WebSVN – HelenOS-historic – Blame – //uspace/trunk/kbd/arch/mips32/src/kbd.c

Rev	Author	Line No.	Line
1339	cejka	1	/*
		2	* Copyright (C) 2006 Josef Cejka
		3	* All rights reserved.
		4	*
		5	* Redistribution and use in source and binary forms, with or without
		6	* modification, are permitted provided that the following conditions
		7	* are met:
		8	*
		9	* - Redistributions of source code must retain the above copyright
		10	* notice, this list of conditions and the following disclaimer.
		11	* - Redistributions in binary form must reproduce the above copyright
		12	* notice, this list of conditions and the following disclaimer in the
		13	* documentation and/or other materials provided with the distribution.
		14	* - The name of the author may not be used to endorse or promote products
		15	* derived from this software without specific prior written permission.
		16	*
		17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
		18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
		19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
		20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
		21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
		22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
		26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		27	*/
		28
1649	cejka	29	/** @addtogroup kbdmips32 mips32
		30	* @brief HelenOS mips32 arch dependent parts of uspace keyboard handler.
		31	* @ingroup kbd
		32	* @{
		33	*/
		34	/** @file
		35	*/
1339	cejka	36	#include <arch/kbd.h>
1353	jermar	37	#include <ipc/ipc.h>
1632	vana	38	#include <sysinfo.h>
1694	palkovsky	39	#include <kbd.h>
		40	#include <keys.h>
1339	cejka	41
1632	vana	42	#define MSIM_KEY_F1 0x504f1bL
		43	#define MSIM_KEY_F2 0x514f1bL
		44	#define MSIM_KEY_F3 0x524f1bL
		45	#define MSIM_KEY_F4 0x534f1bL
		46	#define MSIM_KEY_F5 0x35315b1bL
		47	#define MSIM_KEY_F6 0x37315b1bL
		48	#define MSIM_KEY_F7 0x38315b1bL
		49	#define MSIM_KEY_F8 0x39315b1bL
		50	#define MSIM_KEY_F9 0x30325b1bL
		51	#define MSIM_KEY_F10 0x31325b1bL
		52	#define MSIM_KEY_F11 0x33325b1bL
		53	#define MSIM_KEY_F12 0x34325b1bL
1622	vana	54
		55
1632	vana	56	#define GXEMUL_KEY_F1 0x504f5b1bL
		57	#define GXEMUL_KEY_F2 0x514f5b1bL
		58	#define GXEMUL_KEY_F3 0x524f5b1bL
		59	#define GXEMUL_KEY_F4 0x534f5b1bL
		60	#define GXEMUL_KEY_F5 0x35315b1bL
		61	#define GXEMUL_KEY_F6 0x37315b1bL
		62	#define GXEMUL_KEY_F7 0x38315b1bL
		63	#define GXEMUL_KEY_F8 0x39315b1bL
		64	#define GXEMUL_KEY_F9 0x38325b1bL
		65	#define GXEMUL_KEY_F10 0x39325b1bL
		66	#define GXEMUL_KEY_F11 0x33325b1bL
		67	#define GXEMUL_KEY_F12 0x34325b1bL
		68
		69
1622	vana	70	#define FUNCTION_KEYS 0x100
		71
		72
1339	cejka	73	irq_cmd_t msim_cmds[1] = {
1694	palkovsky	74	{ CMD_MEM_READ_1, (void *)0xB0000000, 0, 2 }
1339	cejka	75	};
		76
		77	irq_code_t msim_kbd = {
		78	1,
		79	msim_cmds
		80	};
		81
1632	vana	82	static int msim,gxemul;
		83
1347	palkovsky	84	int kbd_arch_init(void)
1339	cejka	85	{
		86	ipc_register_irq(2, &msim_kbd);
1632	vana	87	msim=sysinfo_value("machine.msim");
		88	gxemul=sysinfo_value("machine.lgxemul");
1694	palkovsky	89	return 0;
1339	cejka	90	}
		91
1622	vana	92
1632	vana	93	//*
		94	//*
		95	//* Please preserve this code (it can be used to determine scancodes)
		96	//*
1622	vana	97	int to_hex(int v)
		98	{
		99	return "0123456789ABCDEF"[v];
		100	}
1632	vana	101	//*/
1622	vana	102
1632	vana	103	static int kbd_arch_process_msim(keybuffer_t *keybuffer, int scan_code)
1347	palkovsky	104	{
1622	vana	105
		106	static unsigned long buf=0;
		107	static int count=0;
		108
		109
		110	//* Please preserve this code (it can be used to determine scancodes)
		111	//*
		112	//keybuffer_push(keybuffer, to_hex((scan_code>>4)&0xf));
		113	//keybuffer_push(keybuffer, to_hex(scan_code&0xf));
		114	//keybuffer_push(keybuffer, ' ');
		115	//keybuffer_push(keybuffer, ' ');
		116	//*/
		117	//return 1;
		118
		119
		120	if(scan_code==0x7e)
		121	{
		122	switch (buf){
1632	vana	123	case MSIM_KEY_F5:
1622	vana	124	keybuffer_push(keybuffer,FUNCTION_KEYS \| 5 );
		125	buf=count=0;
		126	return 1;
1632	vana	127	case MSIM_KEY_F6:
1622	vana	128	keybuffer_push(keybuffer,FUNCTION_KEYS \| 6 );
		129	buf=count=0;
		130	return 1;
1632	vana	131	case MSIM_KEY_F7:
1622	vana	132	keybuffer_push(keybuffer,FUNCTION_KEYS \| 7 );
		133	buf=count=0;
		134	return 1;
1632	vana	135	case MSIM_KEY_F8:
1622	vana	136	keybuffer_push(keybuffer,FUNCTION_KEYS \| 8 );
		137	buf=count=0;
		138	return 1;
		139
1632	vana	140	case MSIM_KEY_F9:
1622	vana	141	keybuffer_push(keybuffer,FUNCTION_KEYS \| 9 );
		142	buf=count=0;
		143	return 1;
1632	vana	144	case MSIM_KEY_F10:
1622	vana	145	keybuffer_push(keybuffer,FUNCTION_KEYS \| 10 );
		146	buf=count=0;
		147	return 1;
		148
1632	vana	149	case MSIM_KEY_F11:
1622	vana	150	keybuffer_push(keybuffer,FUNCTION_KEYS \| 11 );
		151	buf=count=0;
		152	return 1;
1632	vana	153	case MSIM_KEY_F12:
1622	vana	154	keybuffer_push(keybuffer,FUNCTION_KEYS \| 12 );
		155	buf=count=0;
		156	return 1;
		157	default:
		158	keybuffer_push(keybuffer, buf & 0xff );
		159	keybuffer_push(keybuffer, (buf >> 8) &0xff );
		160	keybuffer_push(keybuffer, (buf >> 16) &0xff );
		161	keybuffer_push(keybuffer, (buf >> 24) &0xff );
		162	keybuffer_push(keybuffer, scan_code );
		163	buf=count=0;
		164	return 1;
		165
		166	}
		167	}
		168
		169	buf\|=((unsigned long) scan_code)<<(8*(count++));
		170
		171
1632	vana	172	if((buf & 0xff)!= (MSIM_KEY_F1 & 0xff)) {
1622	vana	173
		174	keybuffer_push(keybuffer,buf );
		175	buf=count=0;
		176	return 1;
		177	}
		178
		179	if ( count <= 1 )
		180	return 1;
		181
1632	vana	182	if( (buf & 0xffff) != (MSIM_KEY_F1 & 0xffff)
		183	&& (buf & 0xffff) != (MSIM_KEY_F5 & 0xffff) ) {
1622	vana	184
		185	keybuffer_push(keybuffer, buf & 0xff );
		186	keybuffer_push(keybuffer, (buf >> 8) &0xff );
		187	buf=count=0;
		188	return 1;
		189	}
		190
		191	if ( count <= 2)
		192	return 1;
		193
		194	switch (buf){
1632	vana	195	case MSIM_KEY_F1:
1622	vana	196	keybuffer_push(keybuffer,FUNCTION_KEYS \| 1 );
		197	buf=count=0;
		198	return 1;
1632	vana	199	case MSIM_KEY_F2:
1622	vana	200	keybuffer_push(keybuffer,FUNCTION_KEYS \| 2 );
		201	buf=count=0;
		202	return 1;
1632	vana	203	case MSIM_KEY_F3:
1622	vana	204	keybuffer_push(keybuffer,FUNCTION_KEYS \| 3 );
		205	buf=count=0;
		206	return 1;
1632	vana	207	case MSIM_KEY_F4:
1622	vana	208	keybuffer_push(keybuffer,FUNCTION_KEYS \| 4 );
		209	buf=count=0;
		210	return 1;
		211	}
		212
		213
1632	vana	214	if( (buf & 0xffffff) != (MSIM_KEY_F5 & 0xffffff)
		215	&& (buf & 0xffffff) != (MSIM_KEY_F9 & 0xffffff) ) {
1622	vana	216
		217	keybuffer_push(keybuffer, buf & 0xff );
		218	keybuffer_push(keybuffer, (buf >> 8) &0xff );
		219	keybuffer_push(keybuffer, (buf >> 16) &0xff );
		220	buf=count=0;
		221	return 1;
		222	}
		223
		224	if ( count <= 3 )
		225	return 1;
		226
		227
		228
		229
		230	switch (buf){
1632	vana	231	case MSIM_KEY_F5:
		232	case MSIM_KEY_F6:
		233	case MSIM_KEY_F7:
		234	case MSIM_KEY_F8:
		235	case MSIM_KEY_F9:
		236	case MSIM_KEY_F10:
		237	case MSIM_KEY_F11:
		238	case MSIM_KEY_F12:
1622	vana	239	return 1;
		240	default:
		241	keybuffer_push(keybuffer, buf & 0xff );
		242	keybuffer_push(keybuffer, (buf >> 8) &0xff );
		243	keybuffer_push(keybuffer, (buf >> 16) &0xff );
		244	keybuffer_push(keybuffer, (buf >> 24) &0xff );
		245	buf=count=0;
		246	return 1;
		247
		248	}
		249	return 1;
1347	palkovsky	250	}
1632	vana	251
		252
		253
		254	static int kbd_arch_process_gxemul(keybuffer_t *keybuffer, int scan_code)
		255	{
		256
		257	static unsigned long buf=0;
		258	static int count=0;
		259
		260
		261	//* Please preserve this code (it can be used to determine scancodes)
		262	//*
		263	//keybuffer_push(keybuffer, to_hex((scan_code>>4)&0xf));
		264	//keybuffer_push(keybuffer, to_hex(scan_code&0xf));
		265	//keybuffer_push(keybuffer, ' ');
		266	//keybuffer_push(keybuffer, ' ');
		267	//*/
		268	//return 1;
		269
1644	vana	270
		271	if ( scan_code == '\r' )
		272	scan_code = '\n' ;
		273
1632	vana	274	buf\|=((unsigned long) scan_code)<<(8*(count++));
		275
		276
		277	if((buf & 0xff)!= (GXEMUL_KEY_F1 & 0xff)) {
		278
		279	keybuffer_push(keybuffer,buf );
		280	buf=count=0;
		281	return 1;
		282	}
		283
		284	if ( count <= 1 )
		285	return 1;
		286
		287	if( (buf & 0xffff) != (GXEMUL_KEY_F1 & 0xffff) ) {
		288
		289	keybuffer_push(keybuffer, buf & 0xff );
		290	keybuffer_push(keybuffer, (buf >> 8) &0xff );
		291	buf=count=0;
		292	return 1;
		293	}
		294
		295	if ( count <= 2)
		296	return 1;
		297
		298
		299	if( (buf & 0xffffff) != (GXEMUL_KEY_F1 & 0xffffff)
		300	&& (buf & 0xffffff) != (GXEMUL_KEY_F5 & 0xffffff)
		301	&& (buf & 0xffffff) != (GXEMUL_KEY_F9 & 0xffffff) ) {
		302
		303	keybuffer_push(keybuffer, buf & 0xff );
		304	keybuffer_push(keybuffer, (buf >> 8) &0xff );
		305	keybuffer_push(keybuffer, (buf >> 16) &0xff );
		306	buf=count=0;
		307	return 1;
		308	}
		309
		310	if ( count <= 3 )
		311	return 1;
		312
		313
		314	switch (buf){
		315
		316	case GXEMUL_KEY_F1:
		317	keybuffer_push(keybuffer,FUNCTION_KEYS \| 1 );
		318	buf=count=0;
		319	return 1;
		320	case GXEMUL_KEY_F2:
		321	keybuffer_push(keybuffer,FUNCTION_KEYS \| 2 );
		322	buf=count=0;
		323	return 1;
		324	case GXEMUL_KEY_F3:
		325	keybuffer_push(keybuffer,FUNCTION_KEYS \| 3 );
		326	buf=count=0;
		327	return 1;
		328	case GXEMUL_KEY_F4:
		329	keybuffer_push(keybuffer,FUNCTION_KEYS \| 4 );
		330	buf=count=0;
		331	return 1;
		332	case GXEMUL_KEY_F5:
		333	keybuffer_push(keybuffer,FUNCTION_KEYS \| 5 );
		334	buf=count=0;
		335	return 1;
		336	case GXEMUL_KEY_F6:
		337	keybuffer_push(keybuffer,FUNCTION_KEYS \| 6 );
		338	buf=count=0;
		339	return 1;
		340	case GXEMUL_KEY_F7:
		341	keybuffer_push(keybuffer,FUNCTION_KEYS \| 7 );
		342	buf=count=0;
		343	return 1;
		344	case GXEMUL_KEY_F8:
		345	keybuffer_push(keybuffer,FUNCTION_KEYS \| 8 );
		346	buf=count=0;
		347	return 1;
		348	case GXEMUL_KEY_F9:
		349	keybuffer_push(keybuffer,FUNCTION_KEYS \| 9 );
		350	buf=count=0;
		351	return 1;
		352	case GXEMUL_KEY_F10:
		353	keybuffer_push(keybuffer,FUNCTION_KEYS \| 10 );
		354	buf=count=0;
		355	return 1;
		356	case GXEMUL_KEY_F11:
		357	keybuffer_push(keybuffer,FUNCTION_KEYS \| 11 );
		358	buf=count=0;
		359	return 1;
		360	case GXEMUL_KEY_F12:
		361	keybuffer_push(keybuffer,FUNCTION_KEYS \| 12 );
		362	buf=count=0;
		363	return 1;
		364
		365	default:
		366	keybuffer_push(keybuffer, buf & 0xff );
		367	keybuffer_push(keybuffer, (buf >> 8) &0xff );
		368	keybuffer_push(keybuffer, (buf >> 16) &0xff );
		369	keybuffer_push(keybuffer, (buf >> 24) &0xff );
		370	buf=count=0;
		371	return 1;
		372
		373	}
		374	return 1;
		375	}
		376
1694	palkovsky	377	int kbd_arch_process(keybuffer_t keybuffer, ipc_call_t call)
1632	vana	378	{
1694	palkovsky	379	int scan_code = IPC_GET_ARG2(*call);
1645	vana	380	static int esc_count=0;
		381
		382
		383	if ( scan_code == 0x1b ) {
		384	esc_count++;
		385	if ( esc_count == 3 ) {
		386	__SYSCALL0(SYS_DEBUG_ENABLE_CONSOLE);
		387	}
		388	} else {
		389	esc_count=0;
		390	}
		391
		392	if(msim) return kbd_arch_process_msim(keybuffer, scan_code);
		393	if(gxemul) return kbd_arch_process_gxemul(keybuffer, scan_code);
		394
		395	return 0;
1632	vana	396	}
		397
1649	cejka	398	/**
		399	* @}
		400	*/

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(root)//uspace/trunk/kbd/arch/mips32/src/kbd.c – Rev 1694