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https://github.com/AsahiLinux/u-boot
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4c3aebd56a
This driver implements basic clock setup, only clock gating is implemented. This driver doesn't implement .of_match as it's binded by MFD RCC driver. Files include/dt-bindings/clock/stm32h7-clks.h and doc/device-tree-bindings/clock/st,stm32h7-rcc.txt will be available soon in a kernel tag, as all the bindings have been acked by Rob Herring [1]. [1] http://lkml.iu.edu/hypermail/linux/kernel/1704.0/00935.html Signed-off-by: Patrice Chotard <patrice.chotard@st.com> Reviewed-by: Simon Glass <sjg@chromium.org>
802 lines
22 KiB
C
802 lines
22 KiB
C
/*
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* Copyright (C) STMicroelectronics SA 2017
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* Author(s): Patrice CHOTARD, <patrice.chotard@st.com> for STMicroelectronics.
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <common.h>
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#include <clk-uclass.h>
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#include <dm.h>
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#include <regmap.h>
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#include <syscon.h>
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#include <asm/io.h>
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#include <dm/root.h>
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#include <dt-bindings/clock/stm32h7-clks.h>
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DECLARE_GLOBAL_DATA_PTR;
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/* RCC CR specific definitions */
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#define RCC_CR_HSION BIT(0)
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#define RCC_CR_HSIRDY BIT(2)
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#define RCC_CR_HSEON BIT(16)
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#define RCC_CR_HSERDY BIT(17)
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#define RCC_CR_HSEBYP BIT(18)
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#define RCC_CR_PLL1ON BIT(24)
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#define RCC_CR_PLL1RDY BIT(25)
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#define RCC_CR_HSIDIV_MASK GENMASK(4, 3)
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#define RCC_CR_HSIDIV_SHIFT 3
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#define RCC_CFGR_SW_MASK GENMASK(2, 0)
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#define RCC_CFGR_SW_HSI 0
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#define RCC_CFGR_SW_CSI 1
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#define RCC_CFGR_SW_HSE 2
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#define RCC_CFGR_SW_PLL1 3
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#define RCC_PLLCKSELR_PLLSRC_HSI 0
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#define RCC_PLLCKSELR_PLLSRC_CSI 1
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#define RCC_PLLCKSELR_PLLSRC_HSE 2
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#define RCC_PLLCKSELR_PLLSRC_NO_CLK 3
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#define RCC_PLLCKSELR_PLLSRC_MASK GENMASK(1, 0)
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#define RCC_PLLCKSELR_DIVM1_SHIFT 4
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#define RCC_PLLCKSELR_DIVM1_MASK GENMASK(9, 4)
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#define RCC_PLL1DIVR_DIVN1_MASK GENMASK(8, 0)
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#define RCC_PLL1DIVR_DIVP1_SHIFT 9
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#define RCC_PLL1DIVR_DIVP1_MASK GENMASK(15, 9)
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#define RCC_PLL1DIVR_DIVQ1_SHIFT 16
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#define RCC_PLL1DIVR_DIVQ1_MASK GENMASK(22, 16)
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#define RCC_PLL1DIVR_DIVR1_SHIFT 24
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#define RCC_PLL1DIVR_DIVR1_MASK GENMASK(30, 24)
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#define RCC_PLL1FRACR_FRACN1_SHIFT 3
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#define RCC_PLL1FRACR_FRACN1_MASK GENMASK(15, 3)
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#define RCC_PLLCFGR_PLL1RGE_SHIFT 2
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#define PLL1RGE_1_2_MHZ 0
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#define PLL1RGE_2_4_MHZ 1
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#define PLL1RGE_4_8_MHZ 2
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#define PLL1RGE_8_16_MHZ 3
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#define RCC_PLLCFGR_DIVP1EN BIT(16)
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#define RCC_PLLCFGR_DIVQ1EN BIT(17)
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#define RCC_PLLCFGR_DIVR1EN BIT(18)
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#define RCC_D1CFGR_HPRE_MASK GENMASK(3, 0)
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#define RCC_D1CFGR_HPRE_DIVIDED BIT(3)
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#define RCC_D1CFGR_HPRE_DIVIDER GENMASK(2, 0)
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#define RCC_D1CFGR_HPRE_DIV2 8
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#define RCC_D1CFGR_D1PPRE_SHIFT 4
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#define RCC_D1CFGR_D1PPRE_DIVIDED BIT(6)
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#define RCC_D1CFGR_D1PPRE_DIVIDER GENMASK(5, 4)
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#define RCC_D1CFGR_D1CPRE_SHIFT 8
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#define RCC_D1CFGR_D1CPRE_DIVIDER GENMASK(10, 8)
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#define RCC_D1CFGR_D1CPRE_DIVIDED BIT(11)
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#define RCC_D2CFGR_D2PPRE1_SHIFT 4
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#define RCC_D2CFGR_D2PPRE1_DIVIDED BIT(6)
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#define RCC_D2CFGR_D2PPRE1_DIVIDER GENMASK(5, 4)
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#define RCC_D2CFGR_D2PPRE2_SHIFT 8
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#define RCC_D2CFGR_D2PPRE2_DIVIDED BIT(10)
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#define RCC_D2CFGR_D2PPRE2_DIVIDER GENMASK(9, 8)
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#define RCC_D3CFGR_D3PPRE_SHIFT 4
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#define RCC_D3CFGR_D3PPRE_DIVIDED BIT(6)
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#define RCC_D3CFGR_D3PPRE_DIVIDER GENMASK(5, 4)
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#define RCC_D1CCIPR_FMCSRC_MASK GENMASK(1, 0)
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#define FMCSRC_HCLKD1 0
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#define FMCSRC_PLL1_Q_CK 1
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#define FMCSRC_PLL2_R_CK 2
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#define FMCSRC_PER_CK 3
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#define RCC_D1CCIPR_QSPISRC_MASK GENMASK(5, 4)
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#define RCC_D1CCIPR_QSPISRC_SHIFT 4
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#define QSPISRC_HCLKD1 0
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#define QSPISRC_PLL1_Q_CK 1
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#define QSPISRC_PLL2_R_CK 2
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#define QSPISRC_PER_CK 3
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#define PWR_CR3 0x0c
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#define PWR_CR3_SDEN BIT(2)
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#define PWR_D3CR 0x18
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#define PWR_D3CR_VOS_MASK GENMASK(15, 14)
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#define PWR_D3CR_VOS_SHIFT 14
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#define VOS_SCALE_3 1
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#define VOS_SCALE_2 2
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#define VOS_SCALE_1 3
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#define PWR_D3CR_VOSREADY BIT(13)
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struct stm32_rcc_regs {
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u32 cr; /* 0x00 Source Control Register */
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u32 icscr; /* 0x04 Internal Clock Source Calibration Register */
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u32 crrcr; /* 0x08 Clock Recovery RC Register */
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u32 reserved1; /* 0x0c reserved */
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u32 cfgr; /* 0x10 Clock Configuration Register */
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u32 reserved2; /* 0x14 reserved */
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u32 d1cfgr; /* 0x18 Domain 1 Clock Configuration Register */
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u32 d2cfgr; /* 0x1c Domain 2 Clock Configuration Register */
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u32 d3cfgr; /* 0x20 Domain 3 Clock Configuration Register */
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u32 reserved3; /* 0x24 reserved */
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u32 pllckselr; /* 0x28 PLLs Clock Source Selection Register */
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u32 pllcfgr; /* 0x2c PLLs Configuration Register */
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u32 pll1divr; /* 0x30 PLL1 Dividers Configuration Register */
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u32 pll1fracr; /* 0x34 PLL1 Fractional Divider Register */
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u32 pll2divr; /* 0x38 PLL2 Dividers Configuration Register */
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u32 pll2fracr; /* 0x3c PLL2 Fractional Divider Register */
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u32 pll3divr; /* 0x40 PLL3 Dividers Configuration Register */
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u32 pll3fracr; /* 0x44 PLL3 Fractional Divider Register */
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u32 reserved4; /* 0x48 reserved */
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u32 d1ccipr; /* 0x4c Domain 1 Kernel Clock Configuration Register */
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u32 d2ccip1r; /* 0x50 Domain 2 Kernel Clock Configuration Register */
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u32 d2ccip2r; /* 0x54 Domain 2 Kernel Clock Configuration Register */
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u32 d3ccipr; /* 0x58 Domain 3 Kernel Clock Configuration Register */
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u32 reserved5; /* 0x5c reserved */
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u32 cier; /* 0x60 Clock Source Interrupt Enable Register */
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u32 cifr; /* 0x64 Clock Source Interrupt Flag Register */
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u32 cicr; /* 0x68 Clock Source Interrupt Clear Register */
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u32 reserved6; /* 0x6c reserved */
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u32 bdcr; /* 0x70 Backup Domain Control Register */
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u32 csr; /* 0x74 Clock Control and Status Register */
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u32 reserved7; /* 0x78 reserved */
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u32 ahb3rstr; /* 0x7c AHB3 Peripheral Reset Register */
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u32 ahb1rstr; /* 0x80 AHB1 Peripheral Reset Register */
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u32 ahb2rstr; /* 0x84 AHB2 Peripheral Reset Register */
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u32 ahb4rstr; /* 0x88 AHB4 Peripheral Reset Register */
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u32 apb3rstr; /* 0x8c APB3 Peripheral Reset Register */
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u32 apb1lrstr; /* 0x90 APB1 low Peripheral Reset Register */
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u32 apb1hrstr; /* 0x94 APB1 high Peripheral Reset Register */
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u32 apb2rstr; /* 0x98 APB2 Clock Register */
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u32 apb4rstr; /* 0x9c APB4 Clock Register */
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u32 gcr; /* 0xa0 Global Control Register */
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u32 reserved8; /* 0xa4 reserved */
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u32 d3amr; /* 0xa8 D3 Autonomous mode Register */
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u32 reserved9[9];/* 0xac to 0xcc reserved */
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u32 rsr; /* 0xd0 Reset Status Register */
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u32 ahb3enr; /* 0xd4 AHB3 Clock Register */
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u32 ahb1enr; /* 0xd8 AHB1 Clock Register */
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u32 ahb2enr; /* 0xdc AHB2 Clock Register */
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u32 ahb4enr; /* 0xe0 AHB4 Clock Register */
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u32 apb3enr; /* 0xe4 APB3 Clock Register */
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u32 apb1lenr; /* 0xe8 APB1 low Clock Register */
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u32 apb1henr; /* 0xec APB1 high Clock Register */
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u32 apb2enr; /* 0xf0 APB2 Clock Register */
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u32 apb4enr; /* 0xf4 APB4 Clock Register */
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};
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#define RCC_AHB3ENR offsetof(struct stm32_rcc_regs, ahb3enr)
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#define RCC_AHB1ENR offsetof(struct stm32_rcc_regs, ahb1enr)
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#define RCC_AHB2ENR offsetof(struct stm32_rcc_regs, ahb2enr)
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#define RCC_AHB4ENR offsetof(struct stm32_rcc_regs, ahb4enr)
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#define RCC_APB3ENR offsetof(struct stm32_rcc_regs, apb3enr)
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#define RCC_APB1LENR offsetof(struct stm32_rcc_regs, apb1lenr)
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#define RCC_APB1HENR offsetof(struct stm32_rcc_regs, apb1henr)
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#define RCC_APB2ENR offsetof(struct stm32_rcc_regs, apb2enr)
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#define RCC_APB4ENR offsetof(struct stm32_rcc_regs, apb4enr)
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struct clk_cfg {
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u32 gate_offset;
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u8 gate_bit_idx;
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const char *name;
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};
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#define CLK(_gate_offset, _bit_idx, _name) \
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{ \
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.gate_offset = _gate_offset,\
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.gate_bit_idx = _bit_idx,\
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.name = _name,\
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}
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/*
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* the way all these entries are sorted in this array could seem
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* unlogical, but we are dependant of kernel DT_bindings,
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* where clocks are separate in 2 banks, peripheral clocks and
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* kernel clocks.
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*/
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static const struct clk_cfg clk_map[] = {
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CLK(RCC_AHB3ENR, 31, "d1sram1"), /* peripheral clocks */
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CLK(RCC_AHB3ENR, 30, "itcm"),
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CLK(RCC_AHB3ENR, 29, "dtcm2"),
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CLK(RCC_AHB3ENR, 28, "dtcm1"),
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CLK(RCC_AHB3ENR, 8, "flitf"),
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CLK(RCC_AHB3ENR, 5, "jpgdec"),
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CLK(RCC_AHB3ENR, 4, "dma2d"),
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CLK(RCC_AHB3ENR, 0, "mdma"),
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CLK(RCC_AHB1ENR, 28, "usb2ulpi"),
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CLK(RCC_AHB1ENR, 17, "eth1rx"),
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CLK(RCC_AHB1ENR, 16, "eth1tx"),
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CLK(RCC_AHB1ENR, 15, "eth1mac"),
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CLK(RCC_AHB1ENR, 14, "art"),
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CLK(RCC_AHB1ENR, 26, "usb1ulpi"),
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CLK(RCC_AHB1ENR, 1, "dma2"),
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CLK(RCC_AHB1ENR, 0, "dma1"),
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CLK(RCC_AHB2ENR, 31, "d2sram3"),
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CLK(RCC_AHB2ENR, 30, "d2sram2"),
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CLK(RCC_AHB2ENR, 29, "d2sram1"),
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CLK(RCC_AHB2ENR, 5, "hash"),
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CLK(RCC_AHB2ENR, 4, "crypt"),
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CLK(RCC_AHB2ENR, 0, "camitf"),
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CLK(RCC_AHB4ENR, 28, "bkpram"),
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CLK(RCC_AHB4ENR, 25, "hsem"),
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CLK(RCC_AHB4ENR, 21, "bdma"),
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CLK(RCC_AHB4ENR, 19, "crc"),
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CLK(RCC_AHB4ENR, 10, "gpiok"),
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CLK(RCC_AHB4ENR, 9, "gpioj"),
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CLK(RCC_AHB4ENR, 8, "gpioi"),
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CLK(RCC_AHB4ENR, 7, "gpioh"),
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CLK(RCC_AHB4ENR, 6, "gpiog"),
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CLK(RCC_AHB4ENR, 5, "gpiof"),
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CLK(RCC_AHB4ENR, 4, "gpioe"),
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CLK(RCC_AHB4ENR, 3, "gpiod"),
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CLK(RCC_AHB4ENR, 2, "gpioc"),
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CLK(RCC_AHB4ENR, 1, "gpiob"),
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CLK(RCC_AHB4ENR, 0, "gpioa"),
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CLK(RCC_APB3ENR, 6, "wwdg1"),
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CLK(RCC_APB1LENR, 29, "dac12"),
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CLK(RCC_APB1LENR, 11, "wwdg2"),
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CLK(RCC_APB1LENR, 8, "tim14"),
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CLK(RCC_APB1LENR, 7, "tim13"),
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CLK(RCC_APB1LENR, 6, "tim12"),
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CLK(RCC_APB1LENR, 5, "tim7"),
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CLK(RCC_APB1LENR, 4, "tim6"),
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CLK(RCC_APB1LENR, 3, "tim5"),
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CLK(RCC_APB1LENR, 2, "tim4"),
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CLK(RCC_APB1LENR, 1, "tim3"),
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CLK(RCC_APB1LENR, 0, "tim2"),
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CLK(RCC_APB1HENR, 5, "mdios"),
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CLK(RCC_APB1HENR, 4, "opamp"),
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CLK(RCC_APB1HENR, 1, "crs"),
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CLK(RCC_APB2ENR, 18, "tim17"),
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CLK(RCC_APB2ENR, 17, "tim16"),
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CLK(RCC_APB2ENR, 16, "tim15"),
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CLK(RCC_APB2ENR, 1, "tim8"),
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CLK(RCC_APB2ENR, 0, "tim1"),
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CLK(RCC_APB4ENR, 26, "tmpsens"),
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CLK(RCC_APB4ENR, 16, "rtcapb"),
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CLK(RCC_APB4ENR, 15, "vref"),
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CLK(RCC_APB4ENR, 14, "comp12"),
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CLK(RCC_APB4ENR, 1, "syscfg"),
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CLK(RCC_AHB3ENR, 16, "sdmmc1"), /* kernel clocks */
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CLK(RCC_AHB3ENR, 14, "quadspi"),
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CLK(RCC_AHB3ENR, 12, "fmc"),
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CLK(RCC_AHB1ENR, 27, "usb2otg"),
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CLK(RCC_AHB1ENR, 25, "usb1otg"),
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CLK(RCC_AHB1ENR, 5, "adc12"),
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CLK(RCC_AHB2ENR, 9, "sdmmc2"),
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CLK(RCC_AHB2ENR, 6, "rng"),
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CLK(RCC_AHB4ENR, 24, "adc3"),
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CLK(RCC_APB3ENR, 4, "dsi"),
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CLK(RCC_APB3ENR, 3, "ltdc"),
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CLK(RCC_APB1LENR, 31, "usart8"),
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CLK(RCC_APB1LENR, 30, "usart7"),
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CLK(RCC_APB1LENR, 27, "hdmicec"),
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CLK(RCC_APB1LENR, 23, "i2c3"),
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CLK(RCC_APB1LENR, 22, "i2c2"),
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CLK(RCC_APB1LENR, 21, "i2c1"),
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CLK(RCC_APB1LENR, 20, "uart5"),
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CLK(RCC_APB1LENR, 19, "uart4"),
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CLK(RCC_APB1LENR, 18, "usart3"),
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CLK(RCC_APB1LENR, 17, "usart2"),
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CLK(RCC_APB1LENR, 16, "spdifrx"),
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CLK(RCC_APB1LENR, 15, "spi3"),
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CLK(RCC_APB1LENR, 14, "spi2"),
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CLK(RCC_APB1LENR, 9, "lptim1"),
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CLK(RCC_APB1HENR, 8, "fdcan"),
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CLK(RCC_APB1HENR, 2, "swp"),
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CLK(RCC_APB2ENR, 29, "hrtim"),
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CLK(RCC_APB2ENR, 28, "dfsdm1"),
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CLK(RCC_APB2ENR, 24, "sai3"),
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CLK(RCC_APB2ENR, 23, "sai2"),
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CLK(RCC_APB2ENR, 22, "sai1"),
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CLK(RCC_APB2ENR, 20, "spi5"),
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CLK(RCC_APB2ENR, 13, "spi4"),
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CLK(RCC_APB2ENR, 12, "spi1"),
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CLK(RCC_APB2ENR, 5, "usart6"),
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CLK(RCC_APB2ENR, 4, "usart1"),
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CLK(RCC_APB4ENR, 21, "sai4a"),
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CLK(RCC_APB4ENR, 21, "sai4b"),
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CLK(RCC_APB4ENR, 12, "lptim5"),
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CLK(RCC_APB4ENR, 11, "lptim4"),
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CLK(RCC_APB4ENR, 10, "lptim3"),
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CLK(RCC_APB4ENR, 9, "lptim2"),
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CLK(RCC_APB4ENR, 7, "i2c4"),
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CLK(RCC_APB4ENR, 5, "spi6"),
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CLK(RCC_APB4ENR, 3, "lpuart1"),
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};
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struct stm32_clk {
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struct stm32_rcc_regs *rcc_base;
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struct regmap *pwr_regmap;
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};
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struct pll_psc {
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u8 divm;
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u16 divn;
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u8 divp;
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u8 divq;
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u8 divr;
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};
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/*
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* OSC_HSE = 25 MHz
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* VCO = 500MHz
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* pll1_p = 250MHz / pll1_q = 250MHz pll1_r = 250Mhz
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*/
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struct pll_psc sys_pll_psc = {
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.divm = 4,
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.divn = 80,
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.divp = 2,
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.divq = 2,
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.divr = 2,
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};
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int configure_clocks(struct udevice *dev)
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{
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struct stm32_clk *priv = dev_get_priv(dev);
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struct stm32_rcc_regs *regs = priv->rcc_base;
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uint8_t *pwr_base = (uint8_t *)regmap_get_range(priv->pwr_regmap, 0);
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uint32_t pllckselr = 0;
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uint32_t pll1divr = 0;
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uint32_t pllcfgr = 0;
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/* Switch on HSI */
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setbits_le32(®s->cr, RCC_CR_HSION);
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while (!(readl(®s->cr) & RCC_CR_HSIRDY))
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;
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/* Reset CFGR, now HSI is the default system clock */
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writel(0, ®s->cfgr);
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/* Set all kernel domain clock registers to reset value*/
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writel(0x0, ®s->d1ccipr);
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writel(0x0, ®s->d2ccip1r);
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writel(0x0, ®s->d2ccip2r);
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/* Set voltage scaling at scale 1 */
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clrsetbits_le32(pwr_base + PWR_D3CR, PWR_D3CR_VOS_MASK,
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VOS_SCALE_1 << PWR_D3CR_VOS_SHIFT);
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/* disable step down converter */
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clrbits_le32(pwr_base + PWR_CR3, PWR_CR3_SDEN);
|
|
while (!(readl(pwr_base + PWR_D3CR) & PWR_D3CR_VOSREADY))
|
|
;
|
|
|
|
/* disable HSE to configure it */
|
|
clrbits_le32(®s->cr, RCC_CR_HSEON);
|
|
while ((readl(®s->cr) & RCC_CR_HSERDY))
|
|
;
|
|
|
|
/* clear HSE bypass and set it ON */
|
|
clrbits_le32(®s->cr, RCC_CR_HSEBYP);
|
|
/* Switch on HSE */
|
|
setbits_le32(®s->cr, RCC_CR_HSEON);
|
|
while (!(readl(®s->cr) & RCC_CR_HSERDY))
|
|
;
|
|
|
|
/* pll setup, disable it */
|
|
clrbits_le32(®s->cr, RCC_CR_PLL1ON);
|
|
while ((readl(®s->cr) & RCC_CR_PLL1RDY))
|
|
;
|
|
|
|
/* Select HSE as PLL clock source */
|
|
pllckselr |= RCC_PLLCKSELR_PLLSRC_HSE;
|
|
pllckselr |= sys_pll_psc.divm << RCC_PLLCKSELR_DIVM1_SHIFT;
|
|
writel(pllckselr, ®s->pllckselr);
|
|
|
|
pll1divr |= (sys_pll_psc.divr - 1) << RCC_PLL1DIVR_DIVR1_SHIFT;
|
|
pll1divr |= (sys_pll_psc.divq - 1) << RCC_PLL1DIVR_DIVQ1_SHIFT;
|
|
pll1divr |= (sys_pll_psc.divp - 1) << RCC_PLL1DIVR_DIVP1_SHIFT;
|
|
pll1divr |= (sys_pll_psc.divn - 1);
|
|
writel(pll1divr, ®s->pll1divr);
|
|
|
|
pllcfgr |= PLL1RGE_4_8_MHZ << RCC_PLLCFGR_PLL1RGE_SHIFT;
|
|
pllcfgr |= RCC_PLLCFGR_DIVP1EN;
|
|
pllcfgr |= RCC_PLLCFGR_DIVQ1EN;
|
|
pllcfgr |= RCC_PLLCFGR_DIVR1EN;
|
|
writel(pllcfgr, ®s->pllcfgr);
|
|
|
|
/* pll setup, enable it */
|
|
setbits_le32(®s->cr, RCC_CR_PLL1ON);
|
|
|
|
/* set HPRE (/2) DI clk --> 125MHz */
|
|
clrsetbits_le32(®s->d1cfgr, RCC_D1CFGR_HPRE_MASK,
|
|
RCC_D1CFGR_HPRE_DIV2);
|
|
|
|
/* select PLL1 as system clock source (sys_ck)*/
|
|
clrsetbits_le32(®s->cfgr, RCC_CFGR_SW_MASK, RCC_CFGR_SW_PLL1);
|
|
while ((readl(®s->cfgr) & RCC_CFGR_SW_MASK) != RCC_CFGR_SW_PLL1)
|
|
;
|
|
|
|
/* sdram: use pll1_q as fmc_k clk */
|
|
clrsetbits_le32(®s->d1ccipr, RCC_D1CCIPR_FMCSRC_MASK,
|
|
FMCSRC_PLL1_Q_CK);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static u32 stm32_get_HSI_divider(struct stm32_rcc_regs *regs)
|
|
{
|
|
u32 divider;
|
|
|
|
/* get HSI divider value */
|
|
divider = readl(®s->cr) & RCC_CR_HSIDIV_MASK;
|
|
divider = divider >> RCC_CR_HSIDIV_SHIFT;
|
|
|
|
return divider;
|
|
};
|
|
|
|
enum pllsrc {
|
|
HSE,
|
|
LSE,
|
|
HSI,
|
|
CSI,
|
|
I2S,
|
|
TIMER,
|
|
PLLSRC_NB,
|
|
};
|
|
|
|
static const char * const pllsrc_name[PLLSRC_NB] = {
|
|
[HSE] = "clk-hse",
|
|
[LSE] = "clk-lse",
|
|
[HSI] = "clk-hsi",
|
|
[CSI] = "clk-csi",
|
|
[I2S] = "clk-i2s",
|
|
[TIMER] = "timer-clk"
|
|
};
|
|
|
|
static ulong stm32_get_rate(struct stm32_rcc_regs *regs, enum pllsrc pllsrc)
|
|
{
|
|
struct clk clk;
|
|
struct udevice *fixed_clock_dev = NULL;
|
|
u32 divider;
|
|
int ret;
|
|
const char *name = pllsrc_name[pllsrc];
|
|
|
|
debug("%s name %s\n", __func__, name);
|
|
|
|
clk.id = 0;
|
|
ret = uclass_get_device_by_name(UCLASS_CLK, name, &fixed_clock_dev);
|
|
if (ret) {
|
|
error("Can't find clk %s (%d)", name, ret);
|
|
return 0;
|
|
}
|
|
|
|
ret = clk_request(fixed_clock_dev, &clk);
|
|
if (ret) {
|
|
error("Can't request %s clk (%d)", name, ret);
|
|
return 0;
|
|
}
|
|
|
|
divider = 0;
|
|
if (pllsrc == HSI)
|
|
divider = stm32_get_HSI_divider(regs);
|
|
|
|
debug("%s divider %d rate %ld\n", __func__,
|
|
divider, clk_get_rate(&clk));
|
|
|
|
return clk_get_rate(&clk) >> divider;
|
|
};
|
|
|
|
enum pll1_output {
|
|
PLL1_P_CK,
|
|
PLL1_Q_CK,
|
|
PLL1_R_CK,
|
|
};
|
|
|
|
static u32 stm32_get_PLL1_rate(struct stm32_rcc_regs *regs,
|
|
enum pll1_output output)
|
|
{
|
|
ulong pllsrc = 0;
|
|
u32 divm1, divn1, divp1, divq1, divr1, fracn1;
|
|
ulong vco, rate;
|
|
|
|
/* get the PLLSRC */
|
|
switch (readl(®s->pllckselr) & RCC_PLLCKSELR_PLLSRC_MASK) {
|
|
case RCC_PLLCKSELR_PLLSRC_HSI:
|
|
pllsrc = stm32_get_rate(regs, HSI);
|
|
break;
|
|
case RCC_PLLCKSELR_PLLSRC_CSI:
|
|
pllsrc = stm32_get_rate(regs, CSI);
|
|
break;
|
|
case RCC_PLLCKSELR_PLLSRC_HSE:
|
|
pllsrc = stm32_get_rate(regs, HSE);
|
|
break;
|
|
case RCC_PLLCKSELR_PLLSRC_NO_CLK:
|
|
/* shouldn't happen */
|
|
error("wrong value for RCC_PLLCKSELR register\n");
|
|
pllsrc = 0;
|
|
break;
|
|
}
|
|
|
|
/* pllsrc = 0 ? no need to go ahead */
|
|
if (!pllsrc)
|
|
return pllsrc;
|
|
|
|
/* get divm1, divp1, divn1 and divr1 */
|
|
divm1 = readl(®s->pllckselr) & RCC_PLLCKSELR_DIVM1_MASK;
|
|
divm1 = divm1 >> RCC_PLLCKSELR_DIVM1_SHIFT;
|
|
|
|
divn1 = (readl(®s->pll1divr) & RCC_PLL1DIVR_DIVN1_MASK) + 1;
|
|
|
|
divp1 = readl(®s->pll1divr) & RCC_PLL1DIVR_DIVP1_MASK;
|
|
divp1 = (divp1 >> RCC_PLL1DIVR_DIVP1_SHIFT) + 1;
|
|
|
|
divq1 = readl(®s->pll1divr) & RCC_PLL1DIVR_DIVQ1_MASK;
|
|
divq1 = (divq1 >> RCC_PLL1DIVR_DIVQ1_SHIFT) + 1;
|
|
|
|
divr1 = readl(®s->pll1divr) & RCC_PLL1DIVR_DIVR1_MASK;
|
|
divr1 = (divr1 >> RCC_PLL1DIVR_DIVR1_SHIFT) + 1;
|
|
|
|
fracn1 = readl(®s->pll1fracr) & RCC_PLL1DIVR_DIVR1_MASK;
|
|
fracn1 = fracn1 & RCC_PLL1DIVR_DIVR1_SHIFT;
|
|
|
|
vco = (pllsrc / divm1) * divn1;
|
|
rate = (pllsrc * fracn1) / (divm1 * 8192);
|
|
|
|
debug("%s divm1 = %d divn1 = %d divp1 = %d divq1 = %d divr1 = %d\n",
|
|
__func__, divm1, divn1, divp1, divq1, divr1);
|
|
debug("%s fracn1 = %d vco = %ld rate = %ld\n",
|
|
__func__, fracn1, vco, rate);
|
|
|
|
switch (output) {
|
|
case PLL1_P_CK:
|
|
return (vco + rate) / divp1;
|
|
break;
|
|
case PLL1_Q_CK:
|
|
return (vco + rate) / divq1;
|
|
break;
|
|
|
|
case PLL1_R_CK:
|
|
return (vco + rate) / divr1;
|
|
break;
|
|
}
|
|
|
|
return -EINVAL;
|
|
}
|
|
|
|
static ulong stm32_clk_get_rate(struct clk *clk)
|
|
{
|
|
struct stm32_clk *priv = dev_get_priv(clk->dev);
|
|
struct stm32_rcc_regs *regs = priv->rcc_base;
|
|
ulong sysclk = 0;
|
|
u32 gate_offset;
|
|
u32 d1cfgr;
|
|
/* prescaler table lookups for clock computation */
|
|
u16 prescaler_table[8] = {2, 4, 8, 16, 64, 128, 256, 512};
|
|
u8 source, idx;
|
|
|
|
/*
|
|
* get system clock (sys_ck) source
|
|
* can be HSI_CK, CSI_CK, HSE_CK or pll1_p_ck
|
|
*/
|
|
source = readl(®s->cfgr) & RCC_CFGR_SW_MASK;
|
|
switch (source) {
|
|
case RCC_CFGR_SW_PLL1:
|
|
sysclk = stm32_get_PLL1_rate(regs, PLL1_P_CK);
|
|
break;
|
|
case RCC_CFGR_SW_HSE:
|
|
sysclk = stm32_get_rate(regs, HSE);
|
|
break;
|
|
|
|
case RCC_CFGR_SW_CSI:
|
|
sysclk = stm32_get_rate(regs, CSI);
|
|
break;
|
|
|
|
case RCC_CFGR_SW_HSI:
|
|
sysclk = stm32_get_rate(regs, HSI);
|
|
break;
|
|
}
|
|
|
|
/* sysclk = 0 ? no need to go ahead */
|
|
if (!sysclk)
|
|
return sysclk;
|
|
|
|
debug("%s system clock: source = %d freq = %ld\n",
|
|
__func__, source, sysclk);
|
|
|
|
d1cfgr = readl(®s->d1cfgr);
|
|
|
|
if (d1cfgr & RCC_D1CFGR_D1CPRE_DIVIDED) {
|
|
/* get D1 domain Core prescaler */
|
|
idx = (d1cfgr & RCC_D1CFGR_D1CPRE_DIVIDER) >>
|
|
RCC_D1CFGR_D1CPRE_SHIFT;
|
|
sysclk = sysclk / prescaler_table[idx];
|
|
}
|
|
|
|
if (d1cfgr & RCC_D1CFGR_HPRE_DIVIDED) {
|
|
/* get D1 domain AHB prescaler */
|
|
idx = d1cfgr & RCC_D1CFGR_HPRE_DIVIDER;
|
|
sysclk = sysclk / prescaler_table[idx];
|
|
}
|
|
|
|
gate_offset = clk_map[clk->id].gate_offset;
|
|
|
|
debug("%s clk->id=%ld gate_offset=0x%x sysclk=%ld\n",
|
|
__func__, clk->id, gate_offset, sysclk);
|
|
|
|
switch (gate_offset) {
|
|
case RCC_AHB3ENR:
|
|
case RCC_AHB1ENR:
|
|
case RCC_AHB2ENR:
|
|
case RCC_AHB4ENR:
|
|
return sysclk;
|
|
break;
|
|
|
|
case RCC_APB3ENR:
|
|
if (d1cfgr & RCC_D1CFGR_D1PPRE_DIVIDED) {
|
|
/* get D1 domain APB3 prescaler */
|
|
idx = (d1cfgr & RCC_D1CFGR_D1PPRE_DIVIDER) >>
|
|
RCC_D1CFGR_D1PPRE_SHIFT;
|
|
sysclk = sysclk / prescaler_table[idx];
|
|
}
|
|
|
|
debug("%s system clock: freq after APB3 prescaler = %ld\n",
|
|
__func__, sysclk);
|
|
|
|
return sysclk;
|
|
break;
|
|
|
|
case RCC_APB4ENR:
|
|
if (d1cfgr & RCC_D3CFGR_D3PPRE_DIVIDED) {
|
|
/* get D3 domain APB4 prescaler */
|
|
idx = (d1cfgr & RCC_D3CFGR_D3PPRE_DIVIDER) >>
|
|
RCC_D3CFGR_D3PPRE_SHIFT;
|
|
sysclk = sysclk / prescaler_table[idx];
|
|
}
|
|
|
|
debug("%s system clock: freq after APB4 prescaler = %ld\n",
|
|
__func__, sysclk);
|
|
|
|
return sysclk;
|
|
break;
|
|
|
|
case RCC_APB1LENR:
|
|
case RCC_APB1HENR:
|
|
if (d1cfgr & RCC_D2CFGR_D2PPRE1_DIVIDED) {
|
|
/* get D2 domain APB1 prescaler */
|
|
idx = (d1cfgr & RCC_D2CFGR_D2PPRE1_DIVIDER) >>
|
|
RCC_D2CFGR_D2PPRE1_SHIFT;
|
|
sysclk = sysclk / prescaler_table[idx];
|
|
}
|
|
|
|
debug("%s system clock: freq after APB1 prescaler = %ld\n",
|
|
__func__, sysclk);
|
|
|
|
return sysclk;
|
|
break;
|
|
|
|
case RCC_APB2ENR:
|
|
if (d1cfgr & RCC_D2CFGR_D2PPRE2_DIVIDED) {
|
|
/* get D2 domain APB1 prescaler */
|
|
idx = (d1cfgr & RCC_D2CFGR_D2PPRE2_DIVIDER) >>
|
|
RCC_D2CFGR_D2PPRE2_SHIFT;
|
|
sysclk = sysclk / prescaler_table[idx];
|
|
}
|
|
|
|
debug("%s system clock: freq after APB2 prescaler = %ld\n",
|
|
__func__, sysclk);
|
|
|
|
return sysclk;
|
|
break;
|
|
|
|
default:
|
|
error("unexpected gate_offset value (0x%x)\n", gate_offset);
|
|
return -EINVAL;
|
|
break;
|
|
}
|
|
}
|
|
|
|
static int stm32_clk_enable(struct clk *clk)
|
|
{
|
|
struct stm32_clk *priv = dev_get_priv(clk->dev);
|
|
struct stm32_rcc_regs *regs = priv->rcc_base;
|
|
u32 gate_offset;
|
|
u32 gate_bit_index;
|
|
unsigned long clk_id = clk->id;
|
|
|
|
gate_offset = clk_map[clk_id].gate_offset;
|
|
gate_bit_index = clk_map[clk_id].gate_bit_idx;
|
|
|
|
debug("%s: clkid=%ld gate offset=0x%x bit_index=%d name=%s\n",
|
|
__func__, clk->id, gate_offset, gate_bit_index,
|
|
clk_map[clk_id].name);
|
|
|
|
setbits_le32(®s->cr + (gate_offset / 4), BIT(gate_bit_index));
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int stm32_clk_probe(struct udevice *dev)
|
|
{
|
|
struct stm32_clk *priv = dev_get_priv(dev);
|
|
struct udevice *syscon;
|
|
fdt_addr_t addr;
|
|
int err;
|
|
|
|
addr = dev_read_addr(dev);
|
|
if (addr == FDT_ADDR_T_NONE)
|
|
return -EINVAL;
|
|
|
|
priv->rcc_base = (struct stm32_rcc_regs *)addr;
|
|
|
|
/* get corresponding syscon phandle */
|
|
err = uclass_get_device_by_phandle(UCLASS_SYSCON, dev,
|
|
"st,syscfg", &syscon);
|
|
|
|
if (err) {
|
|
error("unable to find syscon device\n");
|
|
return err;
|
|
}
|
|
|
|
priv->pwr_regmap = syscon_get_regmap(syscon);
|
|
if (!priv->pwr_regmap) {
|
|
error("unable to find regmap\n");
|
|
return -ENODEV;
|
|
}
|
|
|
|
configure_clocks(dev);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int stm32_clk_of_xlate(struct clk *clk,
|
|
struct ofnode_phandle_args *args)
|
|
{
|
|
if (args->args_count != 1) {
|
|
debug("Invaild args_count: %d\n", args->args_count);
|
|
return -EINVAL;
|
|
}
|
|
|
|
if (args->args_count) {
|
|
clk->id = args->args[0];
|
|
/*
|
|
* this computation convert DT clock index which is used to
|
|
* point into 2 separate clock arrays (peripheral and kernel
|
|
* clocks bank) (see include/dt-bindings/clock/stm32h7-clks.h)
|
|
* into index to point into only one array where peripheral
|
|
* and kernel clocks are consecutive
|
|
*/
|
|
if (clk->id >= KERN_BANK) {
|
|
clk->id -= KERN_BANK;
|
|
clk->id += LAST_PERIF_BANK - PERIF_BANK + 1;
|
|
} else {
|
|
clk->id -= PERIF_BANK;
|
|
}
|
|
} else {
|
|
clk->id = 0;
|
|
}
|
|
|
|
debug("%s clk->id %ld\n", __func__, clk->id);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static struct clk_ops stm32_clk_ops = {
|
|
.of_xlate = stm32_clk_of_xlate,
|
|
.enable = stm32_clk_enable,
|
|
.get_rate = stm32_clk_get_rate,
|
|
};
|
|
|
|
U_BOOT_DRIVER(stm32h7_clk) = {
|
|
.name = "stm32h7_rcc_clock",
|
|
.id = UCLASS_CLK,
|
|
.ops = &stm32_clk_ops,
|
|
.probe = stm32_clk_probe,
|
|
.priv_auto_alloc_size = sizeof(struct stm32_clk),
|
|
.flags = DM_FLAG_PRE_RELOC,
|
|
};
|