5.8 KiB
Terminals and TERM
With the wrong environment settings, programs can't properly control
your terminal. It is critical that the TERM
environment variable be
correct for your shell, and that the terminfo database entry keyed
by this variable be up-to-date. Furthermore, for 24-bit TrueColor, it
is necessary to either use a -direct
variant of your terminfo
entry, or to declare COLORTERM=24bit
. The latter instruct Notcurses
to use 24-bit escapes regardless of advertised support. If you define
this variable, and your terminal doesn't actually support these sequences,
you're going to have a bad time.
The following have been established on a Debian Unstable workstation.
Terminal | ccc |
Recommended environment | Notes |
---|---|---|---|
Linux console | ✔ | TERM=linux COLORTERM=24bit |
8 (512 glyph fonts) or 16 (256 glyph fonts) colors max, but RGB values are downsampled to a 256-index palette. See below. |
FBterm | TERM=fbterm |
256 colors, no RGB color. | |
kmscon | TERM=xterm-256color |
No RGB color AFAICT, nor any distinct terminfo entry. | |
XTerm | TERM=xterm-256color COLORTERM=24bit |
Must configure with --enable-direct-color . TERM=xterm-direct seems to have the undesirable effect of mapping low RGB values to a palette; I don't yet understand this well. The problem is not seen with the specified configuration. Sixel support when built with --enable-sixel-graphics and run in vt340 mode. |
|
XFCE4 Terminal | ✔ | TERM=xfce COLORTERM=24bit |
No xfce-direct variant exists. |
Gnome Terminal | 🗴 | TERM=gnome COLORTERM=24bit |
ccc support is available when run with vte-256color . |
Konsole | 🗴 | TERM=konsole-direct |
|
Alacritty | ✔ | TERM=alacritty COLORTERM=24bit |
|
Kitty | ✔ | TERM=kitty-direct |
|
Sakura | ✔ | TERM=vte-256color COLORTERM=24bit |
No terminfo entry? |
mlterm | 🗴 | TERM=mlterm-256color |
Do not set COLORTERM . mlterm-direct gives strange results. |
st | ✔ | TERM=st-256color COLORTERM=24bit |
|
GNU Screen | 🗴 | TERM=screen.OLDTERM |
Must be compiled with --enable-256color . TERM should typically be screen. suffixed by the appropriate TERM value for the true connected terminal, e.g. screen.vte-256color . See below. |
tmux |
Note that xfce4-terminal
, gnome-terminal
, etc. are essentially skinning
atop the common VTE ("Virtual TErminal") library.
GNU screen
GNU screen does have 24-bit color support, but only in the 5.X series. Note
that many distributions ship screen 4.X as of 2020. When built with truecolor
support, add truecolor on
to your screenrc
, or run it with --truecolor
.
Attempting to force RGB color in screen 4.X will not work.
Add defutf8 on
to your screenrc
, or run screen with -U
, to ensure UTF-8.
The Linux console
The Linux console supports concurrent virtual terminals, and is manipulated
by userspace via ioctl()
s. These ioctl()
s generally fail when applied to
a pseudotty device, as will happen if e.g. invoked upon one's controlling
terminal whilst running in a terminal emulator under X (it is still generally
possible to use them by explicitly specifying a console device, i.e.
showconsolefont -C /dev/tty0
).
The VGA text console requires the kernel option CONFIG_VGA_CONSOLE
. A
framebuffer console for VESA 2.0 is provided by CONFIG_FB_VESA
, while
UEFI-compatible systems can use CONFIG_FB_EFI
. So long as a framebuffer
driver is present, CONFIG_FRAMEBUFFER_CONSOLE
will enable a graphics-mode
console using the framebuffer device.
The Linux console can be in either text or graphics mode. The mode can be
determined with the KDGETMODE
ioctl()
, and changed with KDSETMODE
,
using the constants KD_TEXT
and KD_GRAPHICS
. Text mode supports a
rectangular matrix of multipixel cells, filled with glyphs from a font,
a foreground color, and a background color. Graphics ("All-Points-Addressable")
mode supports a rectangular matrix of pixels, each with a single color.
Note that both modes require appropriate hardware support (and kernel
configuration options), and might or might not be available on a given
installation. Non-x86 platforms often provide only a framebuffer (graphics)
console.
The kernel text mode loosely corresponds to the 1987 IBM VGA definition. At any time, the display is configured with a monospace raster font, a palette, and (when in Unicode mode) a mapping from multibyte sequences to font elements. Up to 16 colors can be used with a font of 256 glyphs or fewer. Only 8 colors can be used with fonts having more than 256 glyphs; the maximum font size in any configuration is 512 glyphs. The keyboard is further configured with a keymap, mapping keyboard scancodes to elements of the character set. These properties are per-virtual console, not common to all of them. These limitations are not typically present on framebuffer consoles.
Exporting COLORTERM=24bit
and emitting RGB escapes to the Linux console
does work, though the RGB values provided are downsampled to a 256-slot
palette. Backgrounds don't seem to have the same degree of flexibility in this
situation as do foregrounds. The output is better, but not as much better as
one might expect. More research is necessary here.
The following more-or-less standard tools exist:
showconsolefont
: show the console fontsetfont
: load console fontfbset
: show and modify framebuffer settingsfgconsole
: print name of foreground terminalchvt
: change the foreground terminaldeallocvt
: destroy a virtual consoledumpkeys
: print all keycodesloadkeys
: load scancode/keycode mapping (the keymap)setkeycodes
: load scancode/keycode mappings one at a timeshowkeys
: interactively print scancodeskbd_mode
: show or set the keyboard mode
Both mapscrn
and loadunimap
are obsolete; their functionality is present
in setfont
.