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Rev | Author | Line No. | Line |
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519 | mauro | 1 | /* |
2 | * Project: S.Ha.R.K. |
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3 | * |
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4 | * Coordinators: |
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5 | * Giorgio Buttazzo <giorgio@sssup.it> |
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6 | * Paolo Gai <pj@gandalf.sssup.it> |
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7 | * |
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8 | * Authors : |
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9 | * Paolo Gai <pj@gandalf.sssup.it> |
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10 | * Massimiliano Giorgi <massy@gandalf.sssup.it> |
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11 | * Luca Abeni <luca@gandalf.sssup.it> |
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12 | * Mauro Marinoni <mauro.marinoni@unipv.it> |
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13 | * (see the web pages for full authors list) |
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14 | * |
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15 | * ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy) |
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16 | * |
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17 | * http://www.sssup.it |
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18 | * http://retis.sssup.it |
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19 | * http://shark.sssup.it |
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20 | */ |
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21 | |||
1063 | tullio | 22 | /* |
23 | * This program is free software; you can redistribute it and/or modify |
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24 | * it under the terms of the GNU General Public License as published by |
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25 | * the Free Software Foundation; either version 2 of the License, or |
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26 | * (at your option) any later version. |
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27 | * |
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28 | * This program is distributed in the hope that it will be useful, |
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29 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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30 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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31 | * GNU General Public License for more details. |
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32 | * |
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33 | * You should have received a copy of the GNU General Public License |
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34 | * along with this program; if not, write to the Free Software |
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35 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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36 | * |
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37 | */ |
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38 | |||
519 | mauro | 39 | //#define __KEYB_DEBUG__ |
523 | mauro | 40 | #define KEYB_TASK |
519 | mauro | 41 | |
42 | #include <kernel/kern.h> |
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1034 | mauro | 43 | #include <kernel/int_sem.h> |
519 | mauro | 44 | #include <signal.h> |
45 | |||
46 | #include "../include/drivers/shark_input26.h" |
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47 | #include "../include/drivers/shark_keyb26.h" |
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48 | |||
49 | /* Devices */ |
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1015 | mauro | 50 | extern int atkbd_init(int soft); |
519 | mauro | 51 | extern int atkbd_exit(void); |
52 | |||
53 | /* Handlers */ |
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54 | extern int kbd_init(void); |
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55 | extern int kbd_exit(void); |
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56 | |||
523 | mauro | 57 | /* Functions */ |
519 | mauro | 58 | extern int kbd_enable(void); |
59 | extern int kbd_disable(void); |
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60 | extern int kbd_get(unsigned int *data, BYTE access); |
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61 | extern void kbd_setleds(unsigned int led); |
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62 | extern int kbd_rate(unsigned int *delay, unsigned int *period); |
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63 | extern void kbd_mksound(unsigned int hz, unsigned int ticks); |
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64 | |||
65 | /* |
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66 | * The following tables contains the ascii code corresponding to the |
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67 | * scan codes, with shift & no shift... |
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68 | */ |
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69 | char keyTable [TABLE_KEY_SIZE]; |
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70 | char keyShiftTable[TABLE_KEY_SIZE]; |
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71 | char keyAltGrTable[TABLE_KEY_SIZE]; |
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72 | |||
73 | BYTE useAltGr = FALSE; |
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74 | |||
75 | /* Status variables */ |
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76 | static BYTE shift = FALSE; |
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77 | static BYTE ctrl = FALSE; |
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78 | static BYTE alt = FALSE; |
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79 | static BYTE altgr = FALSE; |
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80 | |||
81 | static BYTE capslock = FALSE; |
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82 | static BYTE numlock = TRUE; |
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83 | static BYTE scrolllock = FALSE; |
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84 | |||
85 | /* Keyboard Flags (if shift, alt or control are pressed...); */ |
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86 | static BYTE keyFlag = 0x00; |
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87 | static BYTE status; |
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88 | |||
89 | /* Keyboard driver currently installed */ |
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90 | static int keyb_installed = FALSE; |
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91 | |||
92 | |||
93 | #define MAX_KEY_EXC 50 |
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94 | |||
95 | static struct keyexctable |
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96 | { |
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97 | KEY_EVT evt; |
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98 | void (*func) (KEY_EVT * k); |
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99 | unsigned char lock; |
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100 | } keyExcTable[MAX_KEY_EXC]; |
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101 | |||
102 | static int lastExc; |
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103 | |||
1034 | mauro | 104 | /* Buffer used for the communication between the extern process & the user */ |
519 | mauro | 105 | |
1034 | mauro | 106 | /* Buffer Ssize */ |
107 | #define KEYBUFF_SIZE 256 |
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108 | /* Buffer Mask ( i=(i+1)&MASK is better than i=(i+1)%SIZE ) */ |
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109 | #define KEYBUFF_MASK 0xff |
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110 | |||
111 | static KEY_EVT keybuff[KEYBUFF_SIZE]; |
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112 | static int keybuff_head = 1; |
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113 | static int keybuff_tail = 0; |
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114 | static internal_sem_t keybuff_mutex; |
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115 | static int keybuff_mutex_init = 0; |
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116 | |||
522 | mauro | 117 | #ifdef KEYB_TASK |
519 | mauro | 118 | /* keyboard task PID */ |
119 | static PID keybpid; |
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522 | mauro | 120 | #else |
523 | mauro | 121 | static void keyProc(void); |
522 | mauro | 122 | #endif |
519 | mauro | 123 | |
124 | /* |
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522 | mauro | 125 | * Start keyProc Task or exec it as function |
519 | mauro | 126 | */ |
522 | mauro | 127 | void shark_kbd_exec(void) |
519 | mauro | 128 | { |
522 | mauro | 129 | #ifdef KEYB_TASK |
519 | mauro | 130 | task_activate(keybpid); |
522 | mauro | 131 | #else |
132 | keyProc(); |
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133 | #endif |
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519 | mauro | 134 | } |
135 | |||
136 | /* |
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137 | * This function get a scan code, return an ascii code and set |
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138 | * the status vars in order to handle the special keys of the AT keyboard |
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139 | */ |
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140 | WORD scanCode(unsigned int c, int d) |
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141 | { |
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142 | //printk("scanCode: c (%x) - d (%d)\n", c, d); |
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143 | |||
144 | /* KEY_EVT status setting */ |
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749 | mauro | 145 | status = 1 << d; |
519 | mauro | 146 | |
147 | switch (c) { |
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148 | /* CapsLock pressed*/ |
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149 | case KEY_CPSLOCK: |
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150 | if (d == KEY_PRESSED) { |
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151 | capslock = capslock ? FALSE : TRUE; |
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152 | /* light the caps lock led */ |
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153 | kbd_setleds(scrolllock + (numlock << 1) + (capslock << 2)); |
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154 | } |
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155 | return 0; |
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156 | /* NumLock pressed */ |
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157 | case PAD_NUMLOCK: |
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158 | if (d == KEY_PRESSED) { |
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159 | numlock = numlock ? FALSE : TRUE; |
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160 | /* light the num lock led */ |
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161 | kbd_setleds(scrolllock + (numlock << 1) + (capslock << 2)); |
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162 | } |
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163 | return 0; |
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164 | /* ScrollLock pressed*/ |
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165 | case EXT_SCRLOCK: |
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166 | if (d == KEY_PRESSED) { |
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167 | scrolllock = scrolllock ? FALSE : TRUE; |
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168 | /* light the scroll lock led */ |
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169 | kbd_setleds(scrolllock + (numlock << 1) + (capslock << 2)); |
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170 | } |
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171 | return 0; |
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172 | /* Shift pressed or released */ |
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173 | case KEY_SHL: |
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174 | if (d) { |
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175 | shift = TRUE; |
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176 | if (c == KEY_SHL) |
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177 | keyFlag |= SHFL_BIT; |
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178 | } else { |
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179 | keyFlag &= (!SHFL_BIT); |
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180 | if (!(keyFlag & SHFR_BIT)) |
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181 | shift = FALSE; |
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182 | } |
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183 | return 0; |
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184 | /* Shift pressed or released */ |
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185 | case KEY_SHR: |
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186 | if (d) { |
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187 | shift = TRUE; |
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188 | if (c == KEY_SHR) |
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189 | keyFlag |= SHFR_BIT; |
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190 | } else { |
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191 | keyFlag &= (!SHFR_BIT); |
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192 | if (!(keyFlag & SHFL_BIT)) |
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193 | shift = FALSE; |
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194 | } |
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195 | return 0; |
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196 | /* Control pressed or released */ |
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197 | case KEY_CTRLL: |
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198 | if (d) { |
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199 | ctrl = TRUE; |
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200 | keyFlag |= CNTL_BIT; |
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201 | } else { |
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202 | keyFlag &= (!CNTL_BIT); |
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203 | if (!(keyFlag & CNTR_BIT)) |
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204 | ctrl = FALSE; |
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205 | } |
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206 | return 0; |
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207 | /* Control pressed or released */ |
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208 | case KEY_CTRLR: |
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209 | if (d) { |
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210 | ctrl = TRUE; |
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211 | keyFlag |= CNTR_BIT; |
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212 | } else { |
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213 | keyFlag &= (!CNTR_BIT); |
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214 | if (!(keyFlag & CNTL_BIT)) |
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215 | ctrl = FALSE; |
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216 | } |
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217 | return 0; |
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218 | /* Alt Left pressed */ |
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219 | case KEY_ALTL: |
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220 | if (d) { |
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221 | alt = TRUE; |
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222 | keyFlag |= ALTL_BIT; |
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223 | } else { |
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224 | alt = FALSE; |
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225 | keyFlag &= (!ALTL_BIT); |
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226 | } |
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227 | return 0; |
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228 | /* Alt Right (AltGr) pressed */ |
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229 | case KEY_ALTR: |
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230 | if (d) { |
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231 | altgr = TRUE; |
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232 | keyFlag |= ALTR_BIT; |
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233 | } else { |
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234 | altgr = FALSE; |
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235 | keyFlag &= (!ALTR_BIT); |
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236 | if ((!useAltGr) && (!(keyFlag & ALTL_BIT))) |
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237 | alt = FALSE; |
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238 | } |
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239 | return 0; |
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240 | /* Delete */ |
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241 | case EXT_DEL: |
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242 | return DELETE; |
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243 | case PAD_DEL: |
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244 | if (numlock || shift) |
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245 | return 0x18; |
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246 | else |
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247 | break; |
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248 | /* Pad Enter */ |
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249 | case PAD_ENT: |
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250 | return 0x0d; |
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251 | /* Pad Add */ |
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252 | case PAD_PLUS: |
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253 | return 0x2b; |
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254 | /* Pad Sub */ |
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255 | case PAD_SUB: |
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256 | return 0x2d; |
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257 | /* Pad Slash */ |
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258 | case PAD_SLH: |
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259 | return 0x2f; |
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260 | /* Numbers & simbols */ |
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261 | case KEY_1: case KEY_2: case KEY_3: case KEY_4: case KEY_5: |
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262 | case KEY_6: case KEY_7: case KEY_8: case KEY_9: case KEY_0: |
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263 | case KEY_SUB: case KEY_PLUS: case KEY_BRL: case KEY_BRR: |
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264 | case KEY_COL: case KEY_API: case KEY_TIL: case KEY_BSL: |
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265 | case KEY_LT: case KEY_GT: case KEY_SLH: |
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266 | /* AlrGR enabled & pressed */ |
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267 | if (altgr && useAltGr) { |
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268 | return keyAltGrTable[c]; |
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269 | } |
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270 | /* Control Shift status */ |
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271 | if (shift) |
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272 | return keyShiftTable[c]; |
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273 | else |
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274 | return keyTable[c]; |
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275 | } |
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276 | |||
277 | /* Pad Keys */ |
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278 | if (numlock || shift) |
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279 | switch (c) { |
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280 | case PAD_DEL: |
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281 | return 0x18; |
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282 | case PAD_INS: |
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283 | return 0x30; |
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284 | case PAD_END: |
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285 | return 0x31; |
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286 | case PAD_DOWN: |
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287 | return 0x32; |
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288 | case PAD_PGDW: |
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289 | return 0x33; |
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290 | case PAD_RIGHT: |
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291 | return 0x34; |
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292 | case PAD_5: |
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293 | return 0x35; |
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294 | case PAD_LEFT: |
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295 | return 0x36; |
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296 | case PAD_HOME: |
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297 | return 0x37; |
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298 | case PAD_UP: |
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299 | return 0x38; |
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300 | case PAD_PGUP: |
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301 | return 0x39; |
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302 | } |
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303 | |||
304 | /* Characters keys */ |
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305 | if (((c >= KEY_Q) && (c <= KEY_P)) || |
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306 | ((c >= KEY_A) && (c <= KEY_L)) || |
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307 | ((c >= KEY_Z) && (c <= KEY_M))) { |
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308 | /* AlrGR enabled & pressed */ |
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309 | if (altgr && useAltGr) { |
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310 | return keyAltGrTable[c]; |
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311 | } |
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312 | /* Control CapsLock & Shift status */ |
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313 | if (capslock) { |
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314 | if (shift) |
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315 | return keyTable[c]; |
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316 | else |
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317 | return keyShiftTable[c]; |
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318 | } else { |
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319 | if (shift) |
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320 | return keyShiftTable[c]; |
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321 | else |
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322 | return keyTable[c]; |
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323 | } |
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324 | } |
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325 | |||
326 | /* Remaining keys */ |
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327 | if (c < TABLE_KEY_SIZE) |
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328 | /* Left 'low' keys (Esc, BackSpace, Space, ...) */ |
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329 | return keyTable[c]; |
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330 | else |
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331 | /* Default - Return as keycode */ |
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332 | return (0xff00 | c); |
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333 | } |
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334 | |||
522 | mauro | 335 | #ifdef KEYB_TASK |
519 | mauro | 336 | TASK keyProc(void) |
522 | mauro | 337 | #else |
523 | mauro | 338 | static void keyProc(void) |
522 | mauro | 339 | #endif |
519 | mauro | 340 | { |
341 | WORD code; |
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342 | BYTE found; |
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343 | KEY_EVT dt; |
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344 | int i, res; |
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345 | unsigned int dato; |
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346 | |||
522 | mauro | 347 | #ifdef KEYB_TASK |
519 | mauro | 348 | while (1) { |
522 | mauro | 349 | #endif |
519 | mauro | 350 | res = kbd_get(&dato, NON_BLOCK); |
351 | if (res >= 0) { |
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352 | code = scanCode(dato, res); |
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353 | if (code != 0) { |
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354 | if (code & 0xff00) |
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355 | /* It's a scan code, set the right bit */ |
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356 | dt.flag = (keyFlag | SCAN_BIT); |
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357 | else |
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358 | /* Simply send the keyFlag status */ |
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359 | dt.flag = keyFlag; |
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360 | dt.status = status; |
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361 | dt.ascii = (BYTE) (code & 0x00FF); |
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362 | dt.scan = dato; |
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363 | #ifdef __KEYB_DEBUG__ |
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364 | printk("shark_keyb.c: KEY_EVT ( %2x - %c - %2x - %1d)\n", dt.scan, dt.ascii, dt.flag, dt.status); |
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365 | #endif |
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366 | found = FALSE; |
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1034 | mauro | 367 | for (i = 0; i < MAX_KEY_EXC; i++) { |
368 | if (keyExcTable[i].func == NULL) |
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369 | continue; |
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666 | mauro | 370 | if (((keyExcTable[i].evt.flag & ~SCAN_BIT) == (dt.flag & ~SCAN_BIT)) && |
749 | mauro | 371 | ((keyExcTable[i].evt.status & dt.status) != 0)) { |
1034 | mauro | 372 | if ((dt.flag & SCAN_BIT) != 0) { |
373 | if ((keyExcTable[i].evt.scan == dt.scan) && (keyExcTable[i].evt.scan != 0)) { |
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519 | mauro | 374 | #ifdef __KEYB_DEBUG__ |
1034 | mauro | 375 | printk("shark_keyb.c: Key_Hook ( %2x - %2x - %1d) -> ( %2x - %2x - %1d)\n", |
376 | dt.scan, dt.ascii, dt.flag, dt.status, |
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377 | keyExcTable[i].evt.scan, keyExcTable[i].evt.ascii, keyExcTable[i].evt.flag, keyExcTable[i].evt.status); |
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519 | mauro | 378 | #endif |
1034 | mauro | 379 | keyExcTable[i].func(&dt); |
380 | if (keyExcTable[i].lock == TRUE) |
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381 | found = TRUE; |
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382 | } |
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383 | } else { |
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384 | if ( ((keyExcTable[i].evt.scan == dt.scan) || (keyExcTable[i].evt.scan == 0)) && |
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385 | ((keyExcTable[i].evt.ascii == dt.ascii) || (keyExcTable[i].evt.ascii == 0)) ){ |
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386 | #ifdef __KEYB_DEBUG__ |
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387 | printk("shark_keyb.c: Key_Hook ( %2x - %2x - %1d) -> ( %2x - %2x - %1d)\n", |
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388 | dt.scan, dt.ascii, dt.flag, dt.status, |
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389 | keyExcTable[i].evt.scan, keyExcTable[i].evt.ascii, keyExcTable[i].evt.flag, keyExcTable[i].evt.status); |
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390 | #endif |
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391 | keyExcTable[i].func(&dt); |
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392 | if (keyExcTable[i].lock == TRUE) |
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393 | found = TRUE; |
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394 | } |
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666 | mauro | 395 | } |
523 | mauro | 396 | } |
1034 | mauro | 397 | } |
519 | mauro | 398 | /* when the port is full, data is lost */ |
1034 | mauro | 399 | if (!found) { |
400 | if (keybuff_tail != keybuff_head) { |
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401 | internal_sem_wait(&keybuff_mutex); |
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402 | memcpy(&keybuff[keybuff_head], &dt, sizeof(KEY_EVT)); |
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403 | keybuff_head = (keybuff_head+1) & KEYBUFF_MASK; |
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404 | internal_sem_post(&keybuff_mutex); |
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405 | } |
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406 | } |
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519 | mauro | 407 | } |
408 | } |
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522 | mauro | 409 | #ifdef KEYB_TASK |
519 | mauro | 410 | task_endcycle(); |
411 | } |
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522 | mauro | 412 | #endif |
519 | mauro | 413 | } |
414 | |||
415 | /* default function called on ctrl-c */ |
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416 | void default_ctrlChandler(KEY_EVT * k) { |
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1034 | mauro | 417 | /* Useful or not to set the page to 0? */ |
418 | /*set_active_page(0); |
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519 | mauro | 419 | set_visual_page(0); |
1034 | mauro | 420 | cputs("Ctrl-C pressed!\n");*/ |
421 | exit(0); |
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519 | mauro | 422 | } |
423 | |||
424 | /**** Start User Functions ****/ |
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425 | |||
426 | /* Function that returns the ascii code */ |
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427 | BYTE keyb_getch(BYTE wait) |
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428 | { |
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523 | mauro | 429 | KEY_EVT ev; |
519 | mauro | 430 | |
1034 | mauro | 431 | while(1) { |
432 | if ( ((keybuff_tail+1) & KEYBUFF_MASK) != ((keybuff_head) & KEYBUFF_MASK) ) { |
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433 | internal_sem_wait(&keybuff_mutex); |
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434 | keybuff_tail = (keybuff_tail+1) & KEYBUFF_MASK; |
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435 | memcpy(&ev, &keybuff[keybuff_tail], sizeof(KEY_EVT)); |
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436 | internal_sem_post(&keybuff_mutex); |
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437 | |||
523 | mauro | 438 | #ifdef __KEYB_DEBUG__ |
1034 | mauro | 439 | printk("shark_keyb.c: GetChar ( %2x - %c - %2x - %1d)\n", ev.scan, ev.ascii, ev.flag, ev.status); |
523 | mauro | 440 | #endif |
1034 | mauro | 441 | if (!isScanCode(&ev) && !isReleased(&ev)) { |
442 | return (ev.ascii); |
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443 | } else { |
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444 | if (wait != BLOCK) |
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445 | return 0; |
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446 | } |
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447 | } else { |
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448 | if (wait != BLOCK) |
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449 | return 0; |
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450 | } |
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451 | } |
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519 | mauro | 452 | } |
453 | |||
454 | /* |
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455 | * Function that returns a structure containing the flags status, the ascii |
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456 | * code, and the scan code |
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457 | */ |
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1034 | mauro | 458 | int keyb_getcode(KEY_EVT * k, BYTE wait) |
519 | mauro | 459 | { |
1034 | mauro | 460 | while (1) { |
461 | if ( ((keybuff_tail+1) & KEYBUFF_MASK) != ((keybuff_head) & KEYBUFF_MASK) ) { |
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462 | internal_sem_wait(&keybuff_mutex); |
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463 | keybuff_tail = (keybuff_tail+1) & KEYBUFF_MASK; |
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464 | memcpy(k, &keybuff[keybuff_tail], sizeof(KEY_EVT)); |
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465 | internal_sem_post(&keybuff_mutex); |
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466 | |||
467 | return(TRUE); |
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468 | } else { |
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469 | if (wait != BLOCK) |
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470 | return(FALSE); |
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471 | } |
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472 | } |
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519 | mauro | 473 | } |
474 | |||
1034 | mauro | 475 | /* |
476 | * This call is used to link a function to a KEY_EVT |
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477 | */ |
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478 | int keyb_hook(KEY_EVT k, void (*f) (KEY_EVT * k), unsigned char l) |
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519 | mauro | 479 | { |
1034 | mauro | 480 | int id = 0; |
481 | |||
482 | if ((k.ascii == 0) && (k.scan == 0)) |
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483 | return -1; |
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484 | |||
485 | while (keyExcTable[id].func != NULL) { |
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486 | id++; |
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487 | if (id >= MAX_KEY_EXC) |
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488 | return -1; |
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489 | } |
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490 | |||
491 | keyExcTable[lastExc].func = f; |
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519 | mauro | 492 | keyExcTable[lastExc].evt = k; |
1034 | mauro | 493 | if (keyExcTable[lastExc].evt.status == 0) |
494 | keyExcTable[lastExc].evt.status = KEY_PRESSED; |
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495 | |||
519 | mauro | 496 | keyExcTable[lastExc++].lock = l; |
497 | |||
1034 | mauro | 498 | return (lastExc-1); |
519 | mauro | 499 | } |
500 | |||
1034 | mauro | 501 | /* Free a keyb_hook slot */ |
502 | int keyb_unhook(int index) |
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503 | { |
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504 | if (keyExcTable[index].func != NULL) { |
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505 | keyExcTable[index].func = NULL; |
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506 | return 0; |
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507 | } |
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508 | return -1; |
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509 | } |
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510 | |||
523 | mauro | 511 | /* This function disable the keyboard */ |
826 | mauro | 512 | void inline keyb_disable(void) |
519 | mauro | 513 | { |
514 | kbd_disable(); |
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515 | } |
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516 | |||
523 | mauro | 517 | /* This function enable the keyboard */ |
826 | mauro | 518 | void inline keyb_enable(void) |
519 | mauro | 519 | { |
520 | kbd_enable(); |
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521 | } |
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522 | |||
523 | mauro | 523 | /**** End User Functions ****/ |
826 | mauro | 524 | int inline KEYB26_installed(void) |
549 | mauro | 525 | { |
526 | return keyb_installed; |
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527 | } |
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519 | mauro | 528 | |
529 | int KEYB26_init(KEYB_PARMS *s) |
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530 | { |
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531 | KEYB_PARMS kparms = BASE_KEYB; |
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532 | WORD i; |
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533 | int status = 0; |
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534 | |||
522 | mauro | 535 | #ifdef KEYB_TASK |
519 | mauro | 536 | SOFT_TASK_MODEL base_m; |
537 | TASK_MODEL *m; |
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522 | mauro | 538 | #endif |
519 | mauro | 539 | |
540 | if (keyb_installed == TRUE) return 0; |
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541 | |||
542 | /* if a NULL is passed */ |
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543 | if (s == NULL) |
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544 | s = &kparms; |
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545 | |||
1034 | mauro | 546 | /* Reset keymap structures */ |
519 | mauro | 547 | for (i = 0; i < TABLE_KEY_SIZE; i++) { |
548 | keyTable[i] = 0; |
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549 | keyShiftTable[i] = 0; |
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550 | keyAltGrTable[i] = 0; |
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551 | } |
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552 | |||
553 | /* keymap */ |
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554 | if (s->keymap == (unsigned char)KEYB_DEFAULT) s->keymap = KEYMAP_US; |
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555 | keyb_set_map(s->keymap); |
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556 | |||
1034 | mauro | 557 | /* KeyEvt Buffer Initialization */ |
558 | keybuff_head = 1; |
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559 | keybuff_tail = 0; |
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560 | if (keybuff_mutex_init==0) { |
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561 | internal_sem_init(&keybuff_mutex, 1); |
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562 | keybuff_mutex_init = 1; |
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519 | mauro | 563 | } |
564 | |||
565 | /* remove all key pressed handlers */ |
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566 | lastExc = 0; |
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567 | |||
568 | /* and add a ctrl-c handler if requested */ |
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569 | if (s->ctrlcfunc == (void *) KEYB_DEFAULT) |
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570 | s->ctrlcfunc = (void *) default_ctrlChandler; |
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571 | if (s->ctrlcfunc != NULL) { |
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572 | KEY_EVT emerg; |
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523 | mauro | 573 | emerg.ascii = 'c'; |
574 | emerg.scan = KEY_C; |
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575 | emerg.status = KEY_PRESSED; |
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576 | emerg.flag = CNTL_BIT; |
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1034 | mauro | 577 | keyb_hook (emerg, s->ctrlcfunc, FALSE); |
523 | mauro | 578 | emerg.flag = CNTR_BIT; |
1034 | mauro | 579 | keyb_hook (emerg, s->ctrlcfunc, FALSE); |
519 | mauro | 580 | } |
581 | |||
522 | mauro | 582 | #ifdef KEYB_TASK |
519 | mauro | 583 | /* keyb task */ |
584 | if (s->tm == (TASK_MODEL *) KEYB_DEFAULT) { |
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585 | soft_task_default_model (base_m); |
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586 | soft_task_def_wcet (base_m, 2000); |
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587 | soft_task_def_met (base_m, 800); |
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1034 | mauro | 588 | soft_task_def_period (base_m, 30000); |
519 | mauro | 589 | soft_task_def_system (base_m); |
826 | mauro | 590 | soft_task_def_nokill (base_m); |
519 | mauro | 591 | soft_task_def_aperiodic (base_m); |
592 | m = (TASK_MODEL *) & base_m; |
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593 | } else |
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594 | m = s->tm; |
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595 | |||
596 | #ifdef __KEYB_DEBUG__ |
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1034 | mauro | 597 | printk(KERN_DEBUG "keyb task: %li %li %li %li\n", (long)s->pclass, (long)APERIODIC, (long)s->dline, (long)s->wcet); |
519 | mauro | 598 | #endif |
599 | |||
600 | keybpid = task_create ("KeyTask", keyProc, m, NULL); |
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1034 | mauro | 601 | if (keybpid == -1) |
519 | mauro | 602 | return -1; |
522 | mauro | 603 | #endif |
519 | mauro | 604 | |
549 | mauro | 605 | if (INPUT26_installed() == FALSE) |
519 | mauro | 606 | if (INPUT26_init()) { |
607 | printk(KERN_ERR "shark_keyb.c: Unable to open Input SubSystem.\n"); |
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544 | giacomo | 608 | #ifdef KEYB_TASK |
523 | mauro | 609 | task_kill (keybpid); |
544 | giacomo | 610 | #endif |
519 | mauro | 611 | return -1; |
612 | } |
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613 | |||
549 | mauro | 614 | status = kbd_init(); |
519 | mauro | 615 | if (status) { |
549 | mauro | 616 | printk(KERN_ERR "shark_keyb.c: Kbd_Init return: %d\n", status); |
544 | giacomo | 617 | #ifdef KEYB_TASK |
523 | mauro | 618 | task_kill (keybpid); |
544 | giacomo | 619 | #endif |
519 | mauro | 620 | return -1; |
621 | } |
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549 | mauro | 622 | |
1015 | mauro | 623 | |
624 | if (s->softrepeat == (int) KEYB_DEFAULT) { |
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625 | status = atkbd_init(1); |
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626 | } else { |
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627 | status = atkbd_init(s->softrepeat); |
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628 | } |
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519 | mauro | 629 | if (status) { |
549 | mauro | 630 | printk(KERN_ERR "shark_keyb.c: AtKbd_Init return: %d\n", status); |
544 | giacomo | 631 | #ifdef KEYB_TASK |
523 | mauro | 632 | task_kill (keybpid); |
544 | giacomo | 633 | #endif |
519 | mauro | 634 | return -1; |
635 | } |
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636 | |||
637 | kbd_setleds(scrolllock + (numlock << 1) + (capslock << 2)); |
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638 | kbd_enable(); |
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639 | |||
640 | keyb_installed = TRUE; |
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641 | return status; |
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642 | } |
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643 | |||
644 | /* |
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645 | * KEYB module cleanup |
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646 | * (must be called if it's needed to re-call keyb_init() with other parameters) |
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647 | * -1 -> ERROR |
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648 | */ |
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649 | int KEYB26_close(void) |
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650 | { |
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522 | mauro | 651 | #ifdef KEYB_TASK |
519 | mauro | 652 | int free; |
653 | SYS_FLAGS f; |
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522 | mauro | 654 | #endif |
519 | mauro | 655 | |
656 | if (!keyb_installed) |
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657 | return -1; |
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549 | mauro | 658 | |
519 | mauro | 659 | kbd_disable(); |
549 | mauro | 660 | |
661 | atkbd_exit(); |
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519 | mauro | 662 | kbd_exit(); |
663 | |||
522 | mauro | 664 | #ifdef KEYB_TASK |
519 | mauro | 665 | f = kern_fsave(); |
666 | free = (proc_table[keybpid].status == FREE); |
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667 | kern_frestore(f); |
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668 | #ifdef __KEYB_DEBUG__ |
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669 | printk(KERN_DEBUG "shark_keyb.c: KeyTask is %s.\n", free ? "killed" : "alive"); |
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670 | #endif |
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671 | if (free) |
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672 | task_kill (keybpid); |
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522 | mauro | 673 | #endif |
519 | mauro | 674 | |
675 | keyb_installed = FALSE; |
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676 | |||
677 | return 0; |
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678 | } |