lptim3 = { .gate_id = GATE_LPTIM3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_lptim3", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_lptim4 = { .gate_id = GATE_LPTIM4, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_lptim4", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_lptim5 = { .gate_id = GATE_LPTIM5, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_lptim5", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_lptim1 = { .gate_id = GATE_LPTIM1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_lptim1", FLEXGEN_07, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_lptim2 = { .gate_id = GATE_LPTIM2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_lptim2", FLEXGEN_07, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_lptim3 = { .gate_id = GATE_LPTIM3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_lptim3", FLEXGEN_40, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_lptim4 = { .gate_id = GATE_LPTIM4, .hw.init = CLK_HW_INIT_INDEX("ck_ker_lptim4", FLEXGEN_41, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_lptim5 = { .gate_id = GATE_LPTIM5, .hw.init = CLK_HW_INIT_INDEX("ck_ker_lptim5", FLEXGEN_42, &clk_stm32_gate_ops, 0), }; /* LPUART */ static struct clk_stm32_gate ck_icn_p_lpuart1 = { .gate_id = GATE_LPUART1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_lpuart1", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_lpuart1 = { .gate_id = GATE_LPUART1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_lpuart1", FLEXGEN_39, &clk_stm32_gate_ops, 0), }; /* MCO1 & MCO2 */ static struct clk_stm32_composite ck_mco1 = { .gate_id = GATE_MCO1, .mux_id = MUX_MCO1, .div_id = NO_STM32_DIV, .hw.init = CLK_HW_INIT_PARENTS_DATA("ck_mco1", mco1_src, &clk_stm32_composite_ops, 0), }; static struct clk_stm32_composite ck_mco2 = { .gate_id = GATE_MCO2, .mux_id = MUX_MCO2, .div_id = NO_STM32_DIV, .hw.init = CLK_HW_INIT_PARENTS_DATA("ck_mco2", mco2_src, &clk_stm32_composite_ops, 0), }; /* MDF */ static struct clk_stm32_gate ck_icn_p_mdf1 = { .gate_id = GATE_MDF1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_mdf1", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_mdf1 = { .gate_id = GATE_MDF1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_mdf1", FLEXGEN_21, &clk_stm32_gate_ops, 0), }; /* OTG */ static struct clk_stm32_gate ck_icn_m_otg = { .gate_id = GATE_OTG, .hw.init = CLK_HW_INIT_INDEX("ck_icn_m_otg", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* PKA */ static struct clk_stm32_gate ck_icn_p_pka = { .gate_id = GATE_PKA, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_pka", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* RNG */ static struct clk_stm32_gate ck_icn_p_rng1 = { .gate_id = GATE_RNG1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_rng1", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_rng2 = { .gate_id = GATE_RNG2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_rng2", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* SAES */ static struct clk_stm32_gate ck_icn_p_saes = { .gate_id = GATE_SAES, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_saes", ICN_LS_MCU, &clk_stm32_gate_ops, 0), }; /* SAI */ static struct clk_stm32_gate ck_icn_p_sai1 = { .gate_id = GATE_SAI1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_sai1", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_sai2 = { .gate_id = GATE_SAI2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_sai2", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_sai3 = { .gate_id = GATE_SAI3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_sai3", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_sai4 = { .gate_id = GATE_SAI4, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_sai4", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_sai1 = { .gate_id = GATE_SAI1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_sai1", FLEXGEN_22, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; static struct clk_stm32_gate ck_ker_sai2 = { .gate_id = GATE_SAI2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_sai2", FLEXGEN_23, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; static struct clk_stm32_gate ck_ker_sai3 = { .gate_id = GATE_SAI3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_sai3", FLEXGEN_24, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; static struct clk_stm32_gate ck_ker_sai4 = { .gate_id = GATE_SAI4, .hw.init = CLK_HW_INIT_INDEX("ck_ker_sai4", FLEXGEN_25, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; /* SDMMC */ static struct clk_stm32_gate ck_icn_m_sdmmc1 = { .gate_id = GATE_SDMMC1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_m_sdmmc1", ICN_SDMMC, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_m_sdmmc2 = { .gate_id = GATE_SDMMC2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_m_sdmmc2", ICN_SDMMC, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_m_sdmmc3 = { .gate_id = GATE_SDMMC3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_m_sdmmc3", ICN_SDMMC, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_sdmmc1 = { .gate_id = GATE_SDMMC1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_sdmmc1", FLEXGEN_51, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_sdmmc2 = { .gate_id = GATE_SDMMC2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_sdmmc2", FLEXGEN_52, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_sdmmc3 = { .gate_id = GATE_SDMMC3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_sdmmc3", FLEXGEN_53, &clk_stm32_gate_ops, 0), }; /* SERC */ static struct clk_stm32_gate ck_icn_p_serc = { .gate_id = GATE_SERC, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_serc", ICN_APB3, &clk_stm32_gate_ops, 0), }; /* SPDIF */ static struct clk_stm32_gate ck_icn_p_spdifrx = { .gate_id = GATE_SPDIFRX, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_spdifrx", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_spdifrx = { .gate_id = GATE_SPDIFRX, .hw.init = CLK_HW_INIT_INDEX("ck_ker_spdifrx", FLEXGEN_12, &clk_stm32_gate_ops, 0), }; /* SPI */ static struct clk_stm32_gate ck_icn_p_spi1 = { .gate_id = GATE_SPI1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_spi1", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_spi2 = { .gate_id = GATE_SPI2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_spi2", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_spi3 = { .gate_id = GATE_SPI3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_spi3", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_spi4 = { .gate_id = GATE_SPI4, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_spi4", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_spi5 = { .gate_id = GATE_SPI5, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_spi5", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_spi6 = { .gate_id = GATE_SPI6, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_spi6", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_spi1 = { .gate_id = GATE_SPI1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_spi1", FLEXGEN_16, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; static struct clk_stm32_gate ck_ker_spi2 = { .gate_id = GATE_SPI2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_spi2", FLEXGEN_10, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; static struct clk_stm32_gate ck_ker_spi3 = { .gate_id = GATE_SPI3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_spi3", FLEXGEN_11, &clk_stm32_gate_ops, CLK_SET_RATE_PARENT), }; static struct clk_stm32_gate ck_ker_spi4 = { .gate_id = GATE_SPI4, .hw.init = CLK_HW_INIT_INDEX("ck_ker_spi4", FLEXGEN_17, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_spi5 = { .gate_id = GATE_SPI5, .hw.init = CLK_HW_INIT_INDEX("ck_ker_spi5", FLEXGEN_17, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_spi6 = { .gate_id = GATE_SPI6, .hw.init = CLK_HW_INIT_INDEX("ck_ker_spi6", FLEXGEN_37, &clk_stm32_gate_ops, 0), }; /* Timers */ static struct clk_stm32_gate ck_icn_p_tim2 = { .gate_id = GATE_TIM2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim2", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim3 = { .gate_id = GATE_TIM3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim3", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim4 = { .gate_id = GATE_TIM4, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim4", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim5 = { .gate_id = GATE_TIM5, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim5", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim6 = { .gate_id = GATE_TIM6, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim6", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim7 = { .gate_id = GATE_TIM7, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim7", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim10 = { .gate_id = GATE_TIM10, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim10", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim11 = { .gate_id = GATE_TIM11, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim11", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim12 = { .gate_id = GATE_TIM12, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim12", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim13 = { .gate_id = GATE_TIM13, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim13", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim14 = { .gate_id = GATE_TIM14, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim14", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim1 = { .gate_id = GATE_TIM1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim1", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim8 = { .gate_id = GATE_TIM8, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim8", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim15 = { .gate_id = GATE_TIM15, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim15", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim16 = { .gate_id = GATE_TIM16, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim16", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_tim17 = { .gate_id = GATE_TIM17, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_tim17", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim2 = { .gate_id = GATE_TIM2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim2", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim3 = { .gate_id = GATE_TIM3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim3", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim4 = { .gate_id = GATE_TIM4, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim4", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim5 = { .gate_id = GATE_TIM5, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim5", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim6 = { .gate_id = GATE_TIM6, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim6", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim7 = { .gate_id = GATE_TIM7, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim7", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim10 = { .gate_id = GATE_TIM10, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim10", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim11 = { .gate_id = GATE_TIM11, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim11", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim12 = { .gate_id = GATE_TIM12, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim12", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim13 = { .gate_id = GATE_TIM13, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim13", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim14 = { .gate_id = GATE_TIM14, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim14", TIMG1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim1 = { .gate_id = GATE_TIM1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim1", TIMG2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim8 = { .gate_id = GATE_TIM8, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim8", TIMG2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim15 = { .gate_id = GATE_TIM15, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim15", TIMG2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim16 = { .gate_id = GATE_TIM16, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim16", TIMG2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_tim17 = { .gate_id = GATE_TIM17, .hw.init = CLK_HW_INIT_INDEX("ck_ker_tim17", TIMG2, &clk_stm32_gate_ops, 0), }; /* UART/USART */ static struct clk_stm32_gate ck_icn_p_usart2 = { .gate_id = GATE_USART2, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_usart2", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_usart3 = { .gate_id = GATE_USART3, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_usart3", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_uart4 = { .gate_id = GATE_UART4, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_uart4", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_uart5 = { .gate_id = GATE_UART5, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_uart5", ICN_APB1, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_usart1 = { .gate_id = GATE_USART1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_usart1", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_usart6 = { .gate_id = GATE_USART6, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_usart6", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_p_uart7 = { .gate_id = GATE_UART7, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_uart7", ICN_APB2, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_usart2 = { .gate_id = GATE_USART2, .hw.init = CLK_HW_INIT_INDEX("ck_ker_usart2", FLEXGEN_08, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_uart4 = { .gate_id = GATE_UART4, .hw.init = CLK_HW_INIT_INDEX("ck_ker_uart4", FLEXGEN_08, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_usart3 = { .gate_id = GATE_USART3, .hw.init = CLK_HW_INIT_INDEX("ck_ker_usart3", FLEXGEN_09, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_uart5 = { .gate_id = GATE_UART5, .hw.init = CLK_HW_INIT_INDEX("ck_ker_uart5", FLEXGEN_09, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_usart1 = { .gate_id = GATE_USART1, .hw.init = CLK_HW_INIT_INDEX("ck_ker_usart1", FLEXGEN_18, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_usart6 = { .gate_id = GATE_USART6, .hw.init = CLK_HW_INIT_INDEX("ck_ker_usart6", FLEXGEN_19, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_ker_uart7 = { .gate_id = GATE_UART7, .hw.init = CLK_HW_INIT_INDEX("ck_ker_uart7", FLEXGEN_20, &clk_stm32_gate_ops, 0), }; /* USB2PHY1 */ static struct clk_stm32_composite ck_ker_usb2phy1 = { .gate_id = GATE_USB2PHY1, .mux_id = MUX_USB2PHY1, .div_id = NO_STM32_DIV, .hw.init = CLK_HW_INIT_PARENTS_DATA("ck_ker_usb2phy1", usb2phy1_src, &clk_stm32_composite_ops, 0), }; /* USBH */ static struct clk_stm32_gate ck_icn_m_usbhehci = { .gate_id = GATE_USBH, .hw.init = CLK_HW_INIT_INDEX("ck_icn_m_usbhehci", ICN_HSL, &clk_stm32_gate_ops, 0), }; static struct clk_stm32_gate ck_icn_m_usbhohci = { .gate_id = GATE_USBH, .hw.init = CLK_HW_INIT_INDEX("ck_icn_m_usbhohci", ICN_HSL, &clk_stm32_gate_ops, 0), }; /* USB2PHY2 */ static struct clk_stm32_composite ck_ker_usb2phy2_en = { .gate_id = GATE_USB2PHY2, .mux_id = MUX_USB2PHY2, .div_id = NO_STM32_DIV, .hw.init = CLK_HW_INIT_PARENTS_DATA("ck_ker_usb2phy2_en", usb2phy2_src, &clk_stm32_composite_ops, 0), }; /* VREF */ static struct clk_stm32_gate ck_icn_p_vref = { .gate_id = GATE_VREF, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_vref", ICN_APB3, &clk_stm32_gate_ops, 0), }; /* WWDG */ static struct clk_stm32_gate ck_icn_p_wwdg1 = { .gate_id = GATE_WWDG1, .hw.init = CLK_HW_INIT_INDEX("ck_icn_p_wwdg1", ICN_APB3, &clk_stm32_gate_ops, 0), }; static int stm32_rcc_get_access(void __iomem *base, u32 index) { u32 seccfgr, cidcfgr, semcr; int bit, cid; bit = index % RCC_REG_SIZE; seccfgr = readl(base + RCC_SECCFGR(index)); if (seccfgr & BIT(bit)) return -EACCES; cidcfgr = readl(base + RCC_CIDCFGR(index)); if (!(cidcfgr & RCC_CIDCFGR_CFEN)) /* CID filtering is turned off: access granted */ return 0; if (!(cidcfgr & RCC_CIDCFGR_SEM_EN)) { /* Static CID mode */ cid = FIELD_GET(RCC_CIDCFGR_SCID_MASK, cidcfgr); if (cid != RCC_CID1) return -EACCES; return 0; } /* Pass-list with semaphore mode */ if (!(cidcfgr & RCC_CIDCFGR_SEMWLC1_EN)) return -EACCES; semcr = readl(base + RCC_SEMCR(index)); cid = FIELD_GET(RCC_SEMCR_SEMCID_MASK, semcr); if (cid != RCC_CID1) return -EACCES; return 0; } static int stm32mp21_check_security(struct device_node *np, void __iomem *base, const struct clock_config *cfg) { int ret = 0; if (cfg->sec_id != SECF_NONE) { struct stm32_firewall firewall; u32 index = (u32)cfg->sec_id; if (index & SEC_RIFSC_FLAG) { ret = stm32_firewall_get_firewall(np, &firewall, 1); if (ret) return ret; ret = stm32_firewall_grant_access_by_id(&firewall, index & ~SEC_RIFSC_FLAG); } else { ret = stm32_rcc_get_access(base, cfg->sec_id & ~SEC_RIFSC_FLAG); } } return ret; } static const struct clock_config stm32mp21_clock_cfg[] = { STM32_GATE_CFG(CK_BUS_ETH1, ck_icn_p_eth1, SEC_RIFSC(60)), STM32_GATE_CFG(CK_BUS_ETH2, ck_icn_p_eth2, SEC_RIFSC(61)), STM32_GATE_CFG(CK_BUS_ADC1, ck_icn_p_adc1, SEC_RIFSC(58)), STM32_GATE_CFG(CK_BUS_ADC2, ck_icn_p_adc2, SEC_RIFSC(59)), STM32_GATE_CFG(CK_BUS_CRC, ck_icn_p_crc, SEC_RIFSC(109)), STM32_GATE_CFG(CK_BUS_MDF1, ck_icn_p_mdf1, SEC_RIFSC(54)), STM32_GATE_CFG(CK_BUS_HASH1, ck_icn_p_hash1, SEC_RIFSC(96)), STM32_GATE_CFG(CK_BUS_HASH2, ck_icn_p_hash2, SEC_RIFSC(97)), STM32_GATE_CFG(CK_BUS_RNG1, ck_icn_p_rng1, SEC_RIFSC(92)), STM32_GATE_CFG(CK_BUS_RNG2, ck_icn_p_rng2, SEC_RIFSC(93)), STM32_GATE_CFG(CK_BUS_CRYP1, ck_icn_p_cryp1, SEC_RIFSC(98)), STM32_GATE_CFG(CK_BUS_CRYP2, ck_icn_p_cryp2, SEC_RIFSC(99)), STM32_GATE_CFG(CK_BUS_SAES, ck_icn_p_saes, SEC_RIFSC(95)), STM32_GATE_CFG(CK_BUS_PKA, ck_icn_p_pka, SEC_RIFSC(94)), STM32_GATE_CFG(CK_BUS_LPUART1, ck_icn_p_lpuart1, SEC_RIFSC(40)), STM32_GATE_CFG(CK_BUS_LPTIM3, ck_icn_p_lptim3, SEC_RIFSC(19)), STM32_GATE_CFG(CK_BUS_LPTIM4, ck_icn_p_lptim4, SEC_RIFSC(20)), STM32_GATE_CFG(CK_BUS_LPTIM5, ck_icn_p_lptim5, SEC_RIFSC(21)), STM32_GATE_CFG(CK_BUS_SDMMC1, ck_icn_m_sdmmc1, SEC_RIFSC(76)), STM32_GATE_CFG(CK_BUS_SDMMC2, ck_icn_m_sdmmc2, SEC_RIFSC(77)), STM32_GATE_CFG(CK_BUS_SDMMC3, ck_icn_m_sdmmc3, SEC_RIFSC(78)), STM32_GATE_CFG(CK_BUS_USBHOHCI, ck_icn_m_usbhohci, SEC_RIFSC(63)), STM32_GATE_CFG(CK_BUS_USBHEHCI, ck_icn_m_usbhehci, SEC_RIFSC(63)), STM32_GATE_CFG(CK_BUS_OTG, ck_icn_m_otg, SEC_RIFSC(66)), STM32_GATE_CFG(CK_BUS_TIM2, ck_icn_p_tim2, SEC_RIFSC(1)), STM32_GATE_CFG(CK_BUS_TIM3, ck_icn_p_tim3, SEC_RIFSC(2)), STM32_GATE_CFG(CK_BUS_TIM4, ck_icn_p_tim4, SEC_RIFSC(3)), STM32_GATE_CFG(CK_BUS_TIM5, ck_icn_p_tim5, SEC_RIFSC(4)), STM32_GATE_CFG(CK_BUS_TIM6, ck_icn_p_tim6, SEC_RIFSC(5)), STM32_GATE_CFG(CK_BUS_TIM7, ck_icn_p_tim7, SEC_RIFSC(6)), STM32_GATE_CFG(CK_BUS_TIM10, ck_icn_p_tim10, SEC_RIFSC(8)), STM32_GATE_CFG(CK_BUS_TIM11, ck_icn_p_tim11, SEC_RIFSC(9)), STM32_GATE_CFG(CK_BUS_TIM12, ck_icn_p_tim12, SEC_RIFSC(10)), STM32_GATE_CFG(CK_BUS_TIM13, ck_icn_p_tim13, SEC_RIFSC(11)), STM32_GATE_CFG(CK_BUS_TIM14, ck_icn_p_tim14, SEC_RIFSC(12)), STM32_GATE_CFG(CK_BUS_LPTIM1, ck_icn_p_lptim1, SEC_RIFSC(17)), STM32_GATE_CFG(CK_BUS_LPTIM2, ck_icn_p_lptim2, SEC_RIFSC(18)), STM32_GATE_CFG(CK_BUS_SPI2, ck_icn_p_spi2, SEC_RIFSC(23)), STM32_GATE_CFG(CK_BUS_SPI3, ck_icn_p_spi3, SEC_RIFSC(24)), STM32_GATE_CFG(CK_BUS_SPDIFRX, ck_icn_p_spdifrx, SEC_RIFSC(30)), STM32_GATE_CFG(CK_BUS_USART2, ck_icn_p_usart2, SEC_RIFSC(32)), STM32_GATE_CFG(CK_BUS_USART3, ck_icn_p_usart3, SEC_RIFSC(33)), STM32_GATE_CFG(CK_BUS_UART4, ck_icn_p_uart4, SEC_RIFSC(34)), STM32_GATE_CFG(CK_BUS_UART5, ck_icn_p_uart5, SEC_RIFSC(35)), STM32_GATE_CFG(CK_BUS_I2C1, ck_icn_p_i2c1, SEC_RIFSC(41)), STM32_GATE_CFG(CK_BUS_I2C2, ck_icn_p_i2c2, SEC_RIFSC(42)), STM32_GATE_CFG(CK_BUS_I2C3, ck_icn_p_i2c3, SEC_RIFSC(43)), STM32_GATE_CFG(CK_BUS_I3C1, ck_icn_p_i3c1, SEC_RIFSC(114)), STM32_GATE_CFG(CK_BUS_I3C2, ck_icn_p_i3c2, SEC_RIFSC(115)), STM32_GATE_CFG(CK_BUS_I3C3, ck_icn_p_i3c3, SEC_RIFSC(116)), STM32_GATE_CFG(CK_BUS_TIM1, ck_icn_p_tim1, SEC_RIFSC(0)), STM32_GATE_CFG(CK_BUS_TIM8, ck_icn_p_tim8, SEC_RIFSC(7)), STM32_GATE_CFG(CK_BUS_TIM15, ck_icn_p_tim15, SEC_RIFSC(13)), STM32_GATE_CFG(CK_BUS_TIM16, ck_icn_p_tim16, SEC_RIFSC(14)), STM32_GATE_CFG(CK_BUS_TIM17, ck_icn_p_tim17, SEC_RIFSC(15)), STM32_GATE_CFG(CK_BUS_SAI1, ck_icn_p_sai1, SEC_RIFSC(49)), STM32_GATE_CFG(CK_BUS_SAI2, ck_icn_p_sai2, SEC_RIFSC(50)), STM32_GATE_CFG(CK_BUS_SAI3, ck_icn_p_sai3, SEC_RIFSC(51)), STM32_GATE_CFG(CK_BUS_SAI4, ck_icn_p_sai4, SEC_RIFSC(52)), STM32_GATE_CFG(CK_BUS_USART1, ck_icn_p_usart1, SEC_RIFSC(31)), STM32_GATE_CFG(CK_BUS_USART6, ck_icn_p_usart6, SEC_RIFSC(36)), STM32_GATE_CFG(CK_BUS_UART7, ck_icn_p_uart7, SEC_RIFSC(37)), STM32_GATE_CFG(CK_BUS_FDCAN, ck_icn_p_fdcan, SEC_RIFSC(56)), STM32_GATE_CFG(CK_BUS_SPI1, ck_icn_p_spi1, SEC_RIFSC(22)), STM32_GATE_CFG(CK_BUS_SPI4, ck_icn_p_spi4, SEC_RIFSC(25)), STM32_GATE_CFG(CK_BUS_SPI5, ck_icn_p_spi5, SEC_RIFSC(26)), STM32_GATE_CFG(CK_BUS_SPI6, ck_icn_p_spi6, SEC_RIFSC(27)), STM32_GATE_CFG(CK_BUS_IWDG1, ck_icn_p_iwdg1, SEC_RIFSC(100)), STM32_GATE_CFG(CK_BUS_IWDG2, ck_icn_p_iwdg2, SEC_RIFSC(101)), STM32_GATE_CFG(CK_BUS_IWDG3, ck_icn_p_iwdg3, SEC_RIFSC(102)), STM32_GATE_CFG(CK_BUS_IWDG4, ck_icn_p_iwdg4, SEC_RIFSC(103)), STM32_GATE_CFG(CK_BUS_WWDG1, ck_icn_p_wwdg1, SEC_RIFSC(104)), STM32_GATE_CFG(CK_BUS_VREF, ck_icn_p_vref, SEC_RIFSC(106)), STM32_GATE_CFG(CK_BUS_SERC, ck_icn_p_serc, SEC_RIFSC(110)), STM32_GATE_CFG(CK_BUS_HDP, ck_icn_p_hdp, SEC_RIFSC(57)), STM32_GATE_CFG(CK_BUS_LTDC, ck_icn_p_ltdc, SEC_RIFSC(80)), STM32_GATE_CFG(CK_BUS_CSI, ck_icn_p_csi, SEC_RIFSC(86)), STM32_GATE_CFG(CK_BUS_DCMIPP, ck_icn_p_dcmipp, SEC_RIFSC(87)), STM32_GATE_CFG(CK_BUS_DCMIPSSI, ck_icn_p_dcmipssi, SEC_RIFSC(88)), STM32_GATE_CFG(CK_BUS_DDRPERFM, ck_icn_p_ddrperfm, SEC_RIFSC(67)), STM32_GATE_CFG(CK_KER_TIM2, ck_ker_tim2, SEC_RIFSC(1)), STM32_GATE_CFG(CK_KER_TIM3, ck_ker_tim3, SEC_RIFSC(2)), STM32_GATE_CFG(CK_KER_TIM4, ck_ker_tim4, SEC_RIFSC(3)), STM32_GATE_CFG(CK_KER_TIM5, ck_ker_tim5, SEC_RIFSC(4)), STM32_GATE_CFG(CK_KER_TIM6, ck_ker_tim6, SEC_RIFSC(5)), STM32_GATE_CFG(CK_KER_TIM7, ck_ker_tim7, SEC_RIFSC(6)), STM32_GATE_CFG(CK_KER_TIM10, ck_ker_tim10, SEC_RIFSC(8)), STM32_GATE_CFG(CK_KER_TIM11, ck_ker_tim11, SEC_RIFSC(9)), STM32_GATE_CFG(CK_KER_TIM12, ck_ker_tim12, SEC_RIFSC(10)), STM32_GATE_CFG(CK_KER_TIM13, ck_ker_tim13, SEC_RIFSC(11)), STM32_GATE_CFG(CK_KER_TIM14, ck_ker_tim14, SEC_RIFSC(12)), STM32_GATE_CFG(CK_KER_TIM1, ck_ker_tim1, SEC_RIFSC(0)), STM32_GATE_CFG(CK_KER_TIM8, ck_ker_tim8, SEC_RIFSC(7)), STM32_GATE_CFG(CK_KER_TIM15, ck_ker_tim15, SEC_RIFSC(13)), STM32_GATE_CFG(CK_KER_TIM16, ck_ker_tim16, SEC_RIFSC(14)), STM32_GATE_CFG(CK_KER_TIM17, ck_ker_tim17, SEC_RIFSC(15)), STM32_GATE_CFG(CK_KER_LPTIM1, ck_ker_lptim1, SEC_RIFSC(17)), STM32_GATE_CFG(CK_KER_LPTIM2, ck_ker_lptim2, SEC_RIFSC(18)), STM32_GATE_CFG(CK_KER_USART2, ck_ker_usart2, SEC_RIFSC(32)), STM32_GATE_CFG(CK_KER_UART4, ck_ker_uart4, SEC_RIFSC(34)), STM32_GATE_CFG(CK_KER_USART3, ck_ker_usart3, SEC_RIFSC(33)), STM32_GATE_CFG(CK_KER_UART5, ck_ker_uart5, SEC_RIFSC(35)), STM32_GATE_CFG(CK_KER_SPI2, ck_ker_spi2, SEC_RIFSC(23)), STM32_GATE_CFG(CK_KER_SPI3, ck_ker_spi3, SEC_RIFSC(24)), STM32_GATE_CFG(CK_KER_SPDIFRX, ck_ker_spdifrx, SEC_RIFSC(30)), STM32_GATE_CFG(CK_KER_I2C1, ck_ker_i2c1, SEC_RIFSC(41)), STM32_GATE_CFG(CK_KER_I2C2, ck_ker_i2c2, SEC_RIFSC(42)), STM32_GATE_CFG(CK_KER_I3C1, ck_ker_i3c1, SEC_RIFSC(114)), STM32_GATE_CFG(CK_KER_I3C2, ck_ker_i3c2, SEC_RIFSC(115)), STM32_GATE_CFG(CK_KER_I2C3, ck_ker_i2c3, SEC_RIFSC(43)), STM32_GATE_CFG(CK_KER_I3C3, ck_ker_i3c3, SEC_RIFSC(116)), STM32_GATE_CFG(CK_KER_SPI1, ck_ker_spi1, SEC_RIFSC(22)), STM32_GATE_CFG(CK_KER_SPI4, ck_ker_spi4, SEC_RIFSC(25)), STM32_GATE_CFG(CK_KER_SPI5, ck_ker_spi5, SEC_RIFSC(26)), STM32_GATE_CFG(CK_KER_SPI6, ck_ker_spi6, SEC_RIFSC(27)), STM32_GATE_CFG(CK_KER_USART1, ck_ker_usart1, SEC_RIFSC(31)), STM32_GATE_CFG(CK_KER_USART6, ck_ker_usart6, SEC_RIFSC(36)), STM32_GATE_CFG(CK_KER_UART7, ck_ker_uart7, SEC_RIFSC(37)), STM32_GATE_CFG(CK_KER_MDF1, ck_ker_mdf1, SEC_RIFSC(54)), STM32_GATE_CFG(CK_KER_SAI1, ck_ker_sai1, SEC_RIFSC(49)), STM32_GATE_CFG(CK_KER_SAI2, ck_ker_sai2, SEC_RIFSC(50)), STM32_GATE_CFG(CK_KER_SAI3, ck_ker_sai3, SEC_RIFSC(51)), STM32_GATE_CFG(CK_KER_SAI4, ck_ker_sai4, SEC_RIFSC(52)), STM32_GATE_CFG(CK_KER_FDCAN, ck_ker_fdcan, SEC_RIFSC(56)), STM32_GATE_CFG(CK_KER_CSI, ck_ker_csi, SEC_RIFSC(86)), STM32_GATE_CFG(CK_KER_CSITXESC, ck_ker_csitxesc, SEC_RIFSC(86)), STM32_GATE_CFG(CK_KER_CSIPHY, ck_ker_csiphy, SEC_RIFSC(86)), STM32_GATE_CFG(CK_KER_LPUART1, ck_ker_lpuart1, SEC_RIFSC(40)), STM32_GATE_CFG(CK_KER_LPTIM3, ck_ker_lptim3, SEC_RIFSC(19)), STM32_GATE_CFG(CK_KER_LPTIM4, ck_ker_lptim4, SEC_RIFSC(20)), STM32_GATE_CFG(CK_KER_LPTIM5, ck_ker_lptim5, SEC_RIFSC(21)), STM32_GATE_CFG(CK_KER_SDMMC1, ck_ker_sdmmc1, SEC_RIFSC(76)), STM32_GATE_CFG(CK_KER_SDMMC2, ck_ker_sdmmc2, SEC_RIFSC(77)), STM32_GATE_CFG(CK_KER_SDMMC3, ck_ker_sdmmc3, SEC_RIFSC(78)), STM32_GATE_CFG(CK_KER_ETH1, ck_ker_eth1, SEC_RIFSC(60)), STM32_GATE_CFG(CK_ETH1_STP, ck_ker_eth1stp, SEC_RIFSC(60)), STM32_GATE_CFG(CK_KER_ETH2, ck_ker_eth2, SEC_RIFSC(61)), STM32_GATE_CFG(CK_ETH2_STP, ck_ker_eth2stp, SEC_RIFSC(61)), STM32_GATE_CFG(CK_KER_ETH1PTP, ck_ker_eth1ptp, SEC_RIFSC(60)), STM32_GATE_CFG(CK_KER_ETH2PTP, ck_ker_eth2ptp, SEC_RIFSC(61)), STM32_GATE_CFG(CK_ETH1_MAC, ck_ker_eth1mac, SEC_RIFSC(60)), STM32_GATE_CFG(CK_ETH1_TX, ck_ker_eth1tx, SEC_RIFSC(60)), STM32_GATE_CFG(CK_ETH1_RX, ck_ker_eth1rx, SEC_RIFSC(60)), STM32_GATE_CFG(CK_ETH2_MAC, ck_ker_eth2mac, SEC_RIFSC(61)), STM32_GATE_CFG(CK_ETH2_TX, ck_ker_eth2tx, SEC_RIFSC(61)), STM32_GATE_CFG(CK_ETH2_RX, ck_ker_eth2rx, SEC_RIFSC(61)), STM32_COMPOSITE_CFG(CK_MCO1, ck_mco1, MP21_RIF_RCC_MCO1), STM32_COMPOSITE_CFG(CK_MCO2, ck_mco2, MP21_RIF_RCC_MCO2), STM32_COMPOSITE_CFG(CK_KER_ADC1, ck_ker_adc1, SEC_RIFSC(58)), STM32_COMPOSITE_CFG(CK_KER_ADC2, ck_ker_adc2, SEC_RIFSC(59)), STM32_COMPOSITE_CFG(CK_KER_USB2PHY1, ck_ker_usb2phy1, SEC_RIFSC(63)), STM32_COMPOSITE_CFG(CK_KER_USB2PHY2EN, ck_ker_usb2phy2_en, SEC_RIFSC(66)), STM32_COMPOSITE_CFG(CK_KER_DTS, ck_ker_dts, SEC_RIFSC(107)), STM32_GATE_CFG(CK_KER_LTDC, ck_ker_ltdc, SEC_RIFSC(80)), }; #define RESET_MP21(id, _offset, _bit_idx, _set_clr) \ [id] = &(struct stm32_reset_cfg){ \ .offset = (_offset), \ .bit_idx = (_bit_idx), \ .set_clr = (_set_clr), \ } static const struct stm32_reset_cfg *stm32mp21_reset_cfg[] = { RESET_MP21(TIM1_R, RCC_TIM1CFGR, 0, 0), RESET_MP21(TIM2_R, RCC_TIM2CFGR, 0, 0), RESET_MP21(TIM3_R, RCC_TIM3CFGR, 0, 0), RESET_MP21(TIM4_R, RCC_TIM4CFGR, 0, 0), RESET_MP21(TIM5_R, RCC_TIM5CFGR, 0, 0), RESET_MP21(TIM6_R, RCC_TIM6CFGR, 0, 0), RESET_MP21(TIM7_R, RCC_TIM7CFGR, 0, 0), RESET_MP21(TIM8_R, RCC_TIM8CFGR, 0, 0), RESET_MP21(TIM10_R, RCC_TIM10CFGR, 0, 0), RESET_MP21(TIM11_R, RCC_TIM11CFGR, 0, 0), RESET_MP21(TIM12_R, RCC_TIM12CFGR, 0, 0), RESET_MP21(TIM13_R, RCC_TIM13CFGR, 0, 0), RESET_MP21(TIM14_R, RCC_TIM14CFGR, 0, 0), RESET_MP21(TIM15_R, RCC_TIM15CFGR, 0, 0), RESET_MP21(TIM16_R, RCC_TIM16CFGR, 0, 0), RESET_MP21(TIM17_R, RCC_TIM17CFGR, 0, 0), RESET_MP21(LPTIM1_R, RCC_LPTIM1CFGR, 0, 0), RESET_MP21(LPTIM2_R, RCC_LPTIM2CFGR, 0, 0), RESET_MP21(LPTIM3_R, RCC_LPTIM3CFGR, 0, 0), RESET_MP21(LPTIM4_R, RCC_LPTIM4CFGR, 0, 0), RESET_MP21(LPTIM5_R, RCC_LPTIM5CFGR, 0, 0), RESET_MP21(SPI1_R, RCC_SPI1CFGR, 0, 0), RESET_MP21(SPI2_R, RCC_SPI2CFGR, 0, 0), RESET_MP21(SPI3_R, RCC_SPI3CFGR, 0, 0), RESET_MP21(SPI4_R, RCC_SPI4CFGR, 0, 0), RESET_MP21(SPI5_R, RCC_SPI5CFGR, 0, 0), RESET_MP21(SPI6_R, RCC_SPI6CFGR, 0, 0), RESET_MP21(SPDIFRX_R, RCC_SPDIFRXCFGR, 0, 0), RESET_MP21(USART1_R, RCC_USART1CFGR, 0, 0), RESET_MP21(USART2_R, RCC_USART2CFGR, 0, 0), RESET_MP21(USART3_R, RCC_USART3CFGR, 0, 0), RESET_MP21(UART4_R, RCC_UART4CFGR, 0, 0), RESET_MP21(UART5_R, RCC_UART5CFGR, 0, 0), RESET_MP21(USART6_R, RCC_USART6CFGR, 0, 0), RESET_MP21(UART7_R, RCC_UART7CFGR, 0, 0), RESET_MP21(LPUART1_R, RCC_LPUART1CFGR, 0, 0), RESET_MP21(I2C1_R, RCC_I2C1CFGR, 0, 0), RESET_MP21(I2C2_R, RCC_I2C2CFGR, 0, 0), RESET_MP21(I2C3_R, RCC_I2C3CFGR, 0, 0), RESET_MP21(SAI1_R, RCC_SAI1CFGR, 0, 0), RESET_MP21(SAI2_R, RCC_SAI2CFGR, 0, 0), RESET_MP21(SAI3_R, RCC_SAI3CFGR, 0, 0), RESET_MP21(SAI4_R, RCC_SAI4CFGR, 0, 0), RESET_MP21(MDF1_R, RCC_MDF1CFGR, 0, 0), RESET_MP21(FDCAN_R, RCC_FDCANCFGR, 0, 0), RESET_MP21(HDP_R, RCC_HDPCFGR, 0, 0), RESET_MP21(ADC1_R, RCC_ADC1CFGR, 0, 0), RESET_MP21(ADC2_R, RCC_ADC2CFGR, 0, 0), RESET_MP21(ETH1_R, RCC_ETH1CFGR, 0, 0), RESET_MP21(ETH2_R, RCC_ETH2CFGR, 0, 0), RESET_MP21(OTG_R, RCC_OTGCFGR, 0, 0), RESET_MP21(USBH_R, RCC_USBHCFGR, 0, 0), RESET_MP21(USB2PHY1_R, RCC_USB2PHY1CFGR, 0, 0), RESET_MP21(USB2PHY2_R, RCC_USB2PHY2CFGR, 0, 0), RESET_MP21(SDMMC1_R, RCC_SDMMC1CFGR, 0, 0), RESET_MP21(SDMMC1DLL_R, RCC_SDMMC1CFGR, 16, 0), RESET_MP21(SDMMC2_R, RCC_SDMMC2CFGR, 0, 0), RESET_MP21(SDMMC2DLL_R, RCC_SDMMC2CFGR, 16, 0), RESET_MP21(SDMMC3_R, RCC_SDMMC3CFGR, 0, 0), RESET_MP21(SDMMC3DLL_R, RCC_SDMMC3CFGR, 16, 0), RESET_MP21(LTDC_R, RCC_LTDCCFGR, 0, 0), RESET_MP21(CSI_R, RCC_CSICFGR, 0, 0), RESET_MP21(DCMIPP_R, RCC_DCMIPPCFGR, 0, 0), RESET_MP21(DCMIPSSI_R, RCC_DCMIPSSICFGR, 0, 0), RESET_MP21(WWDG1_R, RCC_WWDG1CFGR, 0, 0), RESET_MP21(VREF_R, RCC_VREFCFGR, 0, 0), RESET_MP21(DTS_R, RCC_DTSCFGR, 0, 0), RESET_MP21(CRC_R, RCC_CRCCFGR, 0, 0), RESET_MP21(SERC_R, RCC_SERCCFGR, 0, 0), RESET_MP21(I3C1_R, RCC_I3C1CFGR, 0, 0), RESET_MP21(I3C2_R, RCC_I3C2CFGR, 0, 0), RESET_MP21(IWDG2_KER_R, RCC_IWDGC1CFGSETR, 18, 1), RESET_MP21(IWDG4_KER_R, RCC_IWDGC2CFGSETR, 18, 1), RESET_MP21(RNG1_R, RCC_RNG1CFGR, 0, 0), RESET_MP21(RNG2_R, RCC_RNG2CFGR, 0, 0), RESET_MP21(PKA_R, RCC_PKACFGR, 0, 0), RESET_MP21(SAES_R, RCC_SAESCFGR, 0, 0), RESET_MP21(HASH1_R, RCC_HASH1CFGR, 0, 0), RESET_MP21(HASH2_R, RCC_HASH2CFGR, 0, 0), RESET_MP21(CRYP1_R, RCC_CRYP1CFGR, 0, 0), RESET_MP21(CRYP2_R, RCC_CRYP2CFGR, 0, 0), }; static u16 stm32mp21_cpt_gate[GATE_NB]; static struct clk_stm32_clock_data stm32mp21_clock_data = { .gate_cpt = stm32mp21_cpt_gate, .gates = stm32mp21_gates, .muxes = stm32mp21_muxes, }; static struct clk_stm32_reset_data stm32mp21_reset_data = { .reset_lines = stm32mp21_reset_cfg, .nr_lines = ARRAY_SIZE(stm32mp21_reset_cfg), }; static const struct stm32_rcc_match_data stm32mp21_data = { .tab_clocks = stm32mp21_clock_cfg, .num_clocks = ARRAY_SIZE(stm32mp21_clock_cfg), .maxbinding = STM32MP21_LAST_CLK, .clock_data = &stm32mp21_clock_data, .reset_data = &stm32mp21_reset_data, .check_security = &stm32mp21_check_security, }; static const struct of_device_id stm32mp21_match_data[] = { { .compatible = "st,stm32mp21-rcc", .data = &stm32mp21_data, }, { } }; MODULE_DEVICE_TABLE(of, stm32mp21_match_data); static int stm32mp21_rcc_clocks_probe(struct platform_device *pdev) { struct device *dev = &pdev->dev; void __iomem *base; base = devm_platform_ioremap_resource(pdev, 0); if (WARN_ON(IS_ERR(base))) return PTR_ERR(base); return stm32_rcc_init(dev, stm32mp21_match_data, base); } static struct platform_driver stm32mp21_rcc_clocks_driver = { .driver = { .name = "stm32mp21_rcc", .of_match_table = stm32mp21_match_data, }, .probe = stm32mp21_rcc_clocks_probe, }; static int __init stm32mp21_clocks_init(void) { return platform_driver_register(&stm32mp21_rcc_clocks_driver); } core_initcall(stm32mp21_clocks_init);