WSDISPLAY(4) - Device Drivers Manual #
WSDISPLAY(4) - Device Drivers Manual
NAME #
wsdisplay - generic display device support in wscons
SYNOPSIS #
wsdisplay* at … option WSDISPLAY_DEFAULTSCREENS=N
DESCRIPTION #
The wsdisplay driver is an abstraction layer for display devices within the wscons(4) framework. It attaches to the hardware specific display device driver and makes it available as text terminal or graphics interface.
Display devices have the ability to display characters on them (without help of an X server), either directly by hardware or through software drawing pixel data into the display memory. The wsdisplay driver will connect a terminal emulation module and provide a tty-like software interface.
The console locator in the configuration line refers to the device’s use as output part of the operating system console. A device specification containing a positive value here will only match if the device is in use as system console. (The console device selection in early system startup is not influenced.) This way, the console device can be connected to a known wsdisplay device instance.
The mux locator in the configuration line refers to the wsmux(4) that will be used to get keyboard events. If this locator is -1, no mux will be used.
The logical unit of an independent contents displayed on a display (sometimes referred to as “virtual terminal”) is called a “screen” here. If the underlying device driver supports it, multiple screens can be used on one display. (As of this writing, only the lcd(4) and vga(4) display drivers provide this ability.) Screens have different minor device numbers and separate tty instances. One screen possesses the “focus”, this means it is displayed on the display and its tty device will get the keyboard input. (In some cases, if no screen is set up or if a screen was just deleted, it is possible that no focus is present at all.) The focus can be switched by either special keyboard input (typically CTL-ALT-Fn) or an ioctl command issued by a user program. Screens are set up or deleted through the /dev/ttyCcfg control device (preferably using the wsconscfg(8) utility). Alternatively, the compile-time option WSDISPLAY_DEFAULTSCREENS=N will set up N screens of the display driver’s default type and using the system’s default terminal emulator at autoconfiguration time.
In addition and with help from backend drivers the following features are also provided:
Loading, deleting and listing the loaded fonts.
Browsing backwards in the screen output, the size of the buffer for saved text is defined by the particular hardware driver.
Blanking the screen by timing out on inactivity in the screen holding the input focus. Awakening activities consist of:
- pressing any keys on the keyboard;
- moving or clicking the mouse;
- any output to the screen.
Blanking the screen is usually done by disabling the horizontal sync signal on video output, but may also include blanking the vertical sync in which case most monitors go into power saving mode. See wsconsctl(8) for controlling variables.
Consult the back-end drivers’ documentation for which features are supported for each particular hardware type.
IOCTL INTERFACE #
The following ioctl(2) calls are provided by the wsdisplay driver or by devices which use it. Their definitions are found in <dev/wscons/wsconsio.h>.
WSDISPLAYIO_GTYPE
u_int
Retrieve the type of the display. The list of types is in <dev/wscons/wsconsio.h>.
WSDISPLAYIO_GINFO
struct wsdisplay_fbinfo
Retrieve basic information about a framebuffer display. The returned structure is as follows:
struct wsdisplay_fbinfo { u_int height; u_int width; u_int depth; u_int cmsize; };
The height and width members are counted in pixels. The depth member indicates the number of bits per pixel, and cmsize indicates the number of color map entries accessible through
WSDISPLAYIO_GETCMAP
andWSDISPLAYIO_PUTCMAP
. This call is likely to be unavailable on text-only displays.
WSDISPLAYIO_GETSCREENTYPE
struct wsdisplay_screentype
Retrieve basic information about a screen. The returned structure is as follows:
struct wsdisplay_screentype { int idx; int nidx; char name[WSSCREEN_NAME_SIZE]; int ncols, nrows; int fontwidth, fontheight; };
The idx field indicates the index of the screen. The nidx field indicates the number of screens. The name field contains a human readable string used to identify the screen. The ncols and nrows fields indicate the available number of columns and rows. The fontwidth and fontheight fields indicate the dimensions of a character cell, in pixels.
WSDISPLAYIO_GETCMAP
struct wsdisplay_cmap
Retrieve the current color map from the display. This call needs the following structure set up beforehand:
struct wsdisplay_cmap { u_int index; u_int count; u_char *red; u_char *green; u_char *blue; };
The index and count members specify the range of color map entries to retrieve. The red, green, and blue members should each point to an array of count u_chars. On return, these will be filled in with the appropriate entries from the color map. On all displays that support this call, values range from 0 for minimum intensity to 255 for maximum intensity, even if the display does not use eight bits internally to represent intensity.
WSDISPLAYIO_PUTCMAP
struct wsdisplay_cmap
Change the display’s color map. The argument structure is the same as for
WSDISPLAYIO_GETCMAP
, but red, green, and blue are taken as pointers to the values to use to set the color map. This call is not available on displays with fixed color maps.
WSDISPLAYIO_GVIDEO
u_int
Get the current state of the display’s video output. Possible values are:
WSDISPLAYIO_VIDEO_OFF
The display is blanked.
WSDISPLAYIO_VIDEO_ON
The display is enabled.
WSDISPLAYIO_SVIDEO
u_int
Set the state of the display’s video output. See
WSDISPLAYIO_GVIDEO
above for possible values.
WSDISPLAYIO_GCURPOS
struct wsdisplay_curpos
Retrieve the current position of the hardware cursor. The returned structure is as follows:
struct wsdisplay_curpos { u_int x, y; };
The x and y members count the number of pixels right and down, respectively, from the top-left corner of the display to the hot spot of the cursor. This call is not available on displays without a hardware cursor.
WSDISPLAYIO_SCURPOS
struct wsdisplay_curpos
Set the current cursor position. The argument structure, and its semantics, are the same as for
WSDISPLAYIO_GCURPOS
. This call is not available on displays without a hardware cursor.
WSDISPLAYIO_GCURMAX
struct wsdisplay_curpos
Retrieve the maximum size of cursor supported by the display. The x and y members of the returned structure indicate the maximum number of pixel rows and columns, respectively, in a hardware cursor on this display. This call is not available on displays without a hardware cursor.
WSDISPLAYIO_GCURSOR
struct wsdisplay_cursor
Retrieve some or all of the hardware cursor’s attributes. The argument structure is as follows:
struct wsdisplay_cursor { u_int which; u_int enable; struct wsdisplay_curpos pos; struct wsdisplay_curpos hot; struct wsdisplay_cmap cmap; struct wsdisplay_curpos size; u_char *image; u_char *mask; };
The which member indicates which of the values the application requires to be returned. It should contain the logical OR of the following flags:
WSDISPLAY_CURSOR_DOCUR
Get enable, which indicates whether the cursor is currently displayed (non-zero) or not (zero).
WSDISPLAY_CURSOR_DOPOS
Get pos, which indicates the current position of the cursor on the display, as would be returned by
WSDISPLAYIO_GCURPOS
.
WSDISPLAY_CURSOR_DOHOT
Get hot, which indicates the location of the “hot spot” within the cursor. This is the point on the cursor whose position on the display is treated as being the position of the cursor by other calls. Its location is counted in pixels from the top-left corner of the cursor.
WSDISPLAY_CURSOR_DOCMAP
Get cmap, which indicates the current cursor color map. Unlike in a call to
WSDISPLAYIO_GETCMAP
, cmap here need not have its index and count members initialized. They will be set to 0 and 2 respectively by the call. This means that cmap.red, cmap.green, and cmap.blue must each point to at least enough space to hold two u_chars.
WSDISPLAY_CURSOR_DOSHAPE
Get size, image, and mask. These are, respectively, the dimensions of the cursor in pixels, the bitmap of set pixels in the cursor and the bitmap of opaque pixels in the cursor. The format in which these bitmaps are returned, and hence the amount of space that must be provided by the application, are device-dependent.
WSDISPLAY_CURSOR_DOALL
Get all of the above.
The device may elect to return information that was not requested by the user, so those elements of struct wsdisplay_cursor which are pointers should be initialized to
NULL
if not otherwise used. This call is not available on displays without a hardware cursor.
WSDISPLAYIO_SCURSOR
struct wsdisplay_cursor
Set some or all of the hardware cursor’s attributes. The argument structure is the same as for
WSDISPLAYIO_GCURSOR
. The which member specifies which attributes of the cursor are to be changed. It should contain the logical OR of the following flags:
WSDISPLAY_CURSOR_DOCUR
If enable is zero, hide the cursor. Otherwise, display it.
WSDISPLAY_CURSOR_DOPOS
Set the cursor’s position on the display to pos, the same as
WSDISPLAYIO_SCURPOS
.
WSDISPLAY_CURSOR_DOHOT
Set the “hot spot” of the cursor, as defined above, to hot.
WSDISPLAY_CURSOR_DOCMAP
Set some or all of the cursor color map based on cmap. The index and count elements of cmap indicate which color map entries to set, and the entries themselves come from cmap.red, cmap.green, and cmap.blue.
WSDISPLAY_CURSOR_DOSHAPE
Set the cursor shape from size, image, mask. See above for their meanings.
WSDISPLAY_CURSOR_DOALL
Do all of the above.
This call is not available on displays without a hardware cursor.
WSDISPLAYIO_GMODE
u_int
Get the current mode of the display. Possible results include:
WSDISPLAYIO_MODE_EMUL
The display is in emulating (text) mode.
WSDISPLAYIO_MODE_MAPPED
The display is in mapped (graphics) mode.
WSDISPLAYIO_MODE_DUMBFB
The display is in mapped (frame buffer) mode.
WSDISPLAYIO_SMODE
u_int
Set the current mode of the display. For possible arguments, see
WSDISPLAYIO_GMODE
.
WSDISPLAYIO_LDFONT
struct wsdisplay_font
Loads a font specified by the wsdisplay_font structure.
struct wsdisplay_font { char name[WSFONT_NAME_SIZE]; int index; int firstchar, numchars; int encoding; u_int fontwidth, fontheight, stride; int bitorder, byteorder; void *cookie; void *data; };
The name field contains a human readable string used to identify the font. The index field may be used to select a driver-specific font resource (for non-raster frame buffers). A value of -1 will pick the first available slot. The firstchar field contains the index of the first character in the font, starting at zero. The numchars field contains the number of characters in the font. The encoding field describes the font character encoding, using one of the following values:
WSDISPLAY_FONTENC_ISO
ISO-8859-1 encoding (also known as Latin-1). This is the preferred encoding for raster frame buffers.
WSDISPLAY_FONTENC_IBM
IBM code page number 437. This is the preferred encoding for text-mode displays.
The fontwidth and fontheight fields specify the dimensions of a character cell. The stride field specify the number of bytes of font data per character cell line (usually fontwidth rounded up to a byte boundary). The bitorder and byteorder fields specify the bit- and byte-ordering of the font data, using either one of the following values:
WSDISPLAY_FONTORDER_L2R
Leftmost data contained in the most significant bits (left-to-right ordering). This is the most commonly encountered case.
WSDISPLAY_FONTORDER_R2L
Leftmost data contained in the least significant bits (right-to-left ordering).
The data field contains the font character data to be loaded. The cookie field is reserved for internal purposes.
WSDISPLAYIO_LSFONT
struct wsdisplay_font
Retrieves the data for a loaded font into the wsdisplay_font structure. The index field is set to the font resource to query. For the argument structure, see
WSDISPLAYIO_LDFONT
.
WSDISPLAYIO_USEFONT
struct wsdisplay_font
Selects the font specified in the name field. An empty name selects the next available font. For the argument structure, see
WSDISPLAYIO_LDFONT
.
WSDISPLAYIO_GBURNER
struct wsdisplay_burner
Retrieves the state of the screen burner. The returned structure is as follows:
struct wsdisplay_burner { u_int off; u_int on; u_int flags; };
The off member contains the inactivity time before the screen is turned off, in milliseconds. The on member contains the time before the screen is turned back on, in milliseconds. The flags member contains a logical OR of the following flags:
WSDISPLAY_BURN_VBLANK
When turning the display off, disable the vertical synchronization signal.
WSDISPLAY_BURN_KBD
Monitor keyboard activity.
WSDISPLAY_BURN_MOUSE
Monitor mouse activity (this only works for mice using the wsmouse(4) driver).
WSDISPLAY_BURN_OUTPUT
Monitor display output activity.
If none of the activity source flags are set, the screen burner is disabled.
WSDISPLAYIO_SBURNER
struct wsdisplay_burner
Sets the state of the screen burner. The argument structure, and its semantics, are the same as for
WSDISPLAYIO_GBURNER
.
WSDISPLAYIO_ADDSCREEN
struct wsdisplay_addscreendata
Creates a new screen.
struct wsdisplay_addscreendata { int idx; /* screen index */ char screentype[WSSCREEN_NAME_SIZE]; char emul[WSEMUL_NAME_SIZE]; };
The idx field is the index of the screen to be configured. The screentype field is matched against builtin screen types, which will be driver-dependent. The emul field indicates the terminal emulation type. Available terminal emulations are:
sun
Sun terminal emulation. This is the default on the sparc64 architecture.
vt100
Dec VT100 terminal emulation, with some VT220 features. This is the default on all other architectures.
dumb
Dumb terminal.
An empty string will select the default emulation.
WSDISPLAYIO_DELSCREEN
struct wsdisplay_delscreendata
Deletes an existing screen.
struct wsdisplay_delscreendata { int idx; /* screen index */ int flags; };
The idx field indicates the index of the screen to be deleted. The flags field is a logical OR of zero or more of the following:
WSDISPLAY_DELSCR_FORCE
Force deletion of screen even if in use by a userspace program.
WSDISPLAY_DELSCR_QUIET
Don’t report deletion to console.
WSDISPLAYIO_GETSCREEN
struct wsdisplay_addscreendata
Returns information on the screen indicated by idx or the current screen if idx is -1. The screen and emulation types are returned in the same structure (see
WSDISPLAYIO_GETPARAM
).
WSDISPLAYIO_SETSCREEN
u_int
Switch to the screen with the given index.
WSDISPLAYIO_WSMOUSED
struct wscons_event
This call is used by the wsmoused(8) daemon to inject mouse events gathered from serial mice, as well as various control events.
WSDISPLAYIO_GETPARAM
struct wsdisplay_param
Retrieves the state of a display parameter. This call needs the following structure set up beforehand:
struct wsdisplay_param { int param; int min, max, curval; int reserved[4]; };
The param member should be set with the parameter to be returned. The following parameters are supported:
WSDISPLAYIO_PARAM_BACKLIGHT
The intensity of the display backlight (usually on laptop computers).
WSDISPLAYIO_PARAM_BRIGHTNESS
The brightness level.
WSDISPLAYIO_PARAM_CONTRAST
The contrast level.
On return, min and max specify the allowed range for the value, while curval specifies the current setting. Not all parameters are supported by all display drivers.
WSDISPLAYIO_SETPARAM
struct wsdisplay_param
Sets a display parameter. The argument structure is the same as for
WSDISPLAYIO_GETPARAM
, with the param and curval members filled in. Not all parameters are supported by all display drivers.
WSDISPLAYIO_LINEBYTES
u_int
Get the number of bytes per row when the device is in
WSDISPLAYIO_MODE_DUMBFB
mode.
FILES #
/dev/tty[C-F]*
terminal devices (per screen)
/dev/tty[C-F]cfg
control device (per screen)
/usr/include/dev/wscons/wsconsio.h
SEE ALSO #
intro(4), tty(4), wscons(4), wsmux(4), wsconscfg(8), wsconsctl(8), wsfontload(8)
BUGS #
The wsdisplay code currently limits the number of screens on one display to 12.
The terms “wscons” and “wsdisplay” are not cleanly distinguished in the code and in manual pages.
OpenBSD 7.5 - March 31, 2022