doc/device-tree-bindings/clock/st,stm32mp1.txt - u-boot-mtk - Git at Google

 STMicroelectronics STM32MP1 clock tree initialization
 =====================================================

 The STM32MP1 clock tree initialization is based on device tree information
 for RCC IP node (st,stm32mp1-rcc) and on fixed-clock nodes.

 RCC IP = st,stm32mp1-rcc
 ========================

 The RCC IP is both a reset and a clock controller but this documentation only
 describes the fields added for clock tree initialization which are not present
 in Linux binding for compatible "st,stm32mp1-rcc" defined in st,stm32mp1-rcc.txt
 file.

 The added properties for clock tree initialization are:

 Required properties:
 - st,clksrc : The clock sources configuration array in a platform specific
               order.

   For the STM32MP15x family there are 9 clock sources selector which are
   configured in the following order:
 	MPU AXI MCU PLL12 PLL3 PLL4 RTC MCO1 MCO2

   Clock source configuration values are defined by macros CLK_<NAME>_<SOURCE>
   from dt-bindings/clock/stm32mp1-clksrc.h.

   Example:
 	st,clksrc = <
 		CLK_MPU_PLL1P
 		CLK_AXI_PLL2P
 		CLK_MCU_PLL3P
 		CLK_PLL12_HSE
 		CLK_PLL3_HSE
 		CLK_PLL4_HSE
 		CLK_RTC_LSE
 		CLK_MCO1_DISABLED
 		CLK_MCO2_DISABLED
 	>;

 - st,clkdiv : The clock main dividers value specified in an array
               in a platform specific order.

   When used, it shall describe the whole clock dividers tree.

   For the STM32MP15x family there are 11 dividers values expected.
   They shall be configured in the following order:
 		MPU AXI MCU APB1 APB2 APB3 APB4 APB5 RTC MCO1 MCO2

   The each divider value uses the DIV coding defined in RCC associated
   register RCC_xxxDIVR. In most the case, it is:
 		0x0: not divided
 		0x1: division by 2
 		0x2: division by 4
 		0x3: division by 8
 		...

   Note that for RTC MCO1 MCO2, the coding is different:
 		0x0: not divided
 		0x1: division by 2
 		0x2: division by 3
 		0x3: division by 4
 		...

   Example:
 	st,clkdiv = <
 		1 /*MPU*/
 		0 /*AXI*/
 		0 /*MCU*/
 		1 /*APB1*/
 		1 /*APB2*/
 		1 /*APB3*/
 		1 /*APB4*/
 		2 /*APB5*/
 		23 /*RTC*/
 		0 /*MCO1*/
 		0 /*MCO2*/
 	>;

 Optional Properties:
 - st,pll : A specific PLL configuration, including frequency.

   PLL children nodes for PLL1 to PLL4 (see ref manual for details)
   are listed with associated index 0 to 3 (st,pll@0 to st,pll@3).
   PLLx is off when the associated node is absent.

   Here are the available properties for each PLL node:

     - cfg: The parameters for PLL configuration in the following order:
            DIVM DIVN DIVP DIVQ DIVR Output.

 	DIVx values are defined as in RCC spec:
 		0x0: bypass (division by 1)
 		0x1: division by 2
 		0x2: division by 3
 		0x3: division by 4
 		...

 	Output contains a bitfield for each output value (1:ON/0:OFF)
 		BIT(0) => output P : DIVPEN
 		BIT(1) => output Q : DIVQEN
 		BIT(2) => output R : DIVREN
 	  NB: macro PQR(p,q,r) can be used to build this value
 	      with p,q,r = 0 or 1.

     - frac : Fractional part of the multiplication factor
              (optional, PLL is in integer mode when absent).

     - csg : Clock Spreading Generator (optional) with parameters in the
 	    following order: MOD_PER INC_STEP SSCG_MODE.

 	MOD_PER: Modulation Period Adjustment
 	INC_STEP: Modulation Depth Adjustment
 	SSCG_MODE: Spread spectrum clock generator mode, with associated
 		   defined from stm32mp1-clksrc.h:
 			- SSCG_MODE_CENTER_SPREAD = 0
 			- SSCG_MODE_DOWN_SPREAD = 1

     Example:
 	st,pll@0 {
 		cfg = < 1 53 0 0 0 1 >;
 		frac = < 0x810 >;
 	};
 	st,pll@1 {
 		cfg = < 1 43 1 0 0 PQR(0,1,1) >;
 		csg = < 10 20 1 >;
 	};
 	st,pll@2 {
 		cfg = < 2 85 3 13 3 0 >;
 		csg = < 10 20 SSCG_MODE_CENTER_SPREAD >;
 		};
 	st,pll@3 {
 		cfg = < 2 78 4 7 9 3 >;
 	};

 - st,pkcs : used to configure the peripherals kernel clock selection.

   The property is a list of peripheral kernel clock source identifiers defined
   by macros CLK_<KERNEL-CLOCK>_<PARENT-CLOCK> as defined by header file
   dt-bindings/clock/stm32mp1-clksrc.h.

   st,pkcs may not list all the kernel clocks and has no ordering requirements.

   Example:
 	st,pkcs = <
 		CLK_STGEN_HSE
 		CLK_CKPER_HSI
 		CLK_USBPHY_PLL2P
 		CLK_DSI_PLL2Q
 		CLK_I2C46_HSI
 		CLK_UART1_HSI
 		CLK_UART24_HSI
 	>;

 other clocks = fixed-clock
 ==========================

 The clock tree is also based on 5 fixed-clock in clocks node
 used to define the state of associated ST32MP1 oscillators:
   - clk-lsi
   - clk-lse
   - clk-hsi
   - clk-hse
   - clk-csi

 At boot the clock tree initialization will
   - enable oscillators present in device tree and not disabled
     (node with status="disabled"),
   - disable HSI oscillator if the node is absent (always activated by bootrom)
     and not disabled (node with status="disabled").

 Optional properties :

 a) for external oscillator: "clk-lse", "clk-hse"

   4 optional fields are managed
   - "st,bypass" configures the oscillator bypass mode (HSEBYP, LSEBYP)
   - "st,digbypass" configures the bypass mode as full-swing digital
     signal (DIGBYP)
   - "st,css" activates the clock security system (HSECSSON, LSECSSON)
   - "st,drive" (only for LSE) contains the value of the drive for the
      oscillator (see LSEDRV_ defined in the file
      dt-bindings/clock/stm32mp1-clksrc.h)

   Example board file:
 	/ {
 		clocks {
 			clk_hse: clk-hse {
 				#clock-cells = <0>;
 				compatible = "fixed-clock";
 				clock-frequency = <64000000>;
 				st,bypass;
 			};

 			clk_lse: clk-lse {
 				#clock-cells = <0>;
 				compatible = "fixed-clock";
 				clock-frequency = <32768>;
 				st,css;
 				st,drive = <LSEDRV_LOWEST>;
 			};
 	};

 b) for internal oscillator: "clk-hsi"

   Internally HSI clock is fixed to 64MHz for STM32MP157 SoC.
   In device tree, clk-hsi is the clock after HSIDIV (clk_hsi in RCC
   doc). So this clock frequency is used to compute the expected HSI_DIV
   for the clock tree initialization.

   Example with HSIDIV = /1:
 	/ {
 		clocks {
 			clk_hsi: clk-hsi {
 				#clock-cells = <0>;
 				compatible = "fixed-clock";
 				clock-frequency = <64000000>;
 			};
 	};

   Example with HSIDIV = /2
 	/ {
 		clocks {
 			clk_hsi: clk-hsi {
 				#clock-cells = <0>;
 				compatible = "fixed-clock";
 				clock-frequency = <32000000>;
 			};
 	};

 Example of clock tree initialization
 ====================================

 / {
 	clocks {
 		u-boot,dm-pre-reloc;
 		clk_hse: clk-hse {
 			u-boot,dm-pre-reloc;
 			#clock-cells = <0>;
 			compatible = "fixed-clock";
 			clock-frequency = <24000000>;
 			st,digbypass;
 		};

 		clk_hsi: clk-hsi {
 			u-boot,dm-pre-reloc;
 			#clock-cells = <0>;
 			compatible = "fixed-clock";
 			clock-frequency = <64000000>;
 		};

 		clk_lse: clk-lse {
 			u-boot,dm-pre-reloc;
 			#clock-cells = <0>;
 			compatible = "fixed-clock";
 			clock-frequency = <32768>;
 		};

 		clk_lsi: clk-lsi {
 			u-boot,dm-pre-reloc;
 			#clock-cells = <0>;
 			compatible = "fixed-clock";
 			clock-frequency = <32000>;
 		};

 		clk_csi: clk-csi {
 			u-boot,dm-pre-reloc;
 			#clock-cells = <0>;
 			compatible = "fixed-clock";
 			clock-frequency = <4000000>;
 		};
 	};

 	soc {

 		rcc: rcc@50000000 {
 			u-boot,dm-pre-reloc;
 			compatible = "st,stm32mp1-rcc", "syscon";
 			reg = <0x50000000 0x1000>;
 			#clock-cells = <1>;
 			#reset-cells = <1>;
 			interrupts = <GIC_SPI 5 IRQ_TYPE_LEVEL_HIGH>;

 			st,clksrc = <
 				CLK_MPU_PLL1P
 				CLK_AXI_PLL2P
 				CLK_MCU_PLL3P
 				CLK_PLL12_HSE
 				CLK_PLL3_HSE
 				CLK_PLL4_HSE
 				CLK_RTC_LSE
 				CLK_MCO1_DISABLED
 				CLK_MCO2_DISABLED
 			>;

 			st,clkdiv = <
 				1 /*MPU*/
 				0 /*AXI*/
 				0 /*MCU*/
 				1 /*APB1*/
 				1 /*APB2*/
 				1 /*APB3*/
 				1 /*APB4*/
 				2 /*APB5*/
 				23 /*RTC*/
 				0 /*MCO1*/
 				0 /*MCO2*/
 			>;

 			st,pkcs = <
 				CLK_CKPER_HSE
 				CLK_FMC_ACLK
 				CLK_QSPI_ACLK
 				CLK_ETH_DISABLED
 				CLK_SDMMC12_PLL4P
 				CLK_DSI_DSIPLL
 				CLK_STGEN_HSE
 				CLK_USBPHY_HSE
 				CLK_SPI2S1_PLL3Q
 				CLK_SPI2S23_PLL3Q
 				CLK_SPI45_HSI
 				CLK_SPI6_HSI
 				CLK_I2C46_HSI
 				CLK_SDMMC3_PLL4P
 				CLK_USBO_USBPHY
 				CLK_ADC_CKPER
 				CLK_CEC_LSE
 				CLK_I2C12_HSI
 				CLK_I2C35_HSI
 				CLK_UART1_HSI
 				CLK_UART24_HSI
 				CLK_UART35_HSI
 				CLK_UART6_HSI
 				CLK_UART78_HSI
 				CLK_SPDIF_PLL4P
 				CLK_FDCAN_PLL4Q
 				CLK_SAI1_PLL3Q
 				CLK_SAI2_PLL3Q
 				CLK_SAI3_PLL3Q
 				CLK_SAI4_PLL3Q
 				CLK_RNG1_LSI
 				CLK_RNG2_LSI
 				CLK_LPTIM1_PCLK1
 				CLK_LPTIM23_PCLK3
 				CLK_LPTIM45_LSE
 			>;

 			/* VCO = 1300.0 MHz => P = 650 (CPU) */
 			pll1: st,pll@0 {
 				cfg = < 2 80 0 0 0 PQR(1,0,0) >;
 				frac = < 0x800 >;
 				u-boot,dm-pre-reloc;
 			};

 			/* VCO = 1066.0 MHz => P = 266 (AXI), Q = 533 (GPU),
 			                       R = 533 (DDR) */
 			pll2: st,pll@1 {
 				cfg = < 2 65 1 0 0 PQR(1,1,1) >;
 				frac = < 0x1400 >;
 				u-boot,dm-pre-reloc;
 			};

 			/* VCO = 417.8 MHz => P = 209, Q = 24, R = 11 */
 			pll3: st,pll@2 {
 				cfg = < 1 33 1 16 36 PQR(1,1,1) >;
 				frac = < 0x1a04 >;
 				u-boot,dm-pre-reloc;
 			};

 			/* VCO = 594.0 MHz => P = 99, Q = 74, R = 74 */
 			pll4: st,pll@3 {
 				cfg = < 3 98 5 7 7 PQR(1,1,1) >;
 				u-boot,dm-pre-reloc;
 			};
 		};
 	};
 };
	STMicroelectronics STM32MP1 clock tree initialization
	=====================================================

	The STM32MP1 clock tree initialization is based on device tree information
	for RCC IP node (st,stm32mp1-rcc) and on fixed-clock nodes.

	RCC IP = st,stm32mp1-rcc
	========================

	The RCC IP is both a reset and a clock controller but this documentation only
	describes the fields added for clock tree initialization which are not present
	in Linux binding for compatible "st,stm32mp1-rcc" defined in st,stm32mp1-rcc.txt
	file.

	The added properties for clock tree initialization are:

	Required properties:
	- st,clksrc : The clock sources configuration array in a platform specific
	order.

	For the STM32MP15x family there are 9 clock sources selector which are
	configured in the following order:
	MPU AXI MCU PLL12 PLL3 PLL4 RTC MCO1 MCO2

	Clock source configuration values are defined by macros CLK_<NAME>_<SOURCE>
	from dt-bindings/clock/stm32mp1-clksrc.h.

	Example:
	st,clksrc = <
	CLK_MPU_PLL1P
	CLK_AXI_PLL2P
	CLK_MCU_PLL3P
	CLK_PLL12_HSE
	CLK_PLL3_HSE
	CLK_PLL4_HSE
	CLK_RTC_LSE
	CLK_MCO1_DISABLED
	CLK_MCO2_DISABLED
	>;

	- st,clkdiv : The clock main dividers value specified in an array
	in a platform specific order.

	When used, it shall describe the whole clock dividers tree.

	For the STM32MP15x family there are 11 dividers values expected.
	They shall be configured in the following order:
	MPU AXI MCU APB1 APB2 APB3 APB4 APB5 RTC MCO1 MCO2

	The each divider value uses the DIV coding defined in RCC associated
	register RCC_xxxDIVR. In most the case, it is:
	0x0: not divided
	0x1: division by 2
	0x2: division by 4
	0x3: division by 8
	...

	Note that for RTC MCO1 MCO2, the coding is different:
	0x0: not divided
	0x1: division by 2
	0x2: division by 3
	0x3: division by 4
	...

	Example:
	st,clkdiv = <
	1 /MPU/
	0 /AXI/
	0 /MCU/
	1 /APB1/
	1 /APB2/
	1 /APB3/
	1 /APB4/
	2 /APB5/
	23 /RTC/
	0 /MCO1/
	0 /MCO2/
	>;

	Optional Properties:
	- st,pll : A specific PLL configuration, including frequency.

	PLL children nodes for PLL1 to PLL4 (see ref manual for details)
	are listed with associated index 0 to 3 (st,pll@0 to st,pll@3).
	PLLx is off when the associated node is absent.

	Here are the available properties for each PLL node:

	- cfg: The parameters for PLL configuration in the following order:
	DIVM DIVN DIVP DIVQ DIVR Output.

	DIVx values are defined as in RCC spec:
	0x0: bypass (division by 1)
	0x1: division by 2
	0x2: division by 3
	0x3: division by 4
	...

	Output contains a bitfield for each output value (1:ON/0:OFF)
	BIT(0) => output P : DIVPEN
	BIT(1) => output Q : DIVQEN
	BIT(2) => output R : DIVREN
	NB: macro PQR(p,q,r) can be used to build this value
	with p,q,r = 0 or 1.

	- frac : Fractional part of the multiplication factor
	(optional, PLL is in integer mode when absent).

	- csg : Clock Spreading Generator (optional) with parameters in the
	following order: MOD_PER INC_STEP SSCG_MODE.

	MOD_PER: Modulation Period Adjustment
	INC_STEP: Modulation Depth Adjustment
	SSCG_MODE: Spread spectrum clock generator mode, with associated
	defined from stm32mp1-clksrc.h:
	- SSCG_MODE_CENTER_SPREAD = 0
	- SSCG_MODE_DOWN_SPREAD = 1

	Example:
	st,pll@0 {
	cfg = < 1 53 0 0 0 1 >;
	frac = < 0x810 >;
	};
	st,pll@1 {
	cfg = < 1 43 1 0 0 PQR(0,1,1) >;
	csg = < 10 20 1 >;
	};
	st,pll@2 {
	cfg = < 2 85 3 13 3 0 >;
	csg = < 10 20 SSCG_MODE_CENTER_SPREAD >;
	};
	st,pll@3 {
	cfg = < 2 78 4 7 9 3 >;
	};

	- st,pkcs : used to configure the peripherals kernel clock selection.

	The property is a list of peripheral kernel clock source identifiers defined
	by macros CLK_<KERNEL-CLOCK>_<PARENT-CLOCK> as defined by header file
	dt-bindings/clock/stm32mp1-clksrc.h.

	st,pkcs may not list all the kernel clocks and has no ordering requirements.

	Example:
	st,pkcs = <
	CLK_STGEN_HSE
	CLK_CKPER_HSI
	CLK_USBPHY_PLL2P
	CLK_DSI_PLL2Q
	CLK_I2C46_HSI
	CLK_UART1_HSI
	CLK_UART24_HSI
	>;

	other clocks = fixed-clock
	==========================

	The clock tree is also based on 5 fixed-clock in clocks node
	used to define the state of associated ST32MP1 oscillators:
	- clk-lsi
	- clk-lse
	- clk-hsi
	- clk-hse
	- clk-csi

	At boot the clock tree initialization will
	- enable oscillators present in device tree and not disabled
	(node with status="disabled"),
	- disable HSI oscillator if the node is absent (always activated by bootrom)
	and not disabled (node with status="disabled").

	Optional properties :

	a) for external oscillator: "clk-lse", "clk-hse"

	4 optional fields are managed
	- "st,bypass" configures the oscillator bypass mode (HSEBYP, LSEBYP)
	- "st,digbypass" configures the bypass mode as full-swing digital
	signal (DIGBYP)
	- "st,css" activates the clock security system (HSECSSON, LSECSSON)
	- "st,drive" (only for LSE) contains the value of the drive for the
	oscillator (see LSEDRV_ defined in the file
	dt-bindings/clock/stm32mp1-clksrc.h)

	Example board file:
	/ {
	clocks {
	clk_hse: clk-hse {
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <64000000>;
	st,bypass;
	};

	clk_lse: clk-lse {
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <32768>;
	st,css;
	st,drive = <LSEDRV_LOWEST>;
	};
	};

	b) for internal oscillator: "clk-hsi"

	Internally HSI clock is fixed to 64MHz for STM32MP157 SoC.
	In device tree, clk-hsi is the clock after HSIDIV (clk_hsi in RCC
	doc). So this clock frequency is used to compute the expected HSI_DIV
	for the clock tree initialization.

	Example with HSIDIV = /1:
	/ {
	clocks {
	clk_hsi: clk-hsi {
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <64000000>;
	};
	};

	Example with HSIDIV = /2
	/ {
	clocks {
	clk_hsi: clk-hsi {
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <32000000>;
	};
	};

	Example of clock tree initialization
	====================================

	/ {
	clocks {
	u-boot,dm-pre-reloc;
	clk_hse: clk-hse {
	u-boot,dm-pre-reloc;
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <24000000>;
	st,digbypass;
	};

	clk_hsi: clk-hsi {
	u-boot,dm-pre-reloc;
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <64000000>;
	};

	clk_lse: clk-lse {
	u-boot,dm-pre-reloc;
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <32768>;
	};

	clk_lsi: clk-lsi {
	u-boot,dm-pre-reloc;
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <32000>;
	};

	clk_csi: clk-csi {
	u-boot,dm-pre-reloc;
	#clock-cells = <0>;
	compatible = "fixed-clock";
	clock-frequency = <4000000>;
	};
	};

	soc {

	rcc: rcc@50000000 {
	u-boot,dm-pre-reloc;
	compatible = "st,stm32mp1-rcc", "syscon";
	reg = <0x50000000 0x1000>;
	#clock-cells = <1>;
	#reset-cells = <1>;
	interrupts = <GIC_SPI 5 IRQ_TYPE_LEVEL_HIGH>;

	st,clksrc = <
	CLK_MPU_PLL1P
	CLK_AXI_PLL2P
	CLK_MCU_PLL3P
	CLK_PLL12_HSE
	CLK_PLL3_HSE
	CLK_PLL4_HSE
	CLK_RTC_LSE
	CLK_MCO1_DISABLED
	CLK_MCO2_DISABLED
	>;

	st,clkdiv = <
	1 /MPU/
	0 /AXI/
	0 /MCU/
	1 /APB1/
	1 /APB2/
	1 /APB3/
	1 /APB4/
	2 /APB5/
	23 /RTC/
	0 /MCO1/
	0 /MCO2/
	>;

	st,pkcs = <
	CLK_CKPER_HSE
	CLK_FMC_ACLK
	CLK_QSPI_ACLK
	CLK_ETH_DISABLED
	CLK_SDMMC12_PLL4P
	CLK_DSI_DSIPLL
	CLK_STGEN_HSE
	CLK_USBPHY_HSE
	CLK_SPI2S1_PLL3Q
	CLK_SPI2S23_PLL3Q
	CLK_SPI45_HSI
	CLK_SPI6_HSI
	CLK_I2C46_HSI
	CLK_SDMMC3_PLL4P
	CLK_USBO_USBPHY
	CLK_ADC_CKPER
	CLK_CEC_LSE
	CLK_I2C12_HSI
	CLK_I2C35_HSI
	CLK_UART1_HSI
	CLK_UART24_HSI
	CLK_UART35_HSI
	CLK_UART6_HSI
	CLK_UART78_HSI
	CLK_SPDIF_PLL4P
	CLK_FDCAN_PLL4Q
	CLK_SAI1_PLL3Q
	CLK_SAI2_PLL3Q
	CLK_SAI3_PLL3Q
	CLK_SAI4_PLL3Q
	CLK_RNG1_LSI
	CLK_RNG2_LSI
	CLK_LPTIM1_PCLK1
	CLK_LPTIM23_PCLK3
	CLK_LPTIM45_LSE
	>;

	/* VCO = 1300.0 MHz => P = 650 (CPU) */
	pll1: st,pll@0 {
	cfg = < 2 80 0 0 0 PQR(1,0,0) >;
	frac = < 0x800 >;
	u-boot,dm-pre-reloc;
	};

	/* VCO = 1066.0 MHz => P = 266 (AXI), Q = 533 (GPU),
	R = 533 (DDR) */
	pll2: st,pll@1 {
	cfg = < 2 65 1 0 0 PQR(1,1,1) >;
	frac = < 0x1400 >;
	u-boot,dm-pre-reloc;
	};

	/* VCO = 417.8 MHz => P = 209, Q = 24, R = 11 */
	pll3: st,pll@2 {
	cfg = < 1 33 1 16 36 PQR(1,1,1) >;
	frac = < 0x1a04 >;
	u-boot,dm-pre-reloc;
	};

	/* VCO = 594.0 MHz => P = 99, Q = 74, R = 74 */
	pll4: st,pll@3 {
	cfg = < 3 98 5 7 7 PQR(1,1,1) >;
	u-boot,dm-pre-reloc;
	};
	};
	};
	};