NetBSD/sys/arch/i386/isa/pcvt/pcvt_kbd.c

3014 lines
84 KiB
C

/* $NetBSD: pcvt_kbd.c,v 1.6 1995/04/19 19:12:18 mycroft Exp $ */
/*
* Copyright (c) 1992,1993,1994 Hellmuth Michaelis, Brian Dunford-Shore,
* Joerg Wunsch and Holger Veit.
*
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* William Jolitz and Don Ahn.
*
* This code is derived from software contributed to 386BSD by
* Holger Veit.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Hellmuth Michaelis,
* Brian Dunford-Shore and Joerg Wunsch.
* 4. The name authors may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*
* @(#)pcvt_kbd.c, 3.00, Last Edit-Date: [Sun Feb 27 17:04:53 1994]
*
*/
/*---------------------------------------------------------------------------*
*
* pcvt_kbd.c VT220 Driver Keyboard Interface Code
* ----------------------------------------------------
* -jw include rather primitive X stuff
* -hm patch from Gordon L. Burditt to fix repeat of CAPS LOCK etc.
* -hm netbsd: no file ddb.h available
* -hm new keyboard routines from netbsd-current
* -hm re-introduced keyboard id detection
* -hm keyboard id debugging, hp sends special id ...
* -jw keyboard overlay table now malloc'ed, SCROLL_SLEEP
* -hm keyboard initialization for ddb activists ...
* -hm keyboard security no longer ignored
* -hm reset cursor when soft reset fkey
* -jw USL VT compatibility
* -hm CTRL-ALT-Fx switches to virtual terminal x
* -hm added totalscreen checking, removed bug in vt220-like kbd part
* -hm SCROLL_SLEEPing works
* -hm kbd scancode sets 1 and 2 (patch from Onno van der Linden)
* -hm printscreen key fix
* -jw mouse emulation mode
* -jw/hm all ifdef's converted to if's
* -jw cleaned up the key prefix recognition
* -jw included PCVT_META_ESC
* -hm removed typo in cfkey11() (pillhuhns have good eyes ..)
* -hm Debugger("kbd") patch from Joerg for FreeBSD
* -hm bugfix, ALT-F12 steps over screen 0
* -hm vgapage() -> do_vgapage(), checks if in scrolling
* -hm ------------ Release 3.00 --------------
*
*---------------------------------------------------------------------------*/
#include "pcvt_hdr.h" /* global include */
static void fkey1(void), fkey2(void), fkey3(void), fkey4(void);
static void fkey5(void), fkey6(void), fkey7(void), fkey8(void);
static void fkey9(void), fkey10(void), fkey11(void), fkey12(void);
static void sfkey1(void), sfkey2(void), sfkey3(void), sfkey4(void);
static void sfkey5(void), sfkey6(void), sfkey7(void), sfkey8(void);
static void sfkey9(void), sfkey10(void), sfkey11(void), sfkey12(void);
static void cfkey1(void), cfkey2(void), cfkey3(void), cfkey4(void);
static void cfkey5(void), cfkey6(void), cfkey7(void), cfkey8(void);
static void cfkey9(void), cfkey10(void), cfkey11(void), cfkey12(void);
static void doreset ( void );
static void ovlinit ( int force );
static void settpmrate ( int rate );
static void setlockkeys ( int snc );
static int kbc_8042cmd ( int val );
static int getokeydef ( unsigned key, struct kbd_ovlkey *thisdef );
static int getckeydef ( unsigned key, struct kbd_ovlkey *thisdef );
static int rmkeydef ( int key );
static int setkeydef ( struct kbd_ovlkey *data );
static u_char * xlatkey2ascii( U_short key );
static int ledstate = 0; /* keyboard led's */
static int tpmrate = KBD_TPD500|KBD_TPM100;
static u_char altkpflag = 0;
static u_short altkpval = 0;
#if PCVT_SHOWKEYS
u_char rawkeybuf[80];
#endif /* PCVT_SHOWKEYS */
/*---------------------------------------------------------------------------*
* function bound to control function key 12
*---------------------------------------------------------------------------*/
static void
do_vgapage(int page)
{
if(critical_scroll)
switch_page = page;
else
vgapage(page);
}
/*---------------------------------------------------------------------------*
* this is one sub-entry for the table. the type can be either
* "pointer to a string" or "pointer to a function"
*---------------------------------------------------------------------------*/
typedef struct
{
u_char subtype; /* subtype, string or function */
union what
{
u_char *string; /* ptr to string, null terminated */
void (*func)(); /* ptr to function */
} what;
} entry;
/*---------------------------------------------------------------------------*
* this is the "outer" table
*---------------------------------------------------------------------------*/
typedef struct
{
u_short type; /* type of key */
u_short ovlindex; /* -hv- index into overload table */
entry unshift; /* normal default codes/funcs */
entry shift; /* shifted default codes/funcs */
entry ctrl; /* control default codes/funcs */
} Keycap_def;
#define IDX0 0 /* default indexvalue into ovl table */
#define STR KBD_SUBT_STR /* subtype = ptr to string */
#define FNC KBD_SUBT_FNC /* subtype = ptr to function */
#define CODE_SIZE 5
/*---------------------------------------------------------------------------*
* the overlaytable table is a static fixed size scratchpad where all the
* overloaded definitions are stored.
* an entry consists of a short (holding the new type attribute) and
* four entries for a new keydefinition.
*---------------------------------------------------------------------------*/
#define OVLTBL_SIZE 64 /* 64 keys can be overloaded */
#define Ovl_tbl struct kbd_ovlkey
static Ovl_tbl *ovltbl; /* the table itself */
static ovlinitflag = 0; /* the init flag for the table */
/*
* key codes >= 128 denote "virtual" shift/control
* They are resolved before any keymapping is handled
*/
#if PCVT_SCANSET == 2
static u_char scantokey[] = {
/* -0- -1- -2- -3- -4- -5- -6- -7- This layout is valid for US only */
/*00*/ 0,120, 0,116,114,112,113,123, /* ?? F9 ?? F5 F3 F1 F2 F12 */
/*08*/ 0,121,119,117,115, 16, 1, 0, /* ?? F10 F8 F6 F4 TAB ` ?? */
/*10*/ 0, 60, 44, 0, 58, 17, 2, 0, /* ?? ALl SHl ?? CTl Q 1 ?? */
/*18*/ 0, 0, 46, 32, 31, 18, 3, 0, /* ?? Z S A W 2 ?? ?? */
/*20*/ 0, 48, 47, 33, 19, 5, 4, 0, /* ?? C X D E 4 3 ?? */
/*28*/ 0, 61, 49, 34, 21, 20, 6, 0, /* ?? SP V F T R 5 ?? */
/*30*/ 0, 51, 50, 36, 35, 22, 7, 0, /* ?? N B H G Y 6 ?? */
/*38*/ 0, 0, 52, 37, 23, 8, 9, 0, /* ?? ?? M J U 7 8 ?? */
/*40*/ 0, 53, 38, 24, 25, 11, 10, 0, /* ?? , K I O 0 9 ?? */
/*48*/ 0, 54, 55, 39, 40, 26, 12, 0, /* ?? . / L ; P - ?? */
/*50*/ 0, 0, 41, 0, 27, 13, 0, 0, /* ?? ?? " ?? [ = ?? ?? */
/*58*/ 30, 57, 43, 28, 0, 29, 0, 0, /* CAP SHr ENT ] ?? \ ?? ?? */
/*60*/ 0, 45, 0, 0, 0, 0, 15, 0, /* ?? NL1 ?? ?? ?? ?? BS ?? */
/*68*/ 0, 93, 0, 92, 91, 0, 0, 0, /* ?? KP1 ?? KP4 KP7 ?? ?? ?? */
/*70*/ 99,104, 98, 97,102, 96,110, 90, /* KP0 KP. KP2 KP5 KP6 KP8 ESC NUM */
/*78*/ 122,106,103,105,100,101,125, 0, /* F11 KP+ KP3 KP- KP* KP9 LOC ?? */
/*80*/ 0, 0, 0,118,127 /* ?? ?? ?? F7 SyRQ */
};
static u_char extscantokey[] = {
/* -0- -1- -2- -3- -4- -5- -6- -7- This layout is valid for US only */
/*00*/ 0,120, 0,116,114,112,113,123, /* ?? F9 ?? F5 F3 F1 F2 F12 */
/*08*/ 0,121,119,117,115, 16, 1, 0, /* ?? F10 F8 F6 F4 TAB ` ?? */
/*10*/ 0, 62,128, 0, 58, 17, 2, 0, /* ?? ALr vSh ?? CTr Q 1 ?? */
/*18*/ 0, 0, 46, 32, 31, 18, 3, 0, /* ?? Z S A W 2 ?? ?? */
/*20*/ 0, 48, 47, 33, 19, 5, 4, 0, /* ?? C X D E 4 3 ?? */
/*28*/ 0, 61, 49, 34, 21, 20, 6, 0, /* ?? SP V F T R 5 ?? */
/*30*/ 0, 51, 50, 36, 35, 22, 7, 0, /* ?? N B H G Y 6 ?? */
/*38*/ 0, 0, 52, 37, 23, 8, 9, 0, /* ?? ?? M J U 7 8 ?? */
/*40*/ 0, 53, 38, 24, 25, 11, 10, 0, /* ?? , K I O 0 9 ?? */
/*48*/ 0, 54, 95, 39, 40, 26, 12, 0, /* ?? . KP/ L ; P - ?? */
/*50*/ 0, 0, 41, 0, 27, 13, 0, 0, /* ?? ?? " ?? [ = ?? ?? */
/*58*/ 30, 57,108, 28, 0, 29, 0, 0, /* CAP SHr KPE ] ?? \ ?? ?? */
/*60*/ 0, 45, 0, 0, 0, 0, 15, 0, /* ?? NL1 ?? ?? ?? ?? BS ?? */
/*68*/ 0, 81, 0, 79, 80, 0, 0, 0, /* ?? END ?? LA HOM ?? ?? ?? */
/*70*/ 75, 76, 84, 97, 89, 83,110, 90, /* INS DEL DA KP5 RA UA ESC NUM */
/*78*/ 122,106, 86,105,124, 85,126, 0, /* F11 KP+ PD KP- PSc PU Brk ?? */
/*80*/ 0, 0, 0,118,127 /* ?? ?? ?? F7 SysRq */
};
#else /* PCVT_SCANSET != 2 */
static u_char scantokey[] = {
/* -0- -1- -2- -3- -4- -5- -6- -7- This layout is valid for US only */
/*00*/ 0,110, 2, 3, 4, 5, 6, 7, /* ?? ESC 1 2 3 4 5 6 */
/*08*/ 8, 9, 10, 11, 12, 13, 15, 16, /* 7 8 9 0 - = BS TAB */
/*10*/ 17, 18, 19, 20, 21, 22, 23, 24, /* Q W E R T Y U I */
/*18*/ 25, 26, 27, 28, 43, 58, 31, 32, /* O P [ ] ENT CTl A S */
/*20*/ 33, 34, 35, 36, 37, 38, 39, 40, /* D F G H J K L ; */
/*28*/ 41, 1, 44, 29, 46, 47, 48, 49, /* ' ` SHl \ Z X C V */
/*30*/ 50, 51, 52, 53, 54, 55, 57,100, /* B N M , . / SHr KP* */
/*38*/ 60, 61, 30,112,113,114,115,116, /* ALl SP CAP F1 F2 F3 F4 F5 */
/*40*/ 117,118,119,120,121, 90,125, 91, /* F6 F7 F8 F9 F10 NUM LOC KP7 */
/*48*/ 96,101,105, 92, 97,102,106, 93, /* KP8 KP9 KP- KP4 KP5 KP6 KP+ KP1 */
/*50*/ 98,103, 99,104,127, 0, 45,122, /* KP2 KP3 KP0 KP. SyRq?? NL1 F11 */
/*58*/ 123 /* F12 */
};
static u_char extscantokey[] = {
/* -0- -1- -2- -3- -4- -5- -6- -7- This layout is valid for US only */
/*00*/ 0,110, 2, 3, 4, 5, 6, 7, /* ?? ESC 1 2 3 4 5 6 */
/*08*/ 8, 9, 10, 11, 12, 13, 15, 16, /* 7 8 9 0 - = BS TAB */
/*10*/ 17, 18, 19, 20, 21, 22, 23, 24, /* Q W E R T Y U I */
/*18*/ 25, 26, 27, 28,108, 58, 31, 32, /* O P [ ] KPE CTr A S */
/*20*/ 33, 34, 35, 36, 37, 38, 39, 40, /* D F G H J K L ; */
/*28*/ 41, 1,128, 29, 46, 47, 48, 49, /* ' ` vSh \ Z X C V */
/*30*/ 50, 51, 52, 53, 54, 95, 57,124, /* B N M , . KP/ SHr KP* */
/*38*/ 62, 61, 30,112,113,114,115,116, /* ALr SP CAP F1 F2 F3 F4 F5 */
/*40*/ 117,118,119,120,121, 90,126, 80, /* F6 F7 F8 F9 F10 NUM Brk HOM */
/*48*/ 83, 85,105, 79, 97, 89,106, 81, /* UA PU KP- LA KP5 RA KP+ END */
/*50*/ 84, 86, 75, 76, 0, 0, 45,122, /* DA PD INS DEL ?? ?? NL1 F11 */
/*58*/ 123, /* F12 */
};
#endif /* PCVT_SCANSET == 2 */
static Keycap_def key2ascii[] =
{
/* define some shorthands to make the table (almost) fit into 80 columns */
#define C (u_char *)
#define V (void *)
#define S STR
#define F FNC
#define I IDX0
/* DONT EVER OVERLOAD KEY 0, THIS IS A KEY THAT MUSTN'T EXIST */
/* type index unshift shift ctrl */
/* ---------------------------------------------------------- */
/* 0*/ KBD_NONE, I, {S,C "df"}, {S,C ""}, {S,C ""},
/* 1*/ KBD_ASCII, I, {S,C "`"}, {S,C "~"}, {S,C "`"},
/* 2*/ KBD_ASCII, I, {S,C "1"}, {S,C "!"}, {S,C "1"},
/* 3*/ KBD_ASCII, I, {S,C "2"}, {S,C "@"}, {S,C "\000"},
/* 4*/ KBD_ASCII, I, {S,C "3"}, {S,C "#"}, {S,C "3"},
/* 5*/ KBD_ASCII, I, {S,C "4"}, {S,C "$"}, {S,C "4"},
/* 6*/ KBD_ASCII, I, {S,C "5"}, {S,C "%"}, {S,C "5"},
/* 7*/ KBD_ASCII, I, {S,C "6"}, {S,C "^"}, {S,C "\036"},
/* 8*/ KBD_ASCII, I, {S,C "7"}, {S,C "&"}, {S,C "7"},
/* 9*/ KBD_ASCII, I, {S,C "8"}, {S,C "*"}, {S,C "9"},
/* 10*/ KBD_ASCII, I, {S,C "9"}, {S,C "("}, {S,C "9"},
/* 11*/ KBD_ASCII, I, {S,C "0"}, {S,C ")"}, {S,C "0"},
/* 12*/ KBD_ASCII, I, {S,C "-"}, {S,C "_"}, {S,C "\037"},
/* 13*/ KBD_ASCII, I, {S,C "="}, {S,C "+"}, {S,C "="},
/* 14*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 15*/ KBD_ASCII, I, {S,C "\177"}, {S,C "\010"}, {S,C "\177"}, /* BS */
/* 16*/ KBD_ASCII, I, {S,C "\t"}, {S,C "\t"}, {S,C "\t"}, /* TAB */
/* 17*/ KBD_ASCII, I, {S,C "q"}, {S,C "Q"}, {S,C "\021"},
/* 18*/ KBD_ASCII, I, {S,C "w"}, {S,C "W"}, {S,C "\027"},
/* 19*/ KBD_ASCII, I, {S,C "e"}, {S,C "E"}, {S,C "\005"},
/* 20*/ KBD_ASCII, I, {S,C "r"}, {S,C "R"}, {S,C "\022"},
/* 21*/ KBD_ASCII, I, {S,C "t"}, {S,C "T"}, {S,C "\024"},
/* 22*/ KBD_ASCII, I, {S,C "y"}, {S,C "Y"}, {S,C "\031"},
/* 23*/ KBD_ASCII, I, {S,C "u"}, {S,C "U"}, {S,C "\025"},
/* 24*/ KBD_ASCII, I, {S,C "i"}, {S,C "I"}, {S,C "\011"},
/* 25*/ KBD_ASCII, I, {S,C "o"}, {S,C "O"}, {S,C "\017"},
/* 26*/ KBD_ASCII, I, {S,C "p"}, {S,C "P"}, {S,C "\020"},
/* 27*/ KBD_ASCII, I, {S,C "["}, {S,C "{"}, {S,C "\033"},
/* 28*/ KBD_ASCII, I, {S,C "]"}, {S,C "}"}, {S,C "\035"},
/* 29*/ KBD_ASCII, I, {S,C "\\"}, {S,C "|"}, {S,C "\034"},
/* 30*/ KBD_CAPS, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 31*/ KBD_ASCII, I, {S,C "a"}, {S,C "A"}, {S,C "\001"},
/* 32*/ KBD_ASCII, I, {S,C "s"}, {S,C "S"}, {S,C "\023"},
/* 33*/ KBD_ASCII, I, {S,C "d"}, {S,C "D"}, {S,C "\004"},
/* 34*/ KBD_ASCII, I, {S,C "f"}, {S,C "F"}, {S,C "\006"},
/* 35*/ KBD_ASCII, I, {S,C "g"}, {S,C "G"}, {S,C "\007"},
/* 36*/ KBD_ASCII, I, {S,C "h"}, {S,C "H"}, {S,C "\010"},
/* 37*/ KBD_ASCII, I, {S,C "j"}, {S,C "J"}, {S,C "\n"},
/* 38*/ KBD_ASCII, I, {S,C "k"}, {S,C "K"}, {S,C "\013"},
/* 39*/ KBD_ASCII, I, {S,C "l"}, {S,C "L"}, {S,C "\014"},
/* 40*/ KBD_ASCII, I, {S,C ";"}, {S,C ":"}, {S,C ";"},
/* 41*/ KBD_ASCII, I, {S,C "'"}, {S,C "\""}, {S,C "'"},
/* 42*/ KBD_ASCII, I, {S,C "\\"}, {S,C "|"}, {S,C "\034"}, /* special */
/* 43*/ KBD_RETURN,I, {S,C "\r"}, {S,C "\r"}, {S,C "\r"}, /* RETURN */
/* 44*/ KBD_SHIFT, I, {S,C ""}, {S,C ""}, {S,C ""}, /* SHIFT left */
/* 45*/ KBD_ASCII, I, {S,C "<"}, {S,C ">"}, {S,C ""},
/* 46*/ KBD_ASCII, I, {S,C "z"}, {S,C "Z"}, {S,C "\032"},
/* 47*/ KBD_ASCII, I, {S,C "x"}, {S,C "X"}, {S,C "\030"},
/* 48*/ KBD_ASCII, I, {S,C "c"}, {S,C "C"}, {S,C "\003"},
/* 49*/ KBD_ASCII, I, {S,C "v"}, {S,C "V"}, {S,C "\026"},
/* 50*/ KBD_ASCII, I, {S,C "b"}, {S,C "B"}, {S,C "\002"},
/* 51*/ KBD_ASCII, I, {S,C "n"}, {S,C "N"}, {S,C "\016"},
/* 52*/ KBD_ASCII, I, {S,C "m"}, {S,C "M"}, {S,C "\r"},
/* 53*/ KBD_ASCII, I, {S,C ","}, {S,C "<"}, {S,C ","},
/* 54*/ KBD_ASCII, I, {S,C "."}, {S,C ">"}, {S,C "."},
/* 55*/ KBD_ASCII, I, {S,C "/"}, {S,C "?"}, {S,C "/"},
/* 56*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 57*/ KBD_SHIFT, I, {S,C ""}, {S,C ""}, {S,C ""}, /* SHIFT right */
/* 58*/ KBD_CTL, I, {S,C ""}, {S,C ""}, {S,C ""}, /* CTL left */
/* 59*/ KBD_ASCII, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 60*/ KBD_META, I, {S,C ""}, {S,C ""}, {S,C ""}, /* ALT left */
#if !PCVT_NULLCHARS
/* 61*/ KBD_ASCII, I, {S,C " "}, {S,C " "}, {S,C " "}, /* SPACE */
#else
/* 61*/ KBD_ASCII, I, {S,C " "}, {S,C " "}, {S,C "\000"}, /* SPACE */
#endif /* PCVT_NULLCHARS */
/* 62*/ KBD_META, I, {S,C ""}, {S,C ""}, {S,C ""}, /* ALT right */
/* 63*/ KBD_ASCII, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 64*/ KBD_CTL, I, {S,C ""}, {S,C ""}, {S,C ""}, /* CTL right */
/* 65*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 66*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 67*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 68*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 69*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 70*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 71*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 72*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 73*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 74*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 75*/ KBD_FUNC, I, {S,C "\033[2~"},{S,C "\033[2~"},{S,C "\033[2~"},/* INS */
/* 76*/ KBD_FUNC, I, {S,C "\033[3~"},{S,C "\033[3~"},{S,C "\033[3~"},/* DEL */
/* 77*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 78*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 79*/ KBD_CURSOR,I, {S,C "\033[D"},{S,C "\033OD"},{S,C "\033[D"}, /* CU <- */
/* 80*/ KBD_FUNC, I, {S,C "\033[1~"},{S,C "\033[1~"},{S,C "\033[1~"},/* HOME = FIND*/
/* 81*/ KBD_FUNC, I, {S,C "\033[4~"},{S,C "\033[4~"},{S,C "\033[4~"},/* END = SELECT */
/* 82*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 83*/ KBD_CURSOR,I, {S,C "\033[A"},{S,C "\033OA"},{S,C "\033[A"}, /* CU ^ */
/* 84*/ KBD_CURSOR,I, {S,C "\033[B"},{S,C "\033OB"},{S,C "\033[B"}, /* CU v */
/* 85*/ KBD_FUNC, I, {S,C "\033[5~"},{S,C "\033[5~"},{S,C "\033[5~"},/*PG UP*/
/* 86*/ KBD_FUNC, I, {S,C "\033[6~"},{S,C "\033[6~"},{S,C "\033[6~"},/*PG DN*/
/* 87*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 88*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 89*/ KBD_CURSOR,I, {S,C "\033[C"},{S,C "\033OC"},{S,C "\033[C"}, /* CU -> */
/* 90*/ KBD_NUM, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 91*/ KBD_KP, I, {S,C "7"}, {S,C "\033Ow"},{S,C "7"},
/* 92*/ KBD_KP, I, {S,C "4"}, {S,C "\033Ot"},{S,C "4"},
/* 93*/ KBD_KP, I, {S,C "1"}, {S,C "\033Oq"},{S,C "1"},
/* 94*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/* 95*/ KBD_KP, I, {S,C "/"}, {S,C "/"}, {S,C "/"},
/* 96*/ KBD_KP, I, {S,C "8"}, {S,C "\033Ox"},{S,C "8"},
/* 97*/ KBD_KP, I, {S,C "5"}, {S,C "\033Ou"},{S,C "5"},
/* 98*/ KBD_KP, I, {S,C "2"}, {S,C "\033Or"},{S,C "2"},
/* 99*/ KBD_KP, I, {S,C "0"}, {S,C "\033Op"},{S,C "0"},
/*100*/ KBD_KP, I, {S,C "*"}, {S,C "*"}, {S,C "*"},
/*101*/ KBD_KP, I, {S,C "9"}, {S,C "\033Oy"},{S,C "9"},
/*102*/ KBD_KP, I, {S,C "6"}, {S,C "\033Ov"},{S,C "6"},
/*103*/ KBD_KP, I, {S,C "3"}, {S,C "\033Os"},{S,C "3"},
/*104*/ KBD_KP, I, {S,C "."}, {S,C "\033On"},{S,C "."},
/*105*/ KBD_KP, I, {S,C "-"}, {S,C "\033Om"},{S,C "-"},
/*106*/ KBD_KP, I, {S,C "+"}, {S,C "+"}, {S,C "+"},
/*107*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/*108*/ KBD_RETURN,I, {S,C "\r"}, {S,C "\033OM"},{S,C "\r"}, /* KP ENTER */
/*109*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/*110*/ KBD_ASCII, I, {S,C "\033"}, {S,C "\033"}, {S,C "\033"},
/*111*/ KBD_NONE, I, {S,C ""}, {S,C ""}, {S,C ""},
/*112*/ KBD_FUNC, I, {F,V fkey1}, {F,V sfkey1}, {F,V cfkey1}, /* F1 */
/*113*/ KBD_FUNC, I, {F,V fkey2}, {F,V sfkey2}, {F,V cfkey2}, /* F2 */
/*114*/ KBD_FUNC, I, {F,V fkey3}, {F,V sfkey3}, {F,V cfkey3}, /* F3 */
/*115*/ KBD_FUNC, I, {F,V fkey4}, {F,V sfkey4}, {F,V cfkey4}, /* F4 */
/*116*/ KBD_FUNC, I, {F,V fkey5}, {F,V sfkey5}, {F,V cfkey5}, /* F5 */
/*117*/ KBD_FUNC, I, {F,V fkey6}, {F,V sfkey6}, {F,V cfkey6}, /* F6 */
/*118*/ KBD_FUNC, I, {F,V fkey7}, {F,V sfkey7}, {F,V cfkey7}, /* F7 */
/*119*/ KBD_FUNC, I, {F,V fkey8}, {F,V sfkey8}, {F,V cfkey8}, /* F8 */
/*120*/ KBD_FUNC, I, {F,V fkey9}, {F,V sfkey9}, {F,V cfkey9}, /* F9 */
/*121*/ KBD_FUNC, I, {F,V fkey10}, {F,V sfkey10}, {F,V cfkey10}, /* F10 */
/*122*/ KBD_FUNC, I, {F,V fkey11}, {F,V sfkey11}, {F,V cfkey11}, /* F11 */
/*123*/ KBD_FUNC, I, {F,V fkey12}, {F,V sfkey12}, {F,V cfkey12}, /* F12 */
/*124*/ KBD_KP, I, {S,C ""}, {S,C ""}, {S,C ""},
/*125*/ KBD_SCROLL,I, {S,C ""}, {S,C ""}, {S,C ""},
/*126*/ KBD_BREAK, I, {S,C ""}, {S,C ""}, {S,C ""},
/*127*/ KBD_FUNC, I, {S,C ""}, {S,C ""}, {S,C ""}, /* SysRq */
#undef C
#undef V
#undef S
#undef F
#undef I
};
static short keypad2num[] = {
7, 4, 1, -1, -1, 8, 5, 2, 0, -1, 9, 6, 3, -1, -1, -1, -1
};
#if PCVT_USL_VT_COMPAT
#define N_KEYNUMS 128
/*
* this is the reverse mapping from keynumbers to scanset 1 codes
* it is used to emulate the SysV-style GIO_KEYMAP ioctl cmd
*/
static u_char key2scan1[N_KEYNUMS] = {
0,0x29,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09, /* 0 */
0x0a,0x0b,0x0c,0x0d, 0,0x0e,0x0f,0x10,0x11,0x12, /* 10 */
0x13,0x14,0x15,0x16,0x17,0x18,0x19,0x1a,0x1b,0x2b, /* 20 */
0x3a,0x1e,0x1f,0x20,0x21,0x22,0x23,0x24,0x25,0x26, /* 30 */
0x27,0x28, 0,0x1c,0x2a,0x56,0x2c,0x2d,0x2e,0x2f, /* 40 */
0x30,0x31,0x32,0x33,0x34,0x35,0x56,0x36,0x1d, 0, /* 50 */
0x38,0x39, 0, 0, 0, 0, 0, 0, 0, 0, /* 60 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 70 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 80 */
0x45,0x47,0x4b,0x4f, 0, 0,0x48,0x4c,0x50,0x52, /* 90 */
0x37,0x49,0x4d,0x51,0x53,0x4a,0x4e, 0, 0, 0, /* 100 */
0x01, 0,0x3b,0x3c,0x3d,0x3e,0x3f,0x40,0x41,0x42, /* 110 */
0x43,0x44,0x57,0x58, 0,0x46, 0,0x54 /* 120 */
};
/*
* SysV is brain-dead enough to stick on the IBM code page 437. So we
* have to translate our keymapping into IBM 437 (possibly losing keys),
* in order to have the X server convert it back into ISO8859.1
*/
/* NB: this table only contains the mapping for codes >= 128 */
static u_char iso2ibm437[] =
{
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0xff, 0xad, 0x9b, 0x9c, 0, 0x9d, 0, 0x40,
0x6f, 0x63, 0x61, 0xae, 0, 0, 0, 0,
0xf8, 0xf1, 0xfd, 0x33, 0, 0xe6, 0, 0xfa,
0, 0x31, 0x6f, 0xaf, 0xac, 0xab, 0, 0xa8,
0x41, 0x41, 0x41, 0x41, 0x8e, 0x8f, 0x92, 0x80,
0x45, 0x90, 0x45, 0x45, 0x49, 0x49, 0x49, 0x49,
0x81, 0xa5, 0x4f, 0x4f, 0x4f, 0x4f, 0x99, 0x4f,
0x4f, 0x55, 0x55, 0x55, 0x9a, 0x59, 0, 0xe1,
0x85, 0xa0, 0x83, 0x61, 0x84, 0x86, 0x91, 0x87,
0x8a, 0x82, 0x88, 0x89, 0x8d, 0xa1, 0x8c, 0x8b,
0, 0xa4, 0x95, 0xa2, 0x93, 0x6f, 0x94, 0x6f,
0x6f, 0x97, 0xa3, 0x96, 0x81, 0x98, 0, 0
};
#endif /* PCVT_USL_VT_COMPAT */
/*---------------------------------------------------------------------------*
* update keyboard led's
*---------------------------------------------------------------------------*/
void
update_led(void)
{
ledstate = ((vsp->scroll_lock) |
(vsp->num_lock * 2) |
(vsp->caps_lock * 4));
if(kbd_cmd(KEYB_C_LEDS) != 0)
printf("Keyboard LED command timeout\n");
else if(kbd_cmd(ledstate) != 0)
printf("Keyboard LED data timeout\n");
}
/*---------------------------------------------------------------------------*
* set typamatic rate
*---------------------------------------------------------------------------*/
static void
settpmrate(int rate)
{
tpmrate = rate & 0x7f;
if(kbd_cmd(KEYB_C_TYPEM) != 0)
printf("Keyboard TYPEMATIC command timeout\n");
else if(kbd_cmd(tpmrate) != 0)
printf("Keyboard TYPEMATIC data timeout\n");
}
/*---------------------------------------------------------------------------*
* Pass command to keyboard controller (8042)
*---------------------------------------------------------------------------*/
static int
kbc_8042cmd(int val)
{
unsigned timeo;
timeo = 100000; /* > 100 msec */
while (inb(CONTROLLER_CTRL) & STATUS_INPBF)
if (--timeo == 0)
return (-1);
delay(6);
outb(CONTROLLER_CTRL, val);
return (0);
}
/*---------------------------------------------------------------------------*
* Pass command to keyboard itself
*---------------------------------------------------------------------------*/
int
kbd_cmd(int val)
{
unsigned timeo;
timeo = 100000; /* > 100 msec */
while (inb(CONTROLLER_CTRL) & STATUS_INPBF)
if (--timeo == 0)
return (-1);
delay(6);
outb(CONTROLLER_DATA, val);
return (0);
}
/*---------------------------------------------------------------------------*
* Read response from keyboard
*---------------------------------------------------------------------------*/
int
kbd_response(void)
{
unsigned timeo;
timeo = 500000; /* > 500 msec (KEYB_R_SELFOK requires 87) */
while (!(inb(CONTROLLER_CTRL) & STATUS_OUTPBF))
if (--timeo == 0)
return (-1);
delay(6);
return ((u_char) inb(CONTROLLER_DATA));
}
/*---------------------------------------------------------------------------*
* try to force keyboard into a known state ..
*---------------------------------------------------------------------------*/
static
void doreset(void)
{
int again = 0;
int response;
/* Enable interrupts and keyboard, etc. */
if (kbc_8042cmd(CONTR_WRITE) != 0)
printf("Timeout specifying load of keyboard command byte\n");
#if PCVT_USEKBDSEC /* security enabled */
# if PCVT_SCANSET == 2
# define KBDINITCMD COMMAND_SYSFLG|COMMAND_IRQEN
# else /* PCVT_SCANSET != 2 */
# define KBDINITCMD COMMAND_PCSCAN|COMMAND_SYSFLG|COMMAND_IRQEN
# endif /* PCVT_SCANSET == 2 */
#else /* ! PCVT_USEKBDSEC */ /* security disabled */
# if PCVT_SCANSET == 2
# define KBDINITCMD COMMAND_INHOVR|COMMAND_SYSFLG|COMMAND_IRQEN
# else /* PCVT_SCANSET != 2 */
# define KBDINITCMD COMMAND_PCSCAN|COMMAND_INHOVR|COMMAND_SYSFLG\
|COMMAND_IRQEN
# endif /* PCVT_SCANSET == 2 */
#endif /* PCVT_USEKBDSEC */
if (kbd_cmd(KBDINITCMD) != 0)
printf("Timeout writing keyboard command byte\n");
/*
* Discard any stale keyboard activity. The 0.1 boot code isn't
* very careful and sometimes leaves a KEYB_R_RESEND.
*/
while (inb(CONTROLLER_CTRL) & STATUS_OUTPBF)
kbd_response();
/* Start keyboard reset */
if (kbd_cmd(KEYB_C_RESET) != 0)
printf("Timeout for keyboard reset command\n");
/* Wait for the first response to reset and handle retries */
while ((response = kbd_response()) != KEYB_R_ACK) {
if (response < 0) {
printf("Timeout for keyboard reset ack byte #1\n");
response = KEYB_R_RESEND;
}
if (response == KEYB_R_RESEND) {
if (!again) {
printf("KEYBOARD disconnected: RECONNECT\n");
again = 1;
}
if (kbd_cmd(KEYB_C_RESET) != 0)
printf("Timeout for keyboard reset command\n");
}
/*
* Other responses are harmless. They may occur for new
* keystrokes.
*/
}
/* Wait for the second response to reset */
while ((response = kbd_response()) != KEYB_R_SELFOK) {
if (response < 0) {
printf("Timeout for keyboard reset ack byte #2\n");
/*
* If KEYB_R_SELFOK never arrives, the loop will
* finish here unless the keyboard babbles or
* STATUS_OUTPBF gets stuck.
*/
break;
}
}
#if PCVT_KEYBDID
if(kbd_cmd(KEYB_C_ID) != 0)
{
printf("Timeout for keyboard ID command\n");
keyboard_type = KB_UNKNOWN;
}
else
{
r_entry:
if((response = kbd_response()) == KEYB_R_MF2ID1)
{
if((response = kbd_response()) == KEYB_R_MF2ID2)
{
keyboard_type = KB_MFII;
}
else if(response == KEYB_R_MF2ID2HP)
{
keyboard_type = KB_MFII;
}
else
{
printf("\nkbdid, response 2 = [%d]\n",
response);
keyboard_type = KB_UNKNOWN;
}
}
else if (response == KEYB_R_ACK)
{
goto r_entry;
}
else if (response == -1)
{
keyboard_type = KB_AT;
}
else
{
printf("\nkbdid, response 1 = [%d]\n", response);
}
}
#else /* PCVT_KEYBDID */
keyboard_type = KB_MFII; /* force it .. */
#endif /* PCVT_KEYBDID */
}
/*---------------------------------------------------------------------------*
* init keyboard code
*---------------------------------------------------------------------------*/
void
kbd_code_init(void)
{
doreset();
ovlinit(0);
keyboard_is_initialized = 1;
}
/*---------------------------------------------------------------------------*
* init keyboard code, this initializes the keyboard subsystem
* just "a bit" so the very very first ddb session is able to
* get proper keystrokes, in other words, it's a hack ....
*---------------------------------------------------------------------------*/
void
kbd_code_init1(void)
{
doreset();
keyboard_is_initialized = 1;
}
/*---------------------------------------------------------------------------*
* init keyboard overlay table
*---------------------------------------------------------------------------*/
static
void ovlinit(int force)
{
register i;
if(force || ovlinitflag==0)
{
if(ovlinitflag == 0 &&
(ovltbl = (Ovl_tbl *)malloc(sizeof(Ovl_tbl) * OVLTBL_SIZE,
M_DEVBUF, M_WAITOK)) == NULL)
panic("pcvt_kbd: malloc of Ovl_tbl failed");
for(i=0; i<OVLTBL_SIZE; i++)
{
ovltbl[i].keynum =
ovltbl[i].type = 0;
ovltbl[i].unshift[0] =
ovltbl[i].shift[0] =
ovltbl[i].ctrl[0] =
ovltbl[i].altgr[0] = 0;
ovltbl[i].subu =
ovltbl[i].subs =
ovltbl[i].subc =
ovltbl[i].suba = KBD_SUBT_STR; /* just strings .. */
}
for(i=0; i<=MAXKEYNUM; i++)
key2ascii[i].type &= KBD_MASK;
ovlinitflag = 1;
}
}
/*---------------------------------------------------------------------------*
* get original key definition
*---------------------------------------------------------------------------*/
static int
getokeydef(unsigned key, Ovl_tbl *thisdef)
{
if(key == 0 || key > MAXKEYNUM)
return EINVAL;
thisdef->keynum = key;
thisdef->type = key2ascii[key].type;
if(key2ascii[key].unshift.subtype == STR)
{
bcopy((u_char *)(key2ascii[key].unshift.what.string),
thisdef->unshift, CODE_SIZE);
thisdef->subu = KBD_SUBT_STR;
}
else
{
bcopy("", thisdef->unshift, CODE_SIZE);
thisdef->subu = KBD_SUBT_FNC;
}
if(key2ascii[key].shift.subtype == STR)
{
bcopy((u_char *)(key2ascii[key].shift.what.string),
thisdef->shift, CODE_SIZE);
thisdef->subs = KBD_SUBT_STR;
}
else
{
bcopy("",thisdef->shift,CODE_SIZE);
thisdef->subs = KBD_SUBT_FNC;
}
if(key2ascii[key].ctrl.subtype == STR)
{
bcopy((u_char *)(key2ascii[key].ctrl.what.string),
thisdef->ctrl, CODE_SIZE);
thisdef->subc = KBD_SUBT_STR;
}
else
{
bcopy("",thisdef->ctrl,CODE_SIZE);
thisdef->subc = KBD_SUBT_FNC;
}
/* deliver at least anything for ALTGR settings ... */
if(key2ascii[key].unshift.subtype == STR)
{
bcopy((u_char *)(key2ascii[key].unshift.what.string),
thisdef->altgr, CODE_SIZE);
thisdef->suba = KBD_SUBT_STR;
}
else
{
bcopy("",thisdef->altgr, CODE_SIZE);
thisdef->suba = KBD_SUBT_FNC;
}
return 0;
}
/*---------------------------------------------------------------------------*
* get current key definition
*---------------------------------------------------------------------------*/
static int
getckeydef(unsigned key, Ovl_tbl *thisdef)
{
u_short type = key2ascii[key].type;
if(key>MAXKEYNUM)
return EINVAL;
if(type & KBD_OVERLOAD)
*thisdef = ovltbl[key2ascii[key].ovlindex];
else
getokeydef(key,thisdef);
return 0;
}
/*---------------------------------------------------------------------------*
* translate keynumber and returns ptr to associated ascii string
* if key is bound to a function, executes it, and ret empty ptr
*---------------------------------------------------------------------------*/
static u_char *
xlatkey2ascii(U_short key)
{
static u_char capchar[2] = {0, 0};
#if PCVT_META_ESC
static u_char metachar[3] = {0x1b, 0, 0};
#else
static u_char metachar[2] = {0, 0};
#endif
static Ovl_tbl thisdef;
int n;
void (*fnc)();
if(key==0) /* ignore the NON-KEY */
return 0;
getckeydef(key&0x7F, &thisdef); /* get the current ASCII value */
thisdef.type &= KBD_MASK;
if(key&0x80) /* special handling of ALT-KEYPAD */
{
/* is the ALT Key released? */
if(thisdef.type==KBD_META || thisdef.type==KBD_ALTGR)
{
if(altkpflag) /* have we been in altkp mode? */
{
capchar[0] = altkpval;
altkpflag = 0;
altkpval = 0;
return capchar;
}
}
return 0;
}
switch(thisdef.type) /* convert the keys */
{
case KBD_BREAK:
case KBD_ASCII:
case KBD_FUNC:
fnc = NULL;
more_chars = NULL;
if(altgr_down)
more_chars = (u_char *)thisdef.altgr;
else if(shift_down || vsp->shift_lock)
{
if(key2ascii[key].shift.subtype == STR)
more_chars = (u_char *)thisdef.shift;
else
fnc = key2ascii[key].shift.what.func;
}
else if(ctrl_down)
{
if(key2ascii[key].ctrl.subtype == STR)
more_chars = (u_char *)thisdef.ctrl;
else
fnc = key2ascii[key].ctrl.what.func;
}
else
{
if(key2ascii[key].unshift.subtype == STR)
more_chars = (u_char *)thisdef.unshift;
else
fnc = key2ascii[key].unshift.what.func;
}
if(fnc)
(*fnc)(); /* execute function */
if((more_chars != NULL) && (more_chars[1] == 0))
{
if(vsp->caps_lock && more_chars[0] >= 'a'
&& more_chars[0] <= 'z')
{
capchar[0] = *more_chars - ('a'-'A');
more_chars = capchar;
}
if(meta_down)
{
#if PCVT_META_ESC
metachar[1] = *more_chars;
#else
metachar[0] = *more_chars | 0x80;
#endif
more_chars = metachar;
}
}
return(more_chars);
case KBD_KP:
fnc = NULL;
more_chars = NULL;
if(meta_down)
{
switch(key)
{
case 95: /* / */
altkpflag = 0;
more_chars =
(u_char *)"\033OQ";
return(more_chars);
case 100: /* * */
altkpflag = 0;
more_chars =
(u_char *)"\033OR";
return(more_chars);
case 105: /* - */
altkpflag = 0;
more_chars =
(u_char *)"\033OS";
return(more_chars);
}
}
if(meta_down || altgr_down)
{
if((n = keypad2num[key-91]) >= 0)
{
if(!altkpflag)
{
/* start ALT-KP mode */
altkpflag = 1;
altkpval = 0;
}
altkpval *= 10;
altkpval += n;
}
else
altkpflag = 0;
return 0;
}
if(!(vsp->num_lock))
{
if(key2ascii[key].shift.subtype == STR)
more_chars = (u_char *)thisdef.shift;
else
fnc = key2ascii[key].shift.what.func;
}
else
{
if(key2ascii[key].unshift.subtype == STR)
more_chars = (u_char *)thisdef.unshift;
else
fnc = key2ascii[key].unshift.what.func;
}
if(fnc)
(*fnc)(); /* execute function */
return(more_chars);
case KBD_CURSOR:
fnc = NULL;
more_chars = NULL;
if(vsp->ckm)
{
if(key2ascii[key].shift.subtype == STR)
more_chars = (u_char *)thisdef.shift;
else
fnc = key2ascii[key].shift.what.func;
}
else
{
if(key2ascii[key].unshift.subtype == STR)
more_chars = (u_char *)thisdef.unshift;
else
fnc = key2ascii[key].unshift.what.func;
}
if(fnc)
(*fnc)(); /* execute function */
return(more_chars);
case KBD_NUM: /* special kp-num handling */
more_chars = NULL;
if(meta_down)
{
more_chars = (u_char *)"\033OP"; /* PF1 */
}
else
{
vsp->num_lock ^= 1;
update_led();
}
return(more_chars);
case KBD_RETURN:
more_chars = NULL;
if(!(vsp->num_lock))
{
more_chars = (u_char *)thisdef.shift;
}
else
{
more_chars = (u_char *)thisdef.unshift;
}
if(vsp->lnm && (*more_chars == '\r'))
{
more_chars = (u_char *)"\r\n"; /* CR LF */
}
if(meta_down)
{
#if PCVT_META_ESC
metachar[1] = *more_chars;
#else
metachar[0] = *more_chars | 0x80;
#endif
more_chars = metachar;
}
return(more_chars);
case KBD_META: /* these keys are */
case KBD_ALTGR: /* handled directly */
case KBD_SCROLL: /* by the keyboard */
case KBD_CAPS: /* handler - they are */
case KBD_SHFTLOCK: /* ignored here */
case KBD_CTL:
case KBD_NONE:
default:
return 0;
}
}
/*---------------------------------------------------------------------------*
* get keystrokes from the keyboard.
* if noblock = 0, wait until a key is pressed.
* else return NULL if no characters present.
*---------------------------------------------------------------------------*/
u_char *
sgetc(int noblock)
{
u_char *cp;
u_char dt;
u_char key;
u_short type;
static u_char kbd_lastkey = 0; /* last keystroke */
static struct
{
u_char extended: 1; /* extended prefix seen */
u_char ext1: 1; /* extended prefix 1 seen */
u_char breakseen: 1; /* break code seen */
u_char vshift: 1; /* virtual shift pending */
u_char vcontrol: 1; /* virtual control pending */
u_char sysrq: 1; /* sysrq pressed */
} kbd_status = {0};
#ifdef XSERVER
static char keybuf[2] = {0}; /* the second 0 is a delimiter! */
#endif /* XSERVER */
loop:
/* see if there is something from the keyboard in the input buffer */
#ifdef XSERVER
if (inb(CONTROLLER_CTRL) & STATUS_OUTPBF)
{
dt = inb(CONTROLLER_DATA); /* yes, get it ! */
/*
* If x mode is active, only care for locking keys, then
* return the scan code instead of any key translation.
* Additionally, this prevents us from any attempts to
* execute pcvt internal functions caused by keys (such
* as screen flipping).
* XXX For now, only the default locking key definitions
* are recognized (i.e. if you have overloaded you "A" key
* as NUMLOCK, that wont effect X mode:-)
* Changing this would be nice, but would require modifi-
* cations to the X server. After having this, X will
* deal with the LEDs itself, so we are committed.
*/
/*
* Iff PCVT_USL_VT_COMPAT is defined, the behaviour has
* been fixed. We need not care about any keys here, since
* there are ioctls that deal with the lock key / LED stuff.
*/
if (pcvt_kbd_raw)
{
keybuf[0] = dt;
#if !PCVT_USL_VT_COMPAT
if ((dt & 0x80) == 0)
/* key make */
switch(dt)
{
case 0x45:
/* XXX on which virt screen? */ vsp->num_lock ^= 1;
update_led();
break;
case 0x3a:
vsp->caps_lock ^= 1;
update_led();
break;
case 0x46:
vsp->scroll_lock ^= 1;
update_led();
break;
}
#endif /* !PCVT_USL_VT_COMPAT */
#if PCVT_EMU_MOUSE
/*
* The (mouse systems) mouse emulator. The mouse
* device allocates the first device node that is
* not used by a virtual terminal. (E.g., you have
* eight vtys, /dev/ttyv0 thru /dev/ttyv7, so the
* mouse emulator were /dev/ttyv8.)
* Currently the emulator only works if the keyboard
* is in raw (PC scan code) mode. This is the typic-
* al case when running the X server.
* It is activated if the num locks LED is active
* for the current vty, and if the mouse device
* has been opened by at least one process. It
* grabs the numerical keypad events (but only
* the "non-extended", so the separate arrow keys
* continue to work), and three keys for the "mouse
* buttons", preferrably F1 thru F3. Any of the
* eight directions (N, NE, E, SE, S, SW, W, NW)
* is supported, and frequent key presses (less
* than e.g. half a second between key presses)
* cause the emulator to accelerate the pointer
* movement by 6, while single presses result in
* single moves, so each point can be reached.
*/
/*
* NB: the following code is spagghetti.
* Only eat it with lotta tomato ketchup and
* Parmesan cheese:-)
*/
/*
* look whether we will have to steal the keys
* and cook them into mouse events
*/
if(vsp->num_lock && mouse.opened)
{
int button, accel, i;
enum mouse_dir
{
MOUSE_NW, MOUSE_N, MOUSE_NE,
MOUSE_W, MOUSE_0, MOUSE_E,
MOUSE_SW, MOUSE_S, MOUSE_SE
}
move;
struct timeval now;
/* from sys/kern/kern_time.c */
extern void timevalsub
(struct timeval *, struct timeval *);
dev_t dummy = makedev(0, mouse.minor);
struct tty *mousetty = get_pccons(dummy);
/*
* strings to send for each mouse event,
* indexed by the movement direction and
* the "accelerator" value (TRUE for frequent
* key presses); note that the first byte
* of each string is actually overwritten
* by the current button value before sending
* the string
*/
static u_char mousestrings[2][MOUSE_SE+1][5] =
{
{
/* first, the non-accelerated strings*/
{0x87, -1, 1, 0, 0}, /* NW */
{0x87, 0, 1, 0, 0}, /* N */
{0x87, 1, 1, 0, 0}, /* NE */
{0x87, -1, 0, 0, 0}, /* W */
{0x87, 0, 0, 0, 0}, /* 0 */
{0x87, 1, 0, 0, 0}, /* E */
{0x87, -1, -1, 0, 0}, /* SW */
{0x87, 0, -1, 0, 0}, /* S */
{0x87, 1, -1, 0, 0} /* SE */
},
{
/* now, 6 steps at once */
{0x87, -4, 4, 0, 0}, /* NW */
{0x87, 0, 6, 0, 0}, /* N */
{0x87, 4, 4, 0, 0}, /* NE */
{0x87, -6, 0, 0, 0}, /* W */
{0x87, 0, 0, 0, 0}, /* 0 */
{0x87, 6, 0, 0, 0}, /* E */
{0x87, -4, -4, 0, 0}, /* SW */
{0x87, 0, -6, 0, 0}, /* S */
{0x87, 4, -4, 0, 0} /* SE */
}
};
if(dt == 0xe0)
{
/* ignore extended scan codes */
mouse.extendedseen = 1;
goto no_mouse_event;
}
if(mouse.extendedseen)
{
mouse.extendedseen = 0;
goto no_mouse_event;
}
mouse.extendedseen = 0;
/*
* Note that we cannot use a switch here
* since we want to have the keycodes in
* a variable
*/
if((dt & 0x7f) == mousedef.leftbutton) {
button = 4;
goto do_button;
}
else if((dt & 0x7f) == mousedef.middlebutton) {
button = 2;
goto do_button;
}
else if((dt & 0x7f) == mousedef.rightbutton) {
button = 1;
do_button:
/*
* i would really like to give
* some acustical support
* (pling/plong); i am not sure
* whether it is safe to call
* sysbeep from within an intr
* service, since it calls
* timeout in turn which mani-
* pulates the spl mask - jw
*/
# define PLING sysbeep(PCVT_SYSBEEPF / 1500, 2)
# define PLONG sysbeep(PCVT_SYSBEEPF / 1200, 2)
if(mousedef.stickybuttons)
{
if(dt & 0x80) {
mouse.breakseen = 1;
return (u_char *)0;
}
else if(mouse.buttons == button
&& !mouse.breakseen) {
/* ignore repeats */
return (u_char *)0;
}
else
mouse.breakseen = 0;
if(mouse.buttons == button) {
/* release it */
mouse.buttons = 0;
PLONG;
} else {
/*
* eventually, release
* any other button,
* and stick this one
*/
mouse.buttons = button;
PLING;
}
}
else
{
if(dt & 0x80) {
mouse.buttons &=
~button;
PLONG;
}
else if((mouse.buttons
& button) == 0) {
mouse.buttons |=
button;
PLING;
}
/*else: ignore same btn press*/
}
move = MOUSE_0;
accel = 0;
}
# undef PLING
# undef PLONG
else switch(dt & 0x7f)
{
/* the arrow keys - KP 1 thru KP 9 */
case 0x47: move = MOUSE_NW; goto do_move;
case 0x48: move = MOUSE_N; goto do_move;
case 0x49: move = MOUSE_NE; goto do_move;
case 0x4b: move = MOUSE_W; goto do_move;
case 0x4c: move = MOUSE_0; goto do_move;
case 0x4d: move = MOUSE_E; goto do_move;
case 0x4f: move = MOUSE_SW; goto do_move;
case 0x50: move = MOUSE_S; goto do_move;
case 0x51: move = MOUSE_SE;
do_move:
if(dt & 0x80)
/*
* arrow key break events are
* of no importance for us
*/
return (u_char *)0;
/*
* see whether the last move did
* happen "recently", i.e. before
* less than half a second
*/
now = time;
timevalsub(&now, &mouse.lastmove);
mouse.lastmove = time;
accel = (now.tv_sec == 0
&& now.tv_usec
< mousedef.acceltime);
break;
default: /* not a mouse-emulating key */
goto no_mouse_event;
}
mousestrings[accel][move][0] =
0x80 + (~mouse.buttons & 7);
/* finally, send the string */
for(i = 0; i < 5; i++)
(*linesw[mousetty->t_line].l_rint)
(mousestrings[accel][move][i],
mousetty);
return (u_char *)0; /* not a kbd event */
}
no_mouse_event:
#endif /* PCVT_EMU_MOUSE */
return ((u_char *)keybuf);
}
}
#else /* !XSERVER */
if(inb(CONTROLLER_CTRL) & STATUS_OUTPBF)
dt = inb(CONTROLLER_DATA); /* yes, get it ! */
#endif /* !XSERVER */
else
{
if(noblock)
return NULL;
else
goto loop;
}
#if PCVT_SHOWKEYS
{
int rki;
for(rki = 3; rki < 80; rki++) /* shift left buffer */
rawkeybuf[rki-3] = rawkeybuf[rki];
rawkeybuf[77] = ' '; /* delimiter */
rki = (dt & 0xf0) >> 4; /* ms nibble */
if(rki <= 9)
rki = rki + '0';
else
rki = rki - 10 + 'A';
rawkeybuf[78] = rki;
rki = dt & 0x0f; /* ls nibble */
if(rki <= 9)
rki = rki + '0';
else
rki = rki - 10 + 'A';
rawkeybuf[79] = rki;
}
#endif /* PCVT_SHOWKEYS */
/* lets look what we got */
switch(dt)
{
case KEYB_R_OVERRUN0: /* keyboard buffer overflow */
#if PCVT_SCANSET == 2
case KEYB_R_SELFOK: /* keyboard selftest ok */
#endif /* PCVT_SCANSET == 2 */
case KEYB_R_ECHO: /* keyboard response to KEYB_C_ECHO */
case KEYB_R_ACK: /* acknowledge after command has rx'd*/
case KEYB_R_SELFBAD: /* keyboard selftest FAILED */
case KEYB_R_DIAGBAD: /* keyboard self diagnostic failure */
case KEYB_R_RESEND: /* keyboard wants us to resend cmnd */
case KEYB_R_OVERRUN1: /* keyboard buffer overflow */
break;
case KEYB_R_EXT1: /* keyboard extended scancode pfx 2 */
kbd_status.ext1 = 1;
/* FALLTHROUGH */
case KEYB_R_EXT0: /* keyboard extended scancode pfx 1 */
kbd_status.extended = 1;
break;
#if PCVT_SCANSET == 2
case KEYB_R_BREAKPFX: /* break code prefix for set 2 and 3 */
kbd_status.breakseen = 1;
break;
#endif /* PCVT_SCANSET == 2 */
default:
goto regular; /* regular key */
}
if(noblock)
return NULL;
else
goto loop;
/* got a normal scan key */
regular:
#if PCVT_SCANSET == 1
kbd_status.breakseen = dt & 0x80 ? 1 : 0;
dt &= 0x7f;
#endif /* PCVT_SCANSET == 1 */
/* make a keycode from scan code */
if(dt >= sizeof scantokey / sizeof(u_char))
key = 0;
else
key = kbd_status.extended ? extscantokey[dt] : scantokey[dt];
if(kbd_status.ext1 && key == 58)
/* virtual control key */
key = 129;
kbd_status.extended = kbd_status.ext1 = 0;
#if PCVT_CTRL_ALT_DEL /* Check for cntl-alt-del */
if((key == 76) && ctrl_down && (meta_down||altgr_down))
cpu_reset();
#endif /* PCVT_CTRL_ALT_DEL */
#if !PCVT_NETBSD
#include "ddb.h"
#endif /* !PCVT_NETBSD */
#if NDDB > 0 || defined(DDB) /* Check for cntl-alt-esc */
if((key == 110) && ctrl_down && (meta_down || altgr_down))
{
static u_char in_Debugger;
if(!in_Debugger)
{
in_Debugger = 1;
#if PCVT_FREEBSD
/* the string is actually not used... */
Debugger("kbd");
#else
Debugger();
#endif
in_Debugger = 0;
if(noblock)
return NULL;
else
goto loop;
}
}
#endif /* NDDB > 0 || defined(DDB) */
/* look for keys with special handling */
if(key == 128)
{
/*
* virtual shift; sent around PrtScr, and around the arrow
* keys if the NumLck LED is on
*/
kbd_status.vshift = !kbd_status.breakseen;
key = 0; /* no key */
}
else if(key == 129)
{
/*
* virtual control - the most ugly thingie at all
* the Pause key sends:
* <virtual control make> <numlock make> <virtual control
* break> <numlock break>
*/
if(!kbd_status.breakseen)
kbd_status.vcontrol = 1;
/* else: let the numlock hook clear this */
key = 0; /* no key */
}
else if(key == 90)
{
/* NumLock, look whether this is rather a Pause */
if(kbd_status.vcontrol)
key = 126;
/*
* if this is the final break code of a Pause key,
* clear the virtual control status, too
*/
if(kbd_status.vcontrol && kbd_status.breakseen)
kbd_status.vcontrol = 0;
}
else if(key == 127)
{
/*
* a SysRq; some keyboards are brain-dead enough to
* repeat the SysRq key make code by sending PrtScr
* make codes; other keyboards do not repeat SysRq
* at all. We keep track of the SysRq state here.
*/
kbd_status.sysrq = !kbd_status.breakseen;
}
else if(key == 124)
{
/*
* PrtScr; look whether this is really PrtScr or rather
* a silly repeat of a SysRq key
*/
if(kbd_status.sysrq)
/* ignore the garbage */
key = 0;
}
/* in NOREPEAT MODE ignore the key if it was the same as before */
if(!kbrepflag && key == kbd_lastkey && !kbd_status.breakseen)
{
if(noblock)
return NULL;
else
goto loop;
}
type = key2ascii[key].type;
if(type & KBD_OVERLOAD)
type = ovltbl[key2ascii[key].ovlindex].type;
type &= KBD_MASK;
switch(type)
{
case KBD_SHFTLOCK:
if(!kbd_status.breakseen && key != kbd_lastkey)
{
vsp->shift_lock ^= 1;
}
break;
case KBD_CAPS:
if(!kbd_status.breakseen && key != kbd_lastkey)
{
vsp->caps_lock ^= 1;
update_led();
}
break;
case KBD_SCROLL:
if(!kbd_status.breakseen && key != kbd_lastkey)
{
vsp->scroll_lock ^= 1;
update_led();
if(!(vsp->scroll_lock))
{
/* someone may be sleeping */
wakeup((caddr_t)&(vsp->scroll_lock));
}
}
break;
case KBD_SHIFT:
shift_down = kbd_status.breakseen ? 0 : 1;
break;
case KBD_META:
meta_down = kbd_status.breakseen ? 0 : 0x80;
break;
case KBD_ALTGR:
altgr_down = kbd_status.breakseen ? 0 : 1;
break;
case KBD_CTL:
ctrl_down = kbd_status.breakseen ? 0 : 1;
break;
case KBD_NONE:
default:
break; /* deliver a key */
}
if(kbd_status.breakseen)
{
key |= 0x80;
kbd_status.breakseen = 0;
kbd_lastkey = 0; /* -hv- I know this is a bug with */
} /* N-Key-Rollover, but I ignore that */
else /* because avoidance is too complicated */
kbd_lastkey = key;
cp = xlatkey2ascii(key); /* have a key */
if(cp == NULL && !noblock)
goto loop;
return cp;
}
/*---------------------------------------------------------------------------*
* reflect status of locking keys & set led's
*---------------------------------------------------------------------------*/
static void
setlockkeys(int snc)
{
vsp->scroll_lock = snc & 1;
vsp->num_lock = (snc & 2) ? 1 : 0;
vsp->caps_lock = (snc & 4) ? 1 : 0;
update_led();
}
/*---------------------------------------------------------------------------*
* remove a key definition
*---------------------------------------------------------------------------*/
static int
rmkeydef(int key)
{
register Ovl_tbl *ref;
if(key==0 || key > MAXKEYNUM)
return EINVAL;
if(key2ascii[key].type & KBD_OVERLOAD)
{
ref = &ovltbl[key2ascii[key].ovlindex];
ref->keynum = 0;
ref->type = 0;
ref->unshift[0] =
ref->shift[0] =
ref->ctrl[0] =
ref->altgr[0] = 0;
key2ascii[key].type &= KBD_MASK;
}
return 0;
}
/*---------------------------------------------------------------------------*
* overlay a key
*---------------------------------------------------------------------------*/
static int
setkeydef(Ovl_tbl *data)
{
register i;
if( data->keynum > MAXKEYNUM ||
(data->type & KBD_MASK) == KBD_BREAK ||
(data->type & KBD_MASK) > KBD_SHFTLOCK)
return EINVAL;
data->unshift[KBDMAXOVLKEYSIZE] =
data->shift[KBDMAXOVLKEYSIZE] =
data->ctrl[KBDMAXOVLKEYSIZE] =
data->altgr[KBDMAXOVLKEYSIZE] = 0;
data->subu =
data->subs =
data->subc =
data->suba = KBD_SUBT_STR; /* just strings .. */
data->type |= KBD_OVERLOAD; /* mark overloaded */
/* if key already overloaded, use that slot else find free slot */
if(key2ascii[data->keynum].type & KBD_OVERLOAD)
{
i = key2ascii[data->keynum].ovlindex;
}
else
{
for(i=0; i<OVLTBL_SIZE; i++)
if(ovltbl[i].keynum==0)
break;
if(i==OVLTBL_SIZE)
return ENOSPC; /* no space, abuse of ENOSPC(!) */
}
ovltbl[i] = *data; /* copy new data string */
key2ascii[data->keynum].type |= KBD_OVERLOAD; /* mark key */
key2ascii[data->keynum].ovlindex = i;
return 0;
}
/*---------------------------------------------------------------------------*
* keyboard ioctl's entry
*---------------------------------------------------------------------------*/
int
kbdioctl(Dev_t dev, u_long cmd, caddr_t data, int flag)
{
int key;
switch(cmd)
{
case KBDRESET:
doreset();
ovlinit(1);
settpmrate(KBD_TPD500|KBD_TPM100);
setlockkeys(0);
break;
case KBDGTPMAT:
*(int *)data = tpmrate;
break;
case KBDSTPMAT:
settpmrate(*(int *)data);
break;
case KBDGREPSW:
*(int *)data = kbrepflag;
break;
case KBDSREPSW:
kbrepflag = (*(int *)data) & 1;
break;
case KBDGLEDS:
*(int *)data = ledstate;
break;
case KBDSLEDS:
update_led(); /* ??? */
break;
case KBDGLOCK:
*(int *)data = ( (vsp->scroll_lock) |
(vsp->num_lock * 2) |
(vsp->caps_lock * 4));
break;
case KBDSLOCK:
setlockkeys(*(int *)data);
break;
case KBDGCKEY:
key = ((Ovl_tbl *)data)->keynum;
return getckeydef(key,(Ovl_tbl *)data);
case KBDSCKEY:
key = ((Ovl_tbl *)data)->keynum;
return setkeydef((Ovl_tbl *)data);
case KBDGOKEY:
key = ((Ovl_tbl *)data)->keynum;
return getokeydef(key,(Ovl_tbl *)data);
case KBDRMKEY:
key = *(int *)data;
return rmkeydef(key);
case KBDDEFAULT:
ovlinit(1);
break;
default:
/* proceed with vga ioctls */
return -1;
}
return 0;
}
#if PCVT_EMU_MOUSE
/*--------------------------------------------------------------------------*
* mouse emulator ioctl
*--------------------------------------------------------------------------*/
int
mouse_ioctl(Dev_t dev, u_long cmd, caddr_t data)
{
struct mousedefs *def = (struct mousedefs *)data;
switch(cmd)
{
case KBDMOUSEGET:
*def = mousedef;
break;
case KBDMOUSESET:
mousedef = *def;
break;
default:
return -1;
}
return 0;
}
#endif /* PCVT_EMU_MOUSE */
#if PCVT_USL_VT_COMPAT
/*---------------------------------------------------------------------------*
* convert ISO-8859 style keycode into IBM 437
*---------------------------------------------------------------------------*/
static inline u_char
iso2ibm(u_char c)
{
if(c < 0x80)
return c;
return iso2ibm437[c - 0x80];
}
/*---------------------------------------------------------------------------*
* build up a USL style keyboard map
*---------------------------------------------------------------------------*/
void
get_usl_keymap(keymap_t *map)
{
int i;
bzero((caddr_t)map, sizeof(keymap_t));
map->n_keys = 0x59; /* that many keys we know about */
for(i = 1; i < N_KEYNUMS; i++)
{
Ovl_tbl kdef;
u_char c;
int j;
int idx = key2scan1[i];
if(idx == 0 || idx >= map->n_keys)
continue;
getckeydef(i, &kdef);
kdef.type &= KBD_MASK;
switch(kdef.type)
{
case KBD_ASCII:
case KBD_RETURN:
map->key[idx].map[0] = iso2ibm(kdef.unshift[0]);
map->key[idx].map[1] = iso2ibm(kdef.shift[0]);
map->key[idx].map[2] = map->key[idx].map[3] =
iso2ibm(kdef.ctrl[0]);
map->key[idx].map[4] = map->key[idx].map[5] =
iso2ibm(c = kdef.altgr[0]);
/*
* XXX this is a hack
* since we currently do not map strings to AltGr +
* shift, we attempt to use the unshifted AltGr
* definition here and try to toggle the case
* this should at least work for ISO8859 letters,
* but also for (e.g.) russian KOI-8 style
*/
if((c & 0x7f) >= 0x40)
map->key[idx].map[5] = iso2ibm(c ^ 0x20);
break;
case KBD_FUNC:
/* we are only interested in F1 thru F12 here */
if(i >= 112 && i <= 123) {
map->key[idx].map[0] = i - 112 + 27;
map->key[idx].spcl = 0x80;
}
break;
case KBD_SHIFT:
c = i == 44? 2 /* lSh */: 3 /* rSh */; goto special;
case KBD_CAPS:
c = 4; goto special;
case KBD_NUM:
c = 5; goto special;
case KBD_SCROLL:
c = 6; goto special;
case KBD_META:
c = 7; goto special;
case KBD_CTL:
c = 9; goto special;
special:
for(j = 0; j < NUM_STATES; j++)
map->key[idx].map[j] = c;
map->key[idx].spcl = 0xff;
break;
default:
break;
}
}
}
#endif /* PCVT_USL_VT_COMPAT */
/*---------------------------------------------------------------------------*
* switch keypad to numeric mode
*---------------------------------------------------------------------------*/
void
vt_keynum(struct video_state *svsp)
{
svsp->num_lock = 1;
update_led();
}
/*---------------------------------------------------------------------------*
* switch keypad to application mode
*---------------------------------------------------------------------------*/
void
vt_keyappl(struct video_state *svsp)
{
svsp->num_lock = 0;
update_led();
}
#if PCVT_VT220KEYB
/*---------------------------------------------------------------------------*
* function bound to function key 1
*---------------------------------------------------------------------------*/
static void
fkey1(void)
{
if(meta_down)
more_chars = (u_char *)"\033[23~"; /* F11 */
else
do_vgapage(0);
}
/*---------------------------------------------------------------------------*
* function bound to function key 2
*---------------------------------------------------------------------------*/
static void
fkey2(void)
{
if(meta_down)
more_chars = (u_char *)"\033[24~"; /* F12 */
else
do_vgapage(1);
}
/*---------------------------------------------------------------------------*
* function bound to function key 3
*---------------------------------------------------------------------------*/
static void
fkey3(void)
{
if(meta_down)
more_chars = (u_char *)"\033[25~"; /* F13 */
else
do_vgapage(2);
}
/*---------------------------------------------------------------------------*
* function bound to function key 4
*---------------------------------------------------------------------------*/
static void
fkey4(void)
{
if(meta_down)
more_chars = (u_char *)"\033[26~"; /* F14 */
else
do_vgapage(3);
}
/*---------------------------------------------------------------------------*
* function bound to function key 5
*---------------------------------------------------------------------------*/
static void
fkey5(void)
{
if(meta_down)
more_chars = (u_char *)"\033[28~"; /* Help */
else
{
if((current_video_screen + 1) > totalscreens-1)
do_vgapage(0);
else
do_vgapage(current_video_screen + 1);
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 6
*---------------------------------------------------------------------------*/
static void
fkey6(void)
{
if(meta_down)
more_chars = (u_char *)"\033[29~"; /* DO */
else
more_chars = (u_char *)"\033[17~"; /* F6 */
}
/*---------------------------------------------------------------------------*
* function bound to function key 7
*---------------------------------------------------------------------------*/
static void
fkey7(void)
{
if(meta_down)
more_chars = (u_char *)"\033[31~"; /* F17 */
else
more_chars = (u_char *)"\033[18~"; /* F7 */
}
/*---------------------------------------------------------------------------*
* function bound to function key 8
*---------------------------------------------------------------------------*/
static void
fkey8(void)
{
if(meta_down)
more_chars = (u_char *)"\033[32~"; /* F18 */
else
more_chars = (u_char *)"\033[19~"; /* F8 */
}
/*---------------------------------------------------------------------------*
* function bound to function key 9
*---------------------------------------------------------------------------*/
static void
fkey9(void)
{
if(meta_down)
more_chars = (u_char *)"\033[33~"; /* F19 */
else
more_chars = (u_char *)"\033[20~"; /* F9 */
}
/*---------------------------------------------------------------------------*
* function bound to function key 10
*---------------------------------------------------------------------------*/
static void
fkey10(void)
{
if(meta_down)
more_chars = (u_char *)"\033[34~"; /* F20 */
else
more_chars = (u_char *)"\033[21~"; /* F10 */
}
/*---------------------------------------------------------------------------*
* function bound to function key 11
*---------------------------------------------------------------------------*/
static void
fkey11(void)
{
if(meta_down)
more_chars = (u_char *)"\0x8FP"; /* PF1 */
else
more_chars = (u_char *)"\033[23~"; /* F11 */
}
/*---------------------------------------------------------------------------*
* function bound to function key 12
*---------------------------------------------------------------------------*/
static void
fkey12(void)
{
if(meta_down)
more_chars = (u_char *)"\0x8FQ"; /* PF2 */
else
more_chars = (u_char *)"\033[24~"; /* F12 */
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 1
*---------------------------------------------------------------------------*/
static void
sfkey1(void)
{
if(meta_down)
{
if(vsp->ukt.length[6]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[6]]);
else
more_chars = (u_char *)"\033[23~"; /* F11 */
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 2
*---------------------------------------------------------------------------*/
static void
sfkey2(void)
{
if(meta_down)
{
if(vsp->ukt.length[7]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[7]]);
else
more_chars = (u_char *)"\033[24~"; /* F12 */
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 3
*---------------------------------------------------------------------------*/
static void
sfkey3(void)
{
if(meta_down)
{
if(vsp->ukt.length[8]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[8]]);
else
more_chars = (u_char *)"\033[25~"; /* F13 */
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 4
*---------------------------------------------------------------------------*/
static void
sfkey4(void)
{
if(meta_down)
{
if(vsp->ukt.length[9]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[9]]);
else
more_chars = (u_char *)"\033[26~"; /* F14 */
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 5
*---------------------------------------------------------------------------*/
static void
sfkey5(void)
{
if(meta_down)
{
if(vsp->ukt.length[11]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[11]]);
else
more_chars = (u_char *)"\033[28~"; /* Help */
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 6
*---------------------------------------------------------------------------*/
static void
sfkey6(void)
{
if(!meta_down)
{
if(vsp->ukt.length[0]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[0]]);
else
more_chars = (u_char *)"\033[17~"; /* F6 */
}
else if(vsp->ukt.length[12]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[12]]);
else
more_chars = (u_char *)"\033[29~"; /* DO */
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 7
*---------------------------------------------------------------------------*/
static void
sfkey7(void)
{
if(!meta_down)
{
if(vsp->ukt.length[1]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[1]]);
else
more_chars = (u_char *)"\033[18~"; /* F7 */
}
else if(vsp->ukt.length[14]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[14]]);
else
more_chars = (u_char *)"\033[31~"; /* F17 */
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 8
*---------------------------------------------------------------------------*/
static void
sfkey8(void)
{
if(!meta_down)
{
if(vsp->ukt.length[2]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[2]]);
else
more_chars = (u_char *)"\033[19~"; /* F8 */
}
else if(vsp->ukt.length[14]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[15]]);
else
more_chars = (u_char *)"\033[32~"; /* F18 */
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 9
*---------------------------------------------------------------------------*/
static void
sfkey9(void)
{
if(!meta_down)
{
if(vsp->ukt.length[3]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[3]]);
else
more_chars = (u_char *)"\033[20~"; /* F9 */
}
else if(vsp->ukt.length[16]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[16]]);
else
more_chars = (u_char *)"\033[33~"; /* F19 */
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 10
*---------------------------------------------------------------------------*/
static void
sfkey10(void)
{
if(!meta_down)
{
if(vsp->ukt.length[4]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[4]]);
else
more_chars = (u_char *)"\033[21~"; /* F10 */
}
else if(vsp->ukt.length[17]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[17]]);
else
more_chars = (u_char *)"\033[34~"; /* F20 */
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 11
*---------------------------------------------------------------------------*/
static void
sfkey11(void)
{
if(!meta_down)
{
if(vsp->ukt.length[6]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[6]]);
else
more_chars = (u_char *)"\033[23~"; /* F11 */
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 12
*---------------------------------------------------------------------------*/
static void
sfkey12(void)
{
if(!meta_down)
{
if(vsp->ukt.length[7]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[7]]);
else
more_chars = (u_char *)"\033[24~"; /* F12 */
}
}
/*---------------------------------------------------------------------------*
* function bound to control function key 1
*---------------------------------------------------------------------------*/
static void
cfkey1(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to control function key 2
*---------------------------------------------------------------------------*/
static void
cfkey2(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to control function key 3
*---------------------------------------------------------------------------*/
static void
cfkey3(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to control function key 4
*---------------------------------------------------------------------------*/
static void
cfkey4(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to control function key 5
*---------------------------------------------------------------------------*/
static void
cfkey5(void)
{
if(vsp->which_fkl == SYS_FKL)
toggl_bell(vsp);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 6
*---------------------------------------------------------------------------*/
static void
cfkey6(void)
{
if(vsp->which_fkl == SYS_FKL)
toggl_sevenbit(vsp);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 7
*---------------------------------------------------------------------------*/
static void
cfkey7(void)
{
if(vsp->which_fkl == SYS_FKL)
toggl_dspf(vsp);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 8
*---------------------------------------------------------------------------*/
static void
cfkey8(void)
{
if(vsp->which_fkl == SYS_FKL)
toggl_awm(vsp);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 9
*---------------------------------------------------------------------------*/
static void
cfkey9(void)
{
if(vsp->labels_on) /* toggle label display on/off */
fkl_off(vsp);
else
fkl_on(vsp);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 10
*---------------------------------------------------------------------------*/
static void
cfkey10(void)
{
if(vsp->labels_on) /* toggle user/system fkey labels */
{
if(vsp->which_fkl == USR_FKL)
sw_sfkl(vsp);
else if(vsp->which_fkl == SYS_FKL)
sw_ufkl(vsp);
}
}
/*---------------------------------------------------------------------------*
* function bound to control function key 11
*---------------------------------------------------------------------------*/
static void
cfkey11(void)
{
if(vsp->vt_pure_mode == M_PUREVT)
set_emulation_mode(vsp, M_HPVT);
else if(vsp->vt_pure_mode == M_HPVT)
set_emulation_mode(vsp, M_PUREVT);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 12
*---------------------------------------------------------------------------*/
static void
cfkey12(void)
{
}
#else /* !PCVT_VT220KEYB, HP-like Keyboard layout */
/*---------------------------------------------------------------------------*
* function bound to function key 1
*---------------------------------------------------------------------------*/
static void
fkey1(void)
{
if(!meta_down)
{
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
toggl_columns(vsp);
else
more_chars = (u_char *)"\033[17~"; /* F6 */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[26~"; /* F14 */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 2
*---------------------------------------------------------------------------*/
static void
fkey2(void)
{
if(!meta_down)
{
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
vt_ris(vsp);
else
more_chars = (u_char *)"\033[18~"; /* F7 */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[28~"; /* HELP */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 3
*---------------------------------------------------------------------------*/
static void
fkey3(void)
{
if(!meta_down)
{
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
toggl_24l(vsp);
else
more_chars = (u_char *)"\033[19~"; /* F8 */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[29~"; /* DO */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 4
*---------------------------------------------------------------------------*/
static void
fkey4(void)
{
if(!meta_down)
{
#if PCVT_SHOWKEYS
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
toggl_kbddbg(vsp);
else
more_chars = (u_char *)"\033[20~"; /* F9 */
#else
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[20~"; /* F9 */
#endif /* PCVT_SHOWKEYS */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[31~"; /* F17 */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 5
*---------------------------------------------------------------------------*/
static void
fkey5(void)
{
if(!meta_down)
{
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
toggl_bell(vsp);
else
more_chars = (u_char *)"\033[21~"; /* F10 */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[32~"; /* F18 */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 6
*---------------------------------------------------------------------------*/
static void
fkey6(void)
{
if(!meta_down)
{
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
toggl_sevenbit(vsp);
else
more_chars = (u_char *)"\033[23~"; /* F11 */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[33~"; /* F19 */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 7
*---------------------------------------------------------------------------*/
static void
fkey7(void)
{
if(!meta_down)
{
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
toggl_dspf(vsp);
else
more_chars = (u_char *)"\033[24~"; /* F12 */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[34~"; /* F20 */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 8
*---------------------------------------------------------------------------*/
static void
fkey8(void)
{
if(!meta_down)
{
if((vsp->vt_pure_mode == M_HPVT)
&& (vsp->which_fkl == SYS_FKL))
toggl_awm(vsp);
else
more_chars = (u_char *)"\033[25~"; /* F13 */
}
else
{
if(vsp->vt_pure_mode == M_PUREVT
|| (vsp->which_fkl == USR_FKL))
more_chars = (u_char *)"\033[35~"; /* F21 ??!! */
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 9
*---------------------------------------------------------------------------*/
static void
fkey9(void)
{
if(meta_down)
{
if(vsp->vt_pure_mode == M_PUREVT)
return;
if(vsp->labels_on) /* toggle label display on/off */
fkl_off(vsp);
else
fkl_on(vsp);
}
else
{
do_vgapage(0);
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 10
*---------------------------------------------------------------------------*/
static void
fkey10(void)
{
if(meta_down)
{
if(vsp->vt_pure_mode != M_PUREVT && vsp->labels_on)
{
if(vsp->which_fkl == USR_FKL)
sw_sfkl(vsp);
else if(vsp->which_fkl == SYS_FKL)
sw_ufkl(vsp);
}
}
else
{
do_vgapage(1);
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 11
*---------------------------------------------------------------------------*/
static void
fkey11(void)
{
if(meta_down)
{
if(vsp->vt_pure_mode == M_PUREVT)
set_emulation_mode(vsp, M_HPVT);
else if(vsp->vt_pure_mode == M_HPVT)
set_emulation_mode(vsp, M_PUREVT);
}
else
{
do_vgapage(2);
}
}
/*---------------------------------------------------------------------------*
* function bound to function key 12
*---------------------------------------------------------------------------*/
static void
fkey12(void)
{
if(meta_down)
{
if(current_video_screen + 1 > totalscreens-1)
do_vgapage(0);
else
do_vgapage(current_video_screen + 1);
}
else
{
do_vgapage(3);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 1
*---------------------------------------------------------------------------*/
static void
sfkey1(void)
{
if(!meta_down)
{
if(vsp->ukt.length[0]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[0]]);
}
else
{
if(vsp->ukt.length[9]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[9]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 2
*---------------------------------------------------------------------------*/
static void
sfkey2(void)
{
if(!meta_down)
{
if(vsp->ukt.length[1]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[1]]);
}
else
{
if(vsp->ukt.length[11]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[11]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 3
*---------------------------------------------------------------------------*/
static void
sfkey3(void)
{
if(!meta_down)
{
if(vsp->ukt.length[2]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[2]]);
}
else
{
if(vsp->ukt.length[12]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[12]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 4
*---------------------------------------------------------------------------*/
static void
sfkey4(void)
{
if(!meta_down)
{
if(vsp->ukt.length[3]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[3]]);
}
else
{
if(vsp->ukt.length[13]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[13]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 5
*---------------------------------------------------------------------------*/
static void
sfkey5(void)
{
if(!meta_down)
{
if(vsp->ukt.length[4]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[4]]);
}
else
{
if(vsp->ukt.length[14]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[14]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 6
*---------------------------------------------------------------------------*/
static void
sfkey6(void)
{
if(!meta_down)
{
if(vsp->ukt.length[6]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[6]]);
}
else
{
if(vsp->ukt.length[15]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[15]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 7
*---------------------------------------------------------------------------*/
static void
sfkey7(void)
{
if(!meta_down)
{
if(vsp->ukt.length[7]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[7]]);
}
else
{
if(vsp->ukt.length[16]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[16]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 8
*---------------------------------------------------------------------------*/
static void
sfkey8(void)
{
if(!meta_down)
{
if(vsp->ukt.length[8]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[8]]);
}
else
{
if(vsp->ukt.length[17]) /* entry available ? */
more_chars = (u_char *)
&(vsp->udkbuf[vsp->ukt.first[17]]);
}
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 9
*---------------------------------------------------------------------------*/
static void
sfkey9(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 10
*---------------------------------------------------------------------------*/
static void
sfkey10(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 11
*---------------------------------------------------------------------------*/
static void
sfkey11(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to SHIFTED function key 12
*---------------------------------------------------------------------------*/
static void
sfkey12(void)
{
}
/*---------------------------------------------------------------------------*
* function bound to control function key 1
*---------------------------------------------------------------------------*/
static void
cfkey1(void)
{
if(meta_down)
do_vgapage(0);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 2
*---------------------------------------------------------------------------*/
static void
cfkey2(void)
{
if(meta_down)
do_vgapage(1);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 3
*---------------------------------------------------------------------------*/
static void
cfkey3(void)
{
if(meta_down)
do_vgapage(2);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 4
*---------------------------------------------------------------------------*/
static void
cfkey4(void)
{
if(meta_down)
do_vgapage(3);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 5
*---------------------------------------------------------------------------*/
static void
cfkey5(void)
{
if(meta_down)
do_vgapage(4);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 6
*---------------------------------------------------------------------------*/
static void
cfkey6(void)
{
if(meta_down)
do_vgapage(5);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 7
*---------------------------------------------------------------------------*/
static void
cfkey7(void)
{
if(meta_down)
do_vgapage(6);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 8
*---------------------------------------------------------------------------*/
static void
cfkey8(void)
{
if(meta_down)
do_vgapage(7);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 9
*---------------------------------------------------------------------------*/
static void
cfkey9(void)
{
if(meta_down)
do_vgapage(8);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 10
*---------------------------------------------------------------------------*/
static void
cfkey10(void)
{
if(meta_down)
do_vgapage(9);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 11
*---------------------------------------------------------------------------*/
static void
cfkey11(void)
{
if(meta_down)
do_vgapage(10);
}
/*---------------------------------------------------------------------------*
* function bound to control function key 12
*---------------------------------------------------------------------------*/
static void
cfkey12(void)
{
if(meta_down)
do_vgapage(11);
}
#endif /* PCVT_VT220KEYB */
/* ------------------------------- EOF -------------------------------------*/