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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/mlx/@/amd64/compile/hs32/modules/usr/src/sys/modules/netgraph/bluetooth/socket/@/dev/atkbdc/atkbd.c |
/*- * Copyright (c) 1999 Kazutaka YOKOTA <yokota@zodiac.mech.utsunomiya-u.ac.jp> * All rights reserved. * * 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 as * the first lines of this file unmodified. * 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. * * 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. * */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/atkbdc/atkbd.c 224126 2011-07-17 08:19:19Z ed $"); #include "opt_compat.h" #include "opt_kbd.h" #include "opt_atkbd.h" #include <sys/param.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/bus.h> #include <sys/eventhandler.h> #include <sys/proc.h> #include <sys/limits.h> #include <sys/malloc.h> #include <machine/bus.h> #include <machine/resource.h> #if defined(__i386__) || defined(__amd64__) #include <machine/md_var.h> #include <machine/psl.h> #include <compat/x86bios/x86bios.h> #include <machine/pc/bios.h> #include <vm/vm.h> #include <vm/pmap.h> #include <vm/vm_param.h> #include <isa/isareg.h> #endif /* __i386__ || __amd64__ */ #include <sys/kbio.h> #include <dev/kbd/kbdreg.h> #include <dev/atkbdc/atkbdreg.h> #include <dev/atkbdc/atkbdcreg.h> static timeout_t atkbd_timeout; static void atkbd_shutdown_final(void *v); int atkbd_probe_unit(int unit, int ctlr, int irq, int flags) { keyboard_switch_t *sw; int args[2]; int error; sw = kbd_get_switch(ATKBD_DRIVER_NAME); if (sw == NULL) return ENXIO; args[0] = ctlr; args[1] = irq; error = (*sw->probe)(unit, args, flags); if (error) return error; return 0; } int atkbd_attach_unit(int unit, keyboard_t **kbd, int ctlr, int irq, int flags) { keyboard_switch_t *sw; int args[2]; int error; sw = kbd_get_switch(ATKBD_DRIVER_NAME); if (sw == NULL) return ENXIO; /* reset, initialize and enable the device */ args[0] = ctlr; args[1] = irq; *kbd = NULL; error = (*sw->probe)(unit, args, flags); if (error) return error; error = (*sw->init)(unit, kbd, args, flags); if (error) return error; (*sw->enable)(*kbd); #ifdef KBD_INSTALL_CDEV /* attach a virtual keyboard cdev */ error = kbd_attach(*kbd); if (error) return error; #endif /* * This is a kludge to compensate for lost keyboard interrupts. * A similar code used to be in syscons. See below. XXX */ atkbd_timeout(*kbd); if (bootverbose) (*sw->diag)(*kbd, bootverbose); EVENTHANDLER_REGISTER(shutdown_final, atkbd_shutdown_final, *kbd, SHUTDOWN_PRI_DEFAULT); return 0; } static void atkbd_timeout(void *arg) { keyboard_t *kbd; int s; /* * The original text of the following comments are extracted * from syscons.c (1.287) * * With release 2.1 of the Xaccel server, the keyboard is left * hanging pretty often. Apparently an interrupt from the * keyboard is lost, and I don't know why (yet). * This ugly hack calls the low-level interrupt routine if input * is ready for the keyboard and conveniently hides the problem. XXX * * Try removing anything stuck in the keyboard controller; whether * it's a keyboard scan code or mouse data. The low-level * interrupt routine doesn't read the mouse data directly, * but the keyboard controller driver will, as a side effect. */ /* * And here is bde's original comment about this: * * This is necessary to handle edge triggered interrupts - if we * returned when our IRQ is high due to unserviced input, then there * would be no more keyboard IRQs until the keyboard is reset by * external powers. * * The keyboard apparently unwedges the irq in most cases. */ s = spltty(); kbd = (keyboard_t *)arg; if (kbdd_lock(kbd, TRUE)) { /* * We have seen the lock flag is not set. Let's reset * the flag early, otherwise the LED update routine fails * which may want the lock during the interrupt routine. */ kbdd_lock(kbd, FALSE); if (kbdd_check_char(kbd)) kbdd_intr(kbd, NULL); } splx(s); timeout(atkbd_timeout, arg, hz/10); } /* LOW-LEVEL */ #define ATKBD_DEFAULT 0 typedef struct atkbd_state { KBDC kbdc; /* keyboard controller */ int ks_mode; /* input mode (K_XLATE,K_RAW,K_CODE) */ int ks_flags; /* flags */ #define COMPOSE (1 << 0) int ks_polling; int ks_state; /* shift/lock key state */ int ks_accents; /* accent key index (> 0) */ u_int ks_composed_char; /* composed char code (> 0) */ u_char ks_prefix; /* AT scan code prefix */ } atkbd_state_t; /* keyboard driver declaration */ static int atkbd_configure(int flags); static kbd_probe_t atkbd_probe; static kbd_init_t atkbd_init; static kbd_term_t atkbd_term; static kbd_intr_t atkbd_intr; static kbd_test_if_t atkbd_test_if; static kbd_enable_t atkbd_enable; static kbd_disable_t atkbd_disable; static kbd_read_t atkbd_read; static kbd_check_t atkbd_check; static kbd_read_char_t atkbd_read_char; static kbd_check_char_t atkbd_check_char; static kbd_ioctl_t atkbd_ioctl; static kbd_lock_t atkbd_lock; static kbd_clear_state_t atkbd_clear_state; static kbd_get_state_t atkbd_get_state; static kbd_set_state_t atkbd_set_state; static kbd_poll_mode_t atkbd_poll; static keyboard_switch_t atkbdsw = { atkbd_probe, atkbd_init, atkbd_term, atkbd_intr, atkbd_test_if, atkbd_enable, atkbd_disable, atkbd_read, atkbd_check, atkbd_read_char, atkbd_check_char, atkbd_ioctl, atkbd_lock, atkbd_clear_state, atkbd_get_state, atkbd_set_state, genkbd_get_fkeystr, atkbd_poll, genkbd_diag, }; KEYBOARD_DRIVER(atkbd, atkbdsw, atkbd_configure); /* local functions */ static int get_typematic(keyboard_t *kbd); static int setup_kbd_port(KBDC kbdc, int port, int intr); static int get_kbd_echo(KBDC kbdc); static int probe_keyboard(KBDC kbdc, int flags); static int init_keyboard(KBDC kbdc, int *type, int flags); static int write_kbd(KBDC kbdc, int command, int data); static int get_kbd_id(KBDC kbdc); static int typematic(int delay, int rate); static int typematic_delay(int delay); static int typematic_rate(int rate); /* local variables */ /* the initial key map, accent map and fkey strings */ #ifdef ATKBD_DFLT_KEYMAP #define KBD_DFLT_KEYMAP #include "atkbdmap.h" #endif #include <dev/kbd/kbdtables.h> /* structures for the default keyboard */ static keyboard_t default_kbd; static atkbd_state_t default_kbd_state; static keymap_t default_keymap; static accentmap_t default_accentmap; static fkeytab_t default_fkeytab[NUM_FKEYS]; /* * The back door to the keyboard driver! * This function is called by the console driver, via the kbdio module, * to tickle keyboard drivers when the low-level console is being initialized. * Almost nothing in the kernel has been initialied yet. Try to probe * keyboards if possible. * NOTE: because of the way the low-level console is initialized, this routine * may be called more than once!! */ static int atkbd_configure(int flags) { keyboard_t *kbd; int arg[2]; int i; /* * Probe the keyboard controller, if not present or if the driver * is disabled, unregister the keyboard if any. */ if (atkbdc_configure() != 0 || resource_disabled("atkbd", ATKBD_DEFAULT)) { i = kbd_find_keyboard(ATKBD_DRIVER_NAME, ATKBD_DEFAULT); if (i >= 0) { kbd = kbd_get_keyboard(i); kbd_unregister(kbd); kbd->kb_flags &= ~KB_REGISTERED; } return 0; } /* XXX: a kludge to obtain the device configuration flags */ if (resource_int_value("atkbd", ATKBD_DEFAULT, "flags", &i) == 0) flags |= i; /* probe the default keyboard */ arg[0] = -1; arg[1] = -1; kbd = NULL; if (atkbd_probe(ATKBD_DEFAULT, arg, flags)) return 0; if (atkbd_init(ATKBD_DEFAULT, &kbd, arg, flags)) return 0; /* return the number of found keyboards */ return 1; } /* low-level functions */ /* detect a keyboard */ static int atkbd_probe(int unit, void *arg, int flags) { KBDC kbdc; int *data = (int *)arg; /* data[0]: controller, data[1]: irq */ /* XXX */ if (unit == ATKBD_DEFAULT) { if (KBD_IS_PROBED(&default_kbd)) return 0; } kbdc = atkbdc_open(data[0]); if (kbdc == NULL) return ENXIO; if (probe_keyboard(kbdc, flags)) { if (flags & KB_CONF_FAIL_IF_NO_KBD) return ENXIO; } return 0; } /* reset and initialize the device */ static int atkbd_init(int unit, keyboard_t **kbdp, void *arg, int flags) { keyboard_t *kbd; atkbd_state_t *state; keymap_t *keymap; accentmap_t *accmap; fkeytab_t *fkeymap; int fkeymap_size; int delay[2]; int *data = (int *)arg; /* data[0]: controller, data[1]: irq */ int error, needfree; /* XXX */ if (unit == ATKBD_DEFAULT) { *kbdp = kbd = &default_kbd; if (KBD_IS_INITIALIZED(kbd) && KBD_IS_CONFIGURED(kbd)) return 0; state = &default_kbd_state; keymap = &default_keymap; accmap = &default_accentmap; fkeymap = default_fkeytab; fkeymap_size = sizeof(default_fkeytab)/sizeof(default_fkeytab[0]); needfree = 0; } else if (*kbdp == NULL) { *kbdp = kbd = malloc(sizeof(*kbd), M_DEVBUF, M_NOWAIT | M_ZERO); state = malloc(sizeof(*state), M_DEVBUF, M_NOWAIT | M_ZERO); /* NB: these will always be initialized 'cuz !KBD_IS_PROBED */ keymap = malloc(sizeof(key_map), M_DEVBUF, M_NOWAIT); accmap = malloc(sizeof(accent_map), M_DEVBUF, M_NOWAIT); fkeymap = malloc(sizeof(fkey_tab), M_DEVBUF, M_NOWAIT); fkeymap_size = sizeof(fkey_tab)/sizeof(fkey_tab[0]); needfree = 1; if ((kbd == NULL) || (state == NULL) || (keymap == NULL) || (accmap == NULL) || (fkeymap == NULL)) { error = ENOMEM; goto bad; } } else if (KBD_IS_INITIALIZED(*kbdp) && KBD_IS_CONFIGURED(*kbdp)) { return 0; } else { kbd = *kbdp; state = (atkbd_state_t *)kbd->kb_data; bzero(state, sizeof(*state)); keymap = kbd->kb_keymap; accmap = kbd->kb_accentmap; fkeymap = kbd->kb_fkeytab; fkeymap_size = kbd->kb_fkeytab_size; needfree = 0; } if (!KBD_IS_PROBED(kbd)) { state->kbdc = atkbdc_open(data[0]); if (state->kbdc == NULL) { error = ENXIO; goto bad; } kbd_init_struct(kbd, ATKBD_DRIVER_NAME, KB_OTHER, unit, flags, 0, 0); bcopy(&key_map, keymap, sizeof(key_map)); bcopy(&accent_map, accmap, sizeof(accent_map)); bcopy(fkey_tab, fkeymap, imin(fkeymap_size*sizeof(fkeymap[0]), sizeof(fkey_tab))); kbd_set_maps(kbd, keymap, accmap, fkeymap, fkeymap_size); kbd->kb_data = (void *)state; if (probe_keyboard(state->kbdc, flags)) { /* shouldn't happen */ if (flags & KB_CONF_FAIL_IF_NO_KBD) { error = ENXIO; goto bad; } } else { KBD_FOUND_DEVICE(kbd); } atkbd_clear_state(kbd); state->ks_mode = K_XLATE; /* * FIXME: set the initial value for lock keys in ks_state * according to the BIOS data? */ KBD_PROBE_DONE(kbd); } if (!KBD_IS_INITIALIZED(kbd) && !(flags & KB_CONF_PROBE_ONLY)) { kbd->kb_config = flags & ~KB_CONF_PROBE_ONLY; if (KBD_HAS_DEVICE(kbd) && init_keyboard(state->kbdc, &kbd->kb_type, kbd->kb_config) && (kbd->kb_config & KB_CONF_FAIL_IF_NO_KBD)) { kbd_unregister(kbd); error = ENXIO; goto bad; } atkbd_ioctl(kbd, KDSETLED, (caddr_t)&state->ks_state); get_typematic(kbd); delay[0] = kbd->kb_delay1; delay[1] = kbd->kb_delay2; atkbd_ioctl(kbd, KDSETREPEAT, (caddr_t)delay); KBD_INIT_DONE(kbd); } if (!KBD_IS_CONFIGURED(kbd)) { if (kbd_register(kbd) < 0) { error = ENXIO; goto bad; } KBD_CONFIG_DONE(kbd); } return 0; bad: if (needfree) { if (state != NULL) free(state, M_DEVBUF); if (keymap != NULL) free(keymap, M_DEVBUF); if (accmap != NULL) free(accmap, M_DEVBUF); if (fkeymap != NULL) free(fkeymap, M_DEVBUF); if (kbd != NULL) { free(kbd, M_DEVBUF); *kbdp = NULL; /* insure ref doesn't leak to caller */ } } return error; } /* finish using this keyboard */ static int atkbd_term(keyboard_t *kbd) { kbd_unregister(kbd); return 0; } /* keyboard interrupt routine */ static int atkbd_intr(keyboard_t *kbd, void *arg) { atkbd_state_t *state = (atkbd_state_t *)kbd->kb_data; int delay[2]; int c; if (!KBD_HAS_DEVICE(kbd)) { /* * The keyboard was not detected before; * it must have been reconnected! */ init_keyboard(state->kbdc, &kbd->kb_type, kbd->kb_config); KBD_FOUND_DEVICE(kbd); atkbd_ioctl(kbd, KDSETLED, (caddr_t)&state->ks_state); get_typematic(kbd); delay[0] = kbd->kb_delay1; delay[1] = kbd->kb_delay2; atkbd_ioctl(kbd, KDSETREPEAT, (caddr_t)delay); } if (state->ks_polling) return 0; if (KBD_IS_ACTIVE(kbd) && KBD_IS_BUSY(kbd)) { /* let the callback function to process the input */ (*kbd->kb_callback.kc_func)(kbd, KBDIO_KEYINPUT, kbd->kb_callback.kc_arg); } else { /* read and discard the input; no one is waiting for input */ do { c = atkbd_read_char(kbd, FALSE); } while (c != NOKEY); } return 0; } /* test the interface to the device */ static int atkbd_test_if(keyboard_t *kbd) { int error; int s; error = 0; empty_both_buffers(((atkbd_state_t *)kbd->kb_data)->kbdc, 10); s = spltty(); if (!test_controller(((atkbd_state_t *)kbd->kb_data)->kbdc)) error = EIO; else if (test_kbd_port(((atkbd_state_t *)kbd->kb_data)->kbdc) != 0) error = EIO; splx(s); return error; } /* * Enable the access to the device; until this function is called, * the client cannot read from the keyboard. */ static int atkbd_enable(keyboard_t *kbd) { int s; s = spltty(); KBD_ACTIVATE(kbd); splx(s); return 0; } /* disallow the access to the device */ static int atkbd_disable(keyboard_t *kbd) { int s; s = spltty(); KBD_DEACTIVATE(kbd); splx(s); return 0; } /* read one byte from the keyboard if it's allowed */ static int atkbd_read(keyboard_t *kbd, int wait) { int c; if (wait) c = read_kbd_data(((atkbd_state_t *)kbd->kb_data)->kbdc); else c = read_kbd_data_no_wait(((atkbd_state_t *)kbd->kb_data)->kbdc); if (c != -1) ++kbd->kb_count; return (KBD_IS_ACTIVE(kbd) ? c : -1); } /* check if data is waiting */ static int atkbd_check(keyboard_t *kbd) { if (!KBD_IS_ACTIVE(kbd)) return FALSE; return kbdc_data_ready(((atkbd_state_t *)kbd->kb_data)->kbdc); } /* read char from the keyboard */ static u_int atkbd_read_char(keyboard_t *kbd, int wait) { atkbd_state_t *state; u_int action; int scancode; int keycode; state = (atkbd_state_t *)kbd->kb_data; next_code: /* do we have a composed char to return? */ if (!(state->ks_flags & COMPOSE) && (state->ks_composed_char > 0)) { action = state->ks_composed_char; state->ks_composed_char = 0; if (action > UCHAR_MAX) return ERRKEY; return action; } /* see if there is something in the keyboard port */ if (wait) { do { scancode = read_kbd_data(state->kbdc); } while (scancode == -1); } else { scancode = read_kbd_data_no_wait(state->kbdc); if (scancode == -1) return NOKEY; } ++kbd->kb_count; #if KBDIO_DEBUG >= 10 printf("atkbd_read_char(): scancode:0x%x\n", scancode); #endif /* return the byte as is for the K_RAW mode */ if (state->ks_mode == K_RAW) return scancode; /* translate the scan code into a keycode */ keycode = scancode & 0x7F; switch (state->ks_prefix) { case 0x00: /* normal scancode */ switch(scancode) { case 0xB8: /* left alt (compose key) released */ if (state->ks_flags & COMPOSE) { state->ks_flags &= ~COMPOSE; if (state->ks_composed_char > UCHAR_MAX) state->ks_composed_char = 0; } break; case 0x38: /* left alt (compose key) pressed */ if (!(state->ks_flags & COMPOSE)) { state->ks_flags |= COMPOSE; state->ks_composed_char = 0; } break; case 0xE0: case 0xE1: state->ks_prefix = scancode; goto next_code; } break; case 0xE0: /* 0xE0 prefix */ state->ks_prefix = 0; switch (keycode) { case 0x1C: /* right enter key */ keycode = 0x59; break; case 0x1D: /* right ctrl key */ keycode = 0x5A; break; case 0x35: /* keypad divide key */ keycode = 0x5B; break; case 0x37: /* print scrn key */ keycode = 0x5C; break; case 0x38: /* right alt key (alt gr) */ keycode = 0x5D; break; case 0x46: /* ctrl-pause/break on AT 101 (see below) */ keycode = 0x68; break; case 0x47: /* grey home key */ keycode = 0x5E; break; case 0x48: /* grey up arrow key */ keycode = 0x5F; break; case 0x49: /* grey page up key */ keycode = 0x60; break; case 0x4B: /* grey left arrow key */ keycode = 0x61; break; case 0x4D: /* grey right arrow key */ keycode = 0x62; break; case 0x4F: /* grey end key */ keycode = 0x63; break; case 0x50: /* grey down arrow key */ keycode = 0x64; break; case 0x51: /* grey page down key */ keycode = 0x65; break; case 0x52: /* grey insert key */ keycode = 0x66; break; case 0x53: /* grey delete key */ keycode = 0x67; break; /* the following 3 are only used on the MS "Natural" keyboard */ case 0x5b: /* left Window key */ keycode = 0x69; break; case 0x5c: /* right Window key */ keycode = 0x6a; break; case 0x5d: /* menu key */ keycode = 0x6b; break; case 0x5e: /* power key */ keycode = 0x6d; break; case 0x5f: /* sleep key */ keycode = 0x6e; break; case 0x63: /* wake key */ keycode = 0x6f; break; default: /* ignore everything else */ goto next_code; } break; case 0xE1: /* 0xE1 prefix */ /* * The pause/break key on the 101 keyboard produces: * E1-1D-45 E1-9D-C5 * Ctrl-pause/break produces: * E0-46 E0-C6 (See above.) */ state->ks_prefix = 0; if (keycode == 0x1D) state->ks_prefix = 0x1D; goto next_code; /* NOT REACHED */ case 0x1D: /* pause / break */ state->ks_prefix = 0; if (keycode != 0x45) goto next_code; keycode = 0x68; break; } if (kbd->kb_type == KB_84) { switch (keycode) { case 0x37: /* *(numpad)/print screen */ if (state->ks_flags & SHIFTS) keycode = 0x5c; /* print screen */ break; case 0x45: /* num lock/pause */ if (state->ks_flags & CTLS) keycode = 0x68; /* pause */ break; case 0x46: /* scroll lock/break */ if (state->ks_flags & CTLS) keycode = 0x6c; /* break */ break; } } else if (kbd->kb_type == KB_101) { switch (keycode) { case 0x5c: /* print screen */ if (state->ks_flags & ALTS) keycode = 0x54; /* sysrq */ break; case 0x68: /* pause/break */ if (state->ks_flags & CTLS) keycode = 0x6c; /* break */ break; } } /* return the key code in the K_CODE mode */ if (state->ks_mode == K_CODE) return (keycode | (scancode & 0x80)); /* compose a character code */ if (state->ks_flags & COMPOSE) { switch (keycode | (scancode & 0x80)) { /* key pressed, process it */ case 0x47: case 0x48: case 0x49: /* keypad 7,8,9 */ state->ks_composed_char *= 10; state->ks_composed_char += keycode - 0x40; if (state->ks_composed_char > UCHAR_MAX) return ERRKEY; goto next_code; case 0x4B: case 0x4C: case 0x4D: /* keypad 4,5,6 */ state->ks_composed_char *= 10; state->ks_composed_char += keycode - 0x47; if (state->ks_composed_char > UCHAR_MAX) return ERRKEY; goto next_code; case 0x4F: case 0x50: case 0x51: /* keypad 1,2,3 */ state->ks_composed_char *= 10; state->ks_composed_char += keycode - 0x4E; if (state->ks_composed_char > UCHAR_MAX) return ERRKEY; goto next_code; case 0x52: /* keypad 0 */ state->ks_composed_char *= 10; if (state->ks_composed_char > UCHAR_MAX) return ERRKEY; goto next_code; /* key released, no interest here */ case 0xC7: case 0xC8: case 0xC9: /* keypad 7,8,9 */ case 0xCB: case 0xCC: case 0xCD: /* keypad 4,5,6 */ case 0xCF: case 0xD0: case 0xD1: /* keypad 1,2,3 */ case 0xD2: /* keypad 0 */ goto next_code; case 0x38: /* left alt key */ break; default: if (state->ks_composed_char > 0) { state->ks_flags &= ~COMPOSE; state->ks_composed_char = 0; return ERRKEY; } break; } } /* keycode to key action */ action = genkbd_keyaction(kbd, keycode, scancode & 0x80, &state->ks_state, &state->ks_accents); if (action == NOKEY) goto next_code; else return action; } /* check if char is waiting */ static int atkbd_check_char(keyboard_t *kbd) { atkbd_state_t *state; if (!KBD_IS_ACTIVE(kbd)) return FALSE; state = (atkbd_state_t *)kbd->kb_data; if (!(state->ks_flags & COMPOSE) && (state->ks_composed_char > 0)) return TRUE; return kbdc_data_ready(state->kbdc); } /* some useful control functions */ static int atkbd_ioctl(keyboard_t *kbd, u_long cmd, caddr_t arg) { /* translate LED_XXX bits into the device specific bits */ static u_char ledmap[8] = { 0, 4, 2, 6, 1, 5, 3, 7, }; atkbd_state_t *state = kbd->kb_data; int error; int s; int i; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) int ival; #endif s = spltty(); switch (cmd) { case KDGKBMODE: /* get keyboard mode */ *(int *)arg = state->ks_mode; break; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 7): ival = IOCPARM_IVAL(arg); arg = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSKBMODE: /* set keyboard mode */ switch (*(int *)arg) { case K_XLATE: if (state->ks_mode != K_XLATE) { /* make lock key state and LED state match */ state->ks_state &= ~LOCK_MASK; state->ks_state |= KBD_LED_VAL(kbd); } /* FALLTHROUGH */ case K_RAW: case K_CODE: if (state->ks_mode != *(int *)arg) { atkbd_clear_state(kbd); state->ks_mode = *(int *)arg; } break; default: splx(s); return EINVAL; } break; case KDGETLED: /* get keyboard LED */ *(int *)arg = KBD_LED_VAL(kbd); break; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 66): ival = IOCPARM_IVAL(arg); arg = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSETLED: /* set keyboard LED */ /* NOTE: lock key state in ks_state won't be changed */ if (*(int *)arg & ~LOCK_MASK) { splx(s); return EINVAL; } i = *(int *)arg; /* replace CAPS LED with ALTGR LED for ALTGR keyboards */ if (state->ks_mode == K_XLATE && kbd->kb_keymap->n_keys > ALTGR_OFFSET) { if (i & ALKED) i |= CLKED; else i &= ~CLKED; } if (KBD_HAS_DEVICE(kbd)) { error = write_kbd(state->kbdc, KBDC_SET_LEDS, ledmap[i & LED_MASK]); if (error) { splx(s); return error; } } KBD_LED_VAL(kbd) = *(int *)arg; break; case KDGKBSTATE: /* get lock key state */ *(int *)arg = state->ks_state & LOCK_MASK; break; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 20): ival = IOCPARM_IVAL(arg); arg = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSKBSTATE: /* set lock key state */ if (*(int *)arg & ~LOCK_MASK) { splx(s); return EINVAL; } state->ks_state &= ~LOCK_MASK; state->ks_state |= *(int *)arg; splx(s); /* set LEDs and quit */ return atkbd_ioctl(kbd, KDSETLED, arg); case KDSETREPEAT: /* set keyboard repeat rate (new interface) */ splx(s); if (!KBD_HAS_DEVICE(kbd)) return 0; i = typematic(((int *)arg)[0], ((int *)arg)[1]); error = write_kbd(state->kbdc, KBDC_SET_TYPEMATIC, i); if (error == 0) { kbd->kb_delay1 = typematic_delay(i); kbd->kb_delay2 = typematic_rate(i); } return error; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 67): ival = IOCPARM_IVAL(arg); arg = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSETRAD: /* set keyboard repeat rate (old interface) */ splx(s); if (!KBD_HAS_DEVICE(kbd)) return 0; error = write_kbd(state->kbdc, KBDC_SET_TYPEMATIC, *(int *)arg); if (error == 0) { kbd->kb_delay1 = typematic_delay(*(int *)arg); kbd->kb_delay2 = typematic_rate(*(int *)arg); } return error; case PIO_KEYMAP: /* set keyboard translation table */ case OPIO_KEYMAP: /* set keyboard translation table (compat) */ case PIO_KEYMAPENT: /* set keyboard translation table entry */ case PIO_DEADKEYMAP: /* set accent key translation table */ state->ks_accents = 0; /* FALLTHROUGH */ default: splx(s); return genkbd_commonioctl(kbd, cmd, arg); } splx(s); return 0; } /* lock the access to the keyboard */ static int atkbd_lock(keyboard_t *kbd, int lock) { return kbdc_lock(((atkbd_state_t *)kbd->kb_data)->kbdc, lock); } /* clear the internal state of the keyboard */ static void atkbd_clear_state(keyboard_t *kbd) { atkbd_state_t *state; state = (atkbd_state_t *)kbd->kb_data; state->ks_flags = 0; state->ks_polling = 0; state->ks_state &= LOCK_MASK; /* preserve locking key state */ state->ks_accents = 0; state->ks_composed_char = 0; #if 0 state->ks_prefix = 0; /* XXX */ #endif } /* save the internal state */ static int atkbd_get_state(keyboard_t *kbd, void *buf, size_t len) { if (len == 0) return sizeof(atkbd_state_t); if (len < sizeof(atkbd_state_t)) return -1; bcopy(kbd->kb_data, buf, sizeof(atkbd_state_t)); return 0; } /* set the internal state */ static int atkbd_set_state(keyboard_t *kbd, void *buf, size_t len) { if (len < sizeof(atkbd_state_t)) return ENOMEM; if (((atkbd_state_t *)kbd->kb_data)->kbdc != ((atkbd_state_t *)buf)->kbdc) return ENOMEM; bcopy(buf, kbd->kb_data, sizeof(atkbd_state_t)); return 0; } static int atkbd_poll(keyboard_t *kbd, int on) { atkbd_state_t *state; int s; state = (atkbd_state_t *)kbd->kb_data; s = spltty(); if (on) ++state->ks_polling; else --state->ks_polling; splx(s); return 0; } static void atkbd_shutdown_final(void *v) { #ifdef __sparc64__ keyboard_t *kbd = v; KBDC kbdc = ((atkbd_state_t *)kbd->kb_data)->kbdc; /* * Turn off the translation in preparation for handing the keyboard * over to the OFW as the OBP driver doesn't use translation and * also doesn't disable it itself resulting in a broken keymap at * the boot prompt. Also disable the aux port and the interrupts as * the OBP driver doesn't use them, i.e. polls the keyboard. Not * disabling the interrupts doesn't cause real problems but the * responsiveness is a bit better when they are turned off. */ send_kbd_command(kbdc, KBDC_DISABLE_KBD); set_controller_command_byte(kbdc, KBD_AUX_CONTROL_BITS | KBD_KBD_CONTROL_BITS | KBD_TRANSLATION, KBD_DISABLE_AUX_PORT | KBD_DISABLE_KBD_INT | KBD_ENABLE_KBD_PORT); send_kbd_command(kbdc, KBDC_ENABLE_KBD); #endif } /* local functions */ static int get_typematic(keyboard_t *kbd) { #if defined(__i386__) || defined(__amd64__) /* * Only some systems allow us to retrieve the keyboard repeat * rate previously set via the BIOS... */ x86regs_t regs; uint8_t *p; /* * Traditional entry points of int 0x15 and 0x16 are fixed * and later BIOSes follow them. (U)EFI CSM specification * also mandates these fixed entry points. * * Validate the entry points here before we proceed further. * It's known that some recent laptops does not have the * same entry point and hang on boot if we call it. */ if (x86bios_get_intr(0x15) != 0xf000f859 || x86bios_get_intr(0x16) != 0xf000e82e) return (ENODEV); /* Is BIOS system configuration table supported? */ x86bios_init_regs(®s); regs.R_AH = 0xc0; x86bios_intr(®s, 0x15); if ((regs.R_FLG & PSL_C) != 0 || regs.R_AH != 0) return (ENODEV); /* Is int 0x16, function 0x09 supported? */ p = x86bios_offset((regs.R_ES << 4) + regs.R_BX); if (readw(p) < 5 || (readb(p + 6) & 0x40) == 0) return (ENODEV); /* Is int 0x16, function 0x0306 supported? */ x86bios_init_regs(®s); regs.R_AH = 0x09; x86bios_intr(®s, 0x16); if ((regs.R_AL & 0x08) == 0) return (ENODEV); x86bios_init_regs(®s); regs.R_AX = 0x0306; x86bios_intr(®s, 0x16); kbd->kb_delay1 = typematic_delay(regs.R_BH << 5); kbd->kb_delay2 = typematic_rate(regs.R_BL); return (0); #else return (ENODEV); #endif /* __i386__ || __amd64__ */ } static int setup_kbd_port(KBDC kbdc, int port, int intr) { if (!set_controller_command_byte(kbdc, KBD_KBD_CONTROL_BITS, ((port) ? KBD_ENABLE_KBD_PORT : KBD_DISABLE_KBD_PORT) | ((intr) ? KBD_ENABLE_KBD_INT : KBD_DISABLE_KBD_INT))) return 1; return 0; } static int get_kbd_echo(KBDC kbdc) { /* enable the keyboard port, but disable the keyboard intr. */ if (setup_kbd_port(kbdc, TRUE, FALSE)) /* CONTROLLER ERROR: there is very little we can do... */ return ENXIO; /* see if something is present */ write_kbd_command(kbdc, KBDC_ECHO); if (read_kbd_data(kbdc) != KBD_ECHO) { empty_both_buffers(kbdc, 10); test_controller(kbdc); test_kbd_port(kbdc); return ENXIO; } /* enable the keyboard port and intr. */ if (setup_kbd_port(kbdc, TRUE, TRUE)) { /* * CONTROLLER ERROR * This is serious; the keyboard intr is left disabled! */ return ENXIO; } return 0; } static int probe_keyboard(KBDC kbdc, int flags) { /* * Don't try to print anything in this function. The low-level * console may not have been initialized yet... */ int err; int c; int m; if (!kbdc_lock(kbdc, TRUE)) { /* driver error? */ return ENXIO; } /* temporarily block data transmission from the keyboard */ write_controller_command(kbdc, KBDC_DISABLE_KBD_PORT); /* flush any noise in the buffer */ empty_both_buffers(kbdc, 100); /* save the current keyboard controller command byte */ m = kbdc_get_device_mask(kbdc) & ~KBD_KBD_CONTROL_BITS; c = get_controller_command_byte(kbdc); if (c == -1) { /* CONTROLLER ERROR */ kbdc_set_device_mask(kbdc, m); kbdc_lock(kbdc, FALSE); return ENXIO; } /* * The keyboard may have been screwed up by the boot block. * We may just be able to recover from error by testing the controller * and the keyboard port. The controller command byte needs to be * saved before this recovery operation, as some controllers seem * to set the command byte to particular values. */ test_controller(kbdc); if (!(flags & KB_CONF_NO_PROBE_TEST)) test_kbd_port(kbdc); err = get_kbd_echo(kbdc); /* * Even if the keyboard doesn't seem to be present (err != 0), * we shall enable the keyboard port and interrupt so that * the driver will be operable when the keyboard is attached * to the system later. It is NOT recommended to hot-plug * the AT keyboard, but many people do so... */ kbdc_set_device_mask(kbdc, m | KBD_KBD_CONTROL_BITS); setup_kbd_port(kbdc, TRUE, TRUE); #if 0 if (err == 0) { kbdc_set_device_mask(kbdc, m | KBD_KBD_CONTROL_BITS); } else { /* try to restore the command byte as before */ set_controller_command_byte(kbdc, 0xff, c); kbdc_set_device_mask(kbdc, m); } #endif kbdc_lock(kbdc, FALSE); return err; } static int init_keyboard(KBDC kbdc, int *type, int flags) { int codeset; int id; int c; if (!kbdc_lock(kbdc, TRUE)) { /* driver error? */ return EIO; } /* temporarily block data transmission from the keyboard */ write_controller_command(kbdc, KBDC_DISABLE_KBD_PORT); /* save the current controller command byte */ empty_both_buffers(kbdc, 200); c = get_controller_command_byte(kbdc); if (c == -1) { /* CONTROLLER ERROR */ kbdc_lock(kbdc, FALSE); printf("atkbd: unable to get the current command byte value.\n"); return EIO; } if (bootverbose) printf("atkbd: the current kbd controller command byte %04x\n", c); #if 0 /* override the keyboard lock switch */ c |= KBD_OVERRIDE_KBD_LOCK; #endif /* enable the keyboard port, but disable the keyboard intr. */ if (setup_kbd_port(kbdc, TRUE, FALSE)) { /* CONTROLLER ERROR: there is very little we can do... */ printf("atkbd: unable to set the command byte.\n"); kbdc_lock(kbdc, FALSE); return EIO; } /* * Check if we have an XT keyboard before we attempt to reset it. * The procedure assumes that the keyboard and the controller have * been set up properly by BIOS and have not been messed up * during the boot process. */ codeset = -1; if (flags & KB_CONF_ALT_SCANCODESET) /* the user says there is a XT keyboard */ codeset = 1; #ifdef KBD_DETECT_XT_KEYBOARD else if ((c & KBD_TRANSLATION) == 0) { /* SET_SCANCODE_SET is not always supported; ignore error */ if (send_kbd_command_and_data(kbdc, KBDC_SET_SCANCODE_SET, 0) == KBD_ACK) codeset = read_kbd_data(kbdc); } if (bootverbose) printf("atkbd: scancode set %d\n", codeset); #endif /* KBD_DETECT_XT_KEYBOARD */ *type = KB_OTHER; id = get_kbd_id(kbdc); switch(id) { case 0x41ab: /* 101/102/... Enhanced */ case 0x83ab: /* ditto */ case 0x54ab: /* SpaceSaver */ case 0x84ab: /* ditto */ #if 0 case 0x90ab: /* 'G' */ case 0x91ab: /* 'P' */ case 0x92ab: /* 'A' */ #endif *type = KB_101; break; case -1: /* AT 84 keyboard doesn't return ID */ *type = KB_84; break; default: break; } if (bootverbose) printf("atkbd: keyboard ID 0x%x (%d)\n", id, *type); /* reset keyboard hardware */ if (!(flags & KB_CONF_NO_RESET) && !reset_kbd(kbdc)) { /* * KEYBOARD ERROR * Keyboard reset may fail either because the keyboard * doen't exist, or because the keyboard doesn't pass * the self-test, or the keyboard controller on the * motherboard and the keyboard somehow fail to shake hands. * It is just possible, particularly in the last case, * that the keyboard controller may be left in a hung state. * test_controller() and test_kbd_port() appear to bring * the keyboard controller back (I don't know why and how, * though.) */ empty_both_buffers(kbdc, 10); test_controller(kbdc); test_kbd_port(kbdc); /* * We could disable the keyboard port and interrupt... but, * the keyboard may still exist (see above). */ set_controller_command_byte(kbdc, 0xff, c); kbdc_lock(kbdc, FALSE); if (bootverbose) printf("atkbd: failed to reset the keyboard.\n"); return EIO; } /* * Allow us to set the XT_KEYBD flag so that keyboards * such as those on the IBM ThinkPad laptop computers can be used * with the standard console driver. */ if (codeset == 1) { if (send_kbd_command_and_data(kbdc, KBDC_SET_SCANCODE_SET, codeset) == KBD_ACK) { /* XT kbd doesn't need scan code translation */ c &= ~KBD_TRANSLATION; } else { /* * KEYBOARD ERROR * The XT kbd isn't usable unless the proper scan * code set is selected. */ set_controller_command_byte(kbdc, 0xff, c); kbdc_lock(kbdc, FALSE); printf("atkbd: unable to set the XT keyboard mode.\n"); return EIO; } } #if defined(__sparc64__) if (send_kbd_command_and_data( kbdc, KBDC_SET_SCANCODE_SET, 2) != KBD_ACK) { printf("atkbd: can't set translation.\n"); } c |= KBD_TRANSLATION; #endif /* enable the keyboard port and intr. */ if (!set_controller_command_byte(kbdc, KBD_KBD_CONTROL_BITS | KBD_TRANSLATION | KBD_OVERRIDE_KBD_LOCK, (c & (KBD_TRANSLATION | KBD_OVERRIDE_KBD_LOCK)) | KBD_ENABLE_KBD_PORT | KBD_ENABLE_KBD_INT)) { /* * CONTROLLER ERROR * This is serious; we are left with the disabled * keyboard intr. */ set_controller_command_byte(kbdc, 0xff, c); kbdc_lock(kbdc, FALSE); printf("atkbd: unable to enable the keyboard port and intr.\n"); return EIO; } kbdc_lock(kbdc, FALSE); return 0; } static int write_kbd(KBDC kbdc, int command, int data) { int s; /* prevent the timeout routine from polling the keyboard */ if (!kbdc_lock(kbdc, TRUE)) return EBUSY; /* disable the keyboard and mouse interrupt */ s = spltty(); #if 0 c = get_controller_command_byte(kbdc); if ((c == -1) || !set_controller_command_byte(kbdc, kbdc_get_device_mask(kbdc), KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT | KBD_DISABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* CONTROLLER ERROR */ kbdc_lock(kbdc, FALSE); splx(s); return EIO; } /* * Now that the keyboard controller is told not to generate * the keyboard and mouse interrupts, call `splx()' to allow * the other tty interrupts. The clock interrupt may also occur, * but the timeout routine (`scrn_timer()') will be blocked * by the lock flag set via `kbdc_lock()' */ splx(s); #endif if (send_kbd_command_and_data(kbdc, command, data) != KBD_ACK) send_kbd_command(kbdc, KBDC_ENABLE_KBD); #if 0 /* restore the interrupts */ if (!set_controller_command_byte(kbdc, kbdc_get_device_mask(kbdc), c & (KBD_KBD_CONTROL_BITS | KBD_AUX_CONTROL_BITS))) { /* CONTROLLER ERROR */ } #else splx(s); #endif kbdc_lock(kbdc, FALSE); return 0; } static int get_kbd_id(KBDC kbdc) { int id1, id2; empty_both_buffers(kbdc, 10); id1 = id2 = -1; if (send_kbd_command(kbdc, KBDC_SEND_DEV_ID) != KBD_ACK) return -1; DELAY(10000); /* 10 msec delay */ id1 = read_kbd_data(kbdc); if (id1 != -1) id2 = read_kbd_data(kbdc); if ((id1 == -1) || (id2 == -1)) { empty_both_buffers(kbdc, 10); test_controller(kbdc); test_kbd_port(kbdc); return -1; } return ((id2 << 8) | id1); } static int delays[] = { 250, 500, 750, 1000 }; static int rates[] = { 34, 38, 42, 46, 50, 55, 59, 63, 68, 76, 84, 92, 100, 110, 118, 126, 136, 152, 168, 184, 200, 220, 236, 252, 272, 304, 336, 368, 400, 440, 472, 504 }; static int typematic_delay(int i) { return delays[(i >> 5) & 3]; } static int typematic_rate(int i) { return rates[i & 0x1f]; } static int typematic(int delay, int rate) { int value; int i; for (i = sizeof(delays)/sizeof(delays[0]) - 1; i > 0; --i) { if (delay >= delays[i]) break; } value = i << 5; for (i = sizeof(rates)/sizeof(rates[0]) - 1; i > 0; --i) { if (rate >= rates[i]) break; } value |= i; return value; }