“Bluetooth device tree configuration”的版本间的差异
第1行: | 第1行: | ||
== Article purpose == | == Article purpose == | ||
− | + | 本文介绍如何配置“蓝牙” <ref name="Bluetooth"> [[WLAN_and_Bluetooth_hardware_component|Bluetooth]] </ref> ''' 将外围设备“(或与框架关联的外围设备)”分配给 Linux<sup>®</sup> OS'''. | |
− | + | 使用 '''设备树机制''' <ref> [[Device tree]]</ref>执行配置。 | |
− | + | 在我们的平台上选择的蓝牙配套芯片是赛普拉斯(Cypress)芯片 <ref>[http://wireless.murata.com/datasheet?/RFM/data/lbee5kl1dx.pdf MURATA CYW4343W datasheet]</ref> | |
== Bluetooth DT bindings documentation == | == Bluetooth DT bindings documentation == |
2020年11月5日 (四) 17:06的版本
目录
Article purpose
本文介绍如何配置“蓝牙” [1] 将外围设备“(或与框架关联的外围设备)”分配给 Linux® OS.
使用 设备树机制 [2]执行配置。
在我们的平台上选择的蓝牙配套芯片是赛普拉斯(Cypress)芯片 [3]
Bluetooth DT bindings documentation
The Bluetooth[4] tree bindings are composed of:
Bluetooth DT configuration
This hardware description is a combination of the STM32 microprocessor device tree files (.dtsi extension) and board device tree files (.dts extension). See the device tree for an explanation of the device tree file split.
Bluetooth DT configuration (STM32 level)
The USART peripheral node is located in stm32mp157c.dtsi
- This is a set of properties that may not vary for given STM32 device, such as: registers address, clock, reset...
The USART DT configuration is explained in Serial TTY device tree configuration
Bluetooth DT configuration (board level)
<securetransclude src="ProtectedTemplate:ReviewsComments" params="NSA W940 : I would have say as below in stead of you first proposal?"></securetransclude>{{#set:Has reviews comments=true}}
For ecosystem release ≥ v1.1.0{{#set:Ecosystem release=revision of a previous flow 1.1.0}} :
For ecosystem release v1.1.0{{#set:Ecosystem release=revision of a previous flow 1.1.0}} :
[Description for the STM32MP15-Ecosystem-v1.1.0 revision]
<securetransclude src="ProtectedTemplate:ReviewsComments" params="NSA W940 : why adding this sentence into brackets?"></securetransclude>{{#set:Has reviews comments=true}}
&usart2 { ... st,hw-flow-ctrl; /* enable hardware flow control */ ... bluetooth { /* node of Bluetooth companion chip */ shutdown-gpios = <&gpioz 6 GPIO_ACTIVE_HIGH>; /* GPIO specifier, used to enable the BT module */ compatible = "brcm,bcm43438-bt"; max-speed = <3000000>; }; };
Specific properties for USART:
- st,hw-flow-ctrl: bool flag to enable hardware flow control
For ecosystem release ≤ v1.0.0{{#set:Ecosystem release=revision of a previous flow 1.0.0}} :
[Description for the STM32MP15-Ecosystem-v1.0.0 and previous revisions] <securetransclude src="ProtectedTemplate:ReviewsComments" params="NSA W940 : why adding this sentence into brackets ?"></securetransclude>{{#set:Has reviews comments=true}}
&usart2 { ... st,hw-flow-ctrl; /* enable hardware flow control */ ... bluetooth { /* node of Bluetooth companion chip */ pinctrl-names = "default"; pinctrl-0 = <&btreg>; /* GPIO to power up or down the internal companion chip regulators */ compatible = "brcm,bcm43438-bt"; max-speed = <3000000>; }; };
Specific properties for USART:
- btreg: GPIO to power up or down the internal CYW4343W regulators used by the Bluetooth section
- st,hw-flow-ctrl: bool flag to enable hardware flow control
How to configure Bluetooth using CubeMX
The STM32CubeMX tool can be used to configure the STM32MPU device and get the corresponding platform configuration device tree files.
The STM32CubeMX may not support all the properties described in the above DT bindings documentation paragraph. If so, the tool inserts user sections in the generated device tree. These sections can then be edited to add some properties and they are preserved from one generation to another. Refer to STM32CubeMX user manual for further information.