/* * * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (C) 2001 Maciej W. Rozycki */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "zs.h" #include "lk201.h" /* Simple translation table for the SysRq keys */ #ifdef CONFIG_MAGIC_SYSRQ /* * Actually no translation at all, at least until we figure out * how to define SysRq for LK201 and friends. --macro */ unsigned char lk201_sysrq_xlate[128]; unsigned char *kbd_sysrq_xlate = lk201_sysrq_xlate; unsigned char kbd_sysrq_key = -1; #endif #define KEYB_LINE 3 static int __init lk201_init(struct dec_serial *); static void __init lk201_info(struct dec_serial *); static void lk201_kbd_rx_char(unsigned char, unsigned char); struct zs_hook lk201_kbdhook = { init_channel: lk201_init, init_info: lk201_info, rx_char: NULL, poll_rx_char: NULL, poll_tx_char: NULL, cflags: B4800 | CS8 | CSTOPB | CLOCAL }; /* * This is used during keyboard initialisation */ static unsigned char lk201_reset_string[] = { LK_CMD_LEDS_ON, LK_PARAM_LED_MASK(0xf), /* show we are resetting */ LK_CMD_SET_DEFAULTS, LK_CMD_MODE(LK_MODE_RPT_DOWN, 1), LK_CMD_MODE(LK_MODE_RPT_DOWN, 2), LK_CMD_MODE(LK_MODE_RPT_DOWN, 3), LK_CMD_MODE(LK_MODE_RPT_DOWN, 4), LK_CMD_MODE(LK_MODE_DOWN_UP, 5), LK_CMD_MODE(LK_MODE_DOWN_UP, 6), LK_CMD_MODE(LK_MODE_RPT_DOWN, 7), LK_CMD_MODE(LK_MODE_RPT_DOWN, 8), LK_CMD_MODE(LK_MODE_RPT_DOWN, 9), LK_CMD_MODE(LK_MODE_RPT_DOWN, 10), LK_CMD_MODE(LK_MODE_RPT_DOWN, 11), LK_CMD_MODE(LK_MODE_RPT_DOWN, 12), LK_CMD_MODE(LK_MODE_DOWN, 13), LK_CMD_MODE(LK_MODE_RPT_DOWN, 14), LK_CMD_ENB_RPT, LK_CMD_DIS_KEYCLK, LK_CMD_RESUME, LK_CMD_ENB_BELL, LK_PARAM_VOLUME(4), LK_CMD_LEDS_OFF, LK_PARAM_LED_MASK(0xf) }; static struct dec_serial* lk201kbd_info; static int __init lk201_reset(struct dec_serial *info) { int i; for (i = 0; i < sizeof(lk201_reset_string); i++) if (info->hook->poll_tx_char(info, lk201_reset_string[i])) { printk(__FUNCTION__" transmit timeout\n"); return -EIO; } return 0; } #define DEFAULT_KEYB_REP_DELAY (250/5) /* [5ms] */ #define DEFAULT_KEYB_REP_RATE 30 /* [cps] */ static struct kbd_repeat kbdrate = { DEFAULT_KEYB_REP_DELAY, DEFAULT_KEYB_REP_RATE }; static void parse_kbd_rate(struct kbd_repeat *r) { if (r->delay <= 0) r->delay = kbdrate.delay; if (r->rate <= 0) r->rate = kbdrate.rate; if (r->delay < 5) r->delay = 5; if (r->delay > 630) r->delay = 630; if (r->rate < 12) r->rate = 12; if (r->rate > 127) r->rate = 127; if (r->rate == 125) r->rate = 124; } static int write_kbd_rate(struct kbd_repeat *rep) { struct dec_serial* info = lk201kbd_info; int delay, rate; int i; delay = rep->delay / 5; rate = rep->rate; for (i = 0; i < 4; i++) { if (info->hook->poll_tx_char(info, LK_CMD_RPT_RATE(i))) return 1; if (info->hook->poll_tx_char(info, LK_PARAM_DELAY(delay))) return 1; if (info->hook->poll_tx_char(info, LK_PARAM_RATE(rate))) return 1; } return 0; } static int lk201kbd_rate(struct kbd_repeat *rep) { if (rep == NULL) return -EINVAL; parse_kbd_rate(rep); if (write_kbd_rate(rep)) { memcpy(rep, &kbdrate, sizeof(struct kbd_repeat)); return -EIO; } memcpy(&kbdrate, rep, sizeof(struct kbd_repeat)); return 0; } static void lk201kd_mksound(unsigned int hz, unsigned int ticks) { struct dec_serial* info = lk201kbd_info; if (!ticks) return; /* * Can't set frequency and we "approximate" * duration by volume. ;-) */ ticks /= HZ / 32; if (ticks > 7) ticks = 7; ticks = 7 - ticks; if (info->hook->poll_tx_char(info, LK_CMD_ENB_BELL)) return; if (info->hook->poll_tx_char(info, LK_PARAM_VOLUME(ticks))) return; if (info->hook->poll_tx_char(info, LK_CMD_BELL)) return; } void kbd_leds(unsigned char leds) { struct dec_serial* info = lk201kbd_info; unsigned char l = 0; if (!info) /* FIXME */ return; /* FIXME -- Only Hold and Lock LEDs for now. --macro */ if (leds & LED_SCR) l |= LK_LED_HOLD; if (leds & LED_CAP) l |= LK_LED_LOCK; if (info->hook->poll_tx_char(info, LK_CMD_LEDS_ON)) return; if (info->hook->poll_tx_char(info, LK_PARAM_LED_MASK(l))) return; if (info->hook->poll_tx_char(info, LK_CMD_LEDS_OFF)) return; if (info->hook->poll_tx_char(info, LK_PARAM_LED_MASK(~l))) return; } int kbd_setkeycode(unsigned int scancode, unsigned int keycode) { return -EINVAL; } int kbd_getkeycode(unsigned int scancode) { return -EINVAL; } int kbd_translate(unsigned char scancode, unsigned char *keycode, char raw_mode) { *keycode = scancode; return 1; } char kbd_unexpected_up(unsigned char keycode) { return 0x80; } static void lk201_kbd_rx_char(unsigned char ch, unsigned char stat) { static int shift_state = 0; static int prev_scancode; unsigned char c = scancodeRemap[ch]; if (!stat || stat == 4) { switch (ch) { case LK_STAT_RESUME_ERR: case LK_STAT_ERROR: case LK_STAT_INHIBIT_ACK: case LK_STAT_TEST_ACK: case LK_STAT_MODE_KEYDOWN: case LK_STAT_MODE_ACK: break; case LK_KEY_LOCK: shift_state ^= LK_LOCK; handle_scancode(c, shift_state && LK_LOCK ? 1 : 0); break; case LK_KEY_SHIFT: shift_state ^= LK_SHIFT; handle_scancode(c, shift_state && LK_SHIFT ? 1 : 0); break; case LK_KEY_CTRL: shift_state ^= LK_CTRL; handle_scancode(c, shift_state && LK_CTRL ? 1 : 0); break; case LK_KEY_COMP: shift_state ^= LK_COMP; handle_scancode(c, shift_state && LK_COMP ? 1 : 0); break; case LK_KEY_RELEASE: if (shift_state & LK_SHIFT) handle_scancode(scancodeRemap[LK_KEY_SHIFT], 0); if (shift_state & LK_CTRL) handle_scancode(scancodeRemap[LK_KEY_CTRL], 0); if (shift_state & LK_COMP) handle_scancode(scancodeRemap[LK_KEY_COMP], 0); if (shift_state & LK_LOCK) handle_scancode(scancodeRemap[LK_KEY_LOCK], 0); shift_state = 0; break; case LK_KEY_REPEAT: handle_scancode(prev_scancode, 1); break; default: prev_scancode = c; handle_scancode(c, 1); break; } } else printk("Error reading LKx01 keyboard: 0x%02x\n", stat); tasklet_schedule(&keyboard_tasklet); } static void __init lk201_info(struct dec_serial *info) { } static int __init lk201_init(struct dec_serial *info) { unsigned int ch, id = 0; int result; printk("DECstation LK keyboard driver v0.04... "); result = lk201_reset(info); if (result) return result; mdelay(10); /* * Detect whether there is an LK201 or an LK401 * The LK401 has ALT keys... */ info->hook->poll_tx_char(info, LK_CMD_REQ_ID); while ((ch = info->hook->poll_rx_char(info)) > 0) id = ch; switch (id) { case 1: printk("LK201 detected\n"); break; case 2: printk("LK401 detected\n"); break; default: printk("unknown keyboard, ID %d,\n", id); printk("... please report to \n"); } /* * now we're ready */ info->hook->rx_char = lk201_kbd_rx_char; lk201kbd_info = info; kbd_rate = lk201kbd_rate; kd_mksound = lk201kd_mksound; return 0; } void __init kbd_init_hw(void) { extern int register_zs_hook(unsigned int, struct zs_hook *); extern int unregister_zs_hook(unsigned int); if (TURBOCHANNEL) { if (mips_machtype != MACH_DS5000_XX) { /* * This is not a MAXINE, so: * * kbd_init_hw() is being called before * rs_init() so just register the kbd hook * and let zs_init do the rest :-) */ if (mips_machtype == MACH_DS5000_200) printk("LK201 Support for DS5000/200 not yet ready ...\n"); else if(!register_zs_hook(KEYB_LINE, &lk201_kbdhook)) unregister_zs_hook(KEYB_LINE); } } else { /* * TODO: modify dz.c to allow similar hooks * for LK201 handling on DS2100, DS3100, and DS5000/200 */ printk("LK201 Support for DS3100 not yet ready ...\n"); } }