/* * linux/atari/atakeyb.c * * Atari Keyboard driver for 680x0 Linux * * 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. */ /* * Atari support by Robert de Vries * enhanced by Bjoern Brauel and Roman Hodek */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static void atakeyb_rep( unsigned long ignore ); extern unsigned int keymap_count; /* Hook for MIDI serial driver */ void (*atari_MIDI_interrupt_hook) (void); /* Hook for mouse driver */ void (*atari_mouse_interrupt_hook) (char *); /* variables for IKBD self test: */ /* state: 0: off; >0: in progress; >1: 0xf1 received */ static volatile int ikbd_self_test; /* timestamp when last received a char */ static volatile unsigned long self_test_last_rcv; /* bitmap of keys reported as broken */ static unsigned long broken_keys[128/(sizeof(unsigned long)*8)] = { 0, }; #define BREAK_MASK (0x80) /* * ++roman: The following changes were applied manually: * * - The Alt (= Meta) key works in combination with Shift and * Control, e.g. Alt+Shift+a sends Meta-A (0xc1), Alt+Control+A sends * Meta-Ctrl-A (0x81) ... * * - The parentheses on the keypad send '(' and ')' with all * modifiers (as would do e.g. keypad '+'), but they cannot be used as * application keys (i.e. sending Esc O c). * * - HELP and UNDO are mapped to be F21 and F24, resp, that send the * codes "\E[M" and "\E[P". (This is better than the old mapping to * F11 and F12, because these codes are on Shift+F1/2 anyway.) This * way, applications that allow their own keyboard mappings * (e.g. tcsh, X Windows) can be configured to use them in the way * the label suggests (providing help or undoing). * * - Console switching is done with Alt+Fx (consoles 1..10) and * Shift+Alt+Fx (consoles 11..20). * * - The misc. special function implemented in the kernel are mapped * to the following key combinations: * * ClrHome -> Home/Find * Shift + ClrHome -> End/Select * Shift + Up -> Page Up * Shift + Down -> Page Down * Alt + Help -> show system status * Shift + Help -> show memory info * Ctrl + Help -> show registers * Ctrl + Alt + Del -> Reboot * Alt + Undo -> switch to last console * Shift + Undo -> send interrupt * Alt + Insert -> stop/start output (same as ^S/^Q) * Alt + Up -> Scroll back console (if implemented) * Alt + Down -> Scroll forward console (if implemented) * Alt + CapsLock -> NumLock * * ++Andreas: * * - Help mapped to K_HELP * - Undo mapped to K_UNDO (= K_F246) * - Keypad Left/Right Parenthesis mapped to new K_PPAREN[LR] */ static u_short ataplain_map[NR_KEYS] __initdata = { 0xf200, 0xf01b, 0xf031, 0xf032, 0xf033, 0xf034, 0xf035, 0xf036, 0xf037, 0xf038, 0xf039, 0xf030, 0xf02d, 0xf03d, 0xf008, 0xf009, 0xfb71, 0xfb77, 0xfb65, 0xfb72, 0xfb74, 0xfb79, 0xfb75, 0xfb69, 0xfb6f, 0xfb70, 0xf05b, 0xf05d, 0xf201, 0xf702, 0xfb61, 0xfb73, 0xfb64, 0xfb66, 0xfb67, 0xfb68, 0xfb6a, 0xfb6b, 0xfb6c, 0xf03b, 0xf027, 0xf060, 0xf700, 0xf05c, 0xfb7a, 0xfb78, 0xfb63, 0xfb76, 0xfb62, 0xfb6e, 0xfb6d, 0xf02c, 0xf02e, 0xf02f, 0xf700, 0xf200, 0xf703, 0xf020, 0xf207, 0xf100, 0xf101, 0xf102, 0xf103, 0xf104, 0xf105, 0xf106, 0xf107, 0xf108, 0xf109, 0xf200, 0xf200, 0xf114, 0xf603, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf600, 0xf200, 0xf115, 0xf07f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf1ff, 0xf11b, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf307, 0xf308, 0xf309, 0xf304, 0xf305, 0xf306, 0xf301, 0xf302, 0xf303, 0xf300, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; static u_short atashift_map[NR_KEYS] __initdata = { 0xf200, 0xf01b, 0xf021, 0xf040, 0xf023, 0xf024, 0xf025, 0xf05e, 0xf026, 0xf02a, 0xf028, 0xf029, 0xf05f, 0xf02b, 0xf008, 0xf009, 0xfb51, 0xfb57, 0xfb45, 0xfb52, 0xfb54, 0xfb59, 0xfb55, 0xfb49, 0xfb4f, 0xfb50, 0xf07b, 0xf07d, 0xf201, 0xf702, 0xfb41, 0xfb53, 0xfb44, 0xfb46, 0xfb47, 0xfb48, 0xfb4a, 0xfb4b, 0xfb4c, 0xf03a, 0xf022, 0xf07e, 0xf700, 0xf07c, 0xfb5a, 0xfb58, 0xfb43, 0xfb56, 0xfb42, 0xfb4e, 0xfb4d, 0xf03c, 0xf03e, 0xf03f, 0xf700, 0xf200, 0xf703, 0xf020, 0xf207, 0xf10a, 0xf10b, 0xf10c, 0xf10d, 0xf10e, 0xf10f, 0xf110, 0xf111, 0xf112, 0xf113, 0xf200, 0xf200, 0xf117, 0xf118, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf119, 0xf200, 0xf115, 0xf07f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf205, 0xf203, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf307, 0xf308, 0xf309, 0xf304, 0xf305, 0xf306, 0xf301, 0xf302, 0xf303, 0xf300, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; static u_short atactrl_map[NR_KEYS] __initdata = { 0xf200, 0xf200, 0xf200, 0xf000, 0xf01b, 0xf01c, 0xf01d, 0xf01e, 0xf01f, 0xf07f, 0xf200, 0xf200, 0xf01f, 0xf200, 0xf008, 0xf200, 0xf011, 0xf017, 0xf005, 0xf012, 0xf014, 0xf019, 0xf015, 0xf009, 0xf00f, 0xf010, 0xf01b, 0xf01d, 0xf201, 0xf702, 0xf001, 0xf013, 0xf004, 0xf006, 0xf007, 0xf008, 0xf00a, 0xf00b, 0xf00c, 0xf200, 0xf007, 0xf000, 0xf700, 0xf01c, 0xf01a, 0xf018, 0xf003, 0xf016, 0xf002, 0xf00e, 0xf00d, 0xf200, 0xf200, 0xf07f, 0xf700, 0xf200, 0xf703, 0xf000, 0xf207, 0xf100, 0xf101, 0xf102, 0xf103, 0xf104, 0xf105, 0xf106, 0xf107, 0xf108, 0xf109, 0xf200, 0xf200, 0xf114, 0xf603, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf600, 0xf200, 0xf115, 0xf07f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf1ff, 0xf202, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf307, 0xf308, 0xf309, 0xf304, 0xf305, 0xf306, 0xf301, 0xf302, 0xf303, 0xf300, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; static u_short atashift_ctrl_map[NR_KEYS] __initdata = { 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf01f, 0xf200, 0xf008, 0xf200, 0xf011, 0xf017, 0xf005, 0xf012, 0xf014, 0xf019, 0xf015, 0xf009, 0xf00f, 0xf010, 0xf200, 0xf200, 0xf201, 0xf702, 0xf001, 0xf013, 0xf004, 0xf006, 0xf007, 0xf008, 0xf00a, 0xf00b, 0xf00c, 0xf200, 0xf200, 0xf200, 0xf700, 0xf200, 0xf01a, 0xf018, 0xf003, 0xf016, 0xf002, 0xf00e, 0xf00d, 0xf200, 0xf200, 0xf07f, 0xf700, 0xf200, 0xf703, 0xf200, 0xf207, 0xf100, 0xf101, 0xf102, 0xf103, 0xf104, 0xf105, 0xf106, 0xf107, 0xf108, 0xf109, 0xf200, 0xf200, 0xf117, 0xf603, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf600, 0xf200, 0xf115, 0xf07f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf1ff, 0xf11b, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf307, 0xf308, 0xf309, 0xf304, 0xf305, 0xf306, 0xf301, 0xf302, 0xf303, 0xf300, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; static u_short ataalt_map[NR_KEYS] __initdata = { 0xf200, 0xf81b, 0xf831, 0xf832, 0xf833, 0xf834, 0xf835, 0xf836, 0xf837, 0xf838, 0xf839, 0xf830, 0xf82d, 0xf83d, 0xf808, 0xf809, 0xf871, 0xf877, 0xf865, 0xf872, 0xf874, 0xf879, 0xf875, 0xf869, 0xf86f, 0xf870, 0xf85b, 0xf85d, 0xf80d, 0xf702, 0xf861, 0xf873, 0xf864, 0xf866, 0xf867, 0xf868, 0xf86a, 0xf86b, 0xf86c, 0xf83b, 0xf827, 0xf860, 0xf700, 0xf85c, 0xf87a, 0xf878, 0xf863, 0xf876, 0xf862, 0xf86e, 0xf86d, 0xf82c, 0xf82e, 0xf82f, 0xf700, 0xf200, 0xf703, 0xf820, 0xf208, 0xf500, 0xf501, 0xf502, 0xf503, 0xf504, 0xf505, 0xf506, 0xf507, 0xf508, 0xf509, 0xf200, 0xf200, 0xf114, 0xf20b, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf20a, 0xf200, 0xf209, 0xf87f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf206, 0xf204, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf907, 0xf908, 0xf909, 0xf904, 0xf905, 0xf906, 0xf901, 0xf902, 0xf903, 0xf900, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; static u_short atashift_alt_map[NR_KEYS] __initdata = { 0xf200, 0xf81b, 0xf821, 0xf840, 0xf823, 0xf824, 0xf825, 0xf85e, 0xf826, 0xf82a, 0xf828, 0xf829, 0xf85f, 0xf82b, 0xf808, 0xf809, 0xf851, 0xf857, 0xf845, 0xf852, 0xf854, 0xf859, 0xf855, 0xf849, 0xf84f, 0xf850, 0xf87b, 0xf87d, 0xf201, 0xf702, 0xf841, 0xf853, 0xf844, 0xf846, 0xf847, 0xf848, 0xf84a, 0xf84b, 0xf84c, 0xf83a, 0xf822, 0xf87e, 0xf700, 0xf87c, 0xf85a, 0xf858, 0xf843, 0xf856, 0xf842, 0xf84e, 0xf84d, 0xf83c, 0xf83e, 0xf83f, 0xf700, 0xf200, 0xf703, 0xf820, 0xf207, 0xf50a, 0xf50b, 0xf50c, 0xf50d, 0xf50e, 0xf50f, 0xf510, 0xf511, 0xf512, 0xf513, 0xf200, 0xf200, 0xf117, 0xf118, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf119, 0xf200, 0xf115, 0xf87f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf1ff, 0xf11b, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf307, 0xf308, 0xf309, 0xf304, 0xf305, 0xf306, 0xf301, 0xf302, 0xf303, 0xf300, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; static u_short atactrl_alt_map[NR_KEYS] __initdata = { 0xf200, 0xf200, 0xf200, 0xf800, 0xf81b, 0xf81c, 0xf81d, 0xf81e, 0xf81f, 0xf87f, 0xf200, 0xf200, 0xf81f, 0xf200, 0xf808, 0xf200, 0xf811, 0xf817, 0xf805, 0xf812, 0xf814, 0xf819, 0xf815, 0xf809, 0xf80f, 0xf810, 0xf81b, 0xf81d, 0xf201, 0xf702, 0xf801, 0xf813, 0xf804, 0xf806, 0xf807, 0xf808, 0xf80a, 0xf80b, 0xf80c, 0xf200, 0xf807, 0xf800, 0xf700, 0xf81c, 0xf81a, 0xf818, 0xf803, 0xf816, 0xf802, 0xf80e, 0xf80d, 0xf200, 0xf200, 0xf87f, 0xf700, 0xf200, 0xf703, 0xf800, 0xf207, 0xf100, 0xf101, 0xf102, 0xf103, 0xf104, 0xf105, 0xf106, 0xf107, 0xf108, 0xf109, 0xf200, 0xf200, 0xf114, 0xf603, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf600, 0xf200, 0xf115, 0xf87f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf1ff, 0xf202, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf307, 0xf308, 0xf309, 0xf304, 0xf305, 0xf306, 0xf301, 0xf302, 0xf303, 0xf300, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; static u_short atashift_ctrl_alt_map[NR_KEYS] = { 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf81f, 0xf200, 0xf808, 0xf200, 0xf811, 0xf817, 0xf805, 0xf812, 0xf814, 0xf819, 0xf815, 0xf809, 0xf80f, 0xf810, 0xf200, 0xf200, 0xf201, 0xf702, 0xf801, 0xf813, 0xf804, 0xf806, 0xf807, 0xf808, 0xf80a, 0xf80b, 0xf80c, 0xf200, 0xf200, 0xf200, 0xf700, 0xf200, 0xf81a, 0xf818, 0xf803, 0xf816, 0xf802, 0xf80e, 0xf80d, 0xf200, 0xf200, 0xf87f, 0xf700, 0xf200, 0xf703, 0xf200, 0xf207, 0xf100, 0xf101, 0xf102, 0xf103, 0xf104, 0xf105, 0xf106, 0xf107, 0xf108, 0xf109, 0xf200, 0xf200, 0xf117, 0xf603, 0xf200, 0xf30b, 0xf601, 0xf200, 0xf602, 0xf30a, 0xf200, 0xf600, 0xf200, 0xf115, 0xf87f, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf1ff, 0xf11b, 0xf312, 0xf313, 0xf30d, 0xf30c, 0xf307, 0xf308, 0xf309, 0xf304, 0xf305, 0xf306, 0xf301, 0xf302, 0xf303, 0xf300, 0xf310, 0xf30e, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200, 0xf200 }; typedef enum kb_state_t { KEYBOARD, AMOUSE, RMOUSE, JOYSTICK, CLOCK, RESYNC } KB_STATE_T; #define IS_SYNC_CODE(sc) ((sc) >= 0x04 && (sc) <= 0xfb) typedef struct keyboard_state { unsigned char buf[6]; int len; KB_STATE_T state; } KEYBOARD_STATE; KEYBOARD_STATE kb_state; #define DEFAULT_KEYB_REP_DELAY (HZ/4) #define DEFAULT_KEYB_REP_RATE (HZ/25) /* These could be settable by some ioctl() in future... */ static unsigned int key_repeat_delay = DEFAULT_KEYB_REP_DELAY; static unsigned int key_repeat_rate = DEFAULT_KEYB_REP_RATE; static unsigned char rep_scancode; static struct timer_list atakeyb_rep_timer = { function: atakeyb_rep }; static void atakeyb_rep( unsigned long ignore ) { kbd_pt_regs = NULL; /* Disable keyboard for the time we call handle_scancode(), else a race * in the keyboard tty queue may happen */ atari_disable_irq( IRQ_MFP_ACIA ); del_timer( &atakeyb_rep_timer ); /* A keyboard int may have come in before we disabled the irq, so * double-check whether rep_scancode is still != 0 */ if (rep_scancode) { init_timer(&atakeyb_rep_timer); atakeyb_rep_timer.expires = jiffies + key_repeat_rate; add_timer( &atakeyb_rep_timer ); handle_scancode(rep_scancode, 1); } atari_enable_irq( IRQ_MFP_ACIA ); } /* ++roman: If a keyboard overrun happened, we can't tell in general how much * bytes have been lost and in which state of the packet structure we are now. * This usually causes keyboards bytes to be interpreted as mouse movements * and vice versa, which is very annoying. It seems better to throw away some * bytes (that are usually mouse bytes) than to misinterpret them. Therefor I * introduced the RESYNC state for IKBD data. In this state, the bytes up to * one that really looks like a key event (0x04..0xf2) or the start of a mouse * packet (0xf8..0xfb) are thrown away, but at most 2 bytes. This at least * speeds up the resynchronization of the event structure, even if maybe a * mouse movement is lost. However, nothing is perfect. For bytes 0x01..0x03, * it's really hard to decide whether they're mouse or keyboard bytes. Since * overruns usually occur when moving the Atari mouse rapidly, they're seen as * mouse bytes here. If this is wrong, only a make code of the keyboard gets * lost, which isn't too bad. Loosing a break code would be disastrous, * because then the keyboard repeat strikes... */ static void keyboard_interrupt(int irq, void *dummy, struct pt_regs *fp) { u_char acia_stat; int scancode; int break_flag; /* save frame for register dump */ kbd_pt_regs = fp; repeat: if (acia.mid_ctrl & ACIA_IRQ) if (atari_MIDI_interrupt_hook) atari_MIDI_interrupt_hook(); acia_stat = acia.key_ctrl; /* check out if the interrupt came from this ACIA */ if (!((acia_stat | acia.mid_ctrl) & ACIA_IRQ)) return; if (acia_stat & ACIA_OVRN) { /* a very fast typist or a slow system, give a warning */ /* ...happens often if interrupts were disabled for too long */ printk( KERN_DEBUG "Keyboard overrun\n" ); scancode = acia.key_data; /* Turn off autorepeating in case a break code has been lost */ del_timer( &atakeyb_rep_timer ); rep_scancode = 0; if (ikbd_self_test) /* During self test, don't do resyncing, just process the code */ goto interpret_scancode; else if (IS_SYNC_CODE(scancode)) { /* This code seem already to be the start of a new packet or a * single scancode */ kb_state.state = KEYBOARD; goto interpret_scancode; } else { /* Go to RESYNC state and skip this byte */ kb_state.state = RESYNC; kb_state.len = 1; /* skip max. 1 another byte */ goto repeat; } } if (acia_stat & ACIA_RDRF) /* received a character */ { scancode = acia.key_data; /* get it or reset the ACIA, I'll get it! */ mark_bh(KEYBOARD_BH); interpret_scancode: switch (kb_state.state) { case KEYBOARD: switch (scancode) { case 0xF7: kb_state.state = AMOUSE; kb_state.len = 0; break; case 0xF8: case 0xF9: case 0xFA: case 0xFB: kb_state.state = RMOUSE; kb_state.len = 1; kb_state.buf[0] = scancode; break; case 0xFC: kb_state.state = CLOCK; kb_state.len = 0; break; case 0xFE: case 0xFF: kb_state.state = JOYSTICK; kb_state.len = 1; kb_state.buf[0] = scancode; break; case 0xF1: /* during self-test, note that 0xf1 received */ if (ikbd_self_test) { ++ikbd_self_test; self_test_last_rcv = jiffies; break; } /* FALL THROUGH */ default: break_flag = scancode & BREAK_MASK; scancode &= ~BREAK_MASK; if (ikbd_self_test) { /* Scancodes sent during the self-test stand for broken * keys (keys being down). The code *should* be a break * code, but nevertheless some AT keyboard interfaces send * make codes instead. Therefore, simply ignore * break_flag... * */ int keyval = plain_map[scancode], keytyp; set_bit( scancode, broken_keys ); self_test_last_rcv = jiffies; keyval = plain_map[scancode]; keytyp = KTYP(keyval) - 0xf0; keyval = KVAL(keyval); printk( KERN_WARNING "Key with scancode %d ", scancode ); if (keytyp == KT_LATIN || keytyp == KT_LETTER) { if (keyval < ' ') printk( "('^%c') ", keyval + '@' ); else printk( "('%c') ", keyval ); } printk( "is broken -- will be ignored.\n" ); break; } else if (test_bit( scancode, broken_keys )) break; if (break_flag) { del_timer( &atakeyb_rep_timer ); rep_scancode = 0; } else { del_timer( &atakeyb_rep_timer ); rep_scancode = scancode; atakeyb_rep_timer.expires = jiffies + key_repeat_delay; add_timer( &atakeyb_rep_timer ); } handle_scancode(scancode, !break_flag); break; } break; case AMOUSE: kb_state.buf[kb_state.len++] = scancode; if (kb_state.len == 5) { kb_state.state = KEYBOARD; /* not yet used */ /* wake up someone waiting for this */ } break; case RMOUSE: kb_state.buf[kb_state.len++] = scancode; if (kb_state.len == 3) { kb_state.state = KEYBOARD; if (atari_mouse_interrupt_hook) atari_mouse_interrupt_hook(kb_state.buf); } break; case JOYSTICK: kb_state.buf[1] = scancode; kb_state.state = KEYBOARD; atari_joystick_interrupt(kb_state.buf); break; case CLOCK: kb_state.buf[kb_state.len++] = scancode; if (kb_state.len == 6) { kb_state.state = KEYBOARD; /* wake up someone waiting for this. But will this ever be used, as Linux keeps its own time. Perhaps for synchronization purposes? */ /* wake_up_interruptible(&clock_wait); */ } break; case RESYNC: if (kb_state.len <= 0 || IS_SYNC_CODE(scancode)) { kb_state.state = KEYBOARD; goto interpret_scancode; } kb_state.len--; break; } } #if 0 if (acia_stat & ACIA_CTS) /* cannot happen */; #endif if (acia_stat & (ACIA_FE | ACIA_PE)) { printk("Error in keyboard communication\n"); } /* handle_scancode() can take a lot of time, so check again if * some character arrived */ goto repeat; } /* * I write to the keyboard without using interrupts, I poll instead. * This takes for the maximum length string allowed (7) at 7812.5 baud * 8 data 1 start 1 stop bit: 9.0 ms * If this takes too long for normal operation, interrupt driven writing * is the solution. (I made a feeble attempt in that direction but I * kept it simple for now.) */ void ikbd_write(const char *str, int len) { u_char acia_stat; if ((len < 1) || (len > 7)) panic("ikbd: maximum string length exceeded"); while (len) { acia_stat = acia.key_ctrl; if (acia_stat & ACIA_TDRE) { acia.key_data = *str++; len--; } } } /* Reset (without touching the clock) */ void ikbd_reset(void) { static const char cmd[2] = { 0x80, 0x01 }; ikbd_write(cmd, 2); /* if all's well code 0xF1 is returned, else the break codes of all keys making contact */ } /* Set mouse button action */ void ikbd_mouse_button_action(int mode) { char cmd[2] = { 0x07, mode }; ikbd_write(cmd, 2); } /* Set relative mouse position reporting */ void ikbd_mouse_rel_pos(void) { static const char cmd[1] = { 0x08 }; ikbd_write(cmd, 1); } /* Set absolute mouse position reporting */ void ikbd_mouse_abs_pos(int xmax, int ymax) { char cmd[5] = { 0x09, xmax>>8, xmax&0xFF, ymax>>8, ymax&0xFF }; ikbd_write(cmd, 5); } /* Set mouse keycode mode */ void ikbd_mouse_kbd_mode(int dx, int dy) { char cmd[3] = { 0x0A, dx, dy }; ikbd_write(cmd, 3); } /* Set mouse threshold */ void ikbd_mouse_thresh(int x, int y) { char cmd[3] = { 0x0B, x, y }; ikbd_write(cmd, 3); } /* Set mouse scale */ void ikbd_mouse_scale(int x, int y) { char cmd[3] = { 0x0C, x, y }; ikbd_write(cmd, 3); } /* Interrogate mouse position */ void ikbd_mouse_pos_get(int *x, int *y) { static const char cmd[1] = { 0x0D }; ikbd_write(cmd, 1); /* wait for returning bytes */ } /* Load mouse position */ void ikbd_mouse_pos_set(int x, int y) { char cmd[6] = { 0x0E, 0x00, x>>8, x&0xFF, y>>8, y&0xFF }; ikbd_write(cmd, 6); } /* Set Y=0 at bottom */ void ikbd_mouse_y0_bot(void) { static const char cmd[1] = { 0x0F }; ikbd_write(cmd, 1); } /* Set Y=0 at top */ void ikbd_mouse_y0_top(void) { static const char cmd[1] = { 0x10 }; ikbd_write(cmd, 1); } /* Resume */ void ikbd_resume(void) { static const char cmd[1] = { 0x11 }; ikbd_write(cmd, 1); } /* Disable mouse */ void ikbd_mouse_disable(void) { static const char cmd[1] = { 0x12 }; ikbd_write(cmd, 1); } /* Pause output */ void ikbd_pause(void) { static const char cmd[1] = { 0x13 }; ikbd_write(cmd, 1); } /* Set joystick event reporting */ void ikbd_joystick_event_on(void) { static const char cmd[1] = { 0x14 }; ikbd_write(cmd, 1); } /* Set joystick interrogation mode */ void ikbd_joystick_event_off(void) { static const char cmd[1] = { 0x15 }; ikbd_write(cmd, 1); } /* Joystick interrogation */ void ikbd_joystick_get_state(void) { static const char cmd[1] = { 0x16 }; ikbd_write(cmd, 1); } #if 0 /* This disables all other ikbd activities !!!! */ /* Set joystick monitoring */ void ikbd_joystick_monitor(int rate) { static const char cmd[2] = { 0x17, rate }; ikbd_write(cmd, 2); kb_state.state = JOYSTICK_MONITOR; } #endif /* some joystick routines not in yet (0x18-0x19) */ /* Disable joysticks */ void ikbd_joystick_disable(void) { static const char cmd[1] = { 0x1A }; ikbd_write(cmd, 1); } /* Time-of-day clock set */ void ikbd_clock_set(int year, int month, int day, int hour, int minute, int second) { char cmd[7] = { 0x1B, year, month, day, hour, minute, second }; ikbd_write(cmd, 7); } /* Interrogate time-of-day clock */ void ikbd_clock_get(int *year, int *month, int *day, int *hour, int *minute, int second) { static const char cmd[1] = { 0x1C }; ikbd_write(cmd, 1); } /* Memory load */ void ikbd_mem_write(int address, int size, char *data) { panic("Attempt to write data into keyboard memory"); } /* Memory read */ void ikbd_mem_read(int address, char data[6]) { char cmd[3] = { 0x21, address>>8, address&0xFF }; ikbd_write(cmd, 3); /* receive data and put it in data */ } /* Controller execute */ void ikbd_exec(int address) { char cmd[3] = { 0x22, address>>8, address&0xFF }; ikbd_write(cmd, 3); } /* Status inquiries (0x87-0x9A) not yet implemented */ /* Set the state of the caps lock led. */ void atari_kbd_leds (unsigned int leds) { char cmd[6] = {32, 0, 4, 1, 254 + ((leds & 4) != 0), 0}; ikbd_write(cmd, 6); } /* * The original code sometimes left the interrupt line of * the ACIAs low forever. I hope, it is fixed now. * * Martin Rogge, 20 Aug 1995 */ int __init atari_keyb_init(void) { /* setup key map */ memcpy(key_maps[0], ataplain_map, sizeof(plain_map)); memcpy(key_maps[1], atashift_map, sizeof(plain_map)); memcpy(key_maps[4], atactrl_map, sizeof(plain_map)); memcpy(key_maps[5], atashift_ctrl_map, sizeof(plain_map)); memcpy(key_maps[8], ataalt_map, sizeof(plain_map)); /* Atari doesn't have an altgr_map, so we can reuse its memory for atashift_alt_map */ memcpy(key_maps[2], atashift_alt_map, sizeof(plain_map)); key_maps[9] = key_maps[2]; key_maps[2] = 0; /* ataaltgr_map */ memcpy(key_maps[12], atactrl_alt_map, sizeof(plain_map)); key_maps[13] = atashift_ctrl_alt_map; keymap_count = 8; /* say that we don't have an AltGr key */ keyboard_type = KB_84; kb_state.state = KEYBOARD; kb_state.len = 0; request_irq(IRQ_MFP_ACIA, keyboard_interrupt, IRQ_TYPE_SLOW, "keyboard/mouse/MIDI", keyboard_interrupt); atari_turnoff_irq(IRQ_MFP_ACIA); do { /* reset IKBD ACIA */ acia.key_ctrl = ACIA_RESET | (atari_switches & ATARI_SWITCH_IKBD) ? ACIA_RHTID : 0; (void)acia.key_ctrl; (void)acia.key_data; /* reset MIDI ACIA */ acia.mid_ctrl = ACIA_RESET | (atari_switches & ATARI_SWITCH_MIDI) ? ACIA_RHTID : 0; (void)acia.mid_ctrl; (void)acia.mid_data; /* divide 500kHz by 64 gives 7812.5 baud */ /* 8 data no parity 1 start 1 stop bit */ /* receive interrupt enabled */ /* RTS low (except if switch selected), transmit interrupt disabled */ acia.key_ctrl = (ACIA_DIV64|ACIA_D8N1S|ACIA_RIE) | ((atari_switches & ATARI_SWITCH_IKBD) ? ACIA_RHTID : ACIA_RLTID); acia.mid_ctrl = ACIA_DIV16 | ACIA_D8N1S | (atari_switches & ATARI_SWITCH_MIDI) ? ACIA_RHTID : 0; } /* make sure the interrupt line is up */ while ((mfp.par_dt_reg & 0x10) == 0); /* enable ACIA Interrupts */ mfp.active_edge &= ~0x10; atari_turnon_irq(IRQ_MFP_ACIA); ikbd_self_test = 1; ikbd_reset(); /* wait for a period of inactivity (here: 0.25s), then assume the IKBD's * self-test is finished */ self_test_last_rcv = jiffies; while (time_before(jiffies, self_test_last_rcv + HZ/4)) barrier(); /* if not incremented: no 0xf1 received */ if (ikbd_self_test == 1) printk( KERN_ERR "WARNING: keyboard self test failed!\n" ); ikbd_self_test = 0; ikbd_mouse_disable(); ikbd_joystick_disable(); atari_joystick_init(); return 0; } int atari_kbdrate( struct kbd_repeat *k ) { if (k->delay > 0) { /* convert from msec to jiffies */ key_repeat_delay = (k->delay * HZ + 500) / 1000; if (key_repeat_delay < 1) key_repeat_delay = 1; } if (k->rate > 0) { key_repeat_rate = (k->rate * HZ + 500) / 1000; if (key_repeat_rate < 1) key_repeat_rate = 1; } k->delay = key_repeat_delay * 1000 / HZ; k->rate = key_repeat_rate * 1000 / HZ; return( 0 ); }