# charlcd [![Latest version](https://img.shields.io/crates/v/charlcd.svg)](https://crates.io/crates/charlcd) [![Documentation](https://docs.rs/charlcd/badge.svg)](https://docs.rs/charlcd) [![License](https://img.shields.io/crates/l/charlcd.svg)](https://crates.io/crates/charlcd) A rust crate to interact with the mainline Linux charlcd.c driver. Or, said boldly: _a crate to **correctly** interact with HD44780 LCD screens on embedded Linux devices_. # Demo ![Photo of a test on HD44780 20x4 screen](https://crates.microjoe.org/charlcd/media/docs/test.jpg) The use of these kinds of photographies is used all over the [documentation](https://crates.io/crates/charlcd) to explain the before and after of every available function. Be sure to check them all! # Rationale A lot of developers are relying on userspace libraries to interact with the very popular HD44780 LCD screens, but these implementations are lacking proper abstractions and usually all reimplement the same communication protocol to interact with the screen over and over. This approach seems just wrong if you consider what the Linux kernel can provide in comparison. Indeed, it is the role of device drivers to properly abstract the access to the hardware from userspace perspective. For this, the Linux kernel uses an abstraction mechanism to declare the hardware: the *device-tree*. The *device-tree* nodes for a screen behind an I2C GPIO expander would look like the following: ```dts &i2c0 { status = "okay"; pcf8574a: i2c0@3f { compatible = "nxp,pcf8574a"; reg = <0x3f>; gpio-controller; #gpio-cells = <2>; }; }; auxdisplay: auxdisplay { compatible = "hit,hd44780"; data-gpios = <&pcf8574a 4 GPIO_ACTIVE_HIGH>, <&pcf8574a 5 GPIO_ACTIVE_HIGH>, <&pcf8574a 6 GPIO_ACTIVE_HIGH>, <&pcf8574a 7 GPIO_ACTIVE_HIGH>; rs-gpios = <&pcf8574a 0 GPIO_ACTIVE_HIGH>; rw-gpios = <&pcf8574a 1 GPIO_ACTIVE_HIGH>; enable-gpios = <&pcf8574a 2 GPIO_ACTIVE_HIGH>; backlight-gpios = <&pcf8574a 3 GPIO_ACTIVE_LOW>; display-height-chars = <2>; display-width-chars = <16>; }; ``` Once the *device-tree* is correctly configured, the `charlcd` driver will create a `/dev/lcd` character device. The role of this library is to provide an astraction over this character device entry, while letting the kernel driver implement the communication with the screen — instead of going from scratch and using ioctl over `/dev/i2c-*` like many other libraries do. # Known bugs The charlcd driver is currently not able to report screen size to userspace. This is mitigated in the library by having a look at the *device-tree* entries directly. # Going further For more information about this and a demo on *real hardware*, see [this blog article](https://blog.microjoe.org/2019/hd44780-lcd-i2c-screen-using-linux-mainline-charlcd-driver.html). # License Apache v2.