WebSVN – HelenOS – Blame – /branches/dynload/kernel/arch/sparc64/src/trap/trap_table.S

Rev	Author	Line No.	Line
529	jermar	1	#
2071	jermar	2	# Copyright (c) 2005 Jakub Jermar
529	jermar	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
		29	/**
1865	jermar	30	* @file
		31	* @brief This file contains kernel trap table.
529	jermar	32	*/
666	jermar	33
		34	.register %g2, #scratch
		35	.register %g3, #scratch
		36
529	jermar	37	.text
		38
630	jermar	39	#include <arch/trap/trap_table.h>
		40	#include <arch/trap/regwin.h>
663	jermar	41	#include <arch/trap/interrupt.h>
667	jermar	42	#include <arch/trap/exception.h>
1862	jermar	43	#include <arch/trap/syscall.h>
863	jermar	44	#include <arch/trap/mmu.h>
1860	jermar	45	#include <arch/mm/mmu.h>
1857	jermar	46	#include <arch/mm/page.h>
667	jermar	47	#include <arch/stack.h>
1851	jermar	48	#include <arch/regdef.h>
529	jermar	49
		50	#define TABLE_SIZE TRAP_TABLE_SIZE
		51	#define ENTRY_SIZE TRAP_TABLE_ENTRY_SIZE
		52
		53	/*
634	jermar	54	* Kernel trap table.
529	jermar	55	*/
		56	.align TABLE_SIZE
		57	.global trap_table
		58	trap_table:
		59
667	jermar	60	/* TT = 0x08, TL = 0, instruction_access_exception */
		61	.org trap_table + TT_INSTRUCTION_ACCESS_EXCEPTION*ENTRY_SIZE
1870	jermar	62	.global instruction_access_exception_tl0
		63	instruction_access_exception_tl0:
		64	wrpr %g0, PSTATE_AG_BIT \| PSTATE_PRIV_BIT, %pstate
		65	PREEMPTIBLE_HANDLER instruction_access_exception
667	jermar	66
1870	jermar	67	/* TT = 0x0a, TL = 0, instruction_access_error */
		68	.org trap_table + TT_INSTRUCTION_ACCESS_ERROR*ENTRY_SIZE
		69	.global instruction_access_error_tl0
		70	instruction_access_error_tl0:
		71	PREEMPTIBLE_HANDLER instruction_access_error
		72
883	jermar	73	/* TT = 0x10, TL = 0, illegal_instruction */
		74	.org trap_table + TT_ILLEGAL_INSTRUCTION*ENTRY_SIZE
1870	jermar	75	.global illegal_instruction_tl0
		76	illegal_instruction_tl0:
		77	PREEMPTIBLE_HANDLER illegal_instruction
883	jermar	78
1870	jermar	79	/* TT = 0x11, TL = 0, privileged_opcode */
		80	.org trap_table + TT_PRIVILEGED_OPCODE*ENTRY_SIZE
		81	.global privileged_opcode_tl0
		82	privileged_opcode_tl0:
		83	PREEMPTIBLE_HANDLER privileged_opcode
		84
1883	jermar	85	/* TT = 0x12, TL = 0, unimplemented_LDD */
		86	.org trap_table + TT_UNIMPLEMENTED_LDD*ENTRY_SIZE
		87	.global unimplemented_LDD_tl0
		88	unimplemented_LDD_tl0:
		89	PREEMPTIBLE_HANDLER unimplemented_LDD
		90
		91	/* TT = 0x13, TL = 0, unimplemented_STD */
		92	.org trap_table + TT_UNIMPLEMENTED_STD*ENTRY_SIZE
		93	.global unimplemented_STD_tl0
		94	unimplemented_STD_tl0:
		95	PREEMPTIBLE_HANDLER unimplemented_STD
		96
1882	jermar	97	/* TT = 0x20, TL = 0, fb_disabled handler */
		98	.org trap_table + TT_FP_DISABLED*ENTRY_SIZE
		99	.global fb_disabled_tl0
		100	fp_disabled_tl0:
		101	PREEMPTIBLE_HANDLER fp_disabled
		102
1883	jermar	103	/* TT = 0x21, TL = 0, fb_exception_ieee_754 handler */
		104	.org trap_table + TT_FP_EXCEPTION_IEEE_754*ENTRY_SIZE
		105	.global fb_exception_ieee_754_tl0
		106	fp_exception_ieee_754_tl0:
		107	PREEMPTIBLE_HANDLER fp_exception_ieee_754
		108
		109	/* TT = 0x22, TL = 0, fb_exception_other handler */
		110	.org trap_table + TT_FP_EXCEPTION_OTHER*ENTRY_SIZE
		111	.global fb_exception_other_tl0
		112	fp_exception_other_tl0:
		113	PREEMPTIBLE_HANDLER fp_exception_other
		114
		115	/* TT = 0x23, TL = 0, tag_overflow */
		116	.org trap_table + TT_TAG_OVERFLOW*ENTRY_SIZE
		117	.global tag_overflow_tl0
		118	tag_overflow_tl0:
		119	PREEMPTIBLE_HANDLER tag_overflow
		120
663	jermar	121	/* TT = 0x24, TL = 0, clean_window handler */
634	jermar	122	.org trap_table + TT_CLEAN_WINDOW*ENTRY_SIZE
1882	jermar	123	.global clean_window_tl0
		124	clean_window_tl0:
630	jermar	125	CLEAN_WINDOW_HANDLER
529	jermar	126
1870	jermar	127	/* TT = 0x28, TL = 0, division_by_zero */
		128	.org trap_table + TT_DIVISION_BY_ZERO*ENTRY_SIZE
		129	.global division_by_zero_tl0
		130	division_by_zero_tl0:
		131	PREEMPTIBLE_HANDLER division_by_zero
		132
		133	/* TT = 0x30, TL = 0, data_access_exception */
		134	.org trap_table + TT_DATA_ACCESS_EXCEPTION*ENTRY_SIZE
		135	.global data_access_exception_tl0
		136	data_access_exception_tl0:
		137	wrpr %g0, PSTATE_AG_BIT \| PSTATE_PRIV_BIT, %pstate
		138	PREEMPTIBLE_HANDLER data_access_exception
		139
897	jermar	140	/* TT = 0x32, TL = 0, data_access_error */
		141	.org trap_table + TT_DATA_ACCESS_ERROR*ENTRY_SIZE
1870	jermar	142	.global data_access_error_tl0
		143	data_access_error_tl0:
		144	PREEMPTIBLE_HANDLER data_access_error
897	jermar	145
667	jermar	146	/* TT = 0x34, TL = 0, mem_address_not_aligned */
		147	.org trap_table + TT_MEM_ADDRESS_NOT_ALIGNED*ENTRY_SIZE
1870	jermar	148	.global mem_address_not_aligned_tl0
		149	mem_address_not_aligned_tl0:
		150	PREEMPTIBLE_HANDLER mem_address_not_aligned
667	jermar	151
1883	jermar	152	/* TT = 0x35, TL = 0, LDDF_mem_address_not_aligned */
		153	.org trap_table + TT_LDDF_MEM_ADDRESS_NOT_ALIGNED*ENTRY_SIZE
		154	.global LDDF_mem_address_not_aligned_tl0
		155	LDDF_mem_address_not_aligned_tl0:
		156	PREEMPTIBLE_HANDLER LDDF_mem_address_not_aligned
		157
		158	/* TT = 0x36, TL = 0, STDF_mem_address_not_aligned */
		159	.org trap_table + TT_STDF_MEM_ADDRESS_NOT_ALIGNED*ENTRY_SIZE
		160	.global STDF_mem_address_not_aligned_tl0
		161	STDF_mem_address_not_aligned_tl0:
		162	PREEMPTIBLE_HANDLER STDF_mem_address_not_aligned
		163
		164	/* TT = 0x37, TL = 0, privileged_action */
1870	jermar	165	.org trap_table + TT_PRIVILEGED_ACTION*ENTRY_SIZE
		166	.global privileged_action_tl0
		167	privileged_action_tl0:
		168	PREEMPTIBLE_HANDLER privileged_action
		169
1883	jermar	170	/* TT = 0x38, TL = 0, LDQF_mem_address_not_aligned */
		171	.org trap_table + TT_LDQF_MEM_ADDRESS_NOT_ALIGNED*ENTRY_SIZE
		172	.global LDQF_mem_address_not_aligned_tl0
		173	LDQF_mem_address_not_aligned_tl0:
		174	PREEMPTIBLE_HANDLER LDQF_mem_address_not_aligned
		175
		176	/* TT = 0x39, TL = 0, STQF_mem_address_not_aligned */
		177	.org trap_table + TT_STQF_MEM_ADDRESS_NOT_ALIGNED*ENTRY_SIZE
		178	.global STQF_mem_address_not_aligned_tl0
		179	STQF_mem_address_not_aligned_tl0:
		180	PREEMPTIBLE_HANDLER STQF_mem_address_not_aligned
		181
664	jermar	182	/* TT = 0x41, TL = 0, interrupt_level_1 handler */
		183	.org trap_table + TT_INTERRUPT_LEVEL_1*ENTRY_SIZE
1870	jermar	184	.global interrupt_level_1_handler_tl0
		185	interrupt_level_1_handler_tl0:
664	jermar	186	INTERRUPT_LEVEL_N_HANDLER 1
		187
		188	/* TT = 0x42, TL = 0, interrupt_level_2 handler */
		189	.org trap_table + TT_INTERRUPT_LEVEL_2*ENTRY_SIZE
1870	jermar	190	.global interrupt_level_2_handler_tl0
		191	interrupt_level_2_handler_tl0:
664	jermar	192	INTERRUPT_LEVEL_N_HANDLER 2
		193
		194	/* TT = 0x43, TL = 0, interrupt_level_3 handler */
		195	.org trap_table + TT_INTERRUPT_LEVEL_3*ENTRY_SIZE
1870	jermar	196	.global interrupt_level_3_handler_tl0
		197	interrupt_level_3_handler_tl0:
664	jermar	198	INTERRUPT_LEVEL_N_HANDLER 3
		199
		200	/* TT = 0x44, TL = 0, interrupt_level_4 handler */
		201	.org trap_table + TT_INTERRUPT_LEVEL_4*ENTRY_SIZE
1870	jermar	202	.global interrupt_level_4_handler_tl0
		203	interrupt_level_4_handler_tl0:
664	jermar	204	INTERRUPT_LEVEL_N_HANDLER 4
		205
		206	/* TT = 0x45, TL = 0, interrupt_level_5 handler */
		207	.org trap_table + TT_INTERRUPT_LEVEL_5*ENTRY_SIZE
1870	jermar	208	.global interrupt_level_5_handler_tl0
		209	interrupt_level_5_handler_tl0:
664	jermar	210	INTERRUPT_LEVEL_N_HANDLER 5
		211
		212	/* TT = 0x46, TL = 0, interrupt_level_6 handler */
		213	.org trap_table + TT_INTERRUPT_LEVEL_6*ENTRY_SIZE
1870	jermar	214	.global interrupt_level_6_handler_tl0
		215	interrupt_level_6_handler_tl0:
664	jermar	216	INTERRUPT_LEVEL_N_HANDLER 6
		217
		218	/* TT = 0x47, TL = 0, interrupt_level_7 handler */
		219	.org trap_table + TT_INTERRUPT_LEVEL_7*ENTRY_SIZE
1870	jermar	220	.global interrupt_level_7_handler_tl0
		221	interrupt_level_7_handler_tl0:
664	jermar	222	INTERRUPT_LEVEL_N_HANDLER 7
		223
		224	/* TT = 0x48, TL = 0, interrupt_level_8 handler */
		225	.org trap_table + TT_INTERRUPT_LEVEL_8*ENTRY_SIZE
1870	jermar	226	.global interrupt_level_8_handler_tl0
		227	interrupt_level_8_handler_tl0:
664	jermar	228	INTERRUPT_LEVEL_N_HANDLER 8
		229
		230	/* TT = 0x49, TL = 0, interrupt_level_9 handler */
		231	.org trap_table + TT_INTERRUPT_LEVEL_9*ENTRY_SIZE
1870	jermar	232	.global interrupt_level_9_handler_tl0
		233	interrupt_level_9_handler_tl0:
664	jermar	234	INTERRUPT_LEVEL_N_HANDLER 9
		235
		236	/* TT = 0x4a, TL = 0, interrupt_level_10 handler */
		237	.org trap_table + TT_INTERRUPT_LEVEL_10*ENTRY_SIZE
1870	jermar	238	.global interrupt_level_10_handler_tl0
		239	interrupt_level_10_handler_tl0:
664	jermar	240	INTERRUPT_LEVEL_N_HANDLER 10
		241
		242	/* TT = 0x4b, TL = 0, interrupt_level_11 handler */
		243	.org trap_table + TT_INTERRUPT_LEVEL_11*ENTRY_SIZE
1870	jermar	244	.global interrupt_level_11_handler_tl0
		245	interrupt_level_11_handler_tl0:
664	jermar	246	INTERRUPT_LEVEL_N_HANDLER 11
		247
		248	/* TT = 0x4c, TL = 0, interrupt_level_12 handler */
		249	.org trap_table + TT_INTERRUPT_LEVEL_12*ENTRY_SIZE
1870	jermar	250	.global interrupt_level_12_handler_tl0
		251	interrupt_level_12_handler_tl0:
664	jermar	252	INTERRUPT_LEVEL_N_HANDLER 12
		253
		254	/* TT = 0x4d, TL = 0, interrupt_level_13 handler */
		255	.org trap_table + TT_INTERRUPT_LEVEL_13*ENTRY_SIZE
1870	jermar	256	.global interrupt_level_13_handler_tl0
		257	interrupt_level_13_handler_tl0:
664	jermar	258	INTERRUPT_LEVEL_N_HANDLER 13
		259
		260	/* TT = 0x4e, TL = 0, interrupt_level_14 handler */
		261	.org trap_table + TT_INTERRUPT_LEVEL_14*ENTRY_SIZE
1870	jermar	262	.global interrupt_level_14_handler_tl0
		263	interrupt_level_14_handler_tl0:
664	jermar	264	INTERRUPT_LEVEL_N_HANDLER 14
		265
		266	/* TT = 0x4f, TL = 0, interrupt_level_15 handler */
		267	.org trap_table + TT_INTERRUPT_LEVEL_15*ENTRY_SIZE
1870	jermar	268	.global interrupt_level_15_handler_tl0
		269	interrupt_level_15_handler_tl0:
664	jermar	270	INTERRUPT_LEVEL_N_HANDLER 15
		271
663	jermar	272	/* TT = 0x60, TL = 0, interrupt_vector_trap handler */
		273	.org trap_table + TT_INTERRUPT_VECTOR_TRAP*ENTRY_SIZE
1870	jermar	274	.global interrupt_vector_trap_handler_tl0
		275	interrupt_vector_trap_handler_tl0:
663	jermar	276	INTERRUPT_VECTOR_TRAP_HANDLER
		277
863	jermar	278	/* TT = 0x64, TL = 0, fast_instruction_access_MMU_miss */
		279	.org trap_table + TT_FAST_INSTRUCTION_ACCESS_MMU_MISS*ENTRY_SIZE
1870	jermar	280	.global fast_instruction_access_mmu_miss_handler_tl0
		281	fast_instruction_access_mmu_miss_handler_tl0:
863	jermar	282	FAST_INSTRUCTION_ACCESS_MMU_MISS_HANDLER
		283
		284	/* TT = 0x68, TL = 0, fast_data_access_MMU_miss */
		285	.org trap_table + TT_FAST_DATA_ACCESS_MMU_MISS*ENTRY_SIZE
1870	jermar	286	.global fast_data_access_mmu_miss_handler_tl0
		287	fast_data_access_mmu_miss_handler_tl0:
		288	FAST_DATA_ACCESS_MMU_MISS_HANDLER 0
863	jermar	289
		290	/* TT = 0x6c, TL = 0, fast_data_access_protection */
		291	.org trap_table + TT_FAST_DATA_ACCESS_PROTECTION*ENTRY_SIZE
1870	jermar	292	.global fast_data_access_protection_handler_tl0
		293	fast_data_access_protection_handler_tl0:
		294	FAST_DATA_ACCESS_PROTECTION_HANDLER 0
863	jermar	295
663	jermar	296	/* TT = 0x80, TL = 0, spill_0_normal handler */
634	jermar	297	.org trap_table + TT_SPILL_0_NORMAL*ENTRY_SIZE
1870	jermar	298	.global spill_0_normal_tl0
		299	spill_0_normal_tl0:
1852	jermar	300	SPILL_NORMAL_HANDLER_KERNEL
529	jermar	301
1856	jermar	302	/* TT = 0x84, TL = 0, spill_1_normal handler */
		303	.org trap_table + TT_SPILL_1_NORMAL*ENTRY_SIZE
1870	jermar	304	.global spill_1_normal_tl0
		305	spill_1_normal_tl0:
1856	jermar	306	SPILL_NORMAL_HANDLER_USERSPACE
		307
		308	/* TT = 0x88, TL = 0, spill_2_normal handler */
		309	.org trap_table + TT_SPILL_2_NORMAL*ENTRY_SIZE
1870	jermar	310	.global spill_2_normal_tl0
		311	spill_2_normal_tl0:
1856	jermar	312	SPILL_TO_USPACE_WINDOW_BUFFER
		313
1864	jermar	314	/* TT = 0xa0, TL = 0, spill_0_other handler */
		315	.org trap_table + TT_SPILL_0_OTHER*ENTRY_SIZE
1870	jermar	316	.global spill_0_other_tl0
		317	spill_0_other_tl0:
1864	jermar	318	SPILL_TO_USPACE_WINDOW_BUFFER
		319
663	jermar	320	/* TT = 0xc0, TL = 0, fill_0_normal handler */
634	jermar	321	.org trap_table + TT_FILL_0_NORMAL*ENTRY_SIZE
1870	jermar	322	.global fill_0_normal_tl0
		323	fill_0_normal_tl0:
1852	jermar	324	FILL_NORMAL_HANDLER_KERNEL
630	jermar	325
1856	jermar	326	/* TT = 0xc4, TL = 0, fill_1_normal handler */
		327	.org trap_table + TT_FILL_1_NORMAL*ENTRY_SIZE
1870	jermar	328	.global fill_1_normal_tl0
		329	fill_1_normal_tl0:
1856	jermar	330	FILL_NORMAL_HANDLER_USERSPACE
		331
3474	svoboda	332	/* TT = 0x100 - 0x17f, TL = 0, trap_instruction_0 - trap_instruction_7f */
		333	.irp cur, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19,\
		334	20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38,\
		335	39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57,\
		336	58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76,\
		337	77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95,\
		338	96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111,\
		339	112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126,\
		340	127
		341	.org trap_table + (TT_TRAP_INSTRUCTION_0+\cur)*ENTRY_SIZE
		342	.global trap_instruction_\cur\()_tl0
		343	trap_instruction_\cur\()_tl0:
		344	ba trap_instruction_handler
		345	mov \cur, %g2
		346	.endr
1862	jermar	347
529	jermar	348	/*
663	jermar	349	* Handlers for TL>0.
529	jermar	350	*/
		351
667	jermar	352	/* TT = 0x08, TL > 0, instruction_access_exception */
		353	.org trap_table + (TT_INSTRUCTION_ACCESS_EXCEPTION+512)*ENTRY_SIZE
1870	jermar	354	.global instruction_access_exception_tl1
		355	instruction_access_exception_tl1:
		356	wrpr %g0, 1, %tl
		357	wrpr %g0, PSTATE_AG_BIT \| PSTATE_PRIV_BIT, %pstate
		358	PREEMPTIBLE_HANDLER instruction_access_exception
667	jermar	359
1870	jermar	360	/* TT = 0x0a, TL > 0, instruction_access_error */
		361	.org trap_table + (TT_INSTRUCTION_ACCESS_ERROR+512)*ENTRY_SIZE
		362	.global instruction_access_error_tl1
		363	instruction_access_error_tl1:
		364	wrpr %g0, 1, %tl
		365	PREEMPTIBLE_HANDLER instruction_access_error
		366
883	jermar	367	/* TT = 0x10, TL > 0, illegal_instruction */
		368	.org trap_table + (TT_ILLEGAL_INSTRUCTION+512)*ENTRY_SIZE
1870	jermar	369	.global illegal_instruction_tl1
		370	illegal_instruction_tl1:
		371	wrpr %g0, 1, %tl
		372	PREEMPTIBLE_HANDLER illegal_instruction
883	jermar	373
663	jermar	374	/* TT = 0x24, TL > 0, clean_window handler */
		375	.org trap_table + (TT_CLEAN_WINDOW+512)*ENTRY_SIZE
1882	jermar	376	.global clean_window_tl1
		377	clean_window_tl1:
663	jermar	378	CLEAN_WINDOW_HANDLER
529	jermar	379
1870	jermar	380	/* TT = 0x28, TL > 0, division_by_zero */
		381	.org trap_table + (TT_DIVISION_BY_ZERO+512)*ENTRY_SIZE
		382	.global division_by_zero_tl1
		383	division_by_zero_tl1:
		384	wrpr %g0, 1, %tl
		385	PREEMPTIBLE_HANDLER division_by_zero
		386
		387	/* TT = 0x30, TL > 0, data_access_exception */
		388	.org trap_table + (TT_DATA_ACCESS_EXCEPTION+512)*ENTRY_SIZE
		389	.global data_access_exception_tl1
		390	data_access_exception_tl1:
		391	wrpr %g0, 1, %tl
		392	wrpr %g0, PSTATE_AG_BIT \| PSTATE_PRIV_BIT, %pstate
		393	PREEMPTIBLE_HANDLER data_access_exception
		394
897	jermar	395	/* TT = 0x32, TL > 0, data_access_error */
		396	.org trap_table + (TT_DATA_ACCESS_ERROR+512)*ENTRY_SIZE
1870	jermar	397	.global data_access_error_tl1
		398	data_access_error_tl1:
		399	wrpr %g0, 1, %tl
		400	PREEMPTIBLE_HANDLER data_access_error
897	jermar	401
667	jermar	402	/* TT = 0x34, TL > 0, mem_address_not_aligned */
		403	.org trap_table + (TT_MEM_ADDRESS_NOT_ALIGNED+512)*ENTRY_SIZE
1870	jermar	404	.global mem_address_not_aligned_tl1
		405	mem_address_not_aligned_tl1:
		406	wrpr %g0, 1, %tl
		407	PREEMPTIBLE_HANDLER mem_address_not_aligned
529	jermar	408
863	jermar	409	/* TT = 0x68, TL > 0, fast_data_access_MMU_miss */
		410	.org trap_table + (TT_FAST_DATA_ACCESS_MMU_MISS+512)*ENTRY_SIZE
1870	jermar	411	.global fast_data_access_mmu_miss_handler_tl1
		412	fast_data_access_mmu_miss_handler_tl1:
		413	FAST_DATA_ACCESS_MMU_MISS_HANDLER 1
863	jermar	414
		415	/* TT = 0x6c, TL > 0, fast_data_access_protection */
		416	.org trap_table + (TT_FAST_DATA_ACCESS_PROTECTION+512)*ENTRY_SIZE
1870	jermar	417	.global fast_data_access_protection_handler_tl1
		418	fast_data_access_protection_handler_tl1:
		419	FAST_DATA_ACCESS_PROTECTION_HANDLER 1
863	jermar	420
663	jermar	421	/* TT = 0x80, TL > 0, spill_0_normal handler */
		422	.org trap_table + (TT_SPILL_0_NORMAL+512)*ENTRY_SIZE
1870	jermar	423	.global spill_0_normal_tl1
		424	spill_0_normal_tl1:
1852	jermar	425	SPILL_NORMAL_HANDLER_KERNEL
529	jermar	426
1856	jermar	427	/* TT = 0x88, TL > 0, spill_2_normal handler */
		428	.org trap_table + (TT_SPILL_2_NORMAL+512)*ENTRY_SIZE
1870	jermar	429	.global spill_2_normal_tl1
		430	spill_2_normal_tl1:
1856	jermar	431	SPILL_TO_USPACE_WINDOW_BUFFER
		432
		433	/* TT = 0xa0, TL > 0, spill_0_other handler */
		434	.org trap_table + (TT_SPILL_0_OTHER+512)*ENTRY_SIZE
1870	jermar	435	.global spill_0_other_tl1
		436	spill_0_other_tl1:
1856	jermar	437	SPILL_TO_USPACE_WINDOW_BUFFER
		438
663	jermar	439	/* TT = 0xc0, TL > 0, fill_0_normal handler */
		440	.org trap_table + (TT_FILL_0_NORMAL+512)*ENTRY_SIZE
1870	jermar	441	.global fill_0_normal_tl1
		442	fill_0_normal_tl1:
1852	jermar	443	FILL_NORMAL_HANDLER_KERNEL
634	jermar	444
1977	jermar	445	.align TABLE_SIZE
		446
		447
1862	jermar	448	#define NOT(x) ((x) == 0)
663	jermar	449
1851	jermar	450	/* Preemptible trap handler for TL=1.
666	jermar	451	*
1851	jermar	452	* This trap handler makes arrangements to make calling of scheduler() from
1852	jermar	453	* within a trap context possible. It is called from several other trap
		454	* handlers.
667	jermar	455	*
2058	jermar	456	* This function can be entered either with interrupt globals or alternate
		457	* globals. Memory management trap handlers are obliged to switch to one of
		458	* those global sets prior to calling this function. Register window management
		459	* functions are not allowed to modify the alternate global registers.
667	jermar	460	*
2058	jermar	461	* The kernel is designed to work on trap levels 0 - 4. For instance, the
		462	* following can happen:
		463	* TL0: kernel thread runs (CANSAVE=0, kernel stack not in DTLB)
		464	* TL1: preemptible trap handler started after a tick interrupt
		465	* TL2: preemptible trap handler did SAVE
		466	* TL3: spill handler touched the kernel stack
		467	* TL4: hardware or software failure
		468	*
666	jermar	469	* Input registers:
2610	jermar	470	* %g1 Address of function to call if this is not a syscall.
1863	jermar	471	* %g2 First argument for the function.
1852	jermar	472	* %g6 Pre-set as kernel stack base if trap from userspace.
1856	jermar	473	* %g7 Pre-set as address of the userspace window buffer.
666	jermar	474	*/
1862	jermar	475	.macro PREEMPTIBLE_HANDLER_TEMPLATE is_syscall
1865	jermar	476	/*
		477	* ASSERT(%tl == 1)
		478	*/
		479	rdpr %tl, %g3
		480	cmp %g3, 1
		481	be 1f
		482	nop
1876	jermar	483	0: ba 0b ! this is for debugging, if we ever get here
1865	jermar	484	nop ! it will be easy to find
		485
		486	1:
1862	jermar	487	.if NOT(\is_syscall)
1852	jermar	488	rdpr %tstate, %g3
1876	jermar	489
		490	/*
		491	* One of the ways this handler can be invoked is after a nested MMU trap from
		492	* either spill_1_normal or fill_1_normal traps. Both of these traps manipulate
		493	* the CWP register. We deal with the situation by simulating the MMU trap
		494	* on TL=1 and restart the respective SAVE or RESTORE instruction once the MMU
		495	* trap is resolved. However, because we are in the wrong window from the
		496	* perspective of the MMU trap, we need to synchronize CWP with CWP from TL=0.
		497	*/
		498	and %g3, TSTATE_CWP_MASK, %g4
		499	wrpr %g4, 0, %cwp ! resynchronize CWP
		500
1852	jermar	501	andcc %g3, TSTATE_PRIV_BIT, %g0 ! if this trap came from the privileged mode...
		502	bnz 0f ! ...skip setting of kernel stack and primary context
		503	nop
1876	jermar	504
1862	jermar	505	.endif
667	jermar	506	/*
1857	jermar	507	* Normal window spills will go to the userspace window buffer.
		508	*/
		509	wrpr %g0, WSTATE_OTHER(0) \| WSTATE_NORMAL(2), %wstate
		510
1917	jermar	511	wrpr %g0, NWINDOWS - 1, %cleanwin ! prevent unnecessary clean_window exceptions
1865	jermar	512
1857	jermar	513	/*
1852	jermar	514	* Switch to kernel stack. The old stack is
		515	* automatically saved in the old window's %sp
		516	* and the new window's %fp.
667	jermar	517	*/
1852	jermar	518	save %g6, -PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE, %sp
		519
1862	jermar	520	.if \is_syscall
1852	jermar	521	/*
1862	jermar	522	* Copy arguments for the syscall to the new window.
		523	*/
2610	jermar	524	mov %i0, %o0
		525	mov %i1, %o1
		526	mov %i2, %o2
		527	mov %i3, %o3
		528	mov %i4, %o4
		529	mov %i5, %o5
1862	jermar	530	.endif
		531
		532	/*
1864	jermar	533	* Mark the CANRESTORE windows as OTHER windows.
1852	jermar	534	*/
1864	jermar	535	rdpr %canrestore, %l0
1852	jermar	536	wrpr %l0, %otherwin
1864	jermar	537	wrpr %g0, %canrestore
1852	jermar	538
		539	/*
		540	* Switch to primary context 0.
		541	*/
		542	mov VA_PRIMARY_CONTEXT_REG, %l0
1860	jermar	543	stxa %g0, [%l0] ASI_DMMU
		544	rd %pc, %l0
		545	flush %l0
1852	jermar	546
1862	jermar	547	.if NOT(\is_syscall)
1852	jermar	548	ba 1f
		549	nop
		550	0:
		551	save %sp, -PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE, %sp
		552
		553	/*
		554	* At this moment, we are using the kernel stack
		555	* and have successfully allocated a register window.
		556	*/
		557	1:
1862	jermar	558	.endif
1852	jermar	559	/*
1857	jermar	560	* Other window spills will go to the userspace window buffer
		561	* and normal spills will go to the kernel stack.
		562	*/
		563	wrpr %g0, WSTATE_OTHER(0) \| WSTATE_NORMAL(0), %wstate
		564
		565	/*
1852	jermar	566	* Copy arguments.
		567	*/
		568	mov %g1, %l0
2610	jermar	569	.if NOT(\is_syscall)
1852	jermar	570	mov %g2, %o0
2610	jermar	571	.else
		572	! store the syscall number on the stack as 7th argument
		573	stx %g2, [%sp + STACK_WINDOW_SAVE_AREA_SIZE + STACK_BIAS + STACK_ARG6]
		574	.endif
1852	jermar	575
		576	/*
		577	* Save TSTATE, TPC and TNPC aside.
		578	*/
667	jermar	579	rdpr %tstate, %g1
		580	rdpr %tpc, %g2
		581	rdpr %tnpc, %g3
1916	jermar	582	rd %y, %g4
667	jermar	583
1852	jermar	584	stx %g1, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_TSTATE]
		585	stx %g2, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_TPC]
		586	stx %g3, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_TNPC]
1915	jermar	587
		588	/*
		589	* Save the Y register.
		590	* This register is deprecated according to SPARC V9 specification
		591	* and is only present for backward compatibility with previous
		592	* versions of the SPARC architecture.
		593	* Surprisingly, gcc makes use of this register without a notice.
		594	*/
		595	stx %g4, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_Y]
667	jermar	596
		597	wrpr %g0, 0, %tl
1882	jermar	598	wrpr %g0, PSTATE_PRIV_BIT \| PSTATE_PEF_BIT, %pstate
666	jermar	599	SAVE_GLOBALS
667	jermar	600
2610	jermar	601	.if NOT(\is_syscall)
667	jermar	602	/*
1852	jermar	603	* Call the higher-level handler and pass istate as second parameter.
667	jermar	604	*/
666	jermar	605	call %l0
1852	jermar	606	add %sp, PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_TNPC, %o1
2610	jermar	607	.else
1862	jermar	608	/*
4338	svoboda	609	* Call the higher-level syscall handler and enable interrupts.
1862	jermar	610	*/
2610	jermar	611	call syscall_handler
4338	svoboda	612	wrpr %g0, PSTATE_PRIV_BIT \| PSTATE_PEF_BIT \| PSTATE_IE_BIT, %pstate
2610	jermar	613	mov %o0, %i0 ! copy the value returned by the syscall
1862	jermar	614	.endif
		615
1852	jermar	616	RESTORE_GLOBALS
1882	jermar	617	rdpr %pstate, %l1 ! we must preserve the PEF bit
1852	jermar	618	wrpr %g0, PSTATE_AG_BIT \| PSTATE_PRIV_BIT, %pstate
		619	wrpr %g0, 1, %tl
667	jermar	620
		621	/*
1852	jermar	622	* Read TSTATE, TPC and TNPC from saved copy.
667	jermar	623	*/
1852	jermar	624	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_TSTATE], %g1
		625	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_TPC], %g2
		626	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_TNPC], %g3
		627
667	jermar	628	/*
1882	jermar	629	* Copy PSTATE.PEF to the in-register copy of TSTATE.
		630	*/
		631	and %l1, PSTATE_PEF_BIT, %l1
		632	sllx %l1, TSTATE_PSTATE_SHIFT, %l1
		633	sethi %hi(TSTATE_PEF_BIT), %g4
		634	andn %g1, %g4, %g1
		635	or %g1, %l1, %g1
		636
		637	/*
1852	jermar	638	* Restore TSTATE, TPC and TNPC from saved copies.
667	jermar	639	*/
1852	jermar	640	wrpr %g1, 0, %tstate
		641	wrpr %g2, 0, %tpc
		642	wrpr %g3, 0, %tnpc
		643
1916	jermar	644	/*
		645	* Restore Y.
		646	*/
		647	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_Y], %g4
		648	wr %g4, %y
1882	jermar	649
667	jermar	650	/*
1852	jermar	651	* If OTHERWIN is zero, then all the userspace windows have been
1864	jermar	652	* spilled to kernel memory (i.e. register window buffer). Moreover,
		653	* if the scheduler was called in the meantime, all valid windows
		654	* belonging to other threads were spilled by context_restore().
		655	* If OTHERWIN is non-zero, then some userspace windows are still
1852	jermar	656	* valid. Others might have been spilled. However, the CWP pointer
		657	* needs no fixing because the scheduler had not been called.
667	jermar	658	*/
1852	jermar	659	rdpr %otherwin, %l0
		660	brnz %l0, 0f
		661	nop
		662
667	jermar	663	/*
1852	jermar	664	* OTHERWIN == 0
667	jermar	665	*/
		666
		667	/*
1852	jermar	668	* If TSTATE.CWP + 1 == CWP, then we still do not have to fix CWP.
667	jermar	669	*/
1852	jermar	670	and %g1, TSTATE_CWP_MASK, %l0
		671	inc %l0
1917	jermar	672	and %l0, NWINDOWS - 1, %l0 ! %l0 mod NWINDOWS
1852	jermar	673	rdpr %cwp, %l1
		674	cmp %l0, %l1
		675	bz 0f ! CWP is ok
		676	nop
667	jermar	677
		678	/*
1852	jermar	679	* Fix CWP.
1864	jermar	680	* In order to recapitulate, the input registers in the current
		681	* window are the output registers of the window to which we want
		682	* to restore. Because the fill trap fills only input and local
1855	jermar	683	* registers of a window, we need to preserve those output
		684	* registers manually.
667	jermar	685	*/
1857	jermar	686	mov %sp, %g2
1855	jermar	687	stx %i0, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I0]
		688	stx %i1, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I1]
		689	stx %i2, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I2]
		690	stx %i3, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I3]
		691	stx %i4, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I4]
		692	stx %i5, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I5]
		693	stx %i6, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I6]
		694	stx %i7, [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I7]
1852	jermar	695	wrpr %l0, 0, %cwp
1857	jermar	696	mov %g2, %sp
1855	jermar	697	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I0], %i0
		698	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I1], %i1
		699	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I2], %i2
		700	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I3], %i3
		701	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I4], %i4
		702	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I5], %i5
		703	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I6], %i6
		704	ldx [%sp + PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE + STACK_BIAS + SAVED_I7], %i7
		705
667	jermar	706	/*
1852	jermar	707	* OTHERWIN != 0 or fall-through from the OTHERWIN == 0 case.
1880	jermar	708	* The CWP has already been restored to the value it had after the SAVE
1857	jermar	709	* at the beginning of this function.
667	jermar	710	*/
1852	jermar	711	0:
1862	jermar	712	.if NOT(\is_syscall)
1857	jermar	713	rdpr %tstate, %g1
		714	andcc %g1, TSTATE_PRIV_BIT, %g0 ! if we are not returning to userspace...,
		715	bnz 1f ! ...skip restoring userspace windows
		716	nop
1862	jermar	717	.endif
1858	jermar	718
		719	/*
		720	* Spills and fills will be processed by the {spill,fill}_1_normal
		721	* handlers.
		722	*/
		723	wrpr %g0, WSTATE_OTHER(0) \| WSTATE_NORMAL(1), %wstate
1860	jermar	724
		725	/*
		726	* Set primary context according to secondary context.
		727	*/
		728	wr %g0, ASI_DMMU, %asi
		729	ldxa [VA_SECONDARY_CONTEXT_REG] %asi, %g1
		730	stxa %g1, [VA_PRIMARY_CONTEXT_REG] %asi
1865	jermar	731	rd %pc, %g1
		732	flush %g1
1857	jermar	733
		734	rdpr %cwp, %g1
		735	rdpr %otherwin, %g2
1852	jermar	736
1857	jermar	737	/*
		738	* Skip all OTHERWIN windows and descend to the first window
		739	* in the userspace window buffer.
		740	*/
		741	sub %g1, %g2, %g3
		742	dec %g3
1917	jermar	743	and %g3, NWINDOWS - 1, %g3
1857	jermar	744	wrpr %g3, 0, %cwp
		745
		746	/*
		747	* CWP is now in the window last saved in the userspace window buffer.
		748	* Fill all windows stored in the buffer.
		749	*/
		750	clr %g4
3535	svoboda	751	0: andcc %g7, UWB_ALIGNMENT - 1, %g0 ! alignment check
		752	bz 0f ! %g7 is UWB_ALIGNMENT-aligned, no more windows to refill
1857	jermar	753	nop
		754
		755	add %g7, -STACK_WINDOW_SAVE_AREA_SIZE, %g7
		756	ldx [%g7 + L0_OFFSET], %l0
		757	ldx [%g7 + L1_OFFSET], %l1
		758	ldx [%g7 + L2_OFFSET], %l2
		759	ldx [%g7 + L3_OFFSET], %l3
		760	ldx [%g7 + L4_OFFSET], %l4
		761	ldx [%g7 + L5_OFFSET], %l5
		762	ldx [%g7 + L6_OFFSET], %l6
		763	ldx [%g7 + L7_OFFSET], %l7
		764	ldx [%g7 + I0_OFFSET], %i0
		765	ldx [%g7 + I1_OFFSET], %i1
		766	ldx [%g7 + I2_OFFSET], %i2
		767	ldx [%g7 + I3_OFFSET], %i3
		768	ldx [%g7 + I4_OFFSET], %i4
		769	ldx [%g7 + I5_OFFSET], %i5
		770	ldx [%g7 + I6_OFFSET], %i6
		771	ldx [%g7 + I7_OFFSET], %i7
		772
		773	dec %g3
1917	jermar	774	and %g3, NWINDOWS - 1, %g3
1857	jermar	775	wrpr %g3, 0, %cwp ! switch to the preceeding window
		776
		777	ba 0b
		778	inc %g4
		779
		780	0:
		781	/*
		782	* Switch back to the proper current window and adjust
		783	* OTHERWIN, CANRESTORE, CANSAVE and CLEANWIN.
		784	*/
		785	wrpr %g1, 0, %cwp
		786	add %g4, %g2, %g2
1917	jermar	787	cmp %g2, NWINDOWS - 2
		788	bg 2f ! fix the CANRESTORE=NWINDOWS-1 anomaly
		789	mov NWINDOWS - 2, %g1 ! use dealy slot for both cases
1857	jermar	790	sub %g1, %g2, %g1
		791
		792	wrpr %g0, 0, %otherwin
1917	jermar	793	wrpr %g1, 0, %cansave ! NWINDOWS - 2 - CANRESTORE
1857	jermar	794	wrpr %g2, 0, %canrestore ! OTHERWIN + windows in the buffer
		795	wrpr %g2, 0, %cleanwin ! avoid information leak
		796
1858	jermar	797	1:
		798	restore
1862	jermar	799
		800	.if \is_syscall
		801	done
		802	.else
1858	jermar	803	retry
1862	jermar	804	.endif
1858	jermar	805
1857	jermar	806	/*
1858	jermar	807	* We got here in order to avoid inconsistency of the window state registers.
		808	* If the:
		809	*
		810	* save %g6, -PREEMPTIBLE_HANDLER_STACK_FRAME_SIZE, %sp
		811	*
		812	* instruction trapped and spilled a register window into the userspace
1917	jermar	813	* window buffer, we have just restored NWINDOWS - 1 register windows.
1858	jermar	814	* However, CANRESTORE can be only NWINDOW - 2 at most.
		815	*
1917	jermar	816	* The solution is to manually switch to (CWP - 1) mod NWINDOWS
1858	jermar	817	* and set the window state registers so that:
		818	*
1917	jermar	819	* CANRESTORE = NWINDOWS - 2
		820	* CLEANWIN = NWINDOWS - 2
1858	jermar	821	* CANSAVE = 0
		822	* OTHERWIN = 0
		823	*
1876	jermar	824	* The RESTORE instruction is therfore to be skipped.
1857	jermar	825	*/
1858	jermar	826	2:
		827	wrpr %g0, 0, %otherwin
		828	wrpr %g0, 0, %cansave
		829	wrpr %g1, 0, %canrestore
		830	wrpr %g1, 0, %cleanwin
1857	jermar	831
1858	jermar	832	rdpr %cwp, %g1
		833	dec %g1
1917	jermar	834	and %g1, NWINDOWS - 1, %g1
1858	jermar	835	wrpr %g1, 0, %cwp ! CWP--
		836
1862	jermar	837	.if \is_syscall
		838	done
		839	.else
666	jermar	840	retry
1862	jermar	841	.endif
		842
		843	.endm
		844
		845	.global preemptible_handler
		846	preemptible_handler:
		847	PREEMPTIBLE_HANDLER_TEMPLATE 0
		848
		849	.global trap_instruction_handler
		850	trap_instruction_handler:
		851	PREEMPTIBLE_HANDLER_TEMPLATE 1

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(root)/branches/dynload/kernel/arch/sparc64/src/trap/trap_table.S – Rev 4338