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这篇文章给大家分享的是有关linux电源管理驱动编写的示例分析的内容。小编觉得挺实用的,因此分享给大家做个参考,一起跟随小编过来看看吧。
对于嵌入式设备来说,合适的电源管理,不仅可以延长电池的寿命,而且可以省电,延长设备运行时间,在提高用户体验方面有很大的好处。所以,各个soc厂家在这方面花了很多的功夫。下面,我们可以看看linux是如何处理电源管理驱动的。
1、代码目录
drivers/regulator
2、查看目录下的Kconfig文件
menuconfig REGULATOR bool "Voltage and Current Regulator Support" help Generic Voltage and Current Regulator support. This framework is designed to provide a generic interface to voltage and current regulators within the Linux kernel. It's intended to provide voltage and current control to client or consumer drivers and also provide status information to user space applications through a sysfs interface. The intention is to allow systems to dynamically control regulator output in order to save power and prolong battery life. This applies to both voltage regulators (where voltage output is controllable) and current sinks (where current output is controllable). This framework safely compiles out if not selected so that client drivers can still be used in systems with no software controllable regulators. If unsure, say no.
3、阅读文件,得知REGULATOR是最核心的模块macro,那我们可以找一个设备的macro看看
config REGULATOR_STM32_VREFBUF tristate "STMicroelectronics STM32 VREFBUF" depends on ARCH_STM32 || COMPILE_TEST help This driver supports STMicroelectronics STM32 VREFBUF (voltage reference buffer) which can be used as voltage reference for internal ADCs, DACs and also for external components through dedicated Vref+ pin. This driver can also be built as a module. If so, the module will be called stm32-vrefbuf.
4、没有找到s3c,可以看一下stm32芯片的依赖属性,接着看Makefile
obj-$(CONFIG_REGULATOR) += core.o dummy.o fixed-helper.o helpers.o devres.o obj-$(CONFIG_OF) += of_regulator.o obj-$(CONFIG_REGULATOR_FIXED_VOLTAGE) += fixed.o obj-$(CONFIG_REGULATOR_VIRTUAL_CONSUMER) += virtual.o obj-$(CONFIG_REGULATOR_USERSPACE_CONSUMER) += userspace-consumer.o obj-$(CONFIG_REGULATOR_STM32_VREFBUF) += stm32-vrefbuf.o
5、看的出来stm32只依赖于stm32-verfbuf.c文件,继续查看
static const struct of_device_id stm32_vrefbuf_of_match[] = {
{ .compatible = "st,stm32-vrefbuf", },
{},
};
MODULE_DEVICE_TABLE(of, stm32_vrefbuf_of_match);
static struct platform_driver stm32_vrefbuf_driver = {
.probe = stm32_vrefbuf_probe,
.remove = stm32_vrefbuf_remove,
.driver = {
.name = "stm32-vrefbuf",
.of_match_table = of_match_ptr(stm32_vrefbuf_of_match),
},
};
module_platform_driver(stm32_vrefbuf_driver);6、确认驱动为platform驱动,寻找regulator特有的数据结构
static const struct regulator_ops stm32_vrefbuf_volt_ops = {
.enable = stm32_vrefbuf_enable,
.disable = stm32_vrefbuf_disable,
.is_enabled = stm32_vrefbuf_is_enabled,
.get_voltage_sel = stm32_vrefbuf_get_voltage_sel,
.set_voltage_sel = stm32_vrefbuf_set_voltage_sel,
.list_voltage = regulator_list_voltage_table,
};
static const struct regulator_desc stm32_vrefbuf_regu = {
.name = "vref",
.supply_name = "vdda",
.volt_table = stm32_vrefbuf_voltages,
.n_voltages = ARRAY_SIZE(stm32_vrefbuf_voltages),
.ops = &stm32_vrefbuf_volt_ops,
.type = REGULATOR_VOLTAGE,
.owner = THIS_MODULE,
};7、由代码得知,regulator_ops和regulator_desc才是特有的regulator数据结构,当然也少不了注册函数
rdev = regulator_register(&stm32_vrefbuf_regu, &config);
if (IS_ERR(rdev)) {
ret = PTR_ERR(rdev);
dev_err(&pdev->dev, "register failed with error %d\n", ret);
goto err_clk_dis;
}
platform_set_drvdata(pdev, rdev);8、进一步确认of_device_id是不是真实存在,可以在arch/arm/boot/dts/stm32h743.dtsi找到对应内容
vrefbuf: regulator@58003C00 {
compatible = "st,stm32-vrefbuf";
reg = <0x58003C00 0x8>;
clocks = <&rcc VREF_CK>;
regulator-min-microvolt = <1500000>;
regulator-max-microvolt = <2500000>;
status = "disabled";
};感谢各位的阅读!关于“linux电源管理驱动编写的示例分析”这篇文章就分享到这里了,希望以上内容可以对大家有一定的帮助,让大家可以学到更多知识,如果觉得文章不错,可以把它分享出去让更多的人看到吧!
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