“QUADSPI device tree configuration”的版本间的差异
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| − | + | == Article purpose == | |
| + | 本文介绍如何在将 [[QUADSPI internal peripheral|'''QUADSPI''' internal peripheral]] 分配给 Linux<sup>®</sup>操作系统时对其进行配置。 在这种情况下,它由[[MTD overview|MTD framework]]控制. | ||
| + | 使用[[Device tree|device tree]] 机制执行配置,该机制提供由STM32 QUADSPI Linux驱动程序和MTD框架使用的QUADSPI外围设备的硬件描述。 | ||
| − | [[ | + | |
| − | + | 如果外围设备已分配给另一个执行上下文,请参阅[[[How to assign an internal peripheral to a runtime context]] 文章,了解有关外围设备分配和配置的指南。 | |
| − | + | ||
| + | == DT bindings documentation == | ||
| + | |||
| + | QUADSPI设备树绑定由以下组成: | ||
| + | |||
| + | * generic SPI-NOR / SPI-NAND Flash memory bindings <ref name="spi_busses_bindings">{{CodeSource | Linux kernel | Documentation/devicetree/bindings/spi/spi-bus.txt}}</ref>. | ||
| + | |||
| + | * QUADSPI driver bindings <ref> {{CodeSource | Linux kernel | Documentation/devicetree/bindings/spi/spi-stm32-qspi.txt}} </ref>. | ||
| + | |||
| + | 在接下来的章节中,SPI-NAND绑定只与{{EcosystemRelease | revision=1.1.0 | range=and after}}兼容。 | ||
| + | |||
| + | == DT configuration == | ||
| + | 该硬件描述是“''STM32微处理器”''设备树文件(扩展名为.dtsi)和“''板子”设备树文件(扩展名为.dts)的组合。 有关设备树文件分割的说明,请参见[[Device tree]]. | ||
| + | '''STM32CubeMX'''可用于生成板设备树。 有关详细信息,请参阅[[#How_to_configure_the_DT_using_STM32CubeMX|How to configure the DT using STM32CubeMX]] 。 | ||
| + | |||
| + | ===DT configuration (STM32 level) === | ||
| + | QUADSPI外设节点位于``stm32mp157c.dtsi''<ref>{{CodeSource | Linux kernel | arch/arm/boot/dts/stm32mp157c.dtsi}}</ref> 文件。 | ||
| + | qspi: spi@58003000 { {{highlight|Comments}} | ||
| + | compatible = "st,stm32f469-qspi"; | ||
| + | reg = <0x58003000 0x1000>, {{highlight|--> Register location}} | ||
| + | <0x70000000 0x10000000>; {{highlight|--> Memory mapping address}} | ||
| + | reg-names = "qspi", "qspi_mm"; | ||
| + | interrupts = <GIC_SPI 92 IRQ_TYPE_LEVEL_HIGH>; {{highlight|--> The interrupt number used}} | ||
| + | dmas = <&mdma1 22 0x10 0x100002 0x0 0x0 0x0>, {{highlight|--> DMA specifiers <ref>{{CodeSource | Linux kernel | Documentation/devicetree/bindings/dma/stm32-mdma.txt}}</ref>}} | ||
| + | <&mdma1 22 0x10 0x100008 0x0 0x0 0x0>; | ||
| + | dma-names = "tx", "rx"; | ||
| + | clocks = <&rcc QSPI_K>; | ||
| + | resets = <&rcc QSPI_R>; | ||
| + | status = "disabled"; | ||
| + | }; | ||
| + | |||
| + | {{Warning|与STM32相关的该设备树部分应保持原样,客户不应对其进行修改。}} | ||
| + | |||
| + | === DT configuration (board level) === | ||
| + | QUADSPI外设最多可连接2个SPI-NOR闪存。 | ||
| + | |||
| + | SPI-NOR闪存节点<ref name="spi_busses_bindings"/> 必须是QUADSPI外设节点的子级。 | ||
| + | |||
| + | &qspi { {{highlight|Comments}} | ||
| + | pinctrl-names = "default", "sleep"; {{highlight|--> For pinctrl configuration, please refer to [[Pinctrl device tree configuration]]}} | ||
| + | pinctrl-0 = <&qspi_clk_pins_a &qspi_bk1_pins_a &qspi_bk2_pins_a>; | ||
| + | pinctrl-1 = <&qspi_clk_sleep_pins_a &qspi_bk1_sleep_pins_a &qspi_bk2_sleep_pins_a>; | ||
| + | reg = <0x58003000 0x1000>, | ||
| + | <0x70000000 0x4000000>; {{highlight|--> Overwrite the memory map to the Flash device size, avoid the waste of virtual memory that will not be used}} | ||
| + | #address-cells = <1>; | ||
| + | #size-cells = <0>; | ||
| + | status = "okay"; {{highlight|--> Enable the node}}<br> | ||
| + | flash0: mx66l51235l@0 { | ||
| + | compatible = "jdec,spi-nor"; | ||
| + | reg = <0>; {{highlight|--> Chip select number}} | ||
| + | spi-rx-bus-width = <4>; {{highlight|--> The bus width (number of data wires used)}} | ||
| + | spi-max-frequency = <108000000>; {{highlight|--> Maximum SPI clocking speed of device in Hz}} | ||
| + | #address-cells = <1>; | ||
| + | #size-cells = <1>; | ||
| + | }; | ||
| + | }; | ||
| + | |||
| + | === DT configuration example === | ||
| + | 以下示例显示了在连接1个SPI-NAND闪存和1个SPI-NOR闪存时如何配置QUADSPI外设。 | ||
| + | |||
| + | &qspi { | ||
| + | pinctrl-names = "default", "sleep"; | ||
| + | pinctrl-0 = <&qspi_clk_pins_a &qspi_bk1_pins_a &qspi_bk2_pins_a>; | ||
| + | pinctrl-1 = <&qspi_clk_sleep_pins_a &qspi_bk1_sleep_pins_a &qspi_bk2_sleep_pins_a>; | ||
| + | reg = <0x58003000 0x1000>, | ||
| + | <0x70000000 0x4000000>; | ||
| + | #address-cells = <1>; | ||
| + | #size-cells = <0>; | ||
| + | status = "okay";<br> | ||
| + | flash0: mx66l51235l@0 { | ||
| + | compatible = "jdec,spi-nor"; | ||
| + | reg = <0>; | ||
| + | spi-rx-bus-width = <4>; | ||
| + | spi-max-frequency = <108000000>; | ||
| + | #address-cells = <1>; | ||
| + | #size-cells = <1>; | ||
| + | };<br> | ||
| + | flash1: mt29f2g01abagd@1 { | ||
| + | compatible = "spi-nand"; | ||
| + | reg = <1>; | ||
| + | spi-rx-bus-width = <4>; | ||
| + | spi-tx-bus-width = <4>; | ||
| + | spi-max-frequency = <133000000>; | ||
| + | #address-cells = <1>; | ||
| + | #size-cells = <1>; | ||
| + | }; | ||
| + | }; | ||
| + | |||
| + | ==How to configure the DT using STM32CubeMX== | ||
| + | [[STM32CubeMX]] 工具可用于配置STM32MPU设备并获取相应的[[Device_tree#STM32|platform configuration device tree]]文件。<br /> | ||
| + | STM32CubeMX可能不支持上述[[#DT bindings documentation|DT bindings documentation]] p段落中描述的所有属性。 如果是这样的话,该工具会在生成的设备树中插入“”User Sections“”。 然后可以编辑这些部分以添加某些属性,并将它们代代相传。 有关详细信息,请参阅[[STM32CubeMX]] 用户手册。 | ||
| + | |||
| + | ==References== | ||
| + | 请参考以下链接以获得完整描述: | ||
| + | |||
| + | <references /> | ||
2020年11月10日 (二) 11:48的最新版本
目录
Article purpose
本文介绍如何在将 QUADSPI internal peripheral 分配给 Linux®操作系统时对其进行配置。 在这种情况下,它由MTD framework控制.
使用device tree 机制执行配置,该机制提供由STM32 QUADSPI Linux驱动程序和MTD框架使用的QUADSPI外围设备的硬件描述。
如果外围设备已分配给另一个执行上下文,请参阅[[[How to assign an internal peripheral to a runtime context]] 文章,了解有关外围设备分配和配置的指南。
DT bindings documentation
QUADSPI设备树绑定由以下组成:
- generic SPI-NOR / SPI-NAND Flash memory bindings [1].
- QUADSPI driver bindings [2].
在接下来的章节中,SPI-NAND绑定只与ecosystem release ≥ v1.1.0{{#set:Ecosystem release=revision of a previous flow 1.1.0}} 兼容。
DT configuration
该硬件描述是“STM32微处理器”设备树文件(扩展名为.dtsi)和“板子”设备树文件(扩展名为.dts)的组合。 有关设备树文件分割的说明,请参见Device tree. STM32CubeMX可用于生成板设备树。 有关详细信息,请参阅How to configure the DT using STM32CubeMX 。
DT configuration (STM32 level)
QUADSPI外设节点位于``stm32mp157c.dtsi[3] 文件。
qspi: spi@58003000 { Comments
compatible = "st,stm32f469-qspi";
reg = <0x58003000 0x1000>, --> Register location
<0x70000000 0x10000000>; --> Memory mapping address
reg-names = "qspi", "qspi_mm";
interrupts = <GIC_SPI 92 IRQ_TYPE_LEVEL_HIGH>; --> The interrupt number used
dmas = <&mdma1 22 0x10 0x100002 0x0 0x0 0x0>, --> DMA specifiers [4]
<&mdma1 22 0x10 0x100008 0x0 0x0 0x0>;
dma-names = "tx", "rx";
clocks = <&rcc QSPI_K>;
resets = <&rcc QSPI_R>;
status = "disabled";
};
 |
与STM32相关的该设备树部分应保持原样,客户不应对其进行修改。 |
DT configuration (board level)
QUADSPI外设最多可连接2个SPI-NOR闪存。
SPI-NOR闪存节点[1] 必须是QUADSPI外设节点的子级。
&qspi { Comments
pinctrl-names = "default", "sleep"; --> For pinctrl configuration, please refer to Pinctrl device tree configuration
pinctrl-0 = <&qspi_clk_pins_a &qspi_bk1_pins_a &qspi_bk2_pins_a>;
pinctrl-1 = <&qspi_clk_sleep_pins_a &qspi_bk1_sleep_pins_a &qspi_bk2_sleep_pins_a>;
reg = <0x58003000 0x1000>,
<0x70000000 0x4000000>; --> Overwrite the memory map to the Flash device size, avoid the waste of virtual memory that will not be used
#address-cells = <1>;
#size-cells = <0>;
status = "okay"; --> Enable the node
flash0: mx66l51235l@0 {
compatible = "jdec,spi-nor";
reg = <0>; --> Chip select number
spi-rx-bus-width = <4>; --> The bus width (number of data wires used)
spi-max-frequency = <108000000>; --> Maximum SPI clocking speed of device in Hz
#address-cells = <1>;
#size-cells = <1>;
};
};
DT configuration example
以下示例显示了在连接1个SPI-NAND闪存和1个SPI-NOR闪存时如何配置QUADSPI外设。
&qspi {
pinctrl-names = "default", "sleep";
pinctrl-0 = <&qspi_clk_pins_a &qspi_bk1_pins_a &qspi_bk2_pins_a>;
pinctrl-1 = <&qspi_clk_sleep_pins_a &qspi_bk1_sleep_pins_a &qspi_bk2_sleep_pins_a>;
reg = <0x58003000 0x1000>,
<0x70000000 0x4000000>;
#address-cells = <1>;
#size-cells = <0>;
status = "okay";
flash0: mx66l51235l@0 {
compatible = "jdec,spi-nor";
reg = <0>;
spi-rx-bus-width = <4>;
spi-max-frequency = <108000000>;
#address-cells = <1>;
#size-cells = <1>;
};
flash1: mt29f2g01abagd@1 {
compatible = "spi-nand";
reg = <1>;
spi-rx-bus-width = <4>;
spi-tx-bus-width = <4>;
spi-max-frequency = <133000000>;
#address-cells = <1>;
#size-cells = <1>;
};
};
How to configure the DT using STM32CubeMX
STM32CubeMX 工具可用于配置STM32MPU设备并获取相应的platform configuration device tree文件。
STM32CubeMX可能不支持上述DT bindings documentation p段落中描述的所有属性。 如果是这样的话,该工具会在生成的设备树中插入“”User Sections“”。 然后可以编辑这些部分以添加某些属性,并将它们代代相传。 有关详细信息,请参阅STM32CubeMX 用户手册。
References
请参考以下链接以获得完整描述:
- ↑ 1.01.1 Documentation/devicetree/bindings/spi/spi-bus.txt| |}} Documentation/devicetree/bindings/spi/spi-bus.txt
- ↑ Documentation/devicetree/bindings/spi/spi-stm32-qspi.txt| |}} Documentation/devicetree/bindings/spi/spi-stm32-qspi.txt
- ↑ arch/arm/boot/dts/stm32mp157c.dtsi| |}} arch/arm/boot/dts/stm32mp157c.dtsi
- ↑ Documentation/devicetree/bindings/dma/stm32-mdma.txt| |}} Documentation/devicetree/bindings/dma/stm32-mdma.txt
