use anyhow::{anyhow, Result}; use std::{convert::TryFrom, fmt, io::Error, path::{Path, PathBuf}, sync::atomic::{AtomicBool, Ordering}}; type Fd = libc::c_int; static VERBOSITY: AtomicBool = AtomicBool::new(false); macro_rules! vrb { ( $( $e:expr ),* ) => {( if VERBOSITY.load(Ordering::SeqCst) { println!( $( $e ),* ) } )} } const PALETTE_SIZE: usize = 16; const PALETTE_BYTES: usize = PALETTE_SIZE * 3; /* 16 * sizeof(int) */ const RAW_COLEXPR_SIZE: usize = 6; /* e. g. 0xBADF00 */ type RawPalette<'a> = [&'a str; PALETTE_SIZE]; /* XXX: can we get these into ``libc``? */ const KDGKBTYPE: libc::c_int = 0x4b33; /* kd.h */ const GIO_CMAP: libc::c_int = 0x00004B70; /* kd.h */ const PIO_CMAP: libc::c_int = 0x00004B71; /* kd.h */ const KB_101: libc::c_char = 0x0002; /* kd.h */ const O_NOCTTY: libc::c_int = 0o0400; /* fcntl.h */ #[derive(Debug)] enum Color { Black(bool), Red(bool), Green(bool), Yellow(bool), Blue(bool), Magenta(bool), Cyan(bool), White(bool), } impl TryFrom for Color { type Error = anyhow::Error; fn try_from(val: u8) -> Result { match val { 0x00 => Ok(Color::Black(false)), 0x01 => Ok(Color::Red(false)), 0x02 => Ok(Color::Green(false)), 0x03 => Ok(Color::Yellow(false)), 0x04 => Ok(Color::Blue(false)), 0x05 => Ok(Color::Magenta(false)), 0x06 => Ok(Color::Cyan(false)), 0x07 => Ok(Color::White(false)), 0x08 => Ok(Color::Black(true)), 0x09 => Ok(Color::Red(true)), 0x0a => Ok(Color::Green(true)), 0x0b => Ok(Color::Yellow(true)), 0x0c => Ok(Color::Blue(true)), 0x0d => Ok(Color::Magenta(true)), 0x0e => Ok(Color::Cyan(true)), 0x0f => Ok(Color::White(true)), _ => Err(anyhow!("invalid color value: {}", val)), } } } /* [impl TryFrom for Color] */ impl Color { fn format_brightness(b: bool, s: &str) -> String { if b { "bright ".to_string() + s } else { s.to_string() } } } /* [impl Color] */ impl fmt::Display for Color { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let c = match *self { Color::Black(b) => Color::format_brightness(b, "black"), Color::Red(b) => Color::format_brightness(b, "red"), Color::Green(b) => Color::format_brightness(b, "green"), Color::Yellow(b) => Color::format_brightness(b, "yellow"), Color::Blue(b) => Color::format_brightness(b, "blue"), Color::Magenta(b) => Color::format_brightness(b, "magenta"), Color::Cyan(b) => Color::format_brightness(b, "cyan"), Color::White(b) => Color::format_brightness(b, "white"), }; write!(f, "{}", c) } } /* [impl fmt::Display for Color] */ #[derive(Debug, Clone)] struct Builtin { names: &'static [&'static str], palette: &'static RawPalette<'static>, } const BUILTIN_SCHEMES: &[Builtin] = &[ Builtin::solarized(), Builtin::solarized_light(), Builtin::default(), Builtin::phosphor(), ]; impl Builtin { fn name(&self) -> &'static str { self.names.iter().next().unwrap() } const fn solarized() -> Self { Self { names: &["solarized", "solarized_dark", "sd"], palette: &SOLARIZED_COLORS_DARK, } } const fn solarized_light() -> Self { Self { names: &["solarized_light", "sl"], palette: &SOLARIZED_COLORS_LIGHT, } } const fn default() -> Self { Self { names: &["default", "normal", "linux"], palette: &DEFAULT_COLORS, } } const fn phosphor() -> Self { Self { names: &["phosphor", "matrix"], palette: &MONOCHROME_PHOSPHOR } } } impl TryFrom<&str> for Builtin { type Error = anyhow::Error; fn try_from(name: &str) -> Result { for b in BUILTIN_SCHEMES { if b.names.contains(&name) { return Ok(b.clone()); } } Err(anyhow!("no such builtin: {}", name)) } } impl<'a> fmt::Display for Builtin { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}", self.name()) } } #[derive(Debug)] enum Scheme { /** One of the predefined schemes. */ Builtin(Builtin), /** Custom ``Palette``. */ Palette(Palette), /** Load from file. */ Custom(Option), } impl<'a> fmt::Display for Scheme { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self { Self::Builtin(b) => write!(f, "{}", b), Self::Custom(None) => write!(f, ""), Self::Custom(Some(fname)) => write!(f, "{}", fname.display()), Self::Palette(pal) => write!(f, "palette: {}", pal), } } } /* [impl fmt::String for Scheme] */ impl Scheme { fn from_stdin() -> Self { Self::Custom(None) } fn from_path>(path: P) -> Self { Self::Custom(Some(path.as_ref().into())) } } /* [impl Scheme] */ /** Try to select one of the predefined schemes; if that fails, interpret the argument as a path. */ impl From<&str> for Scheme { fn from(name: &str) -> Scheme { Builtin::try_from(name) .map(Self::Builtin) .unwrap_or_else(|_| Self::from_path(name)) } } /** Try to match the palette against one of the predefined schemes. */ impl From for Scheme { fn from(pal: Palette) -> Scheme { if pal == Palette::from(&DEFAULT_COLORS) { return Self::Builtin(Builtin::default()); } if pal == Palette::from(&SOLARIZED_COLORS_DARK) { return Self::Builtin(Builtin::solarized()); } if pal == Palette::from(&SOLARIZED_COLORS_LIGHT) { return Self::Builtin(Builtin::solarized_light()); } if pal == Palette::from(&MONOCHROME_PHOSPHOR) { return Self::Builtin(Builtin::phosphor()); } Self::Palette(pal) } } /* struct Job -- Runtime parameters. */ #[derive(Debug)] enum Job { /** List available schemes. */ List, /** Dump a scheme. */ Dump(Scheme), /** Switch to color scheme. */ Set(Scheme), /** Get currently active scheme. */ Get, /** Toggle between two schemes. */ Toggle(Scheme, Scheme), } impl<'a> Job { pub fn from_argv() -> Result { use clap::{App, Arg, SubCommand}; let app = App::new(clap::crate_name!()) .version(clap::crate_version!()) .author(clap::crate_authors!()) .about(clap::crate_description!()) .subcommand( SubCommand::with_name("dump").about("dump a color scheme").arg( Arg::with_name("scheme") .help("name of the scheme") .required(true) .value_name("NAME") .takes_value(true) ), ) .subcommand( SubCommand::with_name("list").about("list available schemes"), ) .subcommand( SubCommand::with_name("set") .about("apply color scheme to current terminal") .arg( Arg::with_name("scheme") .value_name("NAME") .help("predefined color scheme") .takes_value(true) .conflicts_with("file"), ) .arg( Arg::with_name("file") .short("f") .long("file") .value_name("PATH") .help("apply scheme from file") .takes_value(true), ), ) .subcommand( SubCommand::with_name("get").about("get current color scheme"), ) .subcommand( SubCommand::with_name("toggle") .about("toggle between two schemes") .arg( Arg::with_name("one") .value_name("NAME1") .help("predefined color scheme") .takes_value(true), ) .arg( Arg::with_name("two") .value_name("NAME2") .help("predefined color scheme") .takes_value(true), ), ) .arg( Arg::with_name("verbose") .short("v") .long("verbose") .help("enable extra diagnostics") .takes_value(false), ); let matches = app.get_matches(); if matches.is_present("verbose") { VERBOSITY.store(true, Ordering::SeqCst); } match matches.subcommand() { ("dump", Some(subm)) => { if let Some(name) = subm.value_of("scheme") { let scm = Scheme::from(name); return Ok(Self::Dump(scm)); } Err(anyhow!("dump requires an argument")) }, ("list", _) => Ok(Self::List), ("set", Some(subm)) => { let scheme = match subm.value_of("scheme") { Some("-") => Scheme::from_stdin(), Some(name) => { vrb!("pick predefined scheme [{}]", name); Scheme::from(name) }, None => match subm.value_of("file") { None | Some("-") => Scheme::from_stdin(), Some(fname) => { vrb!( "read custom scheme from file [{}]", fname ); Scheme::from_path(fname) }, }, }; Ok(Self::Set(scheme)) }, ("get", _) => Ok(Self::Get), ("toggle", Some(subm)) => { match (subm.value_of("one"), subm.value_of("two")) { (Some(one), Some(two)) => { vrb!("toggle schemes [{}] and [{}]", one, two); Ok(Self::Toggle(Scheme::from(one), Scheme::from(two))) }, _ => Err(anyhow!( "please supply two schemes to toggle between" )), } }, (junk, _) => Err(anyhow!( "invalid subcommand [{}]; try ``{} --help``", junk, clap::crate_name!() )), } } fn list_schemes() { println!("{} color schemes available:", BUILTIN_SCHEMES.len()); for s in BUILTIN_SCHEMES { println!(" * {}", s.name()); } } fn dump(scm: Scheme) { vrb!("Dumping color scheme {}", scm); match scm { Scheme::Builtin(Builtin { palette, .. }) => Self::dump_scheme(palette), Scheme::Custom(None) => Self::dump_palette(Palette::from_stdin()), Scheme::Custom(Some(fname)) => Self::dump_palette(Palette::from_file(&fname)), Scheme::Palette(pal) => Self::dump_palette(pal), } } fn dump_scheme(colors: &[&str; PALETTE_SIZE]) { let pal: Palette = Palette::from(colors); pal.dump(); } fn dump_palette(pal: Palette) { pal.dump() } fn run(self) -> Result<()> { match self { Self::Dump(scm) => Self::dump(scm), Self::List => Self::list_schemes(), Self::Set(scm) => Self::set_scheme(scm)?, Self::Get => Self::get_scheme()?, Self::Toggle(one, two) => Self::toggle_scheme(one, two)?, } Ok(()) } fn set_scheme(scheme: Scheme) -> Result<()> { let pal = Palette::from(&scheme); vrb!("Using palette:"); vrb!("{}", pal); let fd = get_console_fd()?; vrb!("console fd: {}", fd); ioctl_pio_cmap(fd, &pal)?; clear_term(fd)?; vrb!("successfully enabled scheme {:?}", scheme); /* It’s fine to leak the fd, the kernel will clean up anyways. */ Ok(()) } fn get_scheme() -> Result<()> { let fd = get_console_fd()?; vrb!("console fd: {}", fd); let pal = ioctl_gio_cmap(fd)?; let scm = Scheme::from(pal); vrb!("active scheme:"); println!("{}", scm); Ok(()) } /** Toggle between two schemes. Defaults to ``one`` in case neither scheme is active. */ fn toggle_scheme(one: Scheme, two: Scheme) -> Result<()> { let fd = get_console_fd()?; vrb!("console fd: {}", fd); let pal = ioctl_gio_cmap(fd)?; if pal == Palette::from(&one) { Self::set_scheme(two) } else { Self::set_scheme(one) } } } /* [impl Job] */ /* Rust appears to come with two wrappers for ``ioctl(2)``, but neither can be utilized for our * purposes. The one in ``sys`` is part of a private (seriously‽) whereas the one in the * ``libc`` module is defined as taking variable arguments and therefore cannot be called from * Rust. Wrapping C is still a bit awkward, as it seems. */ extern "C" { pub fn ioctl( d: libc::c_int, request: libc::c_int, data: *mut libc::c_void, ) -> libc::c_int; } const CONSOLE_PATHS: [&str; 6] = [ "/proc/self/fd/0", "/dev/tty", "/dev/tty0", "/dev/vc/0", "/dev/systty", "/dev/console", ]; /** Vanilla Linux colors. */ const DEFAULT_COLORS: RawPalette = [ "000000", "aa0000", "00aa00", "aa5500", "0000aa", "aa00aa", "00aaaa", "aaaaaa", "555555", "ff5555", "55ff55", "ffff55", "5555ff", "ff55ff", "55ffff", "ffffff", ]; /** The dark (default) version of the Solarized scheme. */ const SOLARIZED_COLORS_DARK: RawPalette = [ "002b36", "dc322f", "859900", "b58900", "268bd2", "d33682", "2aa198", "eee8d5", "002b36", "cb4b16", "586e75", "657b83", "839496", "6c71c4", "93a1a1", "fdf6e3", ]; /** The light version of the Solarized theme. */ const SOLARIZED_COLORS_LIGHT: RawPalette = [ "eee8d5", "dc322f", "859900", "b58900", "268bd2", "d33682", "2aa198", "073642", "fdf6e3", "cb4b16", "93a1a1", "839496", "657b83", "6c71c4", "586e75", "002b36", ]; /** Bright green monochrome terminal. */ const MONOCHROME_PHOSPHOR: RawPalette = [ "000000", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", "68fc68", ]; const DUMMY_COLORS: RawPalette = [ "000000", "ffffff", "000000", "ffffff", "000000", "ffffff", "000000", "ffffff", "000000", "ffffff", "000000", "ffffff", "000000", "ffffff", "000000", "ffffff", ]; fn nibble_of_char(chr: u8) -> u8 { match chr { b'0'..=b'9' => chr - b'0', b'a'..=b'f' => chr - b'a' + 10, b'A'..=b'F' => chr - b'A' + 10, _ => 0, } } macro_rules! byte_of_hex { ($ar:ident, $off:expr) => { (nibble_of_char($ar[$off])) << 4 | nibble_of_char($ar[$off + 1]) as u8 }; } fn rgb_of_hex_triplet(def: &str) -> (u8, u8, u8) { let bytes = def.as_bytes(); let r: u8 = byte_of_hex!(bytes, 0); let g: u8 = byte_of_hex!(bytes, 2); let b: u8 = byte_of_hex!(bytes, 4); (r, g, b) } #[derive(Eq, PartialEq, Clone)] pub struct Palette([u8; PALETTE_BYTES]); impl Palette { /** Construct an all-zero ``Palette``. */ pub fn new() -> Self { Self([0u8; PALETTE_BYTES]) } pub fn dummy() -> Self { Self::from(&DUMMY_COLORS) } pub fn from_buffered_reader(reader: &mut dyn std::io::BufRead) -> Self { let mut pal_idx: usize = 0; let mut pal: [u8; PALETTE_BYTES] = [0; PALETTE_BYTES]; let mut line: String = String::new(); while reader.read_line(&mut line).is_ok() { let len = line.len(); if len == 0 { break; } else if len >= 8 { if let Some(off) = line.find('#') { if off != 0 { /* Palette index specified, number prepended */ let parse_res: Result = std::str::FromStr::from_str(&line[0..off]); if let Ok(new_idx) = parse_res { if new_idx < PALETTE_SIZE { pal_idx = new_idx * 3; } } } let off = off + 1; if off > len - 6 { /* no room left for color definition after '#' char */ panic!("invalid color definition: {}", line); } let col = &line[off..(off + RAW_COLEXPR_SIZE)]; let (r, g, b) = rgb_of_hex_triplet(col); pal[pal_idx] = r; pal[pal_idx + 1] = g; pal[pal_idx + 2] = b; pal_idx = (pal_idx + 3) % PALETTE_BYTES; } } line.truncate(0); } Self(pal) } fn dump(&self) { let mut buf: [u8; 3] = [0u8, 0u8, 0u8]; for (i, col) in self.0.iter().enumerate() { let idx: usize = i % 3; buf[idx] = *col; if idx == 2 { let col = Color::try_from((i / 3) as u8) .map(|c| format!("{}", c)) .unwrap_or_else(|_| "??".into()); println!( "{:>15} => 0x{:02.X}{:02.X}{:02.X}", col, buf[0], buf[1], buf[2] ); } } } pub fn from_file(fname: &Path) -> Self { /* Check if file exists */ let file = match std::fs::File::open(&fname) { Err(e) => { panic!("failed to open {} as file ({})", fname.display(), e) }, Ok(f) => f, }; let mut reader = std::io::BufReader::new(file); /* Parse scheme file */ Self::from_buffered_reader(&mut reader) } /* [Palette::from_file] */ pub fn from_stdin() -> Self { vrb!("Go ahead, type your color scheme …"); vrb!("vtcol>"); let mut reader = std::io::BufReader::new(std::io::stdin()); /* Parse scheme file */ Self::from_buffered_reader(&mut reader) } /* [Palette::from_stdin] */ } /* [impl Palette] */ impl fmt::Display for Palette { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let mut i = 0; while i < PALETTE_BYTES { let _ = write!(f, "{}", if i == 0 { "(" } else { "\n " }); let r = self.0[i]; let g = self.0[i + 1]; let b = self.0[i + 2]; let _ = write!( f, "((r 0x{:02.X}) (g 0x{:02.X}) (b 0x{:02.x}))", r, g, b ); i += 3; } writeln!(f, ")") } } /* [impl fmt::Display for Palette] */ impl fmt::Debug for Palette { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let mut i: u8 = 0_u8; while (i as usize) < PALETTE_BYTES { let r = self.0[i as usize]; let g = self.0[i as usize + 1]; let b = self.0[i as usize + 2]; let col = Color::try_from((i / 3) as u8) .map(|c| format!("{}", c)) .unwrap_or_else(|_| "??".into()); let _ = writeln!(f, "{} => 0x{:02.X}{:02.X}{:02.X}", col, r, g, b); i += 3_u8; } std::result::Result::Ok(()) } } /* [impl fmt::Debug for Palette] */ /** Obtain a ``Palette`` from a ``Scheme``. */ impl From<&Scheme> for Palette { fn from(scm: &Scheme) -> Self { match scm { Scheme::Builtin(Builtin { palette, .. }) => Self::from(*palette), Scheme::Custom(None) => Self::from_stdin(), Scheme::Custom(Some(ref fname)) => Self::from_file(fname), Scheme::Palette(pal) => pal.clone(), } } } /** Obtain a ``Palette`` from a ``RawPalette``. */ impl From<&RawPalette<'_>> for Palette { fn from(colors: &RawPalette<'_>) -> Self { let mut idx: usize = 0; let mut pal: [u8; PALETTE_BYTES] = [0; PALETTE_BYTES]; for def in colors.iter() { let (r, g, b) = rgb_of_hex_triplet(*def); pal[idx] = r; pal[idx + 1] = g; pal[idx + 2] = b; //println!(">> {} -> {:X} {:X} {:X}", def, r, g, b); idx += 3; } Self(pal) } } fn fd_of_path(path: &std::path::Path) -> Option { let p = std::ffi::CString::new(path.to_str().unwrap()).unwrap(); match unsafe { libc::open(p.as_ptr(), libc::O_RDWR | O_NOCTTY, 0) } { -1 => None, fd => { vrb!(" *> got fd"); if unsafe { libc::isatty(fd) } == 0 { vrb!(" *> not a tty"); return None; } let mut tty_type: libc::c_char = 0; let res = unsafe { ioctl( fd, KDGKBTYPE as libc::c_int, std::mem::transmute(&mut tty_type), ) }; if res < 0 { vrb!(" *> ioctl failed"); return None; } if tty_type != KB_101 { return None; } Some(fd) }, } } fn get_console_fd() -> Result { for path in CONSOLE_PATHS.iter() { vrb!("trying path: {:?}", path); let path = std::path::Path::new(path); if let Some(fd) = fd_of_path(path) { vrb!(" * Success!"); return Ok(fd); } } Err(anyhow!("could not retrieve fd for any of the search paths")) } fn write_to_term(fd: Fd, buf: &str) -> Result<()> { let len = buf.len() as libc::size_t; if unsafe { libc::write(fd, buf.as_ptr() as *const libc::c_void, len) } != len as isize { Err(anyhow!( "failed to write {} B to fd {}: {}", len, fd, Error::last_os_error() )) } else { Ok(()) } } fn clear_term(fd: Fd) -> Result<()> { let clear = "\x1b[2J"; let cursor = "\x1b[1;1H"; write_to_term(fd, clear)?; write_to_term(fd, cursor)?; Ok(()) } fn ioctl_pio_cmap(fd: Fd, pal: &Palette) -> Result<()> { if unsafe { ioctl(fd, PIO_CMAP, std::mem::transmute(pal)) } < 0 { Err(anyhow!( "ioctl(PIO_CMAP) failed to insert new palette: {}", Error::last_os_error() )) } else { Ok(()) } } fn ioctl_gio_cmap(fd: Fd) -> Result { let mut pal = Palette::new(); if unsafe { ioctl(fd, GIO_CMAP, std::mem::transmute(&mut pal)) } < 0 { Err(anyhow!( "ioctl(GIO_CMAP) failed to get current palette: {}", Error::last_os_error() )) } else { Ok(pal) } } fn main() -> Result<()> { let job = Job::from_argv()?; vrb!("job parms: {:?}", job); job.run() }