WebSVN – HelenOS-historic – Blame – /kernel/trunk/arch/ia64/src/ivt.S

Rev	Author	Line No.	Line
212	vana	1	#
		2	# Copyright (C) 2005 Jakub Vana
478	jermar	3	# Copyright (C) 2005 Jakub Jermar
212	vana	4	# All rights reserved.
		5	#
		6	# Redistribution and use in source and binary forms, with or without
		7	# modification, are permitted provided that the following conditions
		8	# are met:
		9	#
		10	# - Redistributions of source code must retain the above copyright
		11	# notice, this list of conditions and the following disclaimer.
		12	# - Redistributions in binary form must reproduce the above copyright
		13	# notice, this list of conditions and the following disclaimer in the
		14	# documentation and/or other materials provided with the distribution.
		15	# - The name of the author may not be used to endorse or promote products
		16	# derived from this software without specific prior written permission.
		17	#
		18	# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
		19	# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
		20	# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
		21	# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
		22	# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
		23	# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		24	# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		25	# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		26	# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
		27	# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		28	#
		29
443	jermar	30	#include <arch/stack.h>
478	jermar	31	#include <arch/register.h>
212	vana	32
443	jermar	33	#define STACK_ITEMS 12
		34	#define STACK_FRAME_SIZE ((STACK_ITEMS*STACK_ITEM_SIZE) + STACK_SCRATCH_AREA_SIZE)
		35
		36	#if (STACK_FRAME_SIZE % STACK_ALIGNMENT != 0)
		37	#error Memory stack must be 16-byte aligned.
		38	#endif
		39
911	jermar	40	/** Partitioning of bank 0 registers. */
		41	#define R_OFFS r16
		42	#define R_HANDLER r17
		43	#define R_RET r18
		44	#define R_KSTACK r23 /* keep in sync with before_thread_runs_arch() */
		45
438	jermar	46	/** Heavyweight interrupt handler
		47	*
435	jermar	48	* This macro roughly follows steps from 1 to 19 described in
		49	* Intel Itanium Architecture Software Developer's Manual, Chapter 3.4.2.
		50	*
438	jermar	51	* HEAVYWEIGHT_HANDLER macro must cram into 16 bundles (48 instructions).
		52	* This goal is achieved by using procedure calls after RSE becomes operational.
		53	*
435	jermar	54	* Some steps are skipped (enabling and disabling interrupts).
		55	* Some steps are not fully supported yet (e.g. interruptions
438	jermar	56	* from userspace and floating-point context).
456	jermar	57	*
		58	* @param offs Offset from the beginning of IVT.
		59	* @param handler Interrupt handler address.
435	jermar	60	*/
470	jermar	61	.macro HEAVYWEIGHT_HANDLER offs, handler=universal_handler
		62	.org ivt + \offs
911	jermar	63	mov R_OFFS = \offs
		64	movl R_HANDLER = \handler ;;
470	jermar	65	br heavyweight_handler
		66	.endm
212	vana	67
470	jermar	68	.global heavyweight_handler
		69	heavyweight_handler:
435	jermar	70	/* 1. copy interrupt registers into bank 0 */
911	jermar	71
		72	/*
		73	* Note that r24-r31 from bank0 can be used only as long as PSR.ic = 0.
		74	*/
435	jermar	75	mov r24 = cr.iip
		76	mov r25 = cr.ipsr
		77	mov r26 = cr.iipa
		78	mov r27 = cr.isr
		79	mov r28 = cr.ifa
		80
		81	/* 2. preserve predicate register into bank 0 */
		82	mov r29 = pr ;;
		83
438	jermar	84	/* 3. switch to kernel memory stack */
435	jermar	85	/* TODO: support interruptions from userspace */
		86	/* assume kernel stack */
		87
443	jermar	88	add r31 = -8, r12 ;;
470	jermar	89	add r12 = -STACK_FRAME_SIZE, r12
		90
		91	/* 4. save registers in bank 0 into memory stack */
443	jermar	92	st8 [r31] = r29, -8 ;; / save predicate registers /
438	jermar	93
443	jermar	94	st8 [r31] = r24, -8 ;; / save cr.iip /
		95	st8 [r31] = r25, -8 ;; / save cr.ipsr /
		96	st8 [r31] = r26, -8 ;; / save cr.iipa /
		97	st8 [r31] = r27, -8 ;; / save cr.isr /
470	jermar	98	st8 [r31] = r28, -8 /* save cr.ifa */
438	jermar	99
		100	/* 5. RSE switch from interrupted context */
435	jermar	101	mov r24 = ar.rsc
		102	mov r25 = ar.pfs
		103	cover
		104	mov r26 = cr.ifs
		105
470	jermar	106	st8 [r31] = r24, -8;; /* save ar.rsc */
		107	st8 [r31] = r25, -8;; / save ar.pfs /
443	jermar	108	st8 [r31] = r26, -8 /* save ar.ifs */
435	jermar	109
470	jermar	110	and r30 = ~3, r24 ;;
		111	mov ar.rsc = r30 ;; / place RSE in enforced lazy mode /
435	jermar	112
		113	mov r27 = ar.rnat
470	jermar	114	mov r28 = ar.bspstore ;;
435	jermar	115
		116	/* assume kernel backing store */
478	jermar	117	/* mov ar.bspstore = r28 ;; /*
435	jermar	118
		119	mov r29 = ar.bsp
		120
470	jermar	121	st8 [r31] = r27, -8 ;; / save ar.rnat /
		122	st8 [r31] = r28, -8 ;; / save ar.bspstore /
456	jermar	123	st8 [r31] = r29, -8 /* save ar.bsp */
435	jermar	124
		125	mov ar.rsc = r24 /* restore RSE's setting */
		126
470	jermar	127	/* steps 6 - 15 are done by heavyweight_handler_inner() */
911	jermar	128	mov R_RET = b0 /* save b0 belonging to interrupted context */
		129	br.call.sptk.many b0 = heavyweight_handler_inner
		130	0: mov b0 = R_RET /* restore b0 belonging to the interrupted context */
438	jermar	131
470	jermar	132	/* 16. RSE switch to interrupted context */
		133	cover /* allocate zerro size frame (step 1 (from Intel Docs)) */
438	jermar	134
470	jermar	135	add r31 = STACK_SCRATCH_AREA_SIZE, r12 ;;
		136
		137	mov r28 = ar.bspstore /* calculate loadrs (step 2) */
		138	ld8 r29 = [r31], +8 ;; / load ar.bsp /
		139	sub r27 = r29 , r28 ;;
		140	shl r27 = r27, 16
		141
		142	mov r24 = ar.rsc ;;
		143	and r30 = ~3, r24 ;;
		144	or r24 = r30 , r27 ;;
		145	mov ar.rsc = r24 ;; / place RSE in enforced lazy mode /
		146
		147	loadrs /* (step 3) */
		148
		149	ld8 r28 = [r31], +8 ;; / load ar.bspstore /
		150	ld8 r27 = [r31], +8 ;; / load ar.rnat /
		151	ld8 r26 = [r31], +8 ;; / load cr.ifs /
		152	ld8 r25 = [r31], +8 ;; / load ar.pfs /
		153	ld8 r24 = [r31], +8 ;; / load ar.rsc /
		154
478	jermar	155	/* mov ar.bspstore = r28 ;; / /* (step 4) /
		156	/ mov ar.rnat = r27 / / (step 5) /
470	jermar	157
		158	mov ar.pfs = r25 /* (step 6) */
		159	mov cr.ifs = r26
		160
		161	mov ar.rsc = r24 /* (step 7) */
		162
		163	/* 17. restore interruption state from memory stack */
		164	ld8 r28 = [r31], +8 ;; / load cr.ifa /
		165	ld8 r27 = [r31], +8 ;; / load cr.isr /
		166	ld8 r26 = [r31], +8 ;; / load cr.iipa /
		167	ld8 r25 = [r31], +8 ;; / load cr.ipsr /
		168	ld8 r24 = [r31], +8 ;; / load cr.iip /
		169
		170	mov cr.iip = r24
		171	mov cr.ipsr = r25
		172	mov cr.iipa = r26
		173	mov cr.isr = r27
		174	mov cr.ifa = r28
		175
		176	/* 18. restore predicate registers from memory stack */
		177	ld8 r29 = [r31] , -8 ;; / load predicate registers /
		178	mov pr = r29
		179
		180	/* 19. return from interruption */
		181	add r12 = STACK_FRAME_SIZE, r12
		182	rfi ;;
		183
438	jermar	184	.global heavyweight_handler_inner
		185	heavyweight_handler_inner:
		186	/*
		187	* From this point, the rest of the interrupted context
		188	* will be preserved in stacked registers and backing store.
		189	*/
470	jermar	190	alloc loc0 = ar.pfs, 0, 47, 2, 0 ;;
438	jermar	191
470	jermar	192	/* bank 0 is going to be shadowed, copy essential data from there */
911	jermar	193	mov loc1 = R_RET /* b0 belonging to interrupted context */
		194	mov loc2 = R_HANDLER
		195	mov out0 = R_OFFS
470	jermar	196
		197	add out1 = STACK_SCRATCH_AREA_SIZE, r12
438	jermar	198
435	jermar	199	/* 6. switch to bank 1 and reenable PSR.ic */
478	jermar	200	ssm PSR_IC_MASK
435	jermar	201	bsw.1 ;;
		202	srlz.d
		203
		204	/* 7. preserve branch and application registers */
470	jermar	205	mov loc3 = ar.unat
		206	mov loc4 = ar.lc
		207	mov loc5 = ar.ec
		208	mov loc6 = ar.ccv
		209	mov loc7 = ar.csd
		210	mov loc8 = ar.ssd
435	jermar	211
470	jermar	212	mov loc9 = b0
		213	mov loc10 = b1
		214	mov loc11 = b2
		215	mov loc12 = b3
		216	mov loc13 = b4
		217	mov loc14 = b5
		218	mov loc15 = b6
		219	mov loc16 = b7
438	jermar	220
435	jermar	221	/* 8. preserve general and floating-point registers */
		222	/* TODO: save floating-point context */
470	jermar	223	mov loc17 = r1
		224	mov loc18 = r2
		225	mov loc19 = r3
		226	mov loc20 = r4
		227	mov loc21 = r5
		228	mov loc22 = r6
		229	mov loc23 = r7
		230	mov loc24 = r8
		231	mov loc25 = r9
		232	mov loc26 = r10
		233	mov loc27 = r11
438	jermar	234	/* skip r12 (stack pointer) */
470	jermar	235	mov loc28 = r13
		236	mov loc29 = r14
		237	mov loc30 = r15
		238	mov loc31 = r16
		239	mov loc32 = r17
		240	mov loc33 = r18
		241	mov loc34 = r19
		242	mov loc35 = r20
		243	mov loc36 = r21
		244	mov loc37 = r22
		245	mov loc38 = r23
		246	mov loc39 = r24
		247	mov loc40 = r25
		248	mov loc41 = r26
		249	mov loc42 = r27
		250	mov loc43 = r28
		251	mov loc44 = r29
		252	mov loc45 = r30
		253	mov loc46 = r31
438	jermar	254
435	jermar	255	/* 9. skipped (will not enable interrupts) */
478	jermar	256	/*
		257	* ssm PSR_I_MASK
		258	* ;;
		259	* srlz.d
		260	*/
238	vana	261
438	jermar	262	/* 10. call handler */
470	jermar	263	mov b1 = loc2
438	jermar	264	br.call.sptk.many b0 = b1
		265
		266	/* 11. return from handler */
		267	0:
		268
435	jermar	269	/* 12. skipped (will not disable interrupts) */
478	jermar	270	/*
		271	* rsm PSR_I_MASK
		272	* ;;
		273	* srlz.d
		274	*/
438	jermar	275
435	jermar	276	/* 13. restore general and floating-point registers */
		277	/* TODO: restore floating-point context */
470	jermar	278	mov r1 = loc17
		279	mov r2 = loc18
		280	mov r3 = loc19
		281	mov r4 = loc20
		282	mov r5 = loc21
		283	mov r6 = loc22
		284	mov r7 = loc23
		285	mov r8 = loc24
		286	mov r9 = loc25
		287	mov r10 = loc26
		288	mov r11 = loc27
438	jermar	289	/* skip r12 (stack pointer) */
470	jermar	290	mov r13 = loc28
		291	mov r14 = loc29
		292	mov r15 = loc30
		293	mov r16 = loc31
		294	mov r17 = loc32
		295	mov r18 = loc33
		296	mov r19 = loc34
		297	mov r20 = loc35
		298	mov r21 = loc36
		299	mov r22 = loc37
		300	mov r23 = loc38
		301	mov r24 = loc39
		302	mov r25 = loc40
		303	mov r26 = loc41
		304	mov r27 = loc42
		305	mov r28 = loc43
		306	mov r29 = loc44
		307	mov r30 = loc45
		308	mov r31 = loc46
435	jermar	309
		310	/* 14. restore branch and application registers */
470	jermar	311	mov ar.unat = loc3
		312	mov ar.lc = loc4
		313	mov ar.ec = loc5
		314	mov ar.ccv = loc6
		315	mov ar.csd = loc7
		316	mov ar.ssd = loc8
435	jermar	317
470	jermar	318	mov b0 = loc9
		319	mov b1 = loc10
		320	mov b2 = loc11
		321	mov b3 = loc12
		322	mov b4 = loc13
		323	mov b5 = loc14
		324	mov b6 = loc15
		325	mov b7 = loc16
438	jermar	326
435	jermar	327	/* 15. disable PSR.ic and switch to bank 0 */
478	jermar	328	rsm PSR_IC_MASK
435	jermar	329	bsw.0 ;;
		330	srlz.d
438	jermar	331
911	jermar	332	mov R_RET = loc1
438	jermar	333	mov ar.pfs = loc0
470	jermar	334	br.ret.sptk.many b0
438	jermar	335
470	jermar	336	.global ivt
		337	.align 32768
		338	ivt:
		339	HEAVYWEIGHT_HANDLER 0x0000
		340	HEAVYWEIGHT_HANDLER 0x0400
		341	HEAVYWEIGHT_HANDLER 0x0800
899	jermar	342	HEAVYWEIGHT_HANDLER 0x0c00 alternate_instruction_tlb_fault
		343	HEAVYWEIGHT_HANDLER 0x1000 alternate_data_tlb_fault
		344	HEAVYWEIGHT_HANDLER 0x1400 data_nested_tlb_fault
470	jermar	345	HEAVYWEIGHT_HANDLER 0x1800
		346	HEAVYWEIGHT_HANDLER 0x1c00
899	jermar	347	HEAVYWEIGHT_HANDLER 0x2000 data_dirty_bit_fault
		348	HEAVYWEIGHT_HANDLER 0x2400 instruction_access_bit_fault
		349	HEAVYWEIGHT_HANDLER 0x2800 data_access_bit_fault
470	jermar	350	HEAVYWEIGHT_HANDLER 0x2c00 break_instruction
		351	HEAVYWEIGHT_HANDLER 0x3000 external_interrupt /* For external interrupt, heavyweight handler is used. */
		352	HEAVYWEIGHT_HANDLER 0x3400
		353	HEAVYWEIGHT_HANDLER 0x3800
		354	HEAVYWEIGHT_HANDLER 0x3c00
		355	HEAVYWEIGHT_HANDLER 0x4000
		356	HEAVYWEIGHT_HANDLER 0x4400
		357	HEAVYWEIGHT_HANDLER 0x4800
		358	HEAVYWEIGHT_HANDLER 0x4c00
444	vana	359
899	jermar	360	HEAVYWEIGHT_HANDLER 0x5000 page_not_present
470	jermar	361	HEAVYWEIGHT_HANDLER 0x5100
		362	HEAVYWEIGHT_HANDLER 0x5200
		363	HEAVYWEIGHT_HANDLER 0x5300
		364	HEAVYWEIGHT_HANDLER 0x5400 general_exception
		365	HEAVYWEIGHT_HANDLER 0x5500
		366	HEAVYWEIGHT_HANDLER 0x5600
		367	HEAVYWEIGHT_HANDLER 0x5700
		368	HEAVYWEIGHT_HANDLER 0x5800
		369	HEAVYWEIGHT_HANDLER 0x5900
		370	HEAVYWEIGHT_HANDLER 0x5a00
		371	HEAVYWEIGHT_HANDLER 0x5b00
		372	HEAVYWEIGHT_HANDLER 0x5c00
		373	HEAVYWEIGHT_HANDLER 0x5d00
		374	HEAVYWEIGHT_HANDLER 0x5e00
		375	HEAVYWEIGHT_HANDLER 0x5f00
435	jermar	376
470	jermar	377	HEAVYWEIGHT_HANDLER 0x6000
		378	HEAVYWEIGHT_HANDLER 0x6100
		379	HEAVYWEIGHT_HANDLER 0x6200
		380	HEAVYWEIGHT_HANDLER 0x6300
		381	HEAVYWEIGHT_HANDLER 0x6400
		382	HEAVYWEIGHT_HANDLER 0x6500
		383	HEAVYWEIGHT_HANDLER 0x6600
		384	HEAVYWEIGHT_HANDLER 0x6700
		385	HEAVYWEIGHT_HANDLER 0x6800
		386	HEAVYWEIGHT_HANDLER 0x6900
		387	HEAVYWEIGHT_HANDLER 0x6a00
		388	HEAVYWEIGHT_HANDLER 0x6b00
		389	HEAVYWEIGHT_HANDLER 0x6c00
		390	HEAVYWEIGHT_HANDLER 0x6d00
		391	HEAVYWEIGHT_HANDLER 0x6e00
		392	HEAVYWEIGHT_HANDLER 0x6f00
435	jermar	393
470	jermar	394	HEAVYWEIGHT_HANDLER 0x7000
		395	HEAVYWEIGHT_HANDLER 0x7100
		396	HEAVYWEIGHT_HANDLER 0x7200
		397	HEAVYWEIGHT_HANDLER 0x7300
		398	HEAVYWEIGHT_HANDLER 0x7400
		399	HEAVYWEIGHT_HANDLER 0x7500
		400	HEAVYWEIGHT_HANDLER 0x7600
		401	HEAVYWEIGHT_HANDLER 0x7700
		402	HEAVYWEIGHT_HANDLER 0x7800
		403	HEAVYWEIGHT_HANDLER 0x7900
		404	HEAVYWEIGHT_HANDLER 0x7a00
		405	HEAVYWEIGHT_HANDLER 0x7b00
		406	HEAVYWEIGHT_HANDLER 0x7c00
		407	HEAVYWEIGHT_HANDLER 0x7d00
		408	HEAVYWEIGHT_HANDLER 0x7e00
		409	HEAVYWEIGHT_HANDLER 0x7f00

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