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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165 | /* * Written for linux by Johan Myreen as a translation from * the assembly version by Linus (with diacriticals added) * * Some additional features added by Christoph Niemann (ChN), March 1993 * * Loadable keymaps by Risto Kankkunen, May 1993 * * Diacriticals redone & other small changes, aeb@cwi.nl, June 1993 * Added decr/incr_console, dynamic keymaps, Unicode support, * dynamic function/string keys, led setting, Sept 1994 * `Sticky' modifier keys, 951006. * * 11-11-96: SAK should now work in the raw mode (Martin Mares) * * Modified to provide 'generic' keyboard support by Hamish Macdonald * Merge with the m68k keyboard driver and split-off of the PC low-level * parts by Geert Uytterhoeven, May 1997 * * 27-05-97: Added support for the Magic SysRq Key (Martin Mares) * 30-07-98: Dead keys redone, aeb@cwi.nl. * 21-08-02: Converted to input API, major cleanup. (Vojtech Pavlik) */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/consolemap.h> #include <linux/module.h> #include <linux/sched.h> #include <linux/tty.h> #include <linux/tty_flip.h> #include <linux/mm.h> #include <linux/string.h> #include <linux/init.h> #include <linux/slab.h> #include <linux/kbd_kern.h> #include <linux/kbd_diacr.h> #include <linux/vt_kern.h> #include <linux/input.h> #include <linux/reboot.h> #include <linux/notifier.h> #include <linux/jiffies.h> #include <linux/uaccess.h> #include <asm/irq_regs.h> extern void ctrl_alt_del(void); /* * Exported functions/variables */ #define KBD_DEFMODE ((1 << VC_REPEAT) | (1 << VC_META)) #if defined(CONFIG_X86) || defined(CONFIG_PARISC) #include <asm/kbdleds.h> #else static inline int kbd_defleds(void) { return 0; } #endif #define KBD_DEFLOCK 0 /* * Handler Tables. */ #define K_HANDLERS\ k_self, k_fn, k_spec, k_pad,\ k_dead, k_cons, k_cur, k_shift,\ k_meta, k_ascii, k_lock, k_lowercase,\ k_slock, k_dead2, k_brl, k_ignore typedef void (k_handler_fn)(struct vc_data *vc, unsigned char value, char up_flag); static k_handler_fn K_HANDLERS; static k_handler_fn *k_handler[16] = { K_HANDLERS }; #define FN_HANDLERS\ fn_null, fn_enter, fn_show_ptregs, fn_show_mem,\ fn_show_state, fn_send_intr, fn_lastcons, fn_caps_toggle,\ fn_num, fn_hold, fn_scroll_forw, fn_scroll_back,\ fn_boot_it, fn_caps_on, fn_compose, fn_SAK,\ fn_dec_console, fn_inc_console, fn_spawn_con, fn_bare_num typedef void (fn_handler_fn)(struct vc_data *vc); static fn_handler_fn FN_HANDLERS; static fn_handler_fn *fn_handler[] = { FN_HANDLERS }; /* * Variables exported for vt_ioctl.c */ struct vt_spawn_console vt_spawn_con = { .lock = __SPIN_LOCK_UNLOCKED(vt_spawn_con.lock), .pid = NULL, .sig = 0, }; /* * Internal Data. */ static struct kbd_struct kbd_table[MAX_NR_CONSOLES]; static struct kbd_struct *kbd = kbd_table; /* maximum values each key_handler can handle */ static const int max_vals[] = { 255, ARRAY_SIZE(func_table) - 1, ARRAY_SIZE(fn_handler) - 1, NR_PAD - 1, NR_DEAD - 1, 255, 3, NR_SHIFT - 1, 255, NR_ASCII - 1, NR_LOCK - 1, 255, NR_LOCK - 1, 255, NR_BRL - 1 }; static const int NR_TYPES = ARRAY_SIZE(max_vals); static struct input_handler kbd_handler; static DEFINE_SPINLOCK(kbd_event_lock); static DEFINE_SPINLOCK(led_lock); static unsigned long key_down[BITS_TO_LONGS(KEY_CNT)]; /* keyboard key bitmap */ static unsigned char shift_down[NR_SHIFT]; /* shift state counters.. */ static bool dead_key_next; static int npadch = -1; /* -1 or number assembled on pad */ static unsigned int diacr; static char rep; /* flag telling character repeat */ static int shift_state = 0; static unsigned char ledstate = 0xff; /* undefined */ static unsigned char ledioctl; /* * Notifier list for console keyboard events */ static ATOMIC_NOTIFIER_HEAD(keyboard_notifier_list); int register_keyboard_notifier(struct notifier_block *nb) { return atomic_notifier_chain_register(&keyboard_notifier_list, nb); } EXPORT_SYMBOL_GPL(register_keyboard_notifier); int unregister_keyboard_notifier(struct notifier_block *nb) { return atomic_notifier_chain_unregister(&keyboard_notifier_list, nb); } EXPORT_SYMBOL_GPL(unregister_keyboard_notifier); /* * Translation of scancodes to keycodes. We set them on only the first * keyboard in the list that accepts the scancode and keycode. * Explanation for not choosing the first attached keyboard anymore: * USB keyboards for example have two event devices: one for all "normal" * keys and one for extra function keys (like "volume up", "make coffee", * etc.). So this means that scancodes for the extra function keys won't * be valid for the first event device, but will be for the second. */ struct getset_keycode_data { struct input_keymap_entry ke; int error; }; static int getkeycode_helper(struct input_handle *handle, void *data) { struct getset_keycode_data *d = data; d->error = input_get_keycode(handle->dev, &d->ke); return d->error == 0; /* stop as soon as we successfully get one */ } static int getkeycode(unsigned int scancode) { struct getset_keycode_data d = { .ke = { .flags = 0, .len = sizeof(scancode), .keycode = 0, }, .error = -ENODEV, }; memcpy(d.ke.scancode, &scancode, sizeof(scancode)); input_handler_for_each_handle(&kbd_handler, &d, getkeycode_helper); return d.error ?: d.ke.keycode; } static int setkeycode_helper(struct input_handle *handle, void *data) { struct getset_keycode_data *d = data; d->error = input_set_keycode(handle->dev, &d->ke); return d->error == 0; /* stop as soon as we successfully set one */ } static int setkeycode(unsigned int scancode, unsigned int keycode) { struct getset_keycode_data d = { .ke = { .flags = 0, .len = sizeof(scancode), .keycode = keycode, }, .error = -ENODEV, }; memcpy(d.ke.scancode, &scancode, sizeof(scancode)); input_handler_for_each_handle(&kbd_handler, &d, setkeycode_helper); return d.error; } /* * Making beeps and bells. Note that we prefer beeps to bells, but when * shutting the sound off we do both. */ static int kd_sound_helper(struct input_handle *handle, void *data) { unsigned int *hz = data; struct input_dev *dev = handle->dev; if (test_bit(EV_SND, dev->evbit)) { if (test_bit(SND_TONE, dev->sndbit)) { input_inject_event(handle, EV_SND, SND_TONE, *hz); if (*hz) return 0; } if (test_bit(SND_BELL, dev->sndbit)) input_inject_event(handle, EV_SND, SND_BELL, *hz ? 1 : 0); } return 0; } static void kd_nosound(unsigned long ignored) { static unsigned int zero; input_handler_for_each_handle(&kbd_handler, &zero, kd_sound_helper); } static DEFINE_TIMER(kd_mksound_timer, kd_nosound, 0, 0); void kd_mksound(unsigned int hz, unsigned int ticks) { del_timer_sync(&kd_mksound_timer); input_handler_for_each_handle(&kbd_handler, &hz, kd_sound_helper); if (hz && ticks) mod_timer(&kd_mksound_timer, jiffies + ticks); } EXPORT_SYMBOL(kd_mksound); /* * Setting the keyboard rate. */ static int kbd_rate_helper(struct input_handle *handle, void *data) { struct input_dev *dev = handle->dev; struct kbd_repeat *rpt = data; if (test_bit(EV_REP, dev->evbit)) { if (rpt[0].delay > 0) input_inject_event(handle, EV_REP, REP_DELAY, rpt[0].delay); if (rpt[0].period > 0) input_inject_event(handle, EV_REP, REP_PERIOD, rpt[0].period); rpt[1].delay = dev->rep[REP_DELAY]; rpt[1].period = dev->rep[REP_PERIOD]; } return 0; } int kbd_rate(struct kbd_repeat *rpt) { struct kbd_repeat data[2] = { *rpt }; input_handler_for_each_handle(&kbd_handler, data, kbd_rate_helper); *rpt = data[1]; /* Copy currently used settings */ return 0; } /* * Helper Functions. */ static void put_queue(struct vc_data *vc, int ch) { tty_insert_flip_char(&vc->port, ch, 0); tty_schedule_flip(&vc->port); } static void puts_queue(struct vc_data *vc, char *cp) { while (*cp) { tty_insert_flip_char(&vc->port, *cp, 0); cp++; } tty_schedule_flip(&vc->port); } static void applkey(struct vc_data *vc, int key, char mode) { static char buf[] = { 0x1b, 'O', 0x00, 0x00 }; buf[1] = (mode ? 'O' : '['); buf[2] = key; puts_queue(vc, buf); } /* * Many other routines do put_queue, but I think either * they produce ASCII, or they produce some user-assigned * string, and in both cases we might assume that it is * in utf-8 already. */ static void to_utf8(struct vc_data *vc, uint c) { if (c < 0x80) /* 0******* */ put_queue(vc, c); else if (c < 0x800) { /* 110***** 10****** */ put_queue(vc, 0xc0 | (c >> 6)); put_queue(vc, 0x80 | (c & 0x3f)); } else if (c < 0x10000) { if (c >= 0xD800 && c < 0xE000) return; if (c == 0xFFFF) return; /* 1110**** 10****** 10****** */ put_queue(vc, 0xe0 | (c >> 12)); put_queue(vc, 0x80 | ((c >> 6) & 0x3f)); put_queue(vc, 0x80 | (c & 0x3f)); } else if (c < 0x110000) { /* 11110*** 10****** 10****** 10****** */ put_queue(vc, 0xf0 | (c >> 18)); put_queue(vc, 0x80 | ((c >> 12) & 0x3f)); put_queue(vc, 0x80 | ((c >> 6) & 0x3f)); put_queue(vc, 0x80 | (c & 0x3f)); } } /* * Called after returning from RAW mode or when changing consoles - recompute * shift_down[] and shift_state from key_down[] maybe called when keymap is * undefined, so that shiftkey release is seen. The caller must hold the * kbd_event_lock. */ static void do_compute_shiftstate(void) { unsigned int i, j, k, sym, val; shift_state = 0; memset(shift_down, 0, sizeof(shift_down)); for (i = 0; i < ARRAY_SIZE(key_down); i++) { if (!key_down[i]) continue; k = i * BITS_PER_LONG; for (j = 0; j < BITS_PER_LONG; j++, k++) { if (!test_bit(k, key_down)) continue; sym = U(key_maps[0][k]); if (KTYP(sym) != KT_SHIFT && KTYP(sym) != KT_SLOCK) continue; val = KVAL(sym); if (val == KVAL(K_CAPSSHIFT)) val = KVAL(K_SHIFT); shift_down[val]++; shift_state |= (1 << val); } } } /* We still have to export this method to vt.c */ void compute_shiftstate(void) { unsigned long flags; spin_lock_irqsave(&kbd_event_lock, flags); do_compute_shiftstate(); spin_unlock_irqrestore(&kbd_event_lock, flags); } /* * We have a combining character DIACR here, followed by the character CH. * If the combination occurs in the table, return the corresponding value. * Otherwise, if CH is a space or equals DIACR, return DIACR. * Otherwise, conclude that DIACR was not combining after all, * queue it and return CH. */ static unsigned int handle_diacr(struct vc_data *vc, unsigned int ch) { unsigned int d = diacr; unsigned int i; diacr = 0; if ((d & ~0xff) == BRL_UC_ROW) { if ((ch & ~0xff) == BRL_UC_ROW) return d | ch; } else { for (i = 0; i < accent_table_size; i++) if (accent_table[i].diacr == d && accent_table[i].base == ch) return accent_table[i].result; } if (ch == ' ' || ch == (BRL_UC_ROW|0) || ch == d) return d; if (kbd->kbdmode == VC_UNICODE) to_utf8(vc, d); else { int c = conv_uni_to_8bit(d); if (c != -1) put_queue(vc, c); } return ch; } /* * Special function handlers */ static void fn_enter(struct vc_data *vc) { if (diacr) { if (kbd->kbdmode == VC_UNICODE) to_utf8(vc, diacr); else { int c = conv_uni_to_8bit(diacr); if (c != -1) put_queue(vc, c); } diacr = 0; } put_queue(vc, 13); if (vc_kbd_mode(kbd, VC_CRLF)) put_queue(vc, 10); } static void fn_caps_toggle(struct vc_data *vc) { if (rep) return; chg_vc_kbd_led(kbd, VC_CAPSLOCK); } static void fn_caps_on(struct vc_data *vc) { if (rep) return; set_vc_kbd_led(kbd, VC_CAPSLOCK); } static void fn_show_ptregs(struct vc_data *vc) { struct pt_regs *regs = get_irq_regs(); if (regs) show_regs(regs); } static void fn_hold(struct vc_data *vc) { struct tty_struct *tty = vc->port.tty; if (rep || !tty) return; /* * Note: SCROLLOCK will be set (cleared) by stop_tty (start_tty); * these routines are also activated by ^S/^Q. * (And SCROLLOCK can also be set by the ioctl KDSKBLED.) */ if (tty->stopped) start_tty(tty); else stop_tty(tty); } static void fn_num(struct vc_data *vc) { if (vc_kbd_mode(kbd, VC_APPLIC)) applkey(vc, 'P', 1); else fn_bare_num(vc); } /* * Bind this to Shift-NumLock if you work in application keypad mode * but want to be able to change the NumLock flag. * Bind this to NumLock if you prefer that the NumLock key always * changes the NumLock flag. */ static void fn_bare_num(struct vc_data *vc) { if (!rep) chg_vc_kbd_led(kbd, VC_NUMLOCK); } static void fn_lastcons(struct vc_data *vc) { /* switch to the last used console, ChN */ set_console(last_console); } static void fn_dec_console(struct vc_data *vc) { int i, cur = fg_console; /* Currently switching? Queue this next switch relative to that. */ if (want_console != -1) cur = want_console; for (i = cur - 1; i != cur; i--) { if (i == -1) i = MAX_NR_CONSOLES - 1; if (vc_cons_allocated(i)) break; } set_console(i); } static void fn_inc_console(struct vc_data *vc) { int i, cur = fg_console; /* Currently switching? Queue this next switch relative to that. */ if (want_console != -1) cur = want_console; for (i = cur+1; i != cur; i++) { if (i == MAX_NR_CONSOLES) i = 0; if (vc_cons_allocated(i)) break; } set_console(i); } static void fn_send_intr(struct vc_data *vc) { tty_insert_flip_char(&vc->port, 0, TTY_BREAK); tty_schedule_flip(&vc->port); } static void fn_scroll_forw(struct vc_data *vc) { scrollfront(vc, 0); } static void fn_scroll_back(struct vc_data *vc) { scrollback(vc, 0); } static void fn_show_mem(struct vc_data *vc) { show_mem(0); } static void fn_show_state(struct vc_data *vc) { show_state(); } static void fn_boot_it(struct vc_data *vc) { ctrl_alt_del(); } static void fn_compose(struct vc_data *vc) { dead_key_next = true; } static void fn_spawn_con(struct vc_data *vc) { spin_lock(&vt_spawn_con.lock); if (vt_spawn_con.pid) if (kill_pid(vt_spawn_con.pid, vt_spawn_con.sig, 1)) { put_pid(vt_spawn_con.pid); vt_spawn_con.pid = NULL; } spin_unlock(&vt_spawn_con.lock); } static void fn_SAK(struct vc_data *vc) { struct work_struct *SAK_work = &vc_cons[fg_console].SAK_work; schedule_work(SAK_work); } static void fn_null(struct vc_data *vc) { do_compute_shiftstate(); } /* * Special key handlers */ static void k_ignore(struct vc_data *vc, unsigned char value, char up_flag) { } static void k_spec(struct vc_data *vc, unsigned char value, char up_flag) { if (up_flag) return; if (value >= ARRAY_SIZE(fn_handler)) return; if ((kbd->kbdmode == VC_RAW || kbd->kbdmode == VC_MEDIUMRAW || kbd->kbdmode == VC_OFF) && value != KVAL(K_SAK)) return; /* SAK is allowed even in raw mode */ fn_handler[value](vc); } static void k_lowercase(struct vc_data *vc, unsigned char value, char up_flag) { pr_err("k_lowercase was called - impossible\n"); } static void k_unicode(struct vc_data *vc, unsigned int value, char up_flag) { if (up_flag) return; /* no action, if this is a key release */ if (diacr) value = handle_diacr(vc, value); if (dead_key_next) { dead_key_next = false; diacr = value; return; } if (kbd->kbdmode == VC_UNICODE) to_utf8(vc, value); else { int c = conv_uni_to_8bit(value); if (c != -1) put_queue(vc, c); } } /* * Handle dead key. Note that we now may have several * dead keys modifying the same character. Very useful * for Vietnamese. */ static void k_deadunicode(struct vc_data *vc, unsigned int value, char up_flag) { if (up_flag) return; diacr = (diacr ? handle_diacr(vc, value) : value); } static void k_self(struct vc_data *vc, unsigned char value, char up_flag) { k_unicode(vc, conv_8bit_to_uni(value), up_flag); } static void k_dead2(struct vc_data *vc, unsigned char value, char up_flag) { k_deadunicode(vc, value, up_flag); } /* * Obsolete - for backwards compatibility only */ static void k_dead(struct vc_data *vc, unsigned char value, char up_flag) { static const unsigned char ret_diacr[NR_DEAD] = {'`', '\'', '^', '~', '"', ',' }; k_deadunicode(vc, ret_diacr[value], up_flag); } static void k_cons(struct vc_data *vc, unsigned char value, char up_flag) { if (up_flag) return; set_console(value); } static void k_fn(struct vc_data *vc, unsigned char value, char up_flag) { if (up_flag) return; if ((unsigned)value < ARRAY_SIZE(func_table)) { if (func_table[value]) puts_queue(vc, func_table[value]); } else pr_err("k_fn called with value=%d\n", value); } static void k_cur(struct vc_data *vc, unsigned char value, char up_flag) { static const char cur_chars[] = "BDCA"; if (up_flag) return; applkey(vc, cur_chars[value], vc_kbd_mode(kbd, VC_CKMODE)); } static void k_pad(struct vc_data *vc, unsigned char value, char up_flag) { static const char pad_chars[] = "0123456789+-*/\015,.?()#"; static const char app_map[] = "pqrstuvwxylSRQMnnmPQS"; if (up_flag) return; /* no action, if this is a key release */ /* kludge... shift forces cursor/number keys */ if (vc_kbd_mode(kbd, VC_APPLIC) && !shift_down[KG_SHIFT]) { applkey(vc, app_map[value], 1); return; } if (!vc_kbd_led(kbd, VC_NUMLOCK)) { switch (value) { case KVAL(K_PCOMMA): case KVAL(K_PDOT): k_fn(vc, KVAL(K_REMOVE), 0); return; case KVAL(K_P0): k_fn(vc, KVAL(K_INSERT), 0); return; case KVAL(K_P1): k_fn(vc, KVAL(K_SELECT), 0); return; case KVAL(K_P2): k_cur(vc, KVAL(K_DOWN), 0); return; case KVAL(K_P3): k_fn(vc, KVAL(K_PGDN), 0); return; case KVAL(K_P4): k_cur(vc, KVAL(K_LEFT), 0); return; case KVAL(K_P6): k_cur(vc, KVAL(K_RIGHT), 0); return; case KVAL(K_P7): k_fn(vc, KVAL(K_FIND), 0); return; case KVAL(K_P8): k_cur(vc, KVAL(K_UP), 0); return; case KVAL(K_P9): k_fn(vc, KVAL(K_PGUP), 0); return; case KVAL(K_P5): applkey(vc, 'G', vc_kbd_mode(kbd, VC_APPLIC)); return; } } put_queue(vc, pad_chars[value]); if (value == KVAL(K_PENTER) && vc_kbd_mode(kbd, VC_CRLF)) put_queue(vc, 10); } static void k_shift(struct vc_data *vc, unsigned char value, char up_flag) { int old_state = shift_state; if (rep) return; /* * Mimic typewriter: * a CapsShift key acts like Shift but undoes CapsLock */ if (value == KVAL(K_CAPSSHIFT)) { value = KVAL(K_SHIFT); if (!up_flag) clr_vc_kbd_led(kbd, VC_CAPSLOCK); } if (up_flag) { /* * handle the case that two shift or control * keys are depressed simultaneously */ if (shift_down[value]) shift_down[value]--; } else shift_down[value]++; if (shift_down[value]) shift_state |= (1 << value); else shift_state &= ~(1 << value); /* kludge */ if (up_flag && shift_state != old_state && npadch != -1) { if (kbd->kbdmode == VC_UNICODE) to_utf8(vc, npadch); else put_queue(vc, npadch & 0xff); npadch = -1; } } static void k_meta(struct vc_data *vc, unsigned char value, char up_flag) { if (up_flag) return; if (vc_kbd_mode(kbd, VC_META)) { put_queue(vc, '\033'); put_queue(vc, value); } else put_queue(vc, value | 0x80); } static void k_ascii(struct vc_data *vc, unsigned char value, char up_flag) { int base; if (up_flag) return; if (value < 10) { /* decimal input of code, while Alt depressed */ base = 10; } else { /* hexadecimal input of code, while AltGr depressed */ value -= 10; base = 16; } if (npadch == -1) npadch = value; else npadch = npadch * base + value; } static void k_lock(struct vc_data *vc, unsigned char value, char up_flag) { if (up_flag || rep) return; chg_vc_kbd_lock(kbd, value); } static void k_slock(struct vc_data *vc, unsigned char value, char up_flag) { k_shift(vc, value, up_flag); if (up_flag || rep) return; chg_vc_kbd_slock(kbd, value); /* try to make Alt, oops, AltGr and such work */ if (!key_maps[kbd->lockstate ^ kbd->slockstate]) { kbd->slockstate = 0; chg_vc_kbd_slock(kbd, value); } } /* by default, 300ms interval for combination release */ static unsigned brl_timeout = 300; MODULE_PARM_DESC(brl_timeout, "Braille keys release delay in ms (0 for commit on first key release)"); module_param(brl_timeout, uint, 0644); static unsigned brl_nbchords = 1; MODULE_PARM_DESC(brl_nbchords, "Number of chords that produce a braille pattern (0 for dead chords)"); module_param(brl_nbchords, uint, 0644); static void k_brlcommit(struct vc_data *vc, unsigned int pattern, char up_flag) { static unsigned long chords; static unsigned committed; if (!brl_nbchords) k_deadunicode(vc, BRL_UC_ROW | pattern, up_flag); else { committed |= pattern; chords++; if (chords == brl_nbchords) { k_unicode(vc, BRL_UC_ROW | committed, up_flag); chords = 0; committed = 0; } } } static void k_brl(struct vc_data *vc, unsigned char value, char up_flag) { static unsigned pressed, committing; static unsigned long releasestart; if (kbd->kbdmode != VC_UNICODE) { if (!up_flag) pr_warning("keyboard mode must be unicode for braille patterns\n"); return; } if (!value) { k_unicode(vc, BRL_UC_ROW, up_flag); return; } if (value > 8) return; if (!up_flag) { pressed |= 1 << (value - 1); if (!brl_timeout) committing = pressed; } else if (brl_timeout) { if (!committing || time_after(jiffies, releasestart + msecs_to_jiffies(brl_timeout))) { committing = pressed; releasestart = jiffies; } pressed &= ~(1 << (value - 1)); if (!pressed && committing) { k_brlcommit(vc, committing, 0); committing = 0; } } else { if (committing) { k_brlcommit(vc, committing, 0); committing = 0; } pressed &= ~(1 << (value - 1)); } } /* * The leds display either (i) the status of NumLock, CapsLock, ScrollLock, * or (ii) whatever pattern of lights people want to show using KDSETLED, * or (iii) specified bits of specified words in kernel memory. */ static unsigned char getledstate(void) { return ledstate; } void setledstate(struct kbd_struct *kb, unsigned int led) { unsigned long flags; spin_lock_irqsave(&led_lock, flags); if (!(led & ~7)) { ledioctl = led; kb->ledmode = LED_SHOW_IOCTL; } else kb->ledmode = LED_SHOW_FLAGS; set_leds(); spin_unlock_irqrestore(&led_lock, flags); } static inline unsigned char getleds(void) { struct kbd_struct *kb = kbd_table + fg_console; if (kb->ledmode == LED_SHOW_IOCTL) return ledioctl; return kb->ledflagstate; } static int kbd_update_leds_helper(struct input_handle *handle, void *data) { unsigned char leds = *(unsigned char *)data; if (test_bit(EV_LED, handle->dev->evbit)) { input_inject_event(handle, EV_LED, LED_SCROLLL, !!(leds & 0x01)); input_inject_event(handle, EV_LED, LED_NUML, !!(leds & 0x02)); input_inject_event(handle, EV_LED, LED_CAPSL, !!(leds & 0x04)); input_inject_event(handle, EV_SYN, SYN_REPORT, 0); } return 0; } /** * vt_get_leds - helper for braille console * @console: console to read * @flag: flag we want to check * * Check the status of a keyboard led flag and report it back */ int vt_get_leds(int console, int flag) { struct kbd_struct *kb = kbd_table + console; int ret; unsigned long flags; spin_lock_irqsave(&led_lock, flags); ret = vc_kbd_led(kb, flag); spin_unlock_irqrestore(&led_lock, flags); return ret; } EXPORT_SYMBOL_GPL(vt_get_leds); /** * vt_set_led_state - set LED state of a console * @console: console to set * @leds: LED bits * * Set the LEDs on a console. This is a wrapper for the VT layer * so that we can keep kbd knowledge internal */ void vt_set_led_state(int console, int leds) { struct kbd_struct *kb = kbd_table + console; setledstate(kb, leds); } /** * vt_kbd_con_start - Keyboard side of console start * @console: console * * Handle console start. This is a wrapper for the VT layer * so that we can keep kbd knowledge internal * * FIXME: We eventually need to hold the kbd lock here to protect * the LED updating. We can't do it yet because fn_hold calls stop_tty * and start_tty under the kbd_event_lock, while normal tty paths * don't hold the lock. We probably need to split out an LED lock * but not during an -rc release! */ void vt_kbd_con_start(int console) { struct kbd_struct *kb = kbd_table + console; unsigned long flags; spin_lock_irqsave(&led_lock, flags); clr_vc_kbd_led(kb, VC_SCROLLOCK); set_leds(); spin_unlock_irqrestore(&led_lock, flags); } /** * vt_kbd_con_stop - Keyboard side of console stop * @console: console * * Handle console stop. This is a wrapper for the VT layer * so that we can keep kbd knowledge internal */ void vt_kbd_con_stop(int console) { struct kbd_struct *kb = kbd_table + console; unsigned long flags; spin_lock_irqsave(&led_lock, flags); set_vc_kbd_led(kb, VC_SCROLLOCK); set_leds(); spin_unlock_irqrestore(&led_lock, flags); } /* * This is the tasklet that updates LED state on all keyboards * attached to the box. The reason we use tasklet is that we * need to handle the scenario when keyboard handler is not * registered yet but we already getting updates from the VT to * update led state. */ static void kbd_bh(unsigned long dummy) { unsigned char leds; unsigned long flags; spin_lock_irqsave(&led_lock, flags); leds = getleds(); spin_unlock_irqrestore(&led_lock, flags); if (leds != ledstate) { input_handler_for_each_handle(&kbd_handler, &leds, kbd_update_leds_helper); ledstate = leds; } } DECLARE_TASKLET_DISABLED(keyboard_tasklet, kbd_bh, 0); #if defined(CONFIG_X86) || defined(CONFIG_IA64) || defined(CONFIG_ALPHA) ||\ defined(CONFIG_MIPS) || defined(CONFIG_PPC) || defined(CONFIG_SPARC) ||\ defined(CONFIG_PARISC) || defined(CONFIG_SUPERH) ||\ (defined(CONFIG_ARM) && defined(CONFIG_KEYBOARD_ATKBD) && !defined(CONFIG_ARCH_RPC)) ||\ defined(CONFIG_AVR32) #define HW_RAW(dev) (test_bit(EV_MSC, dev->evbit) && test_bit(MSC_RAW, dev->mscbit) &&\ ((dev)->id.bustype == BUS_I8042) && ((dev)->id.vendor == 0x0001) && ((dev)->id.product == 0x0001)) static const unsigned short x86_keycodes[256] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84,118, 86, 87, 88,115,120,119,121,112,123, 92, 284,285,309, 0,312, 91,327,328,329,331,333,335,336,337,338,339, 367,288,302,304,350, 89,334,326,267,126,268,269,125,347,348,349, 360,261,262,263,268,376,100,101,321,316,373,286,289,102,351,355, 103,104,105,275,287,279,258,106,274,107,294,364,358,363,362,361, 291,108,381,281,290,272,292,305,280, 99,112,257,306,359,113,114, 264,117,271,374,379,265,266, 93, 94, 95, 85,259,375,260, 90,116, 377,109,111,277,278,282,283,295,296,297,299,300,301,293,303,307, 308,310,313,314,315,317,318,319,320,357,322,323,324,325,276,330, 332,340,365,342,343,344,345,346,356,270,341,368,369,370,371,372 }; #ifdef CONFIG_SPARC static int sparc_l1_a_state; extern void sun_do_break(void); #endif static int emulate_raw(struct vc_data *vc, unsigned int keycode, unsigned char up_flag) { int code; switch (keycode) { case KEY_PAUSE: put_queue(vc, 0xe1); put_queue(vc, 0x1d | up_flag); put_queue(vc, 0x45 | up_flag); break; case KEY_HANGEUL: if (!up_flag) put_queue(vc, 0xf2); break; case KEY_HANJA: if (!up_flag) put_queue(vc, 0xf1); break; case KEY_SYSRQ: /* * Real AT keyboards (that's what we're trying * to emulate here emit 0xe0 0x2a 0xe0 0x37 when * pressing PrtSc/SysRq alone, but simply 0x54 * when pressing Alt+PrtSc/SysRq. */ if (test_bit(KEY_LEFTALT, key_down) || test_bit(KEY_RIGHTALT, key_down)) { put_queue(vc, 0x54 | up_flag); } else { put_queue(vc, 0xe0); put_queue(vc, 0x2a | up_flag); put_queue(vc, 0xe0); put_queue(vc, 0x37 | up_flag); } break; default: if (keycode > 255) return -1; code = x86_keycodes[keycode]; if (!code) return -1; if (code & 0x100) put_queue(vc, 0xe0); put_queue(vc, (code & 0x7f) | up_flag); break; } return 0; } #else #define HW_RAW(dev) 0 static int emulate_raw(struct vc_data *vc, unsigned int keycode, unsigned char up_flag) { if (keycode > 127) return -1; put_queue(vc, keycode | up_flag); return 0; } #endif static void kbd_rawcode(unsigned char data) { struct vc_data *vc = vc_cons[fg_console].d; kbd = kbd_table + vc->vc_num; if (kbd->kbdmode == VC_RAW) put_queue(vc, data); } static void kbd_keycode(unsigned int keycode, int down, int hw_raw) { struct vc_data *vc = vc_cons[fg_console].d; unsigned short keysym, *key_map; unsigned char type; bool raw_mode; struct tty_struct *tty; int shift_final; struct keyboard_notifier_param param = { .vc = vc, .value = keycode, .down = down }; int rc; tty = vc->port.tty; if (tty && (!tty->driver_data)) { /* No driver data? Strange. Okay we fix it then. */ tty->driver_data = vc; } kbd = kbd_table + vc->vc_num; #ifdef CONFIG_SPARC if (keycode == KEY_STOP) sparc_l1_a_state = down; #endif rep = (down == 2); raw_mode = (kbd->kbdmode == VC_RAW); if (raw_mode && !hw_raw) if (emulate_raw(vc, keycode, !down << 7)) if (keycode < BTN_MISC && printk_ratelimit()) pr_warning("can't emulate rawmode for keycode %d\n", keycode); #ifdef CONFIG_SPARC if (keycode == KEY_A && sparc_l1_a_state) { sparc_l1_a_state = false; sun_do_break(); } #endif if (kbd->kbdmode == VC_MEDIUMRAW) { /* * This is extended medium raw mode, with keys above 127 * encoded as 0, high 7 bits, low 7 bits, with the 0 bearing * the 'up' flag if needed. 0 is reserved, so this shouldn't * interfere with anything else. The two bytes after 0 will * always have the up flag set not to interfere with older * applications. This allows for 16384 different keycodes, * which should be enough. */ if (keycode < 128) { put_queue(vc, keycode | (!down << 7)); } else { put_queue(vc, !down << 7); put_queue(vc, (keycode >> 7) | 0x80); put_queue(vc, keycode | 0x80); } raw_mode = true; } if (down) set_bit(keycode, key_down); else clear_bit(keycode, key_down); if (rep && (!vc_kbd_mode(kbd, VC_REPEAT) || (tty && !L_ECHO(tty) && tty_chars_in_buffer(tty)))) { /* * Don't repeat a key if the input buffers are not empty and the * characters get aren't echoed locally. This makes key repeat * usable with slow applications and under heavy loads. */ return; } param.shift = shift_final = (shift_state | kbd->slockstate) ^ kbd->lockstate; param.ledstate = kbd->ledflagstate; key_map = key_maps[shift_final]; rc = atomic_notifier_call_chain(&keyboard_notifier_list, KBD_KEYCODE, ¶m); if (rc == NOTIFY_STOP || !key_map) { atomic_notifier_call_chain(&keyboard_notifier_list, KBD_UNBOUND_KEYCODE, ¶m); do_compute_shiftstate(); kbd->slockstate = 0; return; } if (keycode < NR_KEYS) keysym = key_map[keycode]; else if (keycode >= KEY_BRL_DOT1 && keycode <= KEY_BRL_DOT8) keysym = U(K(KT_BRL, keycode - KEY_BRL_DOT1 + 1)); else return; type = KTYP(keysym); if (type < 0xf0) { param.value = keysym; rc = atomic_notifier_call_chain(&keyboard_notifier_list, KBD_UNICODE, ¶m); if (rc != NOTIFY_STOP) if (down && !raw_mode) to_utf8(vc, keysym); return; } type -= 0xf0; if (type == KT_LETTER) { type = KT_LATIN; if (vc_kbd_led(kbd, VC_CAPSLOCK)) { key_map = key_maps[shift_final ^ (1 << KG_SHIFT)]; if (key_map) keysym = key_map[keycode]; } } param.value = keysym; rc = atomic_notifier_call_chain(&keyboard_notifier_list, KBD_KEYSYM, ¶m); if (rc == NOTIFY_STOP) return; if ((raw_mode || kbd->kbdmode == VC_OFF) && type != KT_SPEC && type != KT_SHIFT) return; (*k_handler[type])(vc, keysym & 0xff, !down); param.ledstate = kbd->ledflagstate; atomic_notifier_call_chain(&keyboard_notifier_list, KBD_POST_KEYSYM, ¶m); if (type != KT_SLOCK) kbd->slockstate = 0; } static void kbd_event(struct input_handle *handle, unsigned int event_type, unsigned int event_code, int value) { /* We are called with interrupts disabled, just take the lock */ spin_lock(&kbd_event_lock); if (event_type == EV_MSC && event_code == MSC_RAW && HW_RAW(handle->dev)) kbd_rawcode(value); if (event_type == EV_KEY) kbd_keycode(event_code, value, HW_RAW(handle->dev)); spin_unlock(&kbd_event_lock); tasklet_schedule(&keyboard_tasklet); do_poke_blanked_console = 1; schedule_console_callback(); } static bool kbd_match(struct input_handler *handler, struct input_dev *dev) { int i; if (test_bit(EV_SND, dev->evbit)) return true; if (test_bit(EV_KEY, dev->evbit)) { for (i = KEY_RESERVED; i < BTN_MISC; i++) if (test_bit(i, dev->keybit)) return true; for (i = KEY_BRL_DOT1; i <= KEY_BRL_DOT10; i++) if (test_bit(i, dev->keybit)) return true; } return false; } /* * When a keyboard (or other input device) is found, the kbd_connect * function is called. The function then looks at the device, and if it * likes it, it can open it and get events from it. In this (kbd_connect) * function, we should decide which VT to bind that keyboard to initially. */ static int kbd_connect(struct input_handler *handler, struct input_dev *dev, const struct input_device_id *id) { struct input_handle *handle; int error; handle = kzalloc(sizeof(struct input_handle), GFP_KERNEL); if (!handle) return -ENOMEM; handle->dev = dev; handle->handler = handler; handle->name = "kbd"; error = input_register_handle(handle); if (error) goto err_free_handle; error = input_open_device(handle); if (error) goto err_unregister_handle; return 0; err_unregister_handle: input_unregister_handle(handle); err_free_handle: kfree(handle); return error; } static void kbd_disconnect(struct input_handle *handle) { input_close_device(handle); input_unregister_handle(handle); kfree(handle); } /* * Start keyboard handler on the new keyboard by refreshing LED state to * match the rest of the system. */ static void kbd_start(struct input_handle *handle) { tasklet_disable(&keyboard_tasklet); if (ledstate != 0xff) kbd_update_leds_helper(handle, &ledstate); tasklet_enable(&keyboard_tasklet); } static const struct input_device_id kbd_ids[] = { { .flags = INPUT_DEVICE_ID_MATCH_EVBIT, .evbit = { BIT_MASK(EV_KEY) }, }, { .flags = INPUT_DEVICE_ID_MATCH_EVBIT, .evbit = { BIT_MASK(EV_SND) }, }, { }, /* Terminating entry */ }; MODULE_DEVICE_TABLE(input, kbd_ids); static struct input_handler kbd_handler = { .event = kbd_event, .match = kbd_match, .connect = kbd_connect, .disconnect = kbd_disconnect, .start = kbd_start, .name = "kbd", .id_table = kbd_ids, }; int __init kbd_init(void) { int i; int error; for (i = 0; i < MAX_NR_CONSOLES; i++) { kbd_table[i].ledflagstate = kbd_defleds(); kbd_table[i].default_ledflagstate = kbd_defleds(); kbd_table[i].ledmode = LED_SHOW_FLAGS; kbd_table[i].lockstate = KBD_DEFLOCK; kbd_table[i].slockstate = 0; kbd_table[i].modeflags = KBD_DEFMODE; kbd_table[i].kbdmode = default_utf8 ? VC_UNICODE : VC_XLATE; } error = input_register_handler(&kbd_handler); if (error) return error; tasklet_enable(&keyboard_tasklet); tasklet_schedule(&keyboard_tasklet); return 0; } /* Ioctl support code */ /** * vt_do_diacrit - diacritical table updates * @cmd: ioctl request * @udp: pointer to user data for ioctl * @perm: permissions check computed by caller * * Update the diacritical tables atomically and safely. Lock them * against simultaneous keypresses */ int vt_do_diacrit(unsigned int cmd, void __user *udp, int perm) { unsigned long flags; int asize; int ret = 0; switch (cmd) { case KDGKBDIACR: { struct kbdiacrs __user *a = udp; struct kbdiacr *dia; int i; dia = kmalloc(MAX_DIACR * sizeof(struct kbdiacr), GFP_KERNEL); if (!dia) return -ENOMEM; /* Lock the diacriticals table, make a copy and then copy it after we unlock */ spin_lock_irqsave(&kbd_event_lock, flags); asize = accent_table_size; for (i = 0; i < asize; i++) { dia[i].diacr = conv_uni_to_8bit( accent_table[i].diacr); dia[i].base = conv_uni_to_8bit( accent_table[i].base); dia[i].result = conv_uni_to_8bit( accent_table[i].result); } spin_unlock_irqrestore(&kbd_event_lock, flags); if (put_user(asize, &a->kb_cnt)) ret = -EFAULT; else if (copy_to_user(a->kbdiacr, dia, asize * sizeof(struct kbdiacr))) ret = -EFAULT; kfree(dia); return ret; } case KDGKBDIACRUC: { struct kbdiacrsuc __user *a = udp; void *buf; buf = kmalloc(MAX_DIACR * sizeof(struct kbdiacruc), GFP_KERNEL); if (buf == NULL) return -ENOMEM; /* Lock the diacriticals table, make a copy and then copy it after we unlock */ spin_lock_irqsave(&kbd_event_lock, flags); asize = accent_table_size; memcpy(buf, accent_table, asize * sizeof(struct kbdiacruc)); spin_unlock_irqrestore(&kbd_event_lock, flags); if (put_user(asize, &a->kb_cnt)) ret = -EFAULT; else if (copy_to_user(a->kbdiacruc, buf, asize*sizeof(struct kbdiacruc))) ret = -EFAULT; kfree(buf); return ret; } case KDSKBDIACR: { struct kbdiacrs __user *a = udp; struct kbdiacr *dia = NULL; unsigned int ct; int i; if (!perm) return -EPERM; if (get_user(ct, &a->kb_cnt)) return -EFAULT; if (ct >= MAX_DIACR) return -EINVAL; if (ct) { dia = kmalloc(sizeof(struct kbdiacr) * ct, GFP_KERNEL); if (!dia) return -ENOMEM; if (copy_from_user(dia, a->kbdiacr, sizeof(struct kbdiacr) * ct)) { kfree(dia); return -EFAULT; } } spin_lock_irqsave(&kbd_event_lock, flags); accent_table_size = ct; for (i = 0; i < ct; i++) { accent_table[i].diacr = conv_8bit_to_uni(dia[i].diacr); accent_table[i].base = conv_8bit_to_uni(dia[i].base); accent_table[i].result = conv_8bit_to_uni(dia[i].result); } spin_unlock_irqrestore(&kbd_event_lock, flags); kfree(dia); return 0; } case KDSKBDIACRUC: { struct kbdiacrsuc __user *a = udp; unsigned int ct; void *buf = NULL; if (!perm) return -EPERM; if (get_user(ct, &a->kb_cnt)) return -EFAULT; if (ct >= MAX_DIACR) return -EINVAL; if (ct) { buf = kmalloc(ct * sizeof(struct kbdiacruc), GFP_KERNEL); if (buf == NULL) return -ENOMEM; if (copy_from_user(buf, a->kbdiacruc, ct * sizeof(struct kbdiacruc))) { kfree(buf); return -EFAULT; } } spin_lock_irqsave(&kbd_event_lock, flags); if (ct) memcpy(accent_table, buf, ct * sizeof(struct kbdiacruc)); accent_table_size = ct; spin_unlock_irqrestore(&kbd_event_lock, flags); kfree(buf); return 0; } } return ret; } /** * vt_do_kdskbmode - set keyboard mode ioctl * @console: the console to use * @arg: the requested mode * * Update the keyboard mode bits while holding the correct locks. * Return 0 for success or an error code. */ int vt_do_kdskbmode(int console, unsigned int arg) { struct kbd_struct *kb = kbd_table + console; int ret = 0; unsigned long flags; spin_lock_irqsave(&kbd_event_lock, flags); switch(arg) { case K_RAW: kb->kbdmode = VC_RAW; break; case K_MEDIUMRAW: kb->kbdmode = VC_MEDIUMRAW; break; case K_XLATE: kb->kbdmode = VC_XLATE; do_compute_shiftstate(); break; case K_UNICODE: kb->kbdmode = VC_UNICODE; do_compute_shiftstate(); break; case K_OFF: kb->kbdmode = VC_OFF; break; default: ret = -EINVAL; } spin_unlock_irqrestore(&kbd_event_lock, flags); return ret; } /** * vt_do_kdskbmeta - set keyboard meta state * @console: the console to use * @arg: the requested meta state * * Update the keyboard meta bits while holding the correct locks. * Return 0 for success or an error code. */ int vt_do_kdskbmeta(int console, unsigned int arg) { struct kbd_struct *kb = kbd_table + console; int ret = 0; unsigned long flags; spin_lock_irqsave(&kbd_event_lock, flags); switch(arg) { case K_METABIT: clr_vc_kbd_mode(kb, VC_META); break; case K_ESCPREFIX: set_vc_kbd_mode(kb, VC_META); break; default: ret = -EINVAL; } spin_unlock_irqrestore(&kbd_event_lock, flags); return ret; } int vt_do_kbkeycode_ioctl(int cmd, struct kbkeycode __user *user_kbkc, int perm) { struct kbkeycode tmp; int kc = 0; if (copy_from_user(&tmp, user_kbkc, sizeof(struct kbkeycode))) return -EFAULT; switch (cmd) { case KDGETKEYCODE: kc = getkeycode(tmp.scancode); if (kc >= 0) kc = put_user(kc, &user_kbkc->keycode); break; case KDSETKEYCODE: if (!perm) return -EPERM; kc = setkeycode(tmp.scancode, tmp.keycode); break; } return kc; } #define i (tmp.kb_index) #define s (tmp.kb_table) #define v (tmp.kb_value) int vt_do_kdsk_ioctl(int cmd, struct kbentry __user *user_kbe, int perm, int console) { struct kbd_struct *kb = kbd_table + console; struct kbentry tmp; ushort *key_map, *new_map, val, ov; unsigned long flags; if (copy_from_user(&tmp, user_kbe, sizeof(struct kbentry))) return -EFAULT; if (!capable(CAP_SYS_TTY_CONFIG)) perm = 0; switch (cmd) { case KDGKBENT: /* Ensure another thread doesn't free it under us */ spin_lock_irqsave(&kbd_event_lock, flags); key_map = key_maps[s]; if (key_map) { val = U(key_map[i]); if (kb->kbdmode != VC_UNICODE && KTYP(val) >= NR_TYPES) val = K_HOLE; } else val = (i ? K_HOLE : K_NOSUCHMAP); spin_unlock_irqrestore(&kbd_event_lock, flags); return put_user(val, &user_kbe->kb_value); case KDSKBENT: if (!perm) return -EPERM; if (!i && v == K_NOSUCHMAP) { spin_lock_irqsave(&kbd_event_lock, flags); /* deallocate map */ key_map = key_maps[s]; if (s && key_map) { key_maps[s] = NULL; if (key_map[0] == U(K_ALLOCATED)) { kfree(key_map); keymap_count--; } } spin_unlock_irqrestore(&kbd_event_lock, flags); break; } if (KTYP(v) < NR_TYPES) { if (KVAL(v) > max_vals[KTYP(v)]) return -EINVAL; } else if (kb->kbdmode != VC_UNICODE) return -EINVAL; /* ++Geert: non-PC keyboards may generate keycode zero */ #if !defined(__mc68000__) && !defined(__powerpc__) /* assignment to entry 0 only tests validity of args */ if (!i) break; #endif new_map = kmalloc(sizeof(plain_map), GFP_KERNEL); if (!new_map) return -ENOMEM; spin_lock_irqsave(&kbd_event_lock, flags); key_map = key_maps[s]; if (key_map == NULL) { int j; if (keymap_count >= MAX_NR_OF_USER_KEYMAPS && !capable(CAP_SYS_RESOURCE)) { spin_unlock_irqrestore(&kbd_event_lock, flags); kfree(new_map); return -EPERM; } key_maps[s] = new_map; key_map = new_map; key_map[0] = U(K_ALLOCATED); for (j = 1; j < NR_KEYS; j++) key_map[j] = U(K_HOLE); keymap_count++; } else kfree(new_map); ov = U(key_map[i]); if (v == ov) goto out; /* * Attention Key. */ if (((ov == K_SAK) || (v == K_SAK)) && !capable(CAP_SYS_ADMIN)) { spin_unlock_irqrestore(&kbd_event_lock, flags); return -EPERM; } key_map[i] = U(v); if (!s && (KTYP(ov) == KT_SHIFT || KTYP(v) == KT_SHIFT)) do_compute_shiftstate(); out: spin_unlock_irqrestore(&kbd_event_lock, flags); break; } return 0; } #undef i #undef s #undef v /* FIXME: This one needs untangling and locking */ int vt_do_kdgkb_ioctl(int cmd, struct kbsentry __user *user_kdgkb, int perm) { struct kbsentry *kbs; char *p; u_char *q; u_char __user *up; int sz; int delta; char *first_free, *fj, *fnw; int i, j, k; int ret; if (!capable(CAP_SYS_TTY_CONFIG)) perm = 0; kbs = kmalloc(sizeof(*kbs), GFP_KERNEL); if (!kbs) { ret = -ENOMEM; goto reterr; } /* we mostly copy too much here (512bytes), but who cares ;) */ if (copy_from_user(kbs, user_kdgkb, sizeof(struct kbsentry))) { ret = -EFAULT; goto reterr; } kbs->kb_string[sizeof(kbs->kb_string)-1] = '\0'; i = kbs->kb_func; switch (cmd) { case KDGKBSENT: sz = sizeof(kbs->kb_string) - 1; /* sz should have been a struct member */ up = user_kdgkb->kb_string; p = func_table[i]; if(p) for ( ; *p && sz; p++, sz--) if (put_user(*p, up++)) { ret = -EFAULT; goto reterr; } if (put_user('\0', up)) { ret = -EFAULT; goto reterr; } kfree(kbs); return ((p && *p) ? -EOVERFLOW : 0); case KDSKBSENT: if (!perm) { ret = -EPERM; goto reterr; } q = func_table[i]; first_free = funcbufptr + (funcbufsize - funcbufleft); for (j = i+1; j < MAX_NR_FUNC && !func_table[j]; j++) ; if (j < MAX_NR_FUNC) fj = func_table[j]; else fj = first_free; delta = (q ? -strlen(q) : 1) + strlen(kbs->kb_string); if (delta <= funcbufleft) { /* it fits in current buf */ if (j < MAX_NR_FUNC) { memmove(fj + delta, fj, first_free - fj); for (k = j; k < MAX_NR_FUNC; k++) if (func_table[k]) func_table[k] += delta; } if (!q) func_table[i] = fj; funcbufleft -= delta; } else { /* allocate a larger buffer */ sz = 256; while (sz < funcbufsize - funcbufleft + delta) sz <<= 1; fnw = kmalloc(sz, GFP_KERNEL); if(!fnw) { ret = -ENOMEM; goto reterr; } if (!q) func_table[i] = fj; if (fj > funcbufptr) memmove(fnw, funcbufptr, fj - funcbufptr); for (k = 0; k < j; k++) if (func_table[k]) func_table[k] = fnw + (func_table[k] - funcbufptr); if (first_free > fj) { memmove(fnw + (fj - funcbufptr) + delta, fj, first_free - fj); for (k = j; k < MAX_NR_FUNC; k++) if (func_table[k]) func_table[k] = fnw + (func_table[k] - funcbufptr) + delta; } if (funcbufptr != func_buf) kfree(funcbufptr); funcbufptr = fnw; funcbufleft = funcbufleft - delta + sz - funcbufsize; funcbufsize = sz; } strcpy(func_table[i], kbs->kb_string); break; } ret = 0; reterr: kfree(kbs); return ret; } int vt_do_kdskled(int console, int cmd, unsigned long arg, int perm) { struct kbd_struct *kb = kbd_table + console; unsigned long flags; unsigned char ucval; switch(cmd) { /* the ioctls below read/set the flags usually shown in the leds */ /* don't use them - they will go away without warning */ case KDGKBLED: spin_lock_irqsave(&kbd_event_lock, flags); ucval = kb->ledflagstate | (kb->default_ledflagstate << 4); spin_unlock_irqrestore(&kbd_event_lock, flags); return put_user(ucval, (char __user *)arg); case KDSKBLED: if (!perm) return -EPERM; if (arg & ~0x77) return -EINVAL; spin_lock_irqsave(&led_lock, flags); kb->ledflagstate = (arg & 7); kb->default_ledflagstate = ((arg >> 4) & 7); set_leds(); spin_unlock_irqrestore(&led_lock, flags); return 0; /* the ioctls below only set the lights, not the functions */ /* for those, see KDGKBLED and KDSKBLED above */ case KDGETLED: ucval = getledstate(); return put_user(ucval, (char __user *)arg); case KDSETLED: if (!perm) return -EPERM; setledstate(kb, arg); return 0; } return -ENOIOCTLCMD; } int vt_do_kdgkbmode(int console) { struct kbd_struct *kb = kbd_table + console; /* This is a spot read so needs no locking */ switch (kb->kbdmode) { case VC_RAW: return K_RAW; case VC_MEDIUMRAW: return K_MEDIUMRAW; case VC_UNICODE: return K_UNICODE; case VC_OFF: return K_OFF; default: return K_XLATE; } } /** * vt_do_kdgkbmeta - report meta status * @console: console to report * * Report the meta flag status of this console */ int vt_do_kdgkbmeta(int console) { struct kbd_struct *kb = kbd_table + console; /* Again a spot read so no locking */ return vc_kbd_mode(kb, VC_META) ? K_ESCPREFIX : K_METABIT; } /** * vt_reset_unicode - reset the unicode status * @console: console being reset * * Restore the unicode console state to its default */ void vt_reset_unicode(int console) { unsigned long flags; spin_lock_irqsave(&kbd_event_lock, flags); kbd_table[console].kbdmode = default_utf8 ? VC_UNICODE : VC_XLATE; spin_unlock_irqrestore(&kbd_event_lock, flags); } /** * vt_get_shiftstate - shift bit state * * Report the shift bits from the keyboard state. We have to export * this to support some oddities in the vt layer. */ int vt_get_shift_state(void) { /* Don't lock as this is a transient report */ return shift_state; } /** * vt_reset_keyboard - reset keyboard state * @console: console to reset * * Reset the keyboard bits for a console as part of a general console * reset event */ void vt_reset_keyboard(int console) { struct kbd_struct *kb = kbd_table + console; unsigned long flags; spin_lock_irqsave(&kbd_event_lock, flags); set_vc_kbd_mode(kb, VC_REPEAT); clr_vc_kbd_mode(kb, VC_CKMODE); clr_vc_kbd_mode(kb, VC_APPLIC); clr_vc_kbd_mode(kb, VC_CRLF); kb->lockstate = 0; kb->slockstate = 0; spin_lock(&led_lock); kb->ledmode = LED_SHOW_FLAGS; kb->ledflagstate = kb->default_ledflagstate; spin_unlock(&led_lock); /* do not do set_leds here because this causes an endless tasklet loop when the keyboard hasn't been initialized yet */ spin_unlock_irqrestore(&kbd_event_lock, flags); } /** * vt_get_kbd_mode_bit - read keyboard status bits * @console: console to read from * @bit: mode bit to read * * Report back a vt mode bit. We do this without locking so the * caller must be sure that there are no synchronization needs */ int vt_get_kbd_mode_bit(int console, int bit) { struct kbd_struct *kb = kbd_table + console; return vc_kbd_mode(kb, bit); } /** * vt_set_kbd_mode_bit - read keyboard status bits * @console: console to read from * @bit: mode bit to read * * Set a vt mode bit. We do this without locking so the * caller must be sure that there are no synchronization needs */ void vt_set_kbd_mode_bit(int console, int bit) { struct kbd_struct *kb = kbd_table + console; unsigned long flags; spin_lock_irqsave(&kbd_event_lock, flags); set_vc_kbd_mode(kb, bit); spin_unlock_irqrestore(&kbd_event_lock, flags); } /** * vt_clr_kbd_mode_bit - read keyboard status bits * @console: console to read from * @bit: mode bit to read * * Report back a vt mode bit. We do this without locking so the * caller must be sure that there are no synchronization needs */ void vt_clr_kbd_mode_bit(int console, int bit) { struct kbd_struct *kb = kbd_table + console; unsigned long flags; spin_lock_irqsave(&kbd_event_lock, flags); clr_vc_kbd_mode(kb, bit); spin_unlock_irqrestore(&kbd_event_lock, flags); } |