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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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9ee0a05588
This driver provides PS/2 serio bus support by implementing bit banging with the GPIO API. The GPIO pins, data and clock, can be configured with a node in the device tree or by generic device properties (GDP). Writing to a device is supported as well, though it is possible timings can not be halt as they are tough and difficult to reach with bit banging. Therefore it can be configured (also in DT and GDP) whether the serio write function should be available for clients. This driver is for development purposes and not recommended for productive use. However, this driver can be useful e.g. when no USB port is available or using old peripherals is desired as PS/2 controller chips getting rare. This driver was tested on bcm2825 and on Kirin 960 and it worked well together with the atkbd and psmouse driver. Signed-off-by: Danilo Krummrich <danilokrummrich@dk-develop.de> Reviewed-by: Linus Walleij <linus.walleij@linaro.org> Acked-by: Rob Herring <robh@kernel.org> Signed-off-by: Dmitry Torokhov <dmitry.torokhov@gmail.com>
102 lines
5.3 KiB
Plaintext
102 lines
5.3 KiB
Plaintext
Subsystem drivers using GPIO
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Note that standard kernel drivers exist for common GPIO tasks and will provide
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the right in-kernel and userspace APIs/ABIs for the job, and that these
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drivers can quite easily interconnect with other kernel subsystems using
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hardware descriptions such as device tree or ACPI:
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- leds-gpio: drivers/leds/leds-gpio.c will handle LEDs connected to GPIO
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lines, giving you the LED sysfs interface
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- ledtrig-gpio: drivers/leds/trigger/ledtrig-gpio.c will provide a LED trigger,
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i.e. a LED will turn on/off in response to a GPIO line going high or low
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(and that LED may in turn use the leds-gpio as per above).
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- gpio-keys: drivers/input/keyboard/gpio_keys.c is used when your GPIO line
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can generate interrupts in response to a key press. Also supports debounce.
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- gpio-keys-polled: drivers/input/keyboard/gpio_keys_polled.c is used when your
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GPIO line cannot generate interrupts, so it needs to be periodically polled
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by a timer.
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- gpio_mouse: drivers/input/mouse/gpio_mouse.c is used to provide a mouse with
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up to three buttons by simply using GPIOs and no mouse port. You can cut the
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mouse cable and connect the wires to GPIO lines or solder a mouse connector
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to the lines for a more permanent solution of this type.
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- gpio-beeper: drivers/input/misc/gpio-beeper.c is used to provide a beep from
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an external speaker connected to a GPIO line.
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- gpio-tilt-polled: drivers/input/misc/gpio_tilt_polled.c provides tilt
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detection switches using GPIO, which is useful for your homebrewn pinball
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machine if for nothing else. It can detect different tilt angles of the
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monitored object.
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- extcon-gpio: drivers/extcon/extcon-gpio.c is used when you need to read an
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external connector status, such as a headset line for an audio driver or an
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HDMI connector. It will provide a better userspace sysfs interface than GPIO.
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- restart-gpio: drivers/power/reset/gpio-restart.c is used to restart/reboot
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the system by pulling a GPIO line and will register a restart handler so
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userspace can issue the right system call to restart the system.
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- poweroff-gpio: drivers/power/reset/gpio-poweroff.c is used to power the
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system down by pulling a GPIO line and will register a pm_power_off()
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callback so that userspace can issue the right system call to power down the
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system.
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- gpio-gate-clock: drivers/clk/clk-gpio.c is used to control a gated clock
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(off/on) that uses a GPIO, and integrated with the clock subsystem.
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- i2c-gpio: drivers/i2c/busses/i2c-gpio.c is used to drive an I2C bus
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(two wires, SDA and SCL lines) by hammering (bitbang) two GPIO lines. It will
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appear as any other I2C bus to the system and makes it possible to connect
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drivers for the I2C devices on the bus like any other I2C bus driver.
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- spi_gpio: drivers/spi/spi-gpio.c is used to drive an SPI bus (variable number
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of wires, at least SCK and optionally MISO, MOSI and chip select lines) using
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GPIO hammering (bitbang). It will appear as any other SPI bus on the system
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and makes it possible to connect drivers for SPI devices on the bus like
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any other SPI bus driver. For example any MMC/SD card can then be connected
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to this SPI by using the mmc_spi host from the MMC/SD card subsystem.
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- w1-gpio: drivers/w1/masters/w1-gpio.c is used to drive a one-wire bus using
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a GPIO line, integrating with the W1 subsystem and handling devices on
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the bus like any other W1 device.
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- gpio-fan: drivers/hwmon/gpio-fan.c is used to control a fan for cooling the
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system, connected to a GPIO line (and optionally a GPIO alarm line),
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presenting all the right in-kernel and sysfs interfaces to make your system
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not overheat.
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- gpio-regulator: drivers/regulator/gpio-regulator.c is used to control a
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regulator providing a certain voltage by pulling a GPIO line, integrating
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with the regulator subsystem and giving you all the right interfaces.
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- gpio-wdt: drivers/watchdog/gpio_wdt.c is used to provide a watchdog timer
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that will periodically "ping" a hardware connected to a GPIO line by toggling
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it from 1-to-0-to-1. If that hardware does not receive its "ping"
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periodically, it will reset the system.
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- gpio-nand: drivers/mtd/nand/gpio.c is used to connect a NAND flash chip to
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a set of simple GPIO lines: RDY, NCE, ALE, CLE, NWP. It interacts with the
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NAND flash MTD subsystem and provides chip access and partition parsing like
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any other NAND driving hardware.
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- ps2-gpio: drivers/input/serio/ps2-gpio.c is used to drive a PS/2 (IBM) serio
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bus, data and clock line, by bit banging two GPIO lines. It will appear as
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any other serio bus to the system and makes it possible to connect drivers
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for e.g. keyboards and other PS/2 protocol based devices.
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Apart from this there are special GPIO drivers in subsystems like MMC/SD to
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read card detect and write protect GPIO lines, and in the TTY serial subsystem
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to emulate MCTRL (modem control) signals CTS/RTS by using two GPIO lines. The
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MTD NOR flash has add-ons for extra GPIO lines too, though the address bus is
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usually connected directly to the flash.
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Use those instead of talking directly to the GPIOs using sysfs; they integrate
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with kernel frameworks better than your userspace code could. Needless to say,
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just using the appropriate kernel drivers will simplify and speed up your
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embedded hacking in particular by providing ready-made components.
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