rusty-keys/src/device/builder.rs

use std::path::Path;
use std::{mem, slice};
use std::ffi::CString;
use libc::c_int;
use nix::{self, fcntl, unistd, errno::Errno};
use nix::sys::stat;
use uinput_sys::*;
use crate::{Result as Res, Device};
use std::collections::hash_map::Values;

/// Device builder.
pub struct Builder {
	fd:  c_int,
	def: uinput_user_dev,
	abs: Option<c_int>,
}

impl Builder {
	/// Create a builder from the specified path.
	pub fn open<P: AsRef<Path>>(path: P) -> Res<Self> {
		Ok(Builder {
			fd:  fcntl::open(path.as_ref(), fcntl::OFlag::O_WRONLY | fcntl::OFlag::O_NONBLOCK, stat::Mode::empty())?,
			def: unsafe { mem::zeroed() },
			abs: None,
		})
	}

	/// Create a builder from `/dev/uinput`.
	pub fn default() -> Res<Self> {
		Builder::open("/dev/uinput")
	}

	/// Set the name.
	pub fn name<T: AsRef<str>>(mut self, value: T) -> Res<Self> {
		let string = CString::new(value.as_ref())?;
		let bytes  = string.as_bytes_with_nul();

		if bytes.len() > UINPUT_MAX_NAME_SIZE as usize {
			Err(nix::Error::from_errno(Errno::EINVAL))?;
		}

		(&mut self.def.name)[..bytes.len()]
			.clone_from_slice(unsafe { mem::transmute(bytes) });

		Ok(self)
	}

	/// Set the bus type.
	pub fn bus(mut self, value: u16) -> Self {
		self.def.id.bustype = value;
		self
	}

	/// Set the vendor ID.
	pub fn vendor(mut self, value: u16) -> Self {
		self.def.id.vendor = value;
		self
	}

	/// Set the product ID.
	pub fn product(mut self, value: u16) -> Self {
		self.def.id.product = value;
		self
	}

	/// Set the version.
	pub fn version(mut self, value: u16) -> Self {
		self.def.id.version = value;
		self
	}

	pub fn event(mut self, key_codes: Values<&str, c_int>) -> Res<Self> {
		self.abs = None;
		//let test_ev_key : c_int = EV_KEY as c_int;
		unsafe {
			//try!(Errno::result(ui_set_evbit(self.fd, EV_KEY)));
			//try!(Errno::result(ui_set_keybit(self.fd, KEY_H)));
			Errno::result(ui_set_evbit(self.fd, EV_KEY as i32))?;
			//ui_set_keybit(self.fd, KEY_H as *const c_int)?;
			for key_code in key_codes {
				Errno::result(ui_set_keybit(self.fd, *key_code as i32))?;
			}
			//try!(ui_set_keybit(self.fd, &KEY_H));
		}
		Ok(self)
	}
/*
	/// Enable the given event.
	pub fn event<T: Into<Event>>(mut self, value: T) -> Res<Self> {
		self.abs = None;

		match value.into() {
			Event::All => {
				try!(self.event(Event::Keyboard(event::Keyboard::All)))
					.event(Event::Controller(event::Controller::All))
			}

			Event::Keyboard(value) => {
				match value {
					event::Keyboard::All => {
						let mut builder = self;

						for item in event::keyboard::Key::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::KeyPad::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::Misc::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::InputAssist::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::Function::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::Braille::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::Numeric::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::TouchPad::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::Camera::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::keyboard::Attendant::iter_variants() {
							builder = try!(builder.event(item));
						}

						Ok(builder)
					}

					value => {
						unsafe {
							try!(Errno::result(ui_set_evbit(self.fd, value.kind())));
							try!(Errno::result(ui_set_keybit(self.fd, value.code())));
						}

						Ok(self)
					}
				}
			}

			Event::Controller(value) => {
				match value {
					event::Controller::All => {
						let mut builder = self;

						for item in event::controller::Misc::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::controller::Mouse::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::controller::JoyStick::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::controller::GamePad::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::controller::Digi::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::controller::Wheel::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::controller::DPad::iter_variants() {
							builder = try!(builder.event(item));
						}

						for item in event::controller::TriggerHappy::iter_variants() {
							builder = try!(builder.event(item));
						}

						Ok(builder)
					}

					value => {
						unsafe {
							try!(Errno::result(ui_set_evbit(self.fd, value.kind())));
							try!(Errno::result(ui_set_keybit(self.fd, value.code())));
						}

						Ok(self)
					}
				}
			}

			Event::Relative(value) => {
				unsafe {
					try!(Errno::result(ui_set_evbit(self.fd, value.kind())));
					try!(Errno::result(ui_set_relbit(self.fd, value.code())));
				}

				Ok(self)
			}

			Event::Absolute(value) => {
				unsafe {
					try!(Errno::result(ui_set_evbit(self.fd, value.kind())));
					try!(Errno::result(ui_set_absbit(self.fd, value.code())));
				}

				self.abs = Some(value.code());

				Ok(self)
			}
		}
	}
*/
	/// Set the maximum value for the previously enabled absolute event.
	pub fn max(mut self, value: i32) -> Self {
		self.def.absmax[self.abs.unwrap() as usize] = value;
		self
	}

	/// Set the minimum value for the previously enabled absolute event.
	pub fn min(mut self, value: i32) -> Self {
		self.def.absmin[self.abs.unwrap() as usize] = value;
		self
	}

	/// Set the fuzz value for the previously enabled absolute event.
	pub fn fuzz(mut self, value: i32) -> Self {
		self.def.absfuzz[self.abs.unwrap() as usize] = value;
		self
	}

	/// Set the flat value for the previously enabled absolute event.
	pub fn flat(mut self, value: i32) -> Self {
		self.def.absflat[self.abs.unwrap() as usize] = value;
		self
	}

	/// Create the defined device.
	pub fn create(self) -> Res<Device> {
		unsafe {
			let ptr  = &self.def as *const _ as *const u8;
			let size = mem::size_of_val(&self.def);

			unistd::write(self.fd, slice::from_raw_parts(ptr, size))?;
			//todo: try!(Errno::result(ui_dev_create(self.fd)));
			// try1: Errno::result(ui_dev_create(self.fd)).unwrap();
			Errno::result(ui_dev_create(self.fd))?;
		}

		Ok(Device::new(self.fd))
	}
}
Initial commit 2016-04-24 22:32:24 -04:00			`use std::path::Path;`
			`use std::{mem, slice};`
			`use std::ffi::CString;`
			`use libc::c_int;`
Upgrade all deps and do minimal code changes to compile, untested 2019-09-29 23:05:37 -04:00			`use nix::{self, fcntl, unistd, errno::Errno};`
Initial commit 2016-04-24 22:32:24 -04:00			`use nix::sys::stat;`
More edition 2018 cleanup 2019-09-29 23:58:51 -04:00			`use uinput_sys::*;`
Rust 2018 edition changes 2019-09-29 23:49:23 -04:00			`use crate::{Result as Res, Device};`
wip2 2017-09-08 01:16:34 -04:00			`use std::collections::hash_map::Values;`
Initial commit 2016-04-24 22:32:24 -04:00
*: add docs 2016-04-25 11:57:45 -04:00			`/// Device builder.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub struct Builder {`
*: add docs 2016-04-25 11:57:45 -04:00			`fd: c_int,`
			`def: uinput_user_dev,`
			`abs: Option<c_int>,`
Initial commit 2016-04-24 22:32:24 -04:00			`}`

			`impl Builder {`
*: add docs 2016-04-25 11:57:45 -04:00			`/// Create a builder from the specified path.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn open<P: AsRef<Path>>(path: P) -> Res<Self> {`
			`Ok(Builder {`
Rust 2018 edition changes 2019-09-29 23:49:23 -04:00			`fd: fcntl::open(path.as_ref(), fcntl::OFlag::O_WRONLY \| fcntl::OFlag::O_NONBLOCK, stat::Mode::empty())?,`
*: add docs 2016-04-25 11:57:45 -04:00			`def: unsafe { mem::zeroed() },`
			`abs: None,`
Initial commit 2016-04-24 22:32:24 -04:00			`})`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			/// Create a builder from `/dev/uinput`.
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn default() -> Res<Self> {`
			`Builder::open("/dev/uinput")`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the name.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn name<T: AsRef<str>>(mut self, value: T) -> Res<Self> {`
Rust 2018 edition changes 2019-09-29 23:49:23 -04:00			`let string = CString::new(value.as_ref())?;`
Initial commit 2016-04-24 22:32:24 -04:00			`let bytes = string.as_bytes_with_nul();`

			`if bytes.len() > UINPUT_MAX_NAME_SIZE as usize {`
Rust 2018 edition changes 2019-09-29 23:49:23 -04:00			`Err(nix::Error::from_errno(Errno::EINVAL))?;`
Initial commit 2016-04-24 22:32:24 -04:00			`}`

			`(&mut self.def.name)[..bytes.len()]`
			`.clone_from_slice(unsafe { mem::transmute(bytes) });`

			`Ok(self)`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the bus type.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn bus(mut self, value: u16) -> Self {`
			`self.def.id.bustype = value;`
			`self`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the vendor ID.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn vendor(mut self, value: u16) -> Self {`
			`self.def.id.vendor = value;`
			`self`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the product ID.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn product(mut self, value: u16) -> Self {`
			`self.def.id.product = value;`
			`self`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the version.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn version(mut self, value: u16) -> Self {`
			`self.def.id.version = value;`
			`self`
			`}`

Share keymap with Arc 2017-11-15 22:59:17 -05:00			`pub fn event(mut self, key_codes: Values<&str, c_int>) -> Res<Self> {`
bad try 2017-09-01 00:24:35 -04:00			`self.abs = None;`
wip2 2017-09-08 01:16:34 -04:00			`//let test_ev_key : c_int = EV_KEY as c_int;`
bad try 2017-09-01 00:24:35 -04:00			`unsafe {`
			`//try!(Errno::result(ui_set_evbit(self.fd, EV_KEY)));`
			`//try!(Errno::result(ui_set_keybit(self.fd, KEY_H)));`
Upgrade all deps and do minimal code changes to compile, untested 2019-09-29 23:05:37 -04:00			`Errno::result(ui_set_evbit(self.fd, EV_KEY as i32))?;`
wip2 2017-09-08 01:16:34 -04:00			`//ui_set_keybit(self.fd, KEY_H as *const c_int)?;`
			`for key_code in key_codes {`
Upgrade all deps and do minimal code changes to compile, untested 2019-09-29 23:05:37 -04:00			`Errno::result(ui_set_keybit(self.fd, *key_code as i32))?;`
wip2 2017-09-08 01:16:34 -04:00			`}`
bad try 2017-09-01 00:24:35 -04:00			`//try!(ui_set_keybit(self.fd, &KEY_H));`
			`}`
			`Ok(self)`
			`}`
			`/*`
*: add docs 2016-04-25 11:57:45 -04:00			`/// Enable the given event.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn event<T: Into<Event>>(mut self, value: T) -> Res<Self> {`
*: add docs 2016-04-25 11:57:45 -04:00			`self.abs = None;`

Initial commit 2016-04-24 22:32:24 -04:00			`match value.into() {`
			`Event::All => {`
device/builder: remove All events for Absolute and Relative 2016-04-25 11:12:39 -04:00			`try!(self.event(Event::Keyboard(event::Keyboard::All)))`
			`.event(Event::Controller(event::Controller::All))`
Initial commit 2016-04-24 22:32:24 -04:00			`}`

			`Event::Keyboard(value) => {`
			`match value {`
			`event::Keyboard::All => {`
			`let mut builder = self;`

			`for item in event::keyboard::Key::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::KeyPad::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::Misc::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::InputAssist::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::Function::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::Braille::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::Numeric::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::TouchPad::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::Camera::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::keyboard::Attendant::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`Ok(builder)`
			`}`

			`value => {`
			`unsafe {`
			`try!(Errno::result(ui_set_evbit(self.fd, value.kind())));`
			`try!(Errno::result(ui_set_keybit(self.fd, value.code())));`
			`}`

			`Ok(self)`
			`}`
			`}`
			`}`

			`Event::Controller(value) => {`
			`match value {`
			`event::Controller::All => {`
			`let mut builder = self;`

			`for item in event::controller::Misc::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::controller::Mouse::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::controller::JoyStick::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::controller::GamePad::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::controller::Digi::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::controller::Wheel::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::controller::DPad::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`for item in event::controller::TriggerHappy::iter_variants() {`
			`builder = try!(builder.event(item));`
			`}`

			`Ok(builder)`
			`}`

			`value => {`
			`unsafe {`
			`try!(Errno::result(ui_set_evbit(self.fd, value.kind())));`
			`try!(Errno::result(ui_set_keybit(self.fd, value.code())));`
			`}`

			`Ok(self)`
			`}`
			`}`
			`}`

			`Event::Relative(value) => {`
device/builder: remove All events for Absolute and Relative 2016-04-25 11:12:39 -04:00			`unsafe {`
			`try!(Errno::result(ui_set_evbit(self.fd, value.kind())));`
			`try!(Errno::result(ui_set_relbit(self.fd, value.code())));`
Initial commit 2016-04-24 22:32:24 -04:00			`}`
device/builder: remove All events for Absolute and Relative 2016-04-25 11:12:39 -04:00
			`Ok(self)`
Initial commit 2016-04-24 22:32:24 -04:00			`}`

			`Event::Absolute(value) => {`
device/builder: remove All events for Absolute and Relative 2016-04-25 11:12:39 -04:00			`unsafe {`
			`try!(Errno::result(ui_set_evbit(self.fd, value.kind())));`
			`try!(Errno::result(ui_set_absbit(self.fd, value.code())));`
			`}`
Initial commit 2016-04-24 22:32:24 -04:00
*: add docs 2016-04-25 11:57:45 -04:00			`self.abs = Some(value.code());`
Initial commit 2016-04-24 22:32:24 -04:00
device/builder: remove All events for Absolute and Relative 2016-04-25 11:12:39 -04:00			`Ok(self)`
Initial commit 2016-04-24 22:32:24 -04:00			`}`
			`}`
			`}`
bad try 2017-09-01 00:24:35 -04:00			`*/`
*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the maximum value for the previously enabled absolute event.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn max(mut self, value: i32) -> Self {`
*: add docs 2016-04-25 11:57:45 -04:00			`self.def.absmax[self.abs.unwrap() as usize] = value;`
Initial commit 2016-04-24 22:32:24 -04:00			`self`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the minimum value for the previously enabled absolute event.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn min(mut self, value: i32) -> Self {`
*: add docs 2016-04-25 11:57:45 -04:00			`self.def.absmin[self.abs.unwrap() as usize] = value;`
Initial commit 2016-04-24 22:32:24 -04:00			`self`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the fuzz value for the previously enabled absolute event.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn fuzz(mut self, value: i32) -> Self {`
*: add docs 2016-04-25 11:57:45 -04:00			`self.def.absfuzz[self.abs.unwrap() as usize] = value;`
Initial commit 2016-04-24 22:32:24 -04:00			`self`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Set the flat value for the previously enabled absolute event.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn flat(mut self, value: i32) -> Self {`
*: add docs 2016-04-25 11:57:45 -04:00			`self.def.absflat[self.abs.unwrap() as usize] = value;`
Initial commit 2016-04-24 22:32:24 -04:00			`self`
			`}`

*: add docs 2016-04-25 11:57:45 -04:00			`/// Create the defined device.`
Initial commit 2016-04-24 22:32:24 -04:00			`pub fn create(self) -> Res<Device> {`
			`unsafe {`
			`let ptr = &self.def as const _ as const u8;`
			`let size = mem::size_of_val(&self.def);`

Rust 2018 edition changes 2019-09-29 23:49:23 -04:00			`unistd::write(self.fd, slice::from_raw_parts(ptr, size))?;`
bad try 2017-09-01 00:24:35 -04:00			`//todo: try!(Errno::result(ui_dev_create(self.fd)));`
			`// try1: Errno::result(ui_dev_create(self.fd)).unwrap();`
Rust 2018 edition changes 2019-09-29 23:49:23 -04:00			`Errno::result(ui_dev_create(self.fd))?;`
Initial commit 2016-04-24 22:32:24 -04:00			`}`

			`Ok(Device::new(self.fd))`
			`}`
			`}`