minix/drivers/tty/keyboard.c

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/* Keyboard driver for PC's and AT's.
*
* Changes:
* Jul 13, 2004 processes can observe function keys (Jorrit N. Herder)
* Jun 15, 2004 removed wreboot(), except panic dumps (Jorrit N. Herder)
* Feb 04, 1994 loadable keymaps (Marcus Hampel)
*/
#include <minix/drivers.h>
#include <sys/ioctl.h>
#include <sys/kbdio.h>
#include <sys/time.h>
#include <sys/select.h>
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#include <termios.h>
#include <signal.h>
#include <unistd.h>
#include <machine/archtypes.h>
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#include <minix/callnr.h>
#include <minix/com.h>
#include <minix/input.h>
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#include <minix/keymap.h>
#include "tty.h"
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#include "kernel/const.h"
#include "kernel/config.h"
#include "kernel/type.h"
#include "kernel/proc.h"
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static u16_t keymap[NR_SCAN_CODES * MAP_COLS] = {
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#include "keymaps/us-std.src"
};
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static u16_t keymap_escaped[NR_SCAN_CODES * MAP_COLS] = {
#include "keymaps/us-std-esc.src"
};
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static int irq_hook_id = -1;
static int aux_irq_hook_id = -1;
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/* Standard and AT keyboard. (PS/2 MCA implies AT throughout.) */
#define KEYBD 0x60 /* I/O port for keyboard data */
/* AT keyboard. */
#define KB_COMMAND 0x64 /* I/O port for commands on AT */
#define KB_STATUS 0x64 /* I/O port for status on AT */
#define KB_ACK 0xFA /* keyboard ack response */
#define KB_AUX_BYTE 0x20 /* Auxiliary Device Output Buffer Full */
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#define KB_OUT_FULL 0x01 /* status bit set when keypress char pending */
#define KB_IN_FULL 0x02 /* status bit set when not ready to receive */
#define KBC_RD_RAM_CCB 0x20 /* Read controller command byte */
#define KBC_WR_RAM_CCB 0x60 /* Write controller command byte */
#define KBC_DI_AUX 0xA7 /* Disable Auxiliary Device */
#define KBC_EN_AUX 0xA8 /* Enable Auxiliary Device */
#define KBC_DI_KBD 0xAD /* Disable Keybard Interface */
#define KBC_EN_KBD 0xAE /* Enable Keybard Interface */
#define KBC_WRITE_AUX 0xD4 /* Write to Auxiliary Device */
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#define LED_CODE 0xED /* command to keyboard to set LEDs */
#define MAX_KB_ACK_RETRIES 0x1000 /* max #times to wait for kb ack */
#define MAX_KB_BUSY_RETRIES 0x1000 /* max #times to loop while kb busy */
#define KBIT 0x80 /* bit used to ack characters to keyboard */
#define KBC_IN_DELAY 7 /* wait 7 microseconds when polling */
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/* Miscellaneous. */
#define ESC_SCAN 0x01 /* reboot key when panicking */
#define SLASH_SCAN 0x35 /* to recognize numeric slash */
#define RSHIFT_SCAN 0x36 /* to distinguish left and right shift */
#define HOME_SCAN 0x47 /* first key on the numeric keypad */
#define INS_SCAN 0x52 /* INS for use in CTRL-ALT-INS reboot */
#define DEL_SCAN 0x53 /* DEL for use in CTRL-ALT-DEL reboot */
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#define KBD_BUFSZ 1024 /* Buffer size for raw scan codes */
#define KBD_OUT_BUFSZ 16 /* Output buffer to sending data to the
* keyboard.
*/
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#define CONSOLE 0 /* line number for console */
#define KB_IN_BYTES 32 /* size of keyboard input buffer */
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static char injbuf[KB_IN_BYTES];
static char *injhead = injbuf;
static char *injtail = injbuf;
static int injcount;
static char ibuf[KB_IN_BYTES]; /* input buffer */
static char *ihead = ibuf; /* next free spot in input buffer */
static char *itail = ibuf; /* scan code to return to TTY */
static int icount; /* # codes in buffer */
static int esc; /* escape scan code detected? */
static int alt_l; /* left alt key state */
static int alt_r; /* right alt key state */
static int alt; /* either alt key */
static int ctrl_l; /* left control key state */
static int ctrl_r; /* right control key state */
static int ctrl; /* either control key */
static int shift_l; /* left shift key state */
static int shift_r; /* right shift key state */
static int shift; /* either shift key */
static int num_down; /* num lock key depressed */
static int caps_down; /* caps lock key depressed */
static int scroll_down; /* scroll lock key depressed */
static int alt_down; /* alt key depressed */
static int locks[NR_CONS]; /* per console lock keys state */
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/* Lock key active bits. Chosen to be equal to the keyboard LED bits. */
#define SCROLL_LOCK 0x01
#define NUM_LOCK 0x02
#define CAPS_LOCK 0x04
#define ALT_LOCK 0x08
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static char numpad_map[12] =
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{'H', 'Y', 'A', 'B', 'D', 'C', 'V', 'U', 'G', 'S', 'T', '@'};
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static char *fkey_map[12] =
{"11", "12", "13", "14", "15", "17", /* F1-F6 */
"18", "19", "20", "21", "23", "24"}; /* F7-F12 */
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/* Variables and definition for observed function keys. */
typedef struct observer { int proc_nr; int events; } obs_t;
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static obs_t fkey_obs[12]; /* observers for F1-F12 */
static obs_t sfkey_obs[12]; /* observers for SHIFT F1-F12 */
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static struct kbd
{
int minor;
int nr_open;
char buf[KBD_BUFSZ];
int offset;
int avail;
int req_size;
int req_proc;
cp_grant_id_t req_grant;
vir_bytes req_addr_offset;
int incaller;
int select_ops;
int select_proc;
} kbd, kbdaux;
/* Data that is to be sent to the keyboard. Each byte is ACKed by the
* keyboard.
*/
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static struct kbd_outack
{
unsigned char buf[KBD_OUT_BUFSZ];
int offset;
int avail;
int expect_ack;
} kbdout;
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static int kbd_watchdog_set= 0;
static int kbd_alive= 1;
static long sticky_alt_mode = 0;
static long debug_fkeys = 1;
static timer_t tmr_kbd_wd;
static void handle_req(struct kbd *kbdp, message *m);
static int handle_status(struct kbd *kbdp, message *m);
static void kbc_cmd0(int cmd);
static void kbc_cmd1(int cmd, int data);
static int kbc_read(void);
static void kbd_send(void);
static int kb_ack(void);
static int kb_wait(void);
static int func_key(int scode);
static int scan_keyboard(unsigned char *bp, int *isauxp);
static unsigned make_break(int scode);
static void set_leds(void);
static void show_key_mappings(void);
static int kb_read(struct tty *tp, int try);
static unsigned map_key(int scode);
static void kbd_watchdog(timer_t *tmrp);
int micro_delay(u32_t usecs)
{
/* TTY can't use the library micro_delay() as that calls PM. */
tickdelay(micros_to_ticks(usecs));
return OK;
}
/*===========================================================================*
* do_kbd *
*===========================================================================*/
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void do_kbd(message *m)
{
handle_req(&kbd, m);
}
/*===========================================================================*
* kbd_status *
*===========================================================================*/
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int kbd_status(message *m)
{
int r;
r= handle_status(&kbd, m);
if (r)
return r;
return handle_status(&kbdaux, m);
}
/*===========================================================================*
* do_kbdaux *
*===========================================================================*/
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void do_kbdaux(message *m)
{
handle_req(&kbdaux, m);
}
/*===========================================================================*
* handle_req *
*===========================================================================*/
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static void handle_req(kbdp, m)
struct kbd *kbdp;
message *m;
{
int i, n, r, ops, watch;
unsigned char c;
/* Execute the requested device driver function. */
r= EINVAL; /* just in case */
switch (m->m_type) {
case DEV_OPEN:
kbdp->nr_open++;
r= OK;
break;
case DEV_CLOSE:
kbdp->nr_open--;
if (kbdp->nr_open < 0)
{
printf("TTY(kbd): open count is negative\n");
kbdp->nr_open= 0;
}
if (kbdp->nr_open == 0)
kbdp->avail= 0;
r= OK;
break;
case DEV_READ_S:
if (kbdp->req_size)
{
/* We handle only request at a time */
r= EIO;
break;
}
if (kbdp->avail == 0)
{
/* Should record proc */
kbdp->req_size= m->COUNT;
kbdp->req_proc= m->USER_ENDPT;
kbdp->req_grant= (cp_grant_id_t) m->IO_GRANT;
kbdp->req_addr_offset= 0;
kbdp->incaller= m->m_source;
r= SUSPEND;
break;
}
/* Handle read request */
n= kbdp->avail;
if (n > m->COUNT)
n= m->COUNT;
if (kbdp->offset + n > KBD_BUFSZ)
n= KBD_BUFSZ-kbdp->offset;
if (n <= 0)
panic("do_kbd(READ): bad n: %d", n);
r= sys_safecopyto(m->m_source, (cp_grant_id_t) m->IO_GRANT, 0,
(vir_bytes) &kbdp->buf[kbdp->offset], n, D);
if (r == OK)
{
kbdp->offset= (kbdp->offset+n) % KBD_BUFSZ;
kbdp->avail -= n;
r= n;
} else {
printf("copy in read kbd failed: %d\n", r);
}
break;
case DEV_WRITE_S:
if (kbdp != &kbdaux)
{
printf("write to keyboard not implemented\n");
r= EINVAL;
break;
}
/* Assume that output to AUX only happens during
* initialization and we can afford to lose input. This should
* be fixed at a later time.
*/
for (i= 0; i<m->COUNT; i++)
{
r= sys_safecopyfrom(m->m_source, (cp_grant_id_t)
m->IO_GRANT, i, (vir_bytes) &c, 1, D);
if (r != OK)
break;
kbc_cmd1(KBC_WRITE_AUX, c);
}
r= i;
break;
case CANCEL:
kbdp->req_size= 0;
r= OK;
break;
case DEV_SELECT:
ops = m->USER_ENDPT & (SEL_RD|SEL_WR|SEL_ERR);
watch = (m->USER_ENDPT & SEL_NOTIFY) ? 1 : 0;
r= 0;
if (kbdp->avail && (ops & SEL_RD))
{
r |= SEL_RD;
break;
}
if (ops && watch)
{
kbdp->select_ops |= ops;
kbdp->select_proc= m->m_source;
}
break;
case DEV_IOCTL_S:
if (kbdp == &kbd && m->TTY_REQUEST == KIOCSLEDS)
{
kio_leds_t leds;
unsigned char b;
r= sys_safecopyfrom(m->m_source, (cp_grant_id_t)
m->IO_GRANT, 0, (vir_bytes) &leds,
sizeof(leds), D);
if (r != OK)
break;
b= 0;
if (leds.kl_bits & KBD_LEDS_NUM) b |= NUM_LOCK;
if (leds.kl_bits & KBD_LEDS_CAPS) b |= CAPS_LOCK;
if (leds.kl_bits & KBD_LEDS_SCROLL) b |= SCROLL_LOCK;
if (kbdout.avail == 0)
kbdout.offset= 0;
if (kbdout.offset + kbdout.avail + 2 > KBD_OUT_BUFSZ)
{
/* Output buffer is full. Ignore this command.
* Reset ACK flag.
*/
kbdout.expect_ack= 0;
}
else
{
kbdout.buf[kbdout.offset+kbdout.avail]=
LED_CODE;
kbdout.buf[kbdout.offset+kbdout.avail+1]= b;
kbdout.avail += 2;
}
if (!kbdout.expect_ack)
kbd_send();
r= OK;
break;
}
if (kbdp == &kbd && m->TTY_REQUEST == KIOCBELL)
{
kio_bell_t bell;
clock_t ticks;
r = sys_safecopyfrom(m->m_source, (cp_grant_id_t)
m->IO_GRANT, 0, (vir_bytes) &bell,
sizeof(bell), D);
if (r != OK)
break;
ticks= bell.kb_duration.tv_usec * system_hz / 1000000;
ticks += bell.kb_duration.tv_sec * system_hz;
if (!ticks)
ticks++;
beep_x(bell.kb_pitch, ticks);
r= OK;
break;
}
r= ENOTTY;
break;
default:
printf("Warning, TTY(kbd) got unexpected request %d from %d\n",
m->m_type, m->m_source);
r= EINVAL;
}
tty_reply(TASK_REPLY, m->m_source, m->USER_ENDPT, r);
}
/*===========================================================================*
* handle_status *
*===========================================================================*/
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static int handle_status(kbdp, m)
struct kbd *kbdp;
message *m;
{
int n, r;
if (kbdp->avail && kbdp->req_size && m->m_source == kbdp->incaller &&
kbdp->req_grant != GRANT_INVALID)
{
/* Handle read request */
n= kbdp->avail;
if (n > kbdp->req_size)
n= kbdp->req_size;
if (kbdp->offset + n > KBD_BUFSZ)
n= KBD_BUFSZ-kbdp->offset;
if (n <= 0)
panic("kbd_status: bad n: %d", n);
kbdp->req_size= 0;
r= sys_safecopyto(kbdp->incaller, kbdp->req_grant, 0,
(vir_bytes)&kbdp->buf[kbdp->offset], n, D);
if (r == OK)
{
kbdp->offset= (kbdp->offset+n) % KBD_BUFSZ;
kbdp->avail -= n;
r= n;
} else printf("copy in revive kbd failed: %d\n", r);
m->m_type = DEV_REVIVE;
m->REP_ENDPT= kbdp->req_proc;
m->REP_IO_GRANT= kbdp->req_grant;
m->REP_STATUS= r;
kbdp->req_grant = GRANT_INVALID;
return 1;
}
if (kbdp->avail && (kbdp->select_ops & SEL_RD) &&
m->m_source == kbdp->select_proc)
{
m->m_type = DEV_IO_READY;
m->DEV_MINOR = kbdp->minor;
m->DEV_SEL_OPS = SEL_RD;
kbdp->select_ops &= ~SEL_RD;
return 1;
}
return 0;
}
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/*===========================================================================*
* map_key *
*===========================================================================*/
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static unsigned map_key(scode)
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int scode;
{
/* Map a scan code to an ASCII code. */
int caps, column, lk;
u16_t *keyrow;
if(esc)
keyrow = &keymap_escaped[scode * MAP_COLS];
else
keyrow = &keymap[scode * MAP_COLS];
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caps = shift;
lk = locks[ccurrent];
if ((lk & NUM_LOCK) && HOME_SCAN <= scode && scode <= DEL_SCAN) caps = !caps;
if ((lk & CAPS_LOCK) && (keyrow[0] & HASCAPS)) caps = !caps;
if (alt) {
column = 2;
if (ctrl || alt_r) column = 3; /* Ctrl + Alt == AltGr */
if (caps) column = 4;
} else {
if (sticky_alt_mode && (lk & ALT_LOCK)) {
column = 2;
if (caps) column = 4;
} else {
column = 0;
if (caps) column = 1;
if (ctrl) column = 5;
}
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}
return keyrow[column] & ~HASCAPS;
}
/*===========================================================================*
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* kbd_interrupt *
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*===========================================================================*/
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void kbd_interrupt(message *UNUSED(m_ptr))
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{
/* A keyboard interrupt has occurred. Process it. */
int o, isaux;
unsigned char scode;
struct kbd *kbdp;
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/* Fetch the character from the keyboard hardware and acknowledge it. */
if (!scan_keyboard(&scode, &isaux))
return;
if (isaux)
kbdp= &kbdaux;
else if (kbd.nr_open)
kbdp= &kbd;
else
kbdp= NULL;
if (kbdp)
{
/* raw scan codes or aux data */
if (kbdp->avail >= KBD_BUFSZ)
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{
#if 0
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printf("kbd_interrupt: %s buffer is full\n",
isaux ? "kbdaux" : "keyboard");
#endif
return; /* Buffer is full */
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}
o= (kbdp->offset + kbdp->avail) % KBD_BUFSZ;
kbdp->buf[o]= scode;
kbdp->avail++;
if (kbdp->req_size) {
notify(kbdp->incaller);
}
if (kbdp->select_ops & SEL_RD)
notify(kbdp->select_proc);
return;
}
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/* Store the scancode in memory so the task can get at it later. */
if (icount < KB_IN_BYTES) {
*ihead++ = scode;
if (ihead == ibuf + KB_IN_BYTES) ihead = ibuf;
icount++;
tty_table[ccurrent].tty_events = 1;
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if (tty_table[ccurrent].tty_select_ops & SEL_RD) {
select_retry(&tty_table[ccurrent]);
}
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}
}
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void do_kb_inject(message *msg)
{
unsigned char scode;
/* only handle keyboard events */
if (msg->INPUT_TYPE == INPUT_EV_KEY) {
scode = msg->INPUT_CODE;
/* is it a KEY RELEASE? */
if (msg->INPUT_VALUE == 0) {
scode |= KEY_RELEASE;
}
if (injcount < KB_IN_BYTES) {
*injhead++ = scode;
if (injhead == injbuf + KB_IN_BYTES) injhead = injbuf;
injcount++;
tty_table[ccurrent].tty_events = 1;
if (tty_table[ccurrent].tty_select_ops & SEL_RD) {
select_retry(&tty_table[ccurrent]);
}
}
}
}
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/*===========================================================================*
* kb_read *
*===========================================================================*/
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static int kb_read(tp, try)
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tty_t *tp;
int try;
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{
/* Process characters from the circular keyboard buffer. */
char buf[7], *p, suffix;
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int scode;
unsigned ch;
/* always use the current console */
tp = &tty_table[ccurrent];
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if (try) {
if (icount > 0) return 1;
return 0;
}
while (icount > 0 || injcount > 0) {
if (injcount > 0) {
/* take one key scan code */
scode = *injtail++;
if (injtail == injbuf + KB_IN_BYTES) injtail = injbuf;
injcount--;
} else {
/* take one key scan code */
scode = *itail++;
if (itail == ibuf + KB_IN_BYTES) itail = ibuf;
icount--;
}
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/* Function keys are being used for debug dumps (if enabled). */
if (debug_fkeys && func_key(scode)) continue;
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/* Perform make/break processing. */
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ch = make_break(scode);
if (ch <= 0xFF) {
/* A normal character. */
buf[0] = ch;
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(void) in_process(tp, buf, 1, scode);
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} else
if (HOME <= ch && ch <= INSRT) {
/* An ASCII escape sequence generated by the numeric pad. */
buf[0] = ESC;
buf[1] = '[';
buf[2] = numpad_map[ch - HOME];
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(void) in_process(tp, buf, 3, scode);
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} else
if ((F1 <= ch && ch <= F12) || (SF1 <= ch && ch <= SF12) ||
(CF1 <= ch && ch <= CF12 && !debug_fkeys)) {
/* An escape sequence generated by function keys. */
if (F1 <= ch && ch <= F12) {
ch -= F1;
suffix = 0;
} else
if (SF1 <= ch && ch <= SF12) {
ch -= SF1;
suffix = '2';
} else
/* (CF1 <= ch && ch <= CF12) */ {
ch -= CF1;
suffix = shift ? '6' : '5';
}
/* ^[[11~ for F1, ^[[24;5~ for CF12 etc */
buf[0] = ESC;
buf[1] = '[';
buf[2] = fkey_map[ch][0];
buf[3] = fkey_map[ch][1];
p = &buf[4];
if (suffix) {
*p++ = ';';
*p++ = suffix;
}
*p++ = '~';
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(void) in_process(tp, buf, p - buf, scode);
} else
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if (ch == ALEFT) {
/* Choose lower numbered console as current console. */
select_console(ccurrent - 1);
set_leds();
} else
if (ch == ARIGHT) {
/* Choose higher numbered console as current console. */
select_console(ccurrent + 1);
set_leds();
} else
if (AF1 <= ch && ch <= AF12) {
/* Alt-F1 is console, Alt-F2 is ttyc1, etc. */
select_console(ch - AF1);
set_leds();
} else
if (CF1 <= ch && ch <= CF12) {
switch(ch) {
case CF1: show_key_mappings(); break;
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case CF3: toggle_scroll(); break; /* hardware <-> software */
case CF7: sigchar(&tty_table[CONSOLE], SIGQUIT, 1); break;
case CF8: sigchar(&tty_table[CONSOLE], SIGINT, 1); break;
case CF9: sigchar(&tty_table[CONSOLE], SIGKILL, 1); break;
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}
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} else {
/* pass on scancode even though there is no character code */
(void) in_process(tp, NULL, 0, scode);
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}
}
return 1;
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}
/*===========================================================================*
* kbd_send *
*===========================================================================*/
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static void kbd_send()
{
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u32_t sb;
int r;
if (!kbdout.avail)
return;
if (kbdout.expect_ack)
return;
if((r=sys_inb(KB_STATUS, &sb)) != OK) {
printf("kbd_send: 1 sys_inb() failed: %d\n", r);
}
if (sb & (KB_OUT_FULL|KB_IN_FULL))
{
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printf("not sending 1: sb = 0x%x\n", sb);
return;
}
micro_delay(KBC_IN_DELAY);
if((r=sys_inb(KB_STATUS, &sb)) != OK) {
printf("kbd_send: 2 sys_inb() failed: %d\n", r);
}
if (sb & (KB_OUT_FULL|KB_IN_FULL))
{
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printf("not sending 2: sb = 0x%x\n", sb);
return;
}
/* Okay, buffer is really empty */
#if 0
printf("sending byte 0x%x to keyboard\n", kbdout.buf[kbdout.offset]);
#endif
if((r=sys_outb(KEYBD, kbdout.buf[kbdout.offset])) != OK) {
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printf("kbd_send: 3 sys_outb() failed: %d\n", r);
}
kbdout.offset++;
kbdout.avail--;
kbdout.expect_ack= 1;
kbd_alive= 1;
if (kbd_watchdog_set)
{
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/* Set a watchdog timer for one second. */
set_timer(&tmr_kbd_wd, system_hz, kbd_watchdog, 0);
kbd_watchdog_set= 1;
}
}
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/*===========================================================================*
* make_break *
*===========================================================================*/
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static unsigned make_break(scode)
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int scode; /* scan code of key just struck or released */
{
/* This routine can handle keyboards that interrupt only on key depression,
* as well as keyboards that interrupt on key depression and key release.
* For efficiency, the interrupt routine filters out most key releases.
*/
int ch, make, escape;
static int CAD_count = 0;
static int rebooting = 0;
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/* Check for CTRL-ALT-DEL, and if found, halt the computer. This would
* be better done in keyboard() in case TTY is hung, except control and
* alt are set in the high level code.
*/
if (ctrl && alt && (scode == DEL_SCAN || scode == INS_SCAN))
{
if (++CAD_count == 3) {
cons_stop();
sys_abort(RBT_DEFAULT);
}
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sys_kill(INIT_PROC_NR, SIGABRT);
rebooting = 1;
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}
if(rebooting)
return -1;
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/* High-order bit set on key release. */
make = (scode & KEY_RELEASE) == 0; /* true if pressed */
ch = map_key(scode &= ASCII_MASK); /* map to ASCII */
escape = esc; /* Key is escaped? (true if added since the XT) */
esc = 0;
switch (ch) {
case CTRL: /* Left or right control key */
*(escape ? &ctrl_r : &ctrl_l) = make;
ctrl = ctrl_l | ctrl_r;
break;
case SHIFT: /* Left or right shift key */
*(scode == RSHIFT_SCAN ? &shift_r : &shift_l) = make;
shift = shift_l | shift_r;
break;
case ALT: /* Left or right alt key */
*(escape ? &alt_r : &alt_l) = make;
alt = alt_l | alt_r;
if (sticky_alt_mode && (alt_r && (alt_down < make))) {
locks[ccurrent] ^= ALT_LOCK;
}
alt_down = make;
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break;
case CALOCK: /* Caps lock - toggle on 0 -> 1 transition */
if (caps_down < make) {
locks[ccurrent] ^= CAPS_LOCK;
set_leds();
}
caps_down = make;
break;
case NLOCK: /* Num lock */
if (num_down < make) {
locks[ccurrent] ^= NUM_LOCK;
set_leds();
}
num_down = make;
break;
case SLOCK: /* Scroll lock */
if (scroll_down < make) {
locks[ccurrent] ^= SCROLL_LOCK;
set_leds();
}
scroll_down = make;
break;
case EXTKEY: /* Escape keycode */
esc = 1; /* Next key is escaped */
return(-1);
default: /* A normal key */
if(!make)
return -1;
if(ch)
return ch;
{
static char seen[2][NR_SCAN_CODES];
int notseen = 0, ei;
ei = escape ? 1 : 0;
if(scode >= 0 && scode < NR_SCAN_CODES) {
notseen = !seen[ei][scode];
seen[ei][scode] = 1;
} else {
printf("tty: scode %d makes no sense\n", scode);
}
if(notseen) {
printf("tty: ignoring unrecognized %s "
"scancode 0x%x\n",
escape ? "escaped" : "straight", scode);
}
}
return -1;
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}
/* Key release, or a shift type key. */
return(-1);
}
/*===========================================================================*
* set_leds *
*===========================================================================*/
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static void set_leds()
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{
/* Set the LEDs on the caps, num, and scroll lock keys */
int s;
kb_wait(); /* wait for buffer empty */
if ((s=sys_outb(KEYBD, LED_CODE)) != OK)
printf("Warning, sys_outb couldn't prepare for LED values: %d\n", s);
/* prepare keyboard to accept LED values */
kb_ack(); /* wait for ack response */
kb_wait(); /* wait for buffer empty */
if ((s=sys_outb(KEYBD, locks[ccurrent])) != OK)
printf("Warning, sys_outb couldn't give LED values: %d\n", s);
/* give keyboard LED values */
kb_ack(); /* wait for ack response */
}
/*===========================================================================*
* kbc_cmd0 *
*===========================================================================*/
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static void kbc_cmd0(cmd)
int cmd;
{
kb_wait();
if(sys_outb(KB_COMMAND, cmd) != OK)
printf("kbc_cmd0: sys_outb failed\n");
}
/*===========================================================================*
* kbc_cmd1 *
*===========================================================================*/
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static void kbc_cmd1(cmd, data)
int cmd;
int data;
{
kb_wait();
if(sys_outb(KB_COMMAND, cmd) != OK)
printf("kbc_cmd1: 1 sys_outb failed\n");
kb_wait();
if(sys_outb(KEYBD, data) != OK)
printf("kbc_cmd1: 2 sys_outb failed\n");
}
/*===========================================================================*
* kbc_read *
*===========================================================================*/
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static int kbc_read()
{
int i;
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u32_t byte, st;
#if 0
struct micro_state ms;
#endif
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#if DEBUG
printf("in kbc_read\n");
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#endif
/* Wait at most 1 second for a byte from the keyboard or
* the kbd controller, return -1 on a timeout.
*/
for (i= 0; i<1000000; i++)
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#if 0
micro_start(&ms);
do
#endif
{
if(sys_inb(KB_STATUS, &st) != OK)
printf("kbc_read: 1 sys_inb failed\n");
if (st & KB_OUT_FULL)
{
micro_delay(KBC_IN_DELAY);
if(sys_inb(KEYBD, &byte) != OK)
printf("kbc_read: 2 sys_inb failed\n");
if (st & KB_AUX_BYTE)
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printf("kbc_read: aux byte 0x%x\n", byte);
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#if DEBUG
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printf("keyboard`kbc_read: returning byte 0x%x\n",
byte);
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#endif
return byte;
}
}
#if 0
while (micro_elapsed(&ms) < 1000000);
#endif
panic("kbc_read failed to complete");
return EINVAL;
}
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/*===========================================================================*
* kb_wait *
*===========================================================================*/
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static int kb_wait()
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{
/* Wait until the controller is ready; return zero if this times out. */
int retries;
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u32_t status;
int s, isaux;
unsigned char byte;
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retries = MAX_KB_BUSY_RETRIES + 1; /* wait until not busy */
do {
s = sys_inb(KB_STATUS, &status);
if(s != OK)
printf("kb_wait: sys_inb failed: %d\n", s);
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if (status & KB_OUT_FULL) {
if (scan_keyboard(&byte, &isaux))
{
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#if 0
printf("ignoring %sbyte in kb_wait\n", isaux ? "AUX " : "");
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#endif
}
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}
if (! (status & (KB_IN_FULL|KB_OUT_FULL)) )
break; /* wait until ready */
} while (--retries != 0); /* continue unless timeout */
return(retries); /* zero on timeout, positive if ready */
}
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/*===========================================================================*
* kb_ack *
*===========================================================================*/
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static int kb_ack()
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{
/* Wait until kbd acknowledges last command; return zero if this times out. */
int retries, s;
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u32_t u8val;
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retries = MAX_KB_ACK_RETRIES + 1;
do {
s = sys_inb(KEYBD, &u8val);
if(s != OK)
printf("kb_ack: sys_inb failed: %d\n", s);
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if (u8val == KB_ACK)
break; /* wait for ack */
} while(--retries != 0); /* continue unless timeout */
return(retries); /* nonzero if ack received */
}
/*===========================================================================*
* kb_init *
*===========================================================================*/
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void kb_init(tp)
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tty_t *tp;
{
/* Initialize the keyboard driver. */
tp->tty_devread = kb_read; /* input function */
}
/*===========================================================================*
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* kb_init_once *
*===========================================================================*/
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void kb_init_once(void)
{
int i;
u8_t ccb;
env_parse("sticky_alt", "d", 0, &sticky_alt_mode, 0, 1);
env_parse("debug_fkeys", "d", 0, &debug_fkeys, 0, 1);
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set_leds(); /* turn off numlock led */
scan_keyboard(NULL, NULL); /* discard leftover keystroke */
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/* Clear the function key observers array. Also see func_key(). */
for (i=0; i<12; i++) {
fkey_obs[i].proc_nr = NONE; /* F1-F12 observers */
fkey_obs[i].events = 0; /* F1-F12 observers */
sfkey_obs[i].proc_nr = NONE; /* Shift F1-F12 observers */
sfkey_obs[i].events = 0; /* Shift F1-F12 observers */
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}
kbd.minor= KBD_MINOR;
kbdaux.minor= KBDAUX_MINOR;
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/* Set interrupt handler and enable keyboard IRQ. */
irq_hook_id = KEYBOARD_IRQ; /* id to be returned on interrupt */
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if ((i=sys_irqsetpolicy(KEYBOARD_IRQ, IRQ_REENABLE, &irq_hook_id)) != OK)
panic("Couldn't set keyboard IRQ policy: %d", i);
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if ((i=sys_irqenable(&irq_hook_id)) != OK)
panic("Couldn't enable keyboard IRQs: %d", i);
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kbd_irq_set |= (1 << KEYBOARD_IRQ);
/* Set AUX interrupt handler and enable AUX IRQ. */
aux_irq_hook_id = KBD_AUX_IRQ; /* id to be returned on interrupt */
if ((i=sys_irqsetpolicy(KBD_AUX_IRQ, IRQ_REENABLE,
&aux_irq_hook_id)) != OK)
panic("Couldn't set AUX IRQ policy: %d", i);
if ((i=sys_irqenable(&aux_irq_hook_id)) != OK)
panic("Couldn't enable AUX IRQs: %d", i);
kbd_irq_set |= (1 << KBD_AUX_IRQ);
/* Disable the keyboard and aux */
kbc_cmd0(KBC_DI_KBD);
kbc_cmd0(KBC_DI_AUX);
/* Get the current configuration byte */
kbc_cmd0(KBC_RD_RAM_CCB);
ccb= kbc_read();
/* Enable both interrupts. */
kbc_cmd1(KBC_WR_RAM_CCB, ccb | 3);
/* Re-enable the keyboard device. */
kbc_cmd0(KBC_EN_KBD);
/* Enable the aux device. */
kbc_cmd0(KBC_EN_AUX);
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}
/*===========================================================================*
* kbd_loadmap *
*===========================================================================*/
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int kbd_loadmap(m)
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message *m;
{
/* Load a new keymap. */
return sys_safecopyfrom(m->m_source, (cp_grant_id_t) m->IO_GRANT,
0, (vir_bytes) keymap, (vir_bytes) sizeof(keymap), D);
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}
/*===========================================================================*
* do_fkey_ctl *
*===========================================================================*/
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void do_fkey_ctl(m_ptr)
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message *m_ptr; /* pointer to the request message */
{
/* This procedure allows processes to register a function key to receive
* notifications if it is pressed. At most one binding per key can exist.
*/
int i;
int result = EINVAL;
2005-04-21 16:53:53 +02:00
switch (m_ptr->FKEY_REQUEST) { /* see what we must do */
case FKEY_MAP: /* request for new mapping */
result = OK; /* assume everything will be ok*/
for (i=0; i < 12; i++) { /* check F1-F12 keys */
if (bit_isset(m_ptr->FKEY_FKEYS, i+1) ) {
#if DEAD_CODE
/* Currently, we don't check if the slot is in use, so that IS
* can recover after a crash by overtaking its existing mappings.
* In future, a better solution will be implemented.
*/
if (fkey_obs[i].proc_nr == NONE) {
#endif
fkey_obs[i].proc_nr = m_ptr->m_source;
fkey_obs[i].events = 0;
bit_unset(m_ptr->FKEY_FKEYS, i+1);
#if DEAD_CODE
} else {
2005-09-23 22:59:45 +02:00
printf("WARNING, fkey_map failed F%d\n", i+1);
result = EBUSY; /* report failure, but try rest */
}
#endif
}
}
for (i=0; i < 12; i++) { /* check Shift+F1-F12 keys */
if (bit_isset(m_ptr->FKEY_SFKEYS, i+1) ) {
#if DEAD_CODE
if (sfkey_obs[i].proc_nr == NONE) {
#endif
sfkey_obs[i].proc_nr = m_ptr->m_source;
sfkey_obs[i].events = 0;
bit_unset(m_ptr->FKEY_SFKEYS, i+1);
#if DEAD_CODE
} else {
2005-09-23 22:59:45 +02:00
printf("WARNING, fkey_map failed Shift F%d\n", i+1);
result = EBUSY; /* report failure but try rest */
}
#endif
}
}
break;
case FKEY_UNMAP:
result = OK; /* assume everything will be ok*/
for (i=0; i < 12; i++) { /* check F1-F12 keys */
if (bit_isset(m_ptr->FKEY_FKEYS, i+1) ) {
if (fkey_obs[i].proc_nr == m_ptr->m_source) {
fkey_obs[i].proc_nr = NONE;
fkey_obs[i].events = 0;
bit_unset(m_ptr->FKEY_FKEYS, i+1);
} else {
result = EPERM; /* report failure, but try rest */
}
}
}
for (i=0; i < 12; i++) { /* check Shift+F1-F12 keys */
if (bit_isset(m_ptr->FKEY_SFKEYS, i+1) ) {
if (sfkey_obs[i].proc_nr == m_ptr->m_source) {
sfkey_obs[i].proc_nr = NONE;
sfkey_obs[i].events = 0;
bit_unset(m_ptr->FKEY_SFKEYS, i+1);
} else {
result = EPERM; /* report failure, but try rest */
}
}
}
break;
case FKEY_EVENTS:
m_ptr->FKEY_FKEYS = m_ptr->FKEY_SFKEYS = 0;
for (i=0; i < 12; i++) { /* check (Shift+) F1-F12 keys */
if (fkey_obs[i].proc_nr == m_ptr->m_source) {
if (fkey_obs[i].events) {
bit_set(m_ptr->FKEY_FKEYS, i+1);
fkey_obs[i].events = 0;
}
}
if (sfkey_obs[i].proc_nr == m_ptr->m_source) {
if (sfkey_obs[i].events) {
bit_set(m_ptr->FKEY_SFKEYS, i+1);
sfkey_obs[i].events = 0;
}
2005-04-21 16:53:53 +02:00
}
}
break;
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}
/* Almost done, return result to caller. */
m_ptr->m_type = result;
send(m_ptr->m_source, m_ptr);
}
/*===========================================================================*
* func_key *
*===========================================================================*/
2012-03-25 20:25:53 +02:00
static int func_key(scode)
2005-04-21 16:53:53 +02:00
int scode; /* scan code for a function key */
{
/* This procedure traps function keys for debugging purposes. Observers of
* function keys are kept in a global array. If a subject (a key) is pressed
* the observer is notified of the event. Initialization of the arrays is done
* in kb_init, where NONE is set to indicate there is no interest in the key.
* Returns FALSE on a key release or if the key is not observable.
*/
int key;
int proc_nr;
2005-04-21 16:53:53 +02:00
/* Ignore key releases. If this is a key press, get full key code. */
if (scode & KEY_RELEASE) return(FALSE); /* key release */
key = map_key(scode); /* include modifiers */
2005-04-21 16:53:53 +02:00
/* Key pressed, now see if there is an observer for the pressed key.
* F1-F12 observers are in fkey_obs array.
* SHIFT F1-F12 observers are in sfkey_req array.
* CTRL F1-F12 reserved (see kb_read)
* ALT F1-F12 reserved (see kb_read)
* Other combinations are not in use. Note that Alt+Shift+F1-F12 is yet
* defined in <minix/keymap.h>, and thus is easy for future extensions.
2005-04-21 16:53:53 +02:00
*/
if (F1 <= key && key <= F12) { /* F1-F12 */
proc_nr = fkey_obs[key - F1].proc_nr;
fkey_obs[key - F1].events ++ ;
} else if (SF1 <= key && key <= SF12) { /* Shift F2-F12 */
proc_nr = sfkey_obs[key - SF1].proc_nr;
sfkey_obs[key - SF1].events ++;
}
else {
return(FALSE); /* not observable */
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}
/* See if an observer is registered and send it a message. */
if (proc_nr != NONE) {
notify(proc_nr);
2005-04-21 16:53:53 +02:00
}
return(TRUE);
}
2005-09-11 19:09:11 +02:00
/*===========================================================================*
* show_key_mappings *
*===========================================================================*/
2012-03-25 20:25:53 +02:00
static void show_key_mappings()
{
int i,s;
struct proc proc;
printf("\n");
printf("System information. Known function key mappings to request debug dumps:\n");
printf("-------------------------------------------------------------------------\n");
for (i=0; i<12; i++) {
printf(" %sF%d: ", i+1<10? " ":"", i+1);
if (fkey_obs[i].proc_nr != NONE) {
if ((s = sys_getproc(&proc, fkey_obs[i].proc_nr))!=OK)
printf("%-14.14s", "<unknown>");
else
printf("%-14.14s", proc.p_name);
} else {
printf("%-14.14s", "<none>");
}
printf(" %sShift-F%d: ", i+1<10? " ":"", i+1);
if (sfkey_obs[i].proc_nr != NONE) {
if ((s = sys_getproc(&proc, sfkey_obs[i].proc_nr))!=OK)
printf("%-14.14s", "<unknown>");
else
printf("%-14.14s", proc.p_name);
} else {
printf("%-14.14s", "<none>");
}
printf("\n");
}
printf("\n");
printf("Press one of the registered function keys to trigger a debug dump.\n");
printf("\n");
}
2005-09-11 19:09:11 +02:00
/*===========================================================================*
* scan_keyboard *
*===========================================================================*/
2012-03-25 20:25:53 +02:00
static int scan_keyboard(bp, isauxp)
unsigned char *bp;
int *isauxp;
2005-04-21 16:53:53 +02:00
{
2012-03-05 00:11:41 +01:00
u32_t b, sb;
if(sys_inb(KB_STATUS, &sb) != OK)
printf("scan_keyboard: sys_inb failed\n");
if (!(sb & KB_OUT_FULL))
{
if (kbdout.avail && !kbdout.expect_ack)
kbd_send();
return 0;
}
if(sys_inb(KEYBD, &b) != OK)
printf("scan_keyboard: 2 sys_inb failed\n");
#if 0
printf("got byte 0x%x from %s\n", b, (sb & KB_AUX_BYTE) ? "AUX" : "keyboard");
#endif
if (!(sb & KB_AUX_BYTE) && b == KB_ACK && kbdout.expect_ack)
{
#if 0
printf("got ACK from keyboard\n");
#endif
kbdout.expect_ack= 0;
micro_delay(KBC_IN_DELAY);
kbd_send();
return 0;
}
if (bp)
*bp= b;
if (isauxp)
*isauxp= !!(sb & KB_AUX_BYTE);
if (kbdout.avail && !kbdout.expect_ack)
{
micro_delay(KBC_IN_DELAY);
kbd_send();
}
return 1;
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}
/*===========================================================================*
* kbd_watchdog *
*===========================================================================*/
2012-03-25 20:25:53 +02:00
static void kbd_watchdog(timer_t *UNUSED(tmrp))
{
kbd_watchdog_set= 0;
if (!kbdout.avail)
return; /* Watchdog is no longer needed */
if (!kbd_alive)
{
printf("kbd_watchdog: should reset keyboard\n");
}
kbd_alive= 0;
2010-07-09 14:58:18 +02:00
set_timer(&tmr_kbd_wd, system_hz, kbd_watchdog, 0);
kbd_watchdog_set= 1;
}