xref: /openbmc/linux/arch/parisc/kernel/entry.S (revision c6fbbf1e)
1/* SPDX-License-Identifier: GPL-2.0-or-later */
2/*
3 * Linux/PA-RISC Project (http://www.parisc-linux.org/)
4 *
5 * kernel entry points (interruptions, system call wrappers)
6 *  Copyright (C) 1999,2000 Philipp Rumpf
7 *  Copyright (C) 1999 SuSE GmbH Nuernberg
8 *  Copyright (C) 2000 Hewlett-Packard (John Marvin)
9 *  Copyright (C) 1999 Hewlett-Packard (Frank Rowand)
10 */
11
12#include <asm/asm-offsets.h>
13
14/* we have the following possibilities to act on an interruption:
15 *  - handle in assembly and use shadowed registers only
16 *  - save registers to kernel stack and handle in assembly or C */
17
18
19#include <asm/psw.h>
20#include <asm/cache.h>		/* for L1_CACHE_SHIFT */
21#include <asm/assembly.h>	/* for LDREG/STREG defines */
22#include <asm/signal.h>
23#include <asm/unistd.h>
24#include <asm/ldcw.h>
25#include <asm/traps.h>
26#include <asm/thread_info.h>
27#include <asm/alternative.h>
28
29#include <linux/linkage.h>
30#include <linux/pgtable.h>
31
32#ifdef CONFIG_64BIT
33	.level 2.0w
34#else
35	.level 2.0
36#endif
37
38	/* Get aligned page_table_lock address for this mm from cr28/tr4 */
39	.macro  get_ptl reg
40	mfctl	%cr28,\reg
41	.endm
42
43	/* space_to_prot macro creates a prot id from a space id */
44
45#if (SPACEID_SHIFT) == 0
46	.macro  space_to_prot spc prot
47	depd,z  \spc,62,31,\prot
48	.endm
49#else
50	.macro  space_to_prot spc prot
51	extrd,u \spc,(64 - (SPACEID_SHIFT)),32,\prot
52	.endm
53#endif
54	/*
55	 * The "get_stack" macros are responsible for determining the
56	 * kernel stack value.
57	 *
58	 *      If sr7 == 0
59	 *          Already using a kernel stack, so call the
60	 *          get_stack_use_r30 macro to push a pt_regs structure
61	 *          on the stack, and store registers there.
62	 *      else
63	 *          Need to set up a kernel stack, so call the
64	 *          get_stack_use_cr30 macro to set up a pointer
65	 *          to the pt_regs structure contained within the
66	 *          task pointer pointed to by cr30. Load the stack
67	 *          pointer from the task structure.
68	 *
69	 * Note that we use shadowed registers for temps until
70	 * we can save %r26 and %r29. %r26 is used to preserve
71	 * %r8 (a shadowed register) which temporarily contained
72	 * either the fault type ("code") or the eirr. We need
73	 * to use a non-shadowed register to carry the value over
74	 * the rfir in virt_map. We use %r26 since this value winds
75	 * up being passed as the argument to either do_cpu_irq_mask
76	 * or handle_interruption. %r29 is used to hold a pointer
77	 * the register save area, and once again, it needs to
78	 * be a non-shadowed register so that it survives the rfir.
79	 */
80
81	.macro  get_stack_use_cr30
82
83	/* we save the registers in the task struct */
84
85	copy	%r30, %r17
86	mfctl   %cr30, %r1
87	tophys  %r1,%r9		/* task_struct */
88	LDREG	TASK_STACK(%r9),%r30
89	ldo	PT_SZ_ALGN(%r30),%r30
90	mtsp	%r0,%sr7	/* clear sr7 after kernel stack was set! */
91	mtsp	%r16,%sr3
92	ldo     TASK_REGS(%r9),%r9
93	STREG   %r17,PT_GR30(%r9)
94	STREG   %r29,PT_GR29(%r9)
95	STREG   %r26,PT_GR26(%r9)
96	STREG	%r16,PT_SR7(%r9)
97	copy    %r9,%r29
98	.endm
99
100	.macro  get_stack_use_r30
101
102	/* we put a struct pt_regs on the stack and save the registers there */
103
104	tophys  %r30,%r9
105	copy	%r30,%r1
106	ldo	PT_SZ_ALGN(%r30),%r30
107	STREG   %r1,PT_GR30(%r9)
108	STREG   %r29,PT_GR29(%r9)
109	STREG   %r26,PT_GR26(%r9)
110	STREG	%r16,PT_SR7(%r9)
111	copy    %r9,%r29
112	.endm
113
114	.macro  rest_stack
115	LDREG   PT_GR1(%r29), %r1
116	LDREG   PT_GR30(%r29),%r30
117	LDREG   PT_GR29(%r29),%r29
118	.endm
119
120	/* default interruption handler
121	 * (calls traps.c:handle_interruption) */
122	.macro	def code
123	b	intr_save
124	ldi     \code, %r8
125	.align	32
126	.endm
127
128	/* Interrupt interruption handler
129	 * (calls irq.c:do_cpu_irq_mask) */
130	.macro	extint code
131	b	intr_extint
132	mfsp    %sr7,%r16
133	.align	32
134	.endm
135
136	.import	os_hpmc, code
137
138	/* HPMC handler */
139	.macro	hpmc code
140	nop			/* must be a NOP, will be patched later */
141	load32	PA(os_hpmc), %r3
142	bv,n	0(%r3)
143	nop
144	.word	0		/* checksum (will be patched) */
145	.word	0		/* address of handler */
146	.word	0		/* length of handler */
147	.endm
148
149	/*
150	 * Performance Note: Instructions will be moved up into
151	 * this part of the code later on, once we are sure
152	 * that the tlb miss handlers are close to final form.
153	 */
154
155	/* Register definitions for tlb miss handler macros */
156
157	va  = r8	/* virtual address for which the trap occurred */
158	spc = r24	/* space for which the trap occurred */
159
160#ifndef CONFIG_64BIT
161
162	/*
163	 * itlb miss interruption handler (parisc 1.1 - 32 bit)
164	 */
165
166	.macro	itlb_11 code
167
168	mfctl	%pcsq, spc
169	b	itlb_miss_11
170	mfctl	%pcoq, va
171
172	.align		32
173	.endm
174#endif
175
176	/*
177	 * itlb miss interruption handler (parisc 2.0)
178	 */
179
180	.macro	itlb_20 code
181	mfctl	%pcsq, spc
182#ifdef CONFIG_64BIT
183	b       itlb_miss_20w
184#else
185	b	itlb_miss_20
186#endif
187	mfctl	%pcoq, va
188
189	.align		32
190	.endm
191
192#ifndef CONFIG_64BIT
193	/*
194	 * naitlb miss interruption handler (parisc 1.1 - 32 bit)
195	 */
196
197	.macro	naitlb_11 code
198
199	mfctl	%isr,spc
200	b	naitlb_miss_11
201	mfctl 	%ior,va
202
203	.align		32
204	.endm
205#endif
206
207	/*
208	 * naitlb miss interruption handler (parisc 2.0)
209	 */
210
211	.macro	naitlb_20 code
212
213	mfctl	%isr,spc
214#ifdef CONFIG_64BIT
215	b       naitlb_miss_20w
216#else
217	b	naitlb_miss_20
218#endif
219	mfctl 	%ior,va
220
221	.align		32
222	.endm
223
224#ifndef CONFIG_64BIT
225	/*
226	 * dtlb miss interruption handler (parisc 1.1 - 32 bit)
227	 */
228
229	.macro	dtlb_11 code
230
231	mfctl	%isr, spc
232	b	dtlb_miss_11
233	mfctl	%ior, va
234
235	.align		32
236	.endm
237#endif
238
239	/*
240	 * dtlb miss interruption handler (parisc 2.0)
241	 */
242
243	.macro	dtlb_20 code
244
245	mfctl	%isr, spc
246#ifdef CONFIG_64BIT
247	b       dtlb_miss_20w
248#else
249	b	dtlb_miss_20
250#endif
251	mfctl	%ior, va
252
253	.align		32
254	.endm
255
256#ifndef CONFIG_64BIT
257	/* nadtlb miss interruption handler (parisc 1.1 - 32 bit) */
258
259	.macro	nadtlb_11 code
260
261	mfctl	%isr,spc
262	b       nadtlb_miss_11
263	mfctl	%ior,va
264
265	.align		32
266	.endm
267#endif
268
269	/* nadtlb miss interruption handler (parisc 2.0) */
270
271	.macro	nadtlb_20 code
272
273	mfctl	%isr,spc
274#ifdef CONFIG_64BIT
275	b       nadtlb_miss_20w
276#else
277	b       nadtlb_miss_20
278#endif
279	mfctl	%ior,va
280
281	.align		32
282	.endm
283
284#ifndef CONFIG_64BIT
285	/*
286	 * dirty bit trap interruption handler (parisc 1.1 - 32 bit)
287	 */
288
289	.macro	dbit_11 code
290
291	mfctl	%isr,spc
292	b	dbit_trap_11
293	mfctl	%ior,va
294
295	.align		32
296	.endm
297#endif
298
299	/*
300	 * dirty bit trap interruption handler (parisc 2.0)
301	 */
302
303	.macro	dbit_20 code
304
305	mfctl	%isr,spc
306#ifdef CONFIG_64BIT
307	b       dbit_trap_20w
308#else
309	b	dbit_trap_20
310#endif
311	mfctl	%ior,va
312
313	.align		32
314	.endm
315
316	/* In LP64, the space contains part of the upper 32 bits of the
317	 * fault.  We have to extract this and place it in the va,
318	 * zeroing the corresponding bits in the space register */
319	.macro		space_adjust	spc,va,tmp
320#ifdef CONFIG_64BIT
321	extrd,u		\spc,63,SPACEID_SHIFT,\tmp
322	depd		%r0,63,SPACEID_SHIFT,\spc
323	depd		\tmp,31,SPACEID_SHIFT,\va
324#endif
325	.endm
326
327	.import		swapper_pg_dir,code
328
329	/* Get the pgd.  For faults on space zero (kernel space), this
330	 * is simply swapper_pg_dir.  For user space faults, the
331	 * pgd is stored in %cr25 */
332	.macro		get_pgd		spc,reg
333	ldil		L%PA(swapper_pg_dir),\reg
334	ldo		R%PA(swapper_pg_dir)(\reg),\reg
335	or,COND(=)	%r0,\spc,%r0
336	mfctl		%cr25,\reg
337	.endm
338
339	/*
340		space_check(spc,tmp,fault)
341
342		spc - The space we saw the fault with.
343		tmp - The place to store the current space.
344		fault - Function to call on failure.
345
346		Only allow faults on different spaces from the
347		currently active one if we're the kernel
348
349	*/
350	.macro		space_check	spc,tmp,fault
351	mfsp		%sr7,\tmp
352	/* check against %r0 which is same value as LINUX_GATEWAY_SPACE */
353	or,COND(<>)	%r0,\spc,%r0	/* user may execute gateway page
354					 * as kernel, so defeat the space
355					 * check if it is */
356	copy		\spc,\tmp
357	or,COND(=)	%r0,\tmp,%r0	/* nullify if executing as kernel */
358	cmpb,COND(<>),n	\tmp,\spc,\fault
359	.endm
360
361	/* Look up a PTE in a 2-Level scheme (faulting at each
362	 * level if the entry isn't present
363	 *
364	 * NOTE: we use ldw even for LP64, since the short pointers
365	 * can address up to 1TB
366	 */
367	.macro		L2_ptep	pmd,pte,index,va,fault
368#if CONFIG_PGTABLE_LEVELS == 3
369	extru_safe	\va,31-ASM_PMD_SHIFT,ASM_BITS_PER_PMD,\index
370#else
371	extru_safe	\va,31-ASM_PGDIR_SHIFT,ASM_BITS_PER_PGD,\index
372#endif
373	dep             %r0,31,PAGE_SHIFT,\pmd  /* clear offset */
374#if CONFIG_PGTABLE_LEVELS < 3
375	copy		%r0,\pte
376#endif
377	ldw,s		\index(\pmd),\pmd
378	bb,>=,n		\pmd,_PxD_PRESENT_BIT,\fault
379	dep		%r0,31,PxD_FLAG_SHIFT,\pmd /* clear flags */
380	SHLREG		\pmd,PxD_VALUE_SHIFT,\pmd
381	extru_safe	\va,31-PAGE_SHIFT,ASM_BITS_PER_PTE,\index
382	dep		%r0,31,PAGE_SHIFT,\pmd  /* clear offset */
383	shladd		\index,BITS_PER_PTE_ENTRY,\pmd,\pmd /* pmd is now pte */
384	.endm
385
386	/* Look up PTE in a 3-Level scheme. */
387	.macro		L3_ptep pgd,pte,index,va,fault
388#if CONFIG_PGTABLE_LEVELS == 3
389	copy		%r0,\pte
390	extrd,u		\va,63-ASM_PGDIR_SHIFT,ASM_BITS_PER_PGD,\index
391	ldw,s		\index(\pgd),\pgd
392	bb,>=,n		\pgd,_PxD_PRESENT_BIT,\fault
393	shld		\pgd,PxD_VALUE_SHIFT,\pgd
394#endif
395	L2_ptep		\pgd,\pte,\index,\va,\fault
396	.endm
397
398	/* Acquire page_table_lock and check page is present. */
399	.macro		ptl_lock	spc,ptp,pte,tmp,tmp1,fault
400#ifdef CONFIG_TLB_PTLOCK
40198:	cmpib,COND(=),n	0,\spc,2f
402	get_ptl		\tmp
4031:	LDCW		0(\tmp),\tmp1
404	cmpib,COND(=)	0,\tmp1,1b
405	nop
406	LDREG		0(\ptp),\pte
407	bb,<,n		\pte,_PAGE_PRESENT_BIT,3f
408	b		\fault
409	stw		\spc,0(\tmp)
41099:	ALTERNATIVE(98b, 99b, ALT_COND_NO_SMP, INSN_NOP)
411#endif
4122:	LDREG		0(\ptp),\pte
413	bb,>=,n		\pte,_PAGE_PRESENT_BIT,\fault
4143:
415	.endm
416
417	/* Release page_table_lock without reloading lock address.
418	   Note that the values in the register spc are limited to
419	   NR_SPACE_IDS (262144). Thus, the stw instruction always
420	   stores a nonzero value even when register spc is 64 bits.
421	   We use an ordered store to ensure all prior accesses are
422	   performed prior to releasing the lock. */
423	.macro		ptl_unlock0	spc,tmp
424#ifdef CONFIG_TLB_PTLOCK
42598:	or,COND(=)	%r0,\spc,%r0
426	stw,ma		\spc,0(\tmp)
42799:	ALTERNATIVE(98b, 99b, ALT_COND_NO_SMP, INSN_NOP)
428#endif
429	.endm
430
431	/* Release page_table_lock. */
432	.macro		ptl_unlock1	spc,tmp
433#ifdef CONFIG_TLB_PTLOCK
43498:	get_ptl		\tmp
435	ptl_unlock0	\spc,\tmp
43699:	ALTERNATIVE(98b, 99b, ALT_COND_NO_SMP, INSN_NOP)
437#endif
438	.endm
439
440	/* Set the _PAGE_ACCESSED bit of the PTE.  Be clever and
441	 * don't needlessly dirty the cache line if it was already set */
442	.macro		update_accessed	ptp,pte,tmp,tmp1
443	ldi		_PAGE_ACCESSED,\tmp1
444	or		\tmp1,\pte,\tmp
445	and,COND(<>)	\tmp1,\pte,%r0
446	STREG		\tmp,0(\ptp)
447	.endm
448
449	/* Set the dirty bit (and accessed bit).  No need to be
450	 * clever, this is only used from the dirty fault */
451	.macro		update_dirty	ptp,pte,tmp
452	ldi		_PAGE_ACCESSED|_PAGE_DIRTY,\tmp
453	or		\tmp,\pte,\pte
454	STREG		\pte,0(\ptp)
455	.endm
456
457	/* We have (depending on the page size):
458	 * - 38 to 52-bit Physical Page Number
459	 * - 12 to 26-bit page offset
460	 */
461	/* bitshift difference between a PFN (based on kernel's PAGE_SIZE)
462	 * to a CPU TLB 4k PFN (4k => 12 bits to shift) */
463	#define PAGE_ADD_SHIFT		(PAGE_SHIFT-12)
464	#define PAGE_ADD_HUGE_SHIFT	(REAL_HPAGE_SHIFT-12)
465
466	/* Drop prot bits and convert to page addr for iitlbt and idtlbt */
467	.macro		convert_for_tlb_insert20 pte,tmp
468#ifdef CONFIG_HUGETLB_PAGE
469	copy		\pte,\tmp
470	extrd,u		\tmp,(63-ASM_PFN_PTE_SHIFT)+(63-58)+PAGE_ADD_SHIFT,\
471				64-PAGE_SHIFT-PAGE_ADD_SHIFT,\pte
472
473	depdi		_PAGE_SIZE_ENCODING_DEFAULT,63,\
474				(63-58)+PAGE_ADD_SHIFT,\pte
475	extrd,u,*=	\tmp,_PAGE_HPAGE_BIT+32,1,%r0
476	depdi		_HUGE_PAGE_SIZE_ENCODING_DEFAULT,63,\
477				(63-58)+PAGE_ADD_HUGE_SHIFT,\pte
478#else /* Huge pages disabled */
479	extrd,u		\pte,(63-ASM_PFN_PTE_SHIFT)+(63-58)+PAGE_ADD_SHIFT,\
480				64-PAGE_SHIFT-PAGE_ADD_SHIFT,\pte
481	depdi		_PAGE_SIZE_ENCODING_DEFAULT,63,\
482				(63-58)+PAGE_ADD_SHIFT,\pte
483#endif
484	.endm
485
486	/* Convert the pte and prot to tlb insertion values.  How
487	 * this happens is quite subtle, read below */
488	.macro		make_insert_tlb	spc,pte,prot,tmp
489	space_to_prot   \spc \prot        /* create prot id from space */
490	/* The following is the real subtlety.  This is depositing
491	 * T <-> _PAGE_REFTRAP
492	 * D <-> _PAGE_DIRTY
493	 * B <-> _PAGE_DMB (memory break)
494	 *
495	 * Then incredible subtlety: The access rights are
496	 * _PAGE_GATEWAY, _PAGE_EXEC and _PAGE_WRITE
497	 * See 3-14 of the parisc 2.0 manual
498	 *
499	 * Finally, _PAGE_READ goes in the top bit of PL1 (so we
500	 * trigger an access rights trap in user space if the user
501	 * tries to read an unreadable page */
502	depd            \pte,8,7,\prot
503
504	/* PAGE_USER indicates the page can be read with user privileges,
505	 * so deposit X1|11 to PL1|PL2 (remember the upper bit of PL1
506	 * contains _PAGE_READ) */
507	extrd,u,*=      \pte,_PAGE_USER_BIT+32,1,%r0
508	depdi		7,11,3,\prot
509	/* If we're a gateway page, drop PL2 back to zero for promotion
510	 * to kernel privilege (so we can execute the page as kernel).
511	 * Any privilege promotion page always denys read and write */
512	extrd,u,*= 	\pte,_PAGE_GATEWAY_BIT+32,1,%r0
513	depd		%r0,11,2,\prot	/* If Gateway, Set PL2 to 0 */
514
515	/* Enforce uncacheable pages.
516	 * This should ONLY be use for MMIO on PA 2.0 machines.
517	 * Memory/DMA is cache coherent on all PA2.0 machines we support
518	 * (that means T-class is NOT supported) and the memory controllers
519	 * on most of those machines only handles cache transactions.
520	 */
521	extrd,u,*=	\pte,_PAGE_NO_CACHE_BIT+32,1,%r0
522	depdi		1,12,1,\prot
523
524	/* Drop prot bits and convert to page addr for iitlbt and idtlbt */
525	convert_for_tlb_insert20 \pte \tmp
526	.endm
527
528	/* Identical macro to make_insert_tlb above, except it
529	 * makes the tlb entry for the differently formatted pa11
530	 * insertion instructions */
531	.macro		make_insert_tlb_11	spc,pte,prot
532	zdep		\spc,30,15,\prot
533	dep		\pte,8,7,\prot
534	extru,=		\pte,_PAGE_NO_CACHE_BIT,1,%r0
535	depi		1,12,1,\prot
536	extru,=         \pte,_PAGE_USER_BIT,1,%r0
537	depi		7,11,3,\prot   /* Set for user space (1 rsvd for read) */
538	extru,= 	\pte,_PAGE_GATEWAY_BIT,1,%r0
539	depi		0,11,2,\prot	/* If Gateway, Set PL2 to 0 */
540
541	/* Get rid of prot bits and convert to page addr for iitlba */
542
543	depi		0,31,ASM_PFN_PTE_SHIFT,\pte
544	SHRREG		\pte,(ASM_PFN_PTE_SHIFT-(31-26)),\pte
545	.endm
546
547	/* This is for ILP32 PA2.0 only.  The TLB insertion needs
548	 * to extend into I/O space if the address is 0xfXXXXXXX
549	 * so we extend the f's into the top word of the pte in
550	 * this case */
551	.macro		f_extend	pte,tmp
552	extrd,s		\pte,42,4,\tmp
553	addi,<>		1,\tmp,%r0
554	extrd,s		\pte,63,25,\pte
555	.endm
556
557	/* The alias region is an 8MB aligned 16MB to do clear and
558	 * copy user pages at addresses congruent with the user
559	 * virtual address.
560	 *
561	 * To use the alias page, you set %r26 up with the to TLB
562	 * entry (identifying the physical page) and %r23 up with
563	 * the from tlb entry (or nothing if only a to entry---for
564	 * clear_user_page_asm) */
565	.macro		do_alias	spc,tmp,tmp1,va,pte,prot,fault,patype
566	cmpib,COND(<>),n 0,\spc,\fault
567	ldil		L%(TMPALIAS_MAP_START),\tmp
568#if defined(CONFIG_64BIT) && (TMPALIAS_MAP_START >= 0x80000000)
569	/* on LP64, ldi will sign extend into the upper 32 bits,
570	 * which is behaviour we don't want */
571	depdi		0,31,32,\tmp
572#endif
573	copy		\va,\tmp1
574	depi		0,31,23,\tmp1
575	cmpb,COND(<>),n	\tmp,\tmp1,\fault
576	mfctl		%cr19,\tmp	/* iir */
577	/* get the opcode (first six bits) into \tmp */
578	extrw,u		\tmp,5,6,\tmp
579	/*
580	 * Only setting the T bit prevents data cache movein
581	 * Setting access rights to zero prevents instruction cache movein
582	 *
583	 * Note subtlety here: _PAGE_GATEWAY, _PAGE_EXEC and _PAGE_WRITE go
584	 * to type field and _PAGE_READ goes to top bit of PL1
585	 */
586	ldi		(_PAGE_REFTRAP|_PAGE_READ|_PAGE_WRITE),\prot
587	/*
588	 * so if the opcode is one (i.e. this is a memory management
589	 * instruction) nullify the next load so \prot is only T.
590	 * Otherwise this is a normal data operation
591	 */
592	cmpiclr,=	0x01,\tmp,%r0
593	ldi		(_PAGE_DIRTY|_PAGE_READ|_PAGE_WRITE),\prot
594.ifc \patype,20
595	depd,z		\prot,8,7,\prot
596.else
597.ifc \patype,11
598	depw,z		\prot,8,7,\prot
599.else
600	.error "undefined PA type to do_alias"
601.endif
602.endif
603	/*
604	 * OK, it is in the temp alias region, check whether "from" or "to".
605	 * Check "subtle" note in pacache.S re: r23/r26.
606	 */
607#ifdef CONFIG_64BIT
608	extrd,u,*=	\va,41,1,%r0
609#else
610	extrw,u,=	\va,9,1,%r0
611#endif
612	or,COND(tr)	%r23,%r0,\pte
613	or		%r26,%r0,\pte
614	.endm
615
616
617	/*
618	 * Fault_vectors are architecturally required to be aligned on a 2K
619	 * boundary
620	 */
621
622	.section .text.hot
623	.align 2048
624
625ENTRY(fault_vector_20)
626	/* First vector is invalid (0) */
627	.ascii	"cows can fly"
628	.byte 0
629	.align 32
630
631	hpmc		 1
632	def		 2
633	def		 3
634	extint		 4
635	def		 5
636	itlb_20		 PARISC_ITLB_TRAP
637	def		 7
638	def		 8
639	def              9
640	def		10
641	def		11
642	def		12
643	def		13
644	def		14
645	dtlb_20		15
646	naitlb_20	16
647	nadtlb_20	17
648	def		18
649	def		19
650	dbit_20		20
651	def		21
652	def		22
653	def		23
654	def		24
655	def		25
656	def		26
657	def		27
658	def		28
659	def		29
660	def		30
661	def		31
662END(fault_vector_20)
663
664#ifndef CONFIG_64BIT
665
666	.align 2048
667
668ENTRY(fault_vector_11)
669	/* First vector is invalid (0) */
670	.ascii	"cows can fly"
671	.byte 0
672	.align 32
673
674	hpmc		 1
675	def		 2
676	def		 3
677	extint		 4
678	def		 5
679	itlb_11		 PARISC_ITLB_TRAP
680	def		 7
681	def		 8
682	def              9
683	def		10
684	def		11
685	def		12
686	def		13
687	def		14
688	dtlb_11		15
689	naitlb_11	16
690	nadtlb_11	17
691	def		18
692	def		19
693	dbit_11		20
694	def		21
695	def		22
696	def		23
697	def		24
698	def		25
699	def		26
700	def		27
701	def		28
702	def		29
703	def		30
704	def		31
705END(fault_vector_11)
706
707#endif
708	/* Fault vector is separately protected and *must* be on its own page */
709	.align		PAGE_SIZE
710
711	.import		handle_interruption,code
712	.import		do_cpu_irq_mask,code
713
714	/*
715	 * Child Returns here
716	 *
717	 * copy_thread moved args into task save area.
718	 */
719
720ENTRY(ret_from_kernel_thread)
721	/* Call schedule_tail first though */
722	BL	schedule_tail, %r2
723	nop
724
725	mfctl	%cr30,%r1	/* task_struct */
726	LDREG	TASK_PT_GR25(%r1), %r26
727#ifdef CONFIG_64BIT
728	LDREG	TASK_PT_GR27(%r1), %r27
729#endif
730	LDREG	TASK_PT_GR26(%r1), %r1
731	ble	0(%sr7, %r1)
732	copy	%r31, %r2
733	b	finish_child_return
734	nop
735END(ret_from_kernel_thread)
736
737
738	/*
739	 * struct task_struct *_switch_to(struct task_struct *prev,
740	 *	struct task_struct *next)
741	 *
742	 * switch kernel stacks and return prev */
743ENTRY_CFI(_switch_to)
744	STREG	 %r2, -RP_OFFSET(%r30)
745
746	callee_save_float
747	callee_save
748
749	load32	_switch_to_ret, %r2
750
751	STREG	%r2, TASK_PT_KPC(%r26)
752	LDREG	TASK_PT_KPC(%r25), %r2
753
754	STREG	%r30, TASK_PT_KSP(%r26)
755	LDREG	TASK_PT_KSP(%r25), %r30
756	bv	%r0(%r2)
757	mtctl   %r25,%cr30
758
759ENTRY(_switch_to_ret)
760	mtctl	%r0, %cr0		/* Needed for single stepping */
761	callee_rest
762	callee_rest_float
763
764	LDREG	-RP_OFFSET(%r30), %r2
765	bv	%r0(%r2)
766	copy	%r26, %r28
767ENDPROC_CFI(_switch_to)
768
769	/*
770	 * Common rfi return path for interruptions, kernel execve, and
771	 * sys_rt_sigreturn (sometimes).  The sys_rt_sigreturn syscall will
772	 * return via this path if the signal was received when the process
773	 * was running; if the process was blocked on a syscall then the
774	 * normal syscall_exit path is used.  All syscalls for traced
775	 * proceses exit via intr_restore.
776	 *
777	 * XXX If any syscalls that change a processes space id ever exit
778	 * this way, then we will need to copy %sr3 in to PT_SR[3..7], and
779	 * adjust IASQ[0..1].
780	 *
781	 */
782
783	.align	PAGE_SIZE
784
785ENTRY_CFI(syscall_exit_rfi)
786	mfctl	%cr30,%r16		/* task_struct */
787	ldo	TASK_REGS(%r16),%r16
788	/* Force iaoq to userspace, as the user has had access to our current
789	 * context via sigcontext. Also Filter the PSW for the same reason.
790	 */
791	LDREG	PT_IAOQ0(%r16),%r19
792	depi	PRIV_USER,31,2,%r19
793	STREG	%r19,PT_IAOQ0(%r16)
794	LDREG	PT_IAOQ1(%r16),%r19
795	depi	PRIV_USER,31,2,%r19
796	STREG	%r19,PT_IAOQ1(%r16)
797	LDREG   PT_PSW(%r16),%r19
798	load32	USER_PSW_MASK,%r1
799#ifdef CONFIG_64BIT
800	load32	USER_PSW_HI_MASK,%r20
801	depd    %r20,31,32,%r1
802#endif
803	and     %r19,%r1,%r19 /* Mask out bits that user shouldn't play with */
804	load32	USER_PSW,%r1
805	or      %r19,%r1,%r19 /* Make sure default USER_PSW bits are set */
806	STREG   %r19,PT_PSW(%r16)
807
808	/*
809	 * If we aren't being traced, we never saved space registers
810	 * (we don't store them in the sigcontext), so set them
811	 * to "proper" values now (otherwise we'll wind up restoring
812	 * whatever was last stored in the task structure, which might
813	 * be inconsistent if an interrupt occurred while on the gateway
814	 * page). Note that we may be "trashing" values the user put in
815	 * them, but we don't support the user changing them.
816	 */
817
818	STREG   %r0,PT_SR2(%r16)
819	mfsp    %sr3,%r19
820	STREG   %r19,PT_SR0(%r16)
821	STREG   %r19,PT_SR1(%r16)
822	STREG   %r19,PT_SR3(%r16)
823	STREG   %r19,PT_SR4(%r16)
824	STREG   %r19,PT_SR5(%r16)
825	STREG   %r19,PT_SR6(%r16)
826	STREG   %r19,PT_SR7(%r16)
827
828ENTRY(intr_return)
829	/* check for reschedule */
830	mfctl   %cr30,%r1
831	LDREG   TASK_TI_FLAGS(%r1),%r19	/* sched.h: TIF_NEED_RESCHED */
832	bb,<,n	%r19,31-TIF_NEED_RESCHED,intr_do_resched /* forward */
833
834	.import do_notify_resume,code
835intr_check_sig:
836	/* As above */
837	mfctl   %cr30,%r1
838	LDREG	TASK_TI_FLAGS(%r1),%r19
839	ldi	(_TIF_USER_WORK_MASK & ~_TIF_NEED_RESCHED), %r20
840	and,COND(<>)	%r19, %r20, %r0
841	b,n	intr_restore	/* skip past if we've nothing to do */
842
843	/* This check is critical to having LWS
844	 * working. The IASQ is zero on the gateway
845	 * page and we cannot deliver any signals until
846	 * we get off the gateway page.
847	 *
848	 * Only do signals if we are returning to user space
849	 */
850	LDREG	PT_IASQ0(%r16), %r20
851	cmpib,COND(=),n LINUX_GATEWAY_SPACE, %r20, intr_restore /* forward */
852	LDREG	PT_IASQ1(%r16), %r20
853	cmpib,COND(=),n LINUX_GATEWAY_SPACE, %r20, intr_restore /* forward */
854
855	copy	%r0, %r25			/* long in_syscall = 0 */
856#ifdef CONFIG_64BIT
857	ldo	-16(%r30),%r29			/* Reference param save area */
858#endif
859
860	/* NOTE: We need to enable interrupts if we have to deliver
861	 * signals. We used to do this earlier but it caused kernel
862	 * stack overflows. */
863	ssm	PSW_SM_I, %r0
864
865	BL	do_notify_resume,%r2
866	copy	%r16, %r26			/* struct pt_regs *regs */
867
868	b,n	intr_check_sig
869
870intr_restore:
871	copy            %r16,%r29
872	ldo             PT_FR31(%r29),%r1
873	rest_fp         %r1
874	rest_general    %r29
875
876	/* inverse of virt_map */
877	pcxt_ssm_bug
878	rsm             PSW_SM_QUIET,%r0	/* prepare for rfi */
879	tophys_r1       %r29
880
881	/* Restore space id's and special cr's from PT_REGS
882	 * structure pointed to by r29
883	 */
884	rest_specials	%r29
885
886	/* IMPORTANT: rest_stack restores r29 last (we are using it)!
887	 * It also restores r1 and r30.
888	 */
889	rest_stack
890
891	rfi
892	nop
893
894#ifndef CONFIG_PREEMPTION
895# define intr_do_preempt	intr_restore
896#endif /* !CONFIG_PREEMPTION */
897
898	.import schedule,code
899intr_do_resched:
900	/* Only call schedule on return to userspace. If we're returning
901	 * to kernel space, we may schedule if CONFIG_PREEMPTION, otherwise
902	 * we jump back to intr_restore.
903	 */
904	LDREG	PT_IASQ0(%r16), %r20
905	cmpib,COND(=)	0, %r20, intr_do_preempt
906	nop
907	LDREG	PT_IASQ1(%r16), %r20
908	cmpib,COND(=)	0, %r20, intr_do_preempt
909	nop
910
911	/* NOTE: We need to enable interrupts if we schedule.  We used
912	 * to do this earlier but it caused kernel stack overflows. */
913	ssm     PSW_SM_I, %r0
914
915#ifdef CONFIG_64BIT
916	ldo	-16(%r30),%r29		/* Reference param save area */
917#endif
918
919	ldil	L%intr_check_sig, %r2
920#ifndef CONFIG_64BIT
921	b	schedule
922#else
923	load32	schedule, %r20
924	bv	%r0(%r20)
925#endif
926	ldo	R%intr_check_sig(%r2), %r2
927
928	/* preempt the current task on returning to kernel
929	 * mode from an interrupt, iff need_resched is set,
930	 * and preempt_count is 0. otherwise, we continue on
931	 * our merry way back to the current running task.
932	 */
933#ifdef CONFIG_PREEMPTION
934	.import preempt_schedule_irq,code
935intr_do_preempt:
936	rsm	PSW_SM_I, %r0		/* disable interrupts */
937
938	/* current_thread_info()->preempt_count */
939	mfctl	%cr30, %r1
940	ldw	TI_PRE_COUNT(%r1), %r19
941	cmpib,<>	0, %r19, intr_restore	/* if preempt_count > 0 */
942	nop				/* prev insn branched backwards */
943
944	/* check if we interrupted a critical path */
945	LDREG	PT_PSW(%r16), %r20
946	bb,<,n	%r20, 31 - PSW_SM_I, intr_restore
947	nop
948
949	/* ssm PSW_SM_I done later in intr_restore */
950#ifdef CONFIG_MLONGCALLS
951	ldil	L%intr_restore, %r2
952	load32	preempt_schedule_irq, %r1
953	bv	%r0(%r1)
954	ldo	R%intr_restore(%r2), %r2
955#else
956	ldil	L%intr_restore, %r1
957	BL	preempt_schedule_irq, %r2
958	ldo	R%intr_restore(%r1), %r2
959#endif
960#endif /* CONFIG_PREEMPTION */
961
962	/*
963	 * External interrupts.
964	 */
965
966intr_extint:
967	cmpib,COND(=),n 0,%r16,1f
968
969	get_stack_use_cr30
970	b,n 2f
971
9721:
973	get_stack_use_r30
9742:
975	save_specials	%r29
976	virt_map
977	save_general	%r29
978
979	ldo	PT_FR0(%r29), %r24
980	save_fp	%r24
981
982	loadgp
983
984	copy	%r29, %r26	/* arg0 is pt_regs */
985	copy	%r29, %r16	/* save pt_regs */
986
987	ldil	L%intr_return, %r2
988
989#ifdef CONFIG_64BIT
990	ldo	-16(%r30),%r29	/* Reference param save area */
991#endif
992
993	b	do_cpu_irq_mask
994	ldo	R%intr_return(%r2), %r2	/* return to intr_return, not here */
995ENDPROC_CFI(syscall_exit_rfi)
996
997
998	/* Generic interruptions (illegal insn, unaligned, page fault, etc) */
999
1000ENTRY_CFI(intr_save)		/* for os_hpmc */
1001	mfsp    %sr7,%r16
1002	cmpib,COND(=),n 0,%r16,1f
1003	get_stack_use_cr30
1004	b	2f
1005	copy    %r8,%r26
1006
10071:
1008	get_stack_use_r30
1009	copy    %r8,%r26
1010
10112:
1012	save_specials	%r29
1013
1014	/* If this trap is a itlb miss, skip saving/adjusting isr/ior */
1015	cmpib,COND(=),n        PARISC_ITLB_TRAP,%r26,skip_save_ior
1016
1017
1018	mfctl           %isr, %r16
1019	nop		/* serialize mfctl on PA 2.0 to avoid 4 cycle penalty */
1020	mfctl           %ior, %r17
1021
1022
1023#ifdef CONFIG_64BIT
1024	/*
1025	 * If the interrupted code was running with W bit off (32 bit),
1026	 * clear the b bits (bits 0 & 1) in the ior.
1027	 * save_specials left ipsw value in r8 for us to test.
1028	 */
1029	extrd,u,*<>     %r8,PSW_W_BIT,1,%r0
1030	depdi           0,1,2,%r17
1031
1032	/* adjust isr/ior: get high bits from isr and deposit in ior */
1033	space_adjust	%r16,%r17,%r1
1034#endif
1035	STREG           %r16, PT_ISR(%r29)
1036	STREG           %r17, PT_IOR(%r29)
1037
1038#if 0 && defined(CONFIG_64BIT)
1039	/* Revisit when we have 64-bit code above 4Gb */
1040	b,n		intr_save2
1041
1042skip_save_ior:
1043	/* We have a itlb miss, and when executing code above 4 Gb on ILP64, we
1044	 * need to adjust iasq/iaoq here in the same way we adjusted isr/ior
1045	 * above.
1046	 */
1047	extrd,u,*	%r8,PSW_W_BIT,1,%r1
1048	cmpib,COND(=),n	1,%r1,intr_save2
1049	LDREG		PT_IASQ0(%r29), %r16
1050	LDREG		PT_IAOQ0(%r29), %r17
1051	/* adjust iasq/iaoq */
1052	space_adjust	%r16,%r17,%r1
1053	STREG           %r16, PT_IASQ0(%r29)
1054	STREG           %r17, PT_IAOQ0(%r29)
1055#else
1056skip_save_ior:
1057#endif
1058
1059intr_save2:
1060	virt_map
1061	save_general	%r29
1062
1063	ldo		PT_FR0(%r29), %r25
1064	save_fp		%r25
1065
1066	loadgp
1067
1068	copy		%r29, %r25	/* arg1 is pt_regs */
1069#ifdef CONFIG_64BIT
1070	ldo		-16(%r30),%r29	/* Reference param save area */
1071#endif
1072
1073	ldil		L%intr_check_sig, %r2
1074	copy		%r25, %r16	/* save pt_regs */
1075
1076	b		handle_interruption
1077	ldo		R%intr_check_sig(%r2), %r2
1078ENDPROC_CFI(intr_save)
1079
1080
1081	/*
1082	 * Note for all tlb miss handlers:
1083	 *
1084	 * cr24 contains a pointer to the kernel address space
1085	 * page directory.
1086	 *
1087	 * cr25 contains a pointer to the current user address
1088	 * space page directory.
1089	 *
1090	 * sr3 will contain the space id of the user address space
1091	 * of the current running thread while that thread is
1092	 * running in the kernel.
1093	 */
1094
1095	/*
1096	 * register number allocations.  Note that these are all
1097	 * in the shadowed registers
1098	 */
1099
1100	t0 = r1		/* temporary register 0 */
1101	va = r8		/* virtual address for which the trap occurred */
1102	t1 = r9		/* temporary register 1 */
1103	pte  = r16	/* pte/phys page # */
1104	prot = r17	/* prot bits */
1105	spc  = r24	/* space for which the trap occurred */
1106	ptp = r25	/* page directory/page table pointer */
1107
1108#ifdef CONFIG_64BIT
1109
1110dtlb_miss_20w:
1111	space_adjust	spc,va,t0
1112	get_pgd		spc,ptp
1113	space_check	spc,t0,dtlb_fault
1114
1115	L3_ptep		ptp,pte,t0,va,dtlb_check_alias_20w
1116
1117	ptl_lock	spc,ptp,pte,t0,t1,dtlb_check_alias_20w
1118	update_accessed	ptp,pte,t0,t1
1119
1120	make_insert_tlb	spc,pte,prot,t1
1121
1122	idtlbt          pte,prot
1123
1124	ptl_unlock1	spc,t0
1125	rfir
1126	nop
1127
1128dtlb_check_alias_20w:
1129	do_alias	spc,t0,t1,va,pte,prot,dtlb_fault,20
1130
1131	idtlbt          pte,prot
1132
1133	rfir
1134	nop
1135
1136nadtlb_miss_20w:
1137	space_adjust	spc,va,t0
1138	get_pgd		spc,ptp
1139	space_check	spc,t0,nadtlb_fault
1140
1141	L3_ptep		ptp,pte,t0,va,nadtlb_check_alias_20w
1142
1143	ptl_lock	spc,ptp,pte,t0,t1,nadtlb_check_alias_20w
1144	update_accessed	ptp,pte,t0,t1
1145
1146	make_insert_tlb	spc,pte,prot,t1
1147
1148	idtlbt          pte,prot
1149
1150	ptl_unlock1	spc,t0
1151	rfir
1152	nop
1153
1154nadtlb_check_alias_20w:
1155	do_alias	spc,t0,t1,va,pte,prot,nadtlb_emulate,20
1156
1157	idtlbt          pte,prot
1158
1159	rfir
1160	nop
1161
1162#else
1163
1164dtlb_miss_11:
1165	get_pgd		spc,ptp
1166
1167	space_check	spc,t0,dtlb_fault
1168
1169	L2_ptep		ptp,pte,t0,va,dtlb_check_alias_11
1170
1171	ptl_lock	spc,ptp,pte,t0,t1,dtlb_check_alias_11
1172	update_accessed	ptp,pte,t0,t1
1173
1174	make_insert_tlb_11	spc,pte,prot
1175
1176	mfsp		%sr1,t1  /* Save sr1 so we can use it in tlb inserts */
1177	mtsp		spc,%sr1
1178
1179	idtlba		pte,(%sr1,va)
1180	idtlbp		prot,(%sr1,va)
1181
1182	mtsp		t1, %sr1	/* Restore sr1 */
1183
1184	ptl_unlock1	spc,t0
1185	rfir
1186	nop
1187
1188dtlb_check_alias_11:
1189	do_alias	spc,t0,t1,va,pte,prot,dtlb_fault,11
1190
1191	idtlba          pte,(va)
1192	idtlbp          prot,(va)
1193
1194	rfir
1195	nop
1196
1197nadtlb_miss_11:
1198	get_pgd		spc,ptp
1199
1200	space_check	spc,t0,nadtlb_fault
1201
1202	L2_ptep		ptp,pte,t0,va,nadtlb_check_alias_11
1203
1204	ptl_lock	spc,ptp,pte,t0,t1,nadtlb_check_alias_11
1205	update_accessed	ptp,pte,t0,t1
1206
1207	make_insert_tlb_11	spc,pte,prot
1208
1209	mfsp		%sr1,t1  /* Save sr1 so we can use it in tlb inserts */
1210	mtsp		spc,%sr1
1211
1212	idtlba		pte,(%sr1,va)
1213	idtlbp		prot,(%sr1,va)
1214
1215	mtsp		t1, %sr1	/* Restore sr1 */
1216
1217	ptl_unlock1	spc,t0
1218	rfir
1219	nop
1220
1221nadtlb_check_alias_11:
1222	do_alias	spc,t0,t1,va,pte,prot,nadtlb_emulate,11
1223
1224	idtlba          pte,(va)
1225	idtlbp          prot,(va)
1226
1227	rfir
1228	nop
1229
1230dtlb_miss_20:
1231	space_adjust	spc,va,t0
1232	get_pgd		spc,ptp
1233	space_check	spc,t0,dtlb_fault
1234
1235	L2_ptep		ptp,pte,t0,va,dtlb_check_alias_20
1236
1237	ptl_lock	spc,ptp,pte,t0,t1,dtlb_check_alias_20
1238	update_accessed	ptp,pte,t0,t1
1239
1240	make_insert_tlb	spc,pte,prot,t1
1241
1242	f_extend	pte,t1
1243
1244	idtlbt          pte,prot
1245
1246	ptl_unlock1	spc,t0
1247	rfir
1248	nop
1249
1250dtlb_check_alias_20:
1251	do_alias	spc,t0,t1,va,pte,prot,dtlb_fault,20
1252
1253	idtlbt          pte,prot
1254
1255	rfir
1256	nop
1257
1258nadtlb_miss_20:
1259	get_pgd		spc,ptp
1260
1261	space_check	spc,t0,nadtlb_fault
1262
1263	L2_ptep		ptp,pte,t0,va,nadtlb_check_alias_20
1264
1265	ptl_lock	spc,ptp,pte,t0,t1,nadtlb_check_alias_20
1266	update_accessed	ptp,pte,t0,t1
1267
1268	make_insert_tlb	spc,pte,prot,t1
1269
1270	f_extend	pte,t1
1271
1272	idtlbt		pte,prot
1273
1274	ptl_unlock1	spc,t0
1275	rfir
1276	nop
1277
1278nadtlb_check_alias_20:
1279	do_alias	spc,t0,t1,va,pte,prot,nadtlb_emulate,20
1280
1281	idtlbt          pte,prot
1282
1283	rfir
1284	nop
1285
1286#endif
1287
1288nadtlb_emulate:
1289
1290	/*
1291	 * Non-access misses can be caused by fdc,fic,pdc,lpa,probe and
1292	 * probei instructions. The kernel no longer faults doing flushes.
1293	 * Use of lpa and probe instructions is rare. Given the issue
1294	 * with shadow registers, we defer everything to the "slow" path.
1295	 */
1296	b,n		nadtlb_fault
1297
1298#ifdef CONFIG_64BIT
1299itlb_miss_20w:
1300
1301	/*
1302	 * I miss is a little different, since we allow users to fault
1303	 * on the gateway page which is in the kernel address space.
1304	 */
1305
1306	space_adjust	spc,va,t0
1307	get_pgd		spc,ptp
1308	space_check	spc,t0,itlb_fault
1309
1310	L3_ptep		ptp,pte,t0,va,itlb_fault
1311
1312	ptl_lock	spc,ptp,pte,t0,t1,itlb_fault
1313	update_accessed	ptp,pte,t0,t1
1314
1315	make_insert_tlb	spc,pte,prot,t1
1316
1317	iitlbt          pte,prot
1318
1319	ptl_unlock1	spc,t0
1320	rfir
1321	nop
1322
1323naitlb_miss_20w:
1324
1325	/*
1326	 * I miss is a little different, since we allow users to fault
1327	 * on the gateway page which is in the kernel address space.
1328	 */
1329
1330	space_adjust	spc,va,t0
1331	get_pgd		spc,ptp
1332	space_check	spc,t0,naitlb_fault
1333
1334	L3_ptep		ptp,pte,t0,va,naitlb_check_alias_20w
1335
1336	ptl_lock	spc,ptp,pte,t0,t1,naitlb_check_alias_20w
1337	update_accessed	ptp,pte,t0,t1
1338
1339	make_insert_tlb	spc,pte,prot,t1
1340
1341	iitlbt          pte,prot
1342
1343	ptl_unlock1	spc,t0
1344	rfir
1345	nop
1346
1347naitlb_check_alias_20w:
1348	do_alias	spc,t0,t1,va,pte,prot,naitlb_fault,20
1349
1350	iitlbt		pte,prot
1351
1352	rfir
1353	nop
1354
1355#else
1356
1357itlb_miss_11:
1358	get_pgd		spc,ptp
1359
1360	space_check	spc,t0,itlb_fault
1361
1362	L2_ptep		ptp,pte,t0,va,itlb_fault
1363
1364	ptl_lock	spc,ptp,pte,t0,t1,itlb_fault
1365	update_accessed	ptp,pte,t0,t1
1366
1367	make_insert_tlb_11	spc,pte,prot
1368
1369	mfsp		%sr1,t1  /* Save sr1 so we can use it in tlb inserts */
1370	mtsp		spc,%sr1
1371
1372	iitlba		pte,(%sr1,va)
1373	iitlbp		prot,(%sr1,va)
1374
1375	mtsp		t1, %sr1	/* Restore sr1 */
1376
1377	ptl_unlock1	spc,t0
1378	rfir
1379	nop
1380
1381naitlb_miss_11:
1382	get_pgd		spc,ptp
1383
1384	space_check	spc,t0,naitlb_fault
1385
1386	L2_ptep		ptp,pte,t0,va,naitlb_check_alias_11
1387
1388	ptl_lock	spc,ptp,pte,t0,t1,naitlb_check_alias_11
1389	update_accessed	ptp,pte,t0,t1
1390
1391	make_insert_tlb_11	spc,pte,prot
1392
1393	mfsp		%sr1,t1  /* Save sr1 so we can use it in tlb inserts */
1394	mtsp		spc,%sr1
1395
1396	iitlba		pte,(%sr1,va)
1397	iitlbp		prot,(%sr1,va)
1398
1399	mtsp		t1, %sr1	/* Restore sr1 */
1400
1401	ptl_unlock1	spc,t0
1402	rfir
1403	nop
1404
1405naitlb_check_alias_11:
1406	do_alias	spc,t0,t1,va,pte,prot,itlb_fault,11
1407
1408	iitlba          pte,(%sr0, va)
1409	iitlbp          prot,(%sr0, va)
1410
1411	rfir
1412	nop
1413
1414
1415itlb_miss_20:
1416	get_pgd		spc,ptp
1417
1418	space_check	spc,t0,itlb_fault
1419
1420	L2_ptep		ptp,pte,t0,va,itlb_fault
1421
1422	ptl_lock	spc,ptp,pte,t0,t1,itlb_fault
1423	update_accessed	ptp,pte,t0,t1
1424
1425	make_insert_tlb	spc,pte,prot,t1
1426
1427	f_extend	pte,t1
1428
1429	iitlbt          pte,prot
1430
1431	ptl_unlock1	spc,t0
1432	rfir
1433	nop
1434
1435naitlb_miss_20:
1436	get_pgd		spc,ptp
1437
1438	space_check	spc,t0,naitlb_fault
1439
1440	L2_ptep		ptp,pte,t0,va,naitlb_check_alias_20
1441
1442	ptl_lock	spc,ptp,pte,t0,t1,naitlb_check_alias_20
1443	update_accessed	ptp,pte,t0,t1
1444
1445	make_insert_tlb	spc,pte,prot,t1
1446
1447	f_extend	pte,t1
1448
1449	iitlbt          pte,prot
1450
1451	ptl_unlock1	spc,t0
1452	rfir
1453	nop
1454
1455naitlb_check_alias_20:
1456	do_alias	spc,t0,t1,va,pte,prot,naitlb_fault,20
1457
1458	iitlbt          pte,prot
1459
1460	rfir
1461	nop
1462
1463#endif
1464
1465#ifdef CONFIG_64BIT
1466
1467dbit_trap_20w:
1468	space_adjust	spc,va,t0
1469	get_pgd		spc,ptp
1470	space_check	spc,t0,dbit_fault
1471
1472	L3_ptep		ptp,pte,t0,va,dbit_fault
1473
1474	ptl_lock	spc,ptp,pte,t0,t1,dbit_fault
1475	update_dirty	ptp,pte,t1
1476
1477	make_insert_tlb	spc,pte,prot,t1
1478
1479	idtlbt          pte,prot
1480
1481	ptl_unlock0	spc,t0
1482	rfir
1483	nop
1484#else
1485
1486dbit_trap_11:
1487
1488	get_pgd		spc,ptp
1489
1490	space_check	spc,t0,dbit_fault
1491
1492	L2_ptep		ptp,pte,t0,va,dbit_fault
1493
1494	ptl_lock	spc,ptp,pte,t0,t1,dbit_fault
1495	update_dirty	ptp,pte,t1
1496
1497	make_insert_tlb_11	spc,pte,prot
1498
1499	mfsp            %sr1,t1  /* Save sr1 so we can use it in tlb inserts */
1500	mtsp		spc,%sr1
1501
1502	idtlba		pte,(%sr1,va)
1503	idtlbp		prot,(%sr1,va)
1504
1505	mtsp            t1, %sr1     /* Restore sr1 */
1506
1507	ptl_unlock0	spc,t0
1508	rfir
1509	nop
1510
1511dbit_trap_20:
1512	get_pgd		spc,ptp
1513
1514	space_check	spc,t0,dbit_fault
1515
1516	L2_ptep		ptp,pte,t0,va,dbit_fault
1517
1518	ptl_lock	spc,ptp,pte,t0,t1,dbit_fault
1519	update_dirty	ptp,pte,t1
1520
1521	make_insert_tlb	spc,pte,prot,t1
1522
1523	f_extend	pte,t1
1524
1525	idtlbt		pte,prot
1526
1527	ptl_unlock0	spc,t0
1528	rfir
1529	nop
1530#endif
1531
1532	.import handle_interruption,code
1533
1534kernel_bad_space:
1535	b               intr_save
1536	ldi             31,%r8  /* Use an unused code */
1537
1538dbit_fault:
1539	b               intr_save
1540	ldi             20,%r8
1541
1542itlb_fault:
1543	b               intr_save
1544	ldi             PARISC_ITLB_TRAP,%r8
1545
1546nadtlb_fault:
1547	b               intr_save
1548	ldi             17,%r8
1549
1550naitlb_fault:
1551	b               intr_save
1552	ldi             16,%r8
1553
1554dtlb_fault:
1555	b               intr_save
1556	ldi             15,%r8
1557
1558	/* Register saving semantics for system calls:
1559
1560	   %r1		   clobbered by system call macro in userspace
1561	   %r2		   saved in PT_REGS by gateway page
1562	   %r3  - %r18	   preserved by C code (saved by signal code)
1563	   %r19 - %r20	   saved in PT_REGS by gateway page
1564	   %r21 - %r22	   non-standard syscall args
1565			   stored in kernel stack by gateway page
1566	   %r23 - %r26	   arg3-arg0, saved in PT_REGS by gateway page
1567	   %r27 - %r30	   saved in PT_REGS by gateway page
1568	   %r31		   syscall return pointer
1569	 */
1570
1571	/* Floating point registers (FIXME: what do we do with these?)
1572
1573	   %fr0  - %fr3	   status/exception, not preserved
1574	   %fr4  - %fr7	   arguments
1575	   %fr8	 - %fr11   not preserved by C code
1576	   %fr12 - %fr21   preserved by C code
1577	   %fr22 - %fr31   not preserved by C code
1578	 */
1579
1580	.macro	reg_save regs
1581	STREG	%r3, PT_GR3(\regs)
1582	STREG	%r4, PT_GR4(\regs)
1583	STREG	%r5, PT_GR5(\regs)
1584	STREG	%r6, PT_GR6(\regs)
1585	STREG	%r7, PT_GR7(\regs)
1586	STREG	%r8, PT_GR8(\regs)
1587	STREG	%r9, PT_GR9(\regs)
1588	STREG   %r10,PT_GR10(\regs)
1589	STREG   %r11,PT_GR11(\regs)
1590	STREG   %r12,PT_GR12(\regs)
1591	STREG   %r13,PT_GR13(\regs)
1592	STREG   %r14,PT_GR14(\regs)
1593	STREG   %r15,PT_GR15(\regs)
1594	STREG   %r16,PT_GR16(\regs)
1595	STREG   %r17,PT_GR17(\regs)
1596	STREG   %r18,PT_GR18(\regs)
1597	.endm
1598
1599	.macro	reg_restore regs
1600	LDREG	PT_GR3(\regs), %r3
1601	LDREG	PT_GR4(\regs), %r4
1602	LDREG	PT_GR5(\regs), %r5
1603	LDREG	PT_GR6(\regs), %r6
1604	LDREG	PT_GR7(\regs), %r7
1605	LDREG	PT_GR8(\regs), %r8
1606	LDREG	PT_GR9(\regs), %r9
1607	LDREG   PT_GR10(\regs),%r10
1608	LDREG   PT_GR11(\regs),%r11
1609	LDREG   PT_GR12(\regs),%r12
1610	LDREG   PT_GR13(\regs),%r13
1611	LDREG   PT_GR14(\regs),%r14
1612	LDREG   PT_GR15(\regs),%r15
1613	LDREG   PT_GR16(\regs),%r16
1614	LDREG   PT_GR17(\regs),%r17
1615	LDREG   PT_GR18(\regs),%r18
1616	.endm
1617
1618	.macro	fork_like name
1619ENTRY_CFI(sys_\name\()_wrapper)
1620	mfctl	%cr30,%r1
1621	ldo	TASK_REGS(%r1),%r1
1622	reg_save %r1
1623	mfctl	%cr27, %r28
1624	ldil	L%sys_\name, %r31
1625	be	R%sys_\name(%sr4,%r31)
1626	STREG	%r28, PT_CR27(%r1)
1627ENDPROC_CFI(sys_\name\()_wrapper)
1628	.endm
1629
1630fork_like clone
1631fork_like clone3
1632fork_like fork
1633fork_like vfork
1634
1635	/* Set the return value for the child */
1636ENTRY(child_return)
1637	BL	schedule_tail, %r2
1638	nop
1639finish_child_return:
1640	mfctl	%cr30,%r1
1641	ldo	TASK_REGS(%r1),%r1	 /* get pt regs */
1642
1643	LDREG	PT_CR27(%r1), %r3
1644	mtctl	%r3, %cr27
1645	reg_restore %r1
1646	b	syscall_exit
1647	copy	%r0,%r28
1648END(child_return)
1649
1650ENTRY_CFI(sys_rt_sigreturn_wrapper)
1651	mfctl	%cr30,%r26
1652	ldo	TASK_REGS(%r26),%r26	/* get pt regs */
1653	/* Don't save regs, we are going to restore them from sigcontext. */
1654	STREG	%r2, -RP_OFFSET(%r30)
1655#ifdef CONFIG_64BIT
1656	ldo	FRAME_SIZE(%r30), %r30
1657	BL	sys_rt_sigreturn,%r2
1658	ldo	-16(%r30),%r29		/* Reference param save area */
1659#else
1660	BL	sys_rt_sigreturn,%r2
1661	ldo	FRAME_SIZE(%r30), %r30
1662#endif
1663
1664	ldo	-FRAME_SIZE(%r30), %r30
1665	LDREG	-RP_OFFSET(%r30), %r2
1666
1667	/* FIXME: I think we need to restore a few more things here. */
1668	mfctl	%cr30,%r1
1669	ldo	TASK_REGS(%r1),%r1	/* get pt regs */
1670	reg_restore %r1
1671
1672	/* If the signal was received while the process was blocked on a
1673	 * syscall, then r2 will take us to syscall_exit; otherwise r2 will
1674	 * take us to syscall_exit_rfi and on to intr_return.
1675	 */
1676	bv	%r0(%r2)
1677	LDREG	PT_GR28(%r1),%r28  /* reload original r28 for syscall_exit */
1678ENDPROC_CFI(sys_rt_sigreturn_wrapper)
1679
1680ENTRY(syscall_exit)
1681	/* NOTE: Not all syscalls exit this way.  rt_sigreturn will exit
1682	 * via syscall_exit_rfi if the signal was received while the process
1683	 * was running.
1684	 */
1685
1686	/* save return value now */
1687	mfctl     %cr30, %r1
1688	STREG     %r28,TASK_PT_GR28(%r1)
1689
1690	/* Seems to me that dp could be wrong here, if the syscall involved
1691	 * calling a module, and nothing got round to restoring dp on return.
1692	 */
1693	loadgp
1694
1695syscall_check_resched:
1696
1697	/* check for reschedule */
1698	mfctl	%cr30,%r19
1699	LDREG	TASK_TI_FLAGS(%r19),%r19	/* long */
1700	bb,<,n	%r19, 31-TIF_NEED_RESCHED, syscall_do_resched /* forward */
1701
1702	.import do_signal,code
1703syscall_check_sig:
1704	mfctl	%cr30,%r19
1705	LDREG	TASK_TI_FLAGS(%r19),%r19
1706	ldi	(_TIF_USER_WORK_MASK & ~_TIF_NEED_RESCHED), %r26
1707	and,COND(<>)	%r19, %r26, %r0
1708	b,n	syscall_restore	/* skip past if we've nothing to do */
1709
1710syscall_do_signal:
1711	/* Save callee-save registers (for sigcontext).
1712	 * FIXME: After this point the process structure should be
1713	 * consistent with all the relevant state of the process
1714	 * before the syscall.  We need to verify this.
1715	 */
1716	mfctl	%cr30,%r1
1717	ldo	TASK_REGS(%r1), %r26		/* struct pt_regs *regs */
1718	reg_save %r26
1719
1720#ifdef CONFIG_64BIT
1721	ldo	-16(%r30),%r29			/* Reference param save area */
1722#endif
1723
1724	BL	do_notify_resume,%r2
1725	ldi	1, %r25				/* long in_syscall = 1 */
1726
1727	mfctl	%cr30,%r1
1728	ldo	TASK_REGS(%r1), %r20		/* reload pt_regs */
1729	reg_restore %r20
1730
1731	b,n     syscall_check_sig
1732
1733syscall_restore:
1734	mfctl	%cr30,%r1
1735
1736	/* Are we being ptraced? */
1737	LDREG	TASK_TI_FLAGS(%r1),%r19
1738	ldi	_TIF_SINGLESTEP|_TIF_BLOCKSTEP,%r2
1739	and,COND(=)	%r19,%r2,%r0
1740	b,n	syscall_restore_rfi
1741
1742	ldo	TASK_PT_FR31(%r1),%r19		   /* reload fpregs */
1743	rest_fp	%r19
1744
1745	LDREG	TASK_PT_SAR(%r1),%r19		   /* restore SAR */
1746	mtsar	%r19
1747
1748	LDREG	TASK_PT_GR2(%r1),%r2		   /* restore user rp */
1749	LDREG	TASK_PT_GR19(%r1),%r19
1750	LDREG   TASK_PT_GR20(%r1),%r20
1751	LDREG	TASK_PT_GR21(%r1),%r21
1752	LDREG	TASK_PT_GR22(%r1),%r22
1753	LDREG	TASK_PT_GR23(%r1),%r23
1754	LDREG	TASK_PT_GR24(%r1),%r24
1755	LDREG	TASK_PT_GR25(%r1),%r25
1756	LDREG	TASK_PT_GR26(%r1),%r26
1757	LDREG	TASK_PT_GR27(%r1),%r27	   /* restore user dp */
1758	LDREG	TASK_PT_GR28(%r1),%r28	   /* syscall return value */
1759	LDREG	TASK_PT_GR29(%r1),%r29
1760	LDREG	TASK_PT_GR31(%r1),%r31	   /* restore syscall rp */
1761
1762	/* NOTE: We use rsm/ssm pair to make this operation atomic */
1763	LDREG   TASK_PT_GR30(%r1),%r1              /* Get user sp */
1764	rsm     PSW_SM_I, %r0
1765	copy    %r1,%r30                           /* Restore user sp */
1766	mfsp    %sr3,%r1                           /* Get user space id */
1767	mtsp    %r1,%sr7                           /* Restore sr7 */
1768	ssm     PSW_SM_I, %r0
1769
1770	/* Set sr2 to zero for userspace syscalls to work. */
1771	mtsp	%r0,%sr2
1772	mtsp	%r1,%sr4			   /* Restore sr4 */
1773	mtsp	%r1,%sr5			   /* Restore sr5 */
1774	mtsp	%r1,%sr6			   /* Restore sr6 */
1775
1776	depi	PRIV_USER,31,2,%r31	/* ensure return to user mode. */
1777
1778#ifdef CONFIG_64BIT
1779	/* decide whether to reset the wide mode bit
1780	 *
1781	 * For a syscall, the W bit is stored in the lowest bit
1782	 * of sp.  Extract it and reset W if it is zero */
1783	extrd,u,*<>	%r30,63,1,%r1
1784	rsm	PSW_SM_W, %r0
1785	/* now reset the lowest bit of sp if it was set */
1786	xor	%r30,%r1,%r30
1787#endif
1788	be,n    0(%sr3,%r31)                       /* return to user space */
1789
1790	/* We have to return via an RFI, so that PSW T and R bits can be set
1791	 * appropriately.
1792	 * This sets up pt_regs so we can return via intr_restore, which is not
1793	 * the most efficient way of doing things, but it works.
1794	 */
1795syscall_restore_rfi:
1796	ldo	-1(%r0),%r2			   /* Set recovery cntr to -1 */
1797	mtctl	%r2,%cr0			   /*   for immediate trap */
1798	LDREG	TASK_PT_PSW(%r1),%r2		   /* Get old PSW */
1799	ldi	0x0b,%r20			   /* Create new PSW */
1800	depi	-1,13,1,%r20			   /* C, Q, D, and I bits */
1801
1802	/* The values of SINGLESTEP_BIT and BLOCKSTEP_BIT are
1803	 * set in thread_info.h and converted to PA bitmap
1804	 * numbers in asm-offsets.c */
1805
1806	/* if ((%r19.SINGLESTEP_BIT)) { %r20.27=1} */
1807	extru,=	%r19,TIF_SINGLESTEP_PA_BIT,1,%r0
1808	depi	-1,27,1,%r20			   /* R bit */
1809
1810	/* if ((%r19.BLOCKSTEP_BIT)) { %r20.7=1} */
1811	extru,= %r19,TIF_BLOCKSTEP_PA_BIT,1,%r0
1812	depi	-1,7,1,%r20			   /* T bit */
1813
1814	STREG	%r20,TASK_PT_PSW(%r1)
1815
1816	/* Always store space registers, since sr3 can be changed (e.g. fork) */
1817
1818	mfsp    %sr3,%r25
1819	STREG   %r25,TASK_PT_SR3(%r1)
1820	STREG   %r25,TASK_PT_SR4(%r1)
1821	STREG   %r25,TASK_PT_SR5(%r1)
1822	STREG   %r25,TASK_PT_SR6(%r1)
1823	STREG   %r25,TASK_PT_SR7(%r1)
1824	STREG   %r25,TASK_PT_IASQ0(%r1)
1825	STREG   %r25,TASK_PT_IASQ1(%r1)
1826
1827	/* XXX W bit??? */
1828	/* Now if old D bit is clear, it means we didn't save all registers
1829	 * on syscall entry, so do that now.  This only happens on TRACEME
1830	 * calls, or if someone attached to us while we were on a syscall.
1831	 * We could make this more efficient by not saving r3-r18, but
1832	 * then we wouldn't be able to use the common intr_restore path.
1833	 * It is only for traced processes anyway, so performance is not
1834	 * an issue.
1835	 */
1836	bb,<	%r2,30,pt_regs_ok		   /* Branch if D set */
1837	ldo	TASK_REGS(%r1),%r25
1838	reg_save %r25				   /* Save r3 to r18 */
1839
1840	/* Save the current sr */
1841	mfsp	%sr0,%r2
1842	STREG	%r2,TASK_PT_SR0(%r1)
1843
1844	/* Save the scratch sr */
1845	mfsp	%sr1,%r2
1846	STREG	%r2,TASK_PT_SR1(%r1)
1847
1848	/* sr2 should be set to zero for userspace syscalls */
1849	STREG	%r0,TASK_PT_SR2(%r1)
1850
1851	LDREG	TASK_PT_GR31(%r1),%r2
1852	depi	PRIV_USER,31,2,%r2	/* ensure return to user mode. */
1853	STREG   %r2,TASK_PT_IAOQ0(%r1)
1854	ldo	4(%r2),%r2
1855	STREG	%r2,TASK_PT_IAOQ1(%r1)
1856	b	intr_restore
1857	copy	%r25,%r16
1858
1859pt_regs_ok:
1860	LDREG	TASK_PT_IAOQ0(%r1),%r2
1861	depi	PRIV_USER,31,2,%r2	/* ensure return to user mode. */
1862	STREG	%r2,TASK_PT_IAOQ0(%r1)
1863	LDREG	TASK_PT_IAOQ1(%r1),%r2
1864	depi	PRIV_USER,31,2,%r2
1865	STREG	%r2,TASK_PT_IAOQ1(%r1)
1866	b	intr_restore
1867	copy	%r25,%r16
1868
1869syscall_do_resched:
1870	load32	syscall_check_resched,%r2 /* if resched, we start over again */
1871	load32	schedule,%r19
1872	bv	%r0(%r19)		/* jumps to schedule() */
1873#ifdef CONFIG_64BIT
1874	ldo	-16(%r30),%r29		/* Reference param save area */
1875#else
1876	nop
1877#endif
1878END(syscall_exit)
1879
1880
1881#ifdef CONFIG_FUNCTION_TRACER
1882
1883	.import ftrace_function_trampoline,code
1884	.align L1_CACHE_BYTES
1885ENTRY_CFI(mcount, caller)
1886_mcount:
1887	.export _mcount,data
1888	/*
1889	 * The 64bit mcount() function pointer needs 4 dwords, of which the
1890	 * first two are free.  We optimize it here and put 2 instructions for
1891	 * calling mcount(), and 2 instructions for ftrace_stub().  That way we
1892	 * have all on one L1 cacheline.
1893	 */
1894	ldi	0, %arg3
1895	b	ftrace_function_trampoline
1896	copy	%r3, %arg2	/* caller original %sp */
1897ftrace_stub:
1898	.globl ftrace_stub
1899        .type  ftrace_stub, @function
1900#ifdef CONFIG_64BIT
1901	bve	(%rp)
1902#else
1903	bv	%r0(%rp)
1904#endif
1905	nop
1906#ifdef CONFIG_64BIT
1907	.dword mcount
1908	.dword 0 /* code in head.S puts value of global gp here */
1909#endif
1910ENDPROC_CFI(mcount)
1911
1912#ifdef CONFIG_DYNAMIC_FTRACE
1913
1914#ifdef CONFIG_64BIT
1915#define FTRACE_FRAME_SIZE (2*FRAME_SIZE)
1916#else
1917#define FTRACE_FRAME_SIZE FRAME_SIZE
1918#endif
1919ENTRY_CFI(ftrace_caller, caller,frame=FTRACE_FRAME_SIZE,CALLS,SAVE_RP,SAVE_SP)
1920ftrace_caller:
1921	.global ftrace_caller
1922
1923	STREG	%r3, -FTRACE_FRAME_SIZE+1*REG_SZ(%sp)
1924	ldo	-FTRACE_FRAME_SIZE(%sp), %r3
1925	STREG	%rp, -RP_OFFSET(%r3)
1926
1927	/* Offset 0 is already allocated for %r1 */
1928	STREG	%r23, 2*REG_SZ(%r3)
1929	STREG	%r24, 3*REG_SZ(%r3)
1930	STREG	%r25, 4*REG_SZ(%r3)
1931	STREG	%r26, 5*REG_SZ(%r3)
1932	STREG	%r28, 6*REG_SZ(%r3)
1933	STREG	%r29, 7*REG_SZ(%r3)
1934#ifdef CONFIG_64BIT
1935	STREG	%r19, 8*REG_SZ(%r3)
1936	STREG	%r20, 9*REG_SZ(%r3)
1937	STREG	%r21, 10*REG_SZ(%r3)
1938	STREG	%r22, 11*REG_SZ(%r3)
1939	STREG	%r27, 12*REG_SZ(%r3)
1940	STREG	%r31, 13*REG_SZ(%r3)
1941	loadgp
1942	ldo	-16(%sp),%r29
1943#endif
1944	LDREG	0(%r3), %r25
1945	copy	%rp, %r26
1946	ldo	-8(%r25), %r25
1947	ldi	0, %r23		/* no pt_regs */
1948	b,l	ftrace_function_trampoline, %rp
1949	copy	%r3, %r24
1950
1951	LDREG	-RP_OFFSET(%r3), %rp
1952	LDREG	2*REG_SZ(%r3), %r23
1953	LDREG	3*REG_SZ(%r3), %r24
1954	LDREG	4*REG_SZ(%r3), %r25
1955	LDREG	5*REG_SZ(%r3), %r26
1956	LDREG	6*REG_SZ(%r3), %r28
1957	LDREG	7*REG_SZ(%r3), %r29
1958#ifdef CONFIG_64BIT
1959	LDREG	8*REG_SZ(%r3), %r19
1960	LDREG	9*REG_SZ(%r3), %r20
1961	LDREG	10*REG_SZ(%r3), %r21
1962	LDREG	11*REG_SZ(%r3), %r22
1963	LDREG	12*REG_SZ(%r3), %r27
1964	LDREG	13*REG_SZ(%r3), %r31
1965#endif
1966	LDREG	1*REG_SZ(%r3), %r3
1967
1968	LDREGM	-FTRACE_FRAME_SIZE(%sp), %r1
1969	/* Adjust return point to jump back to beginning of traced function */
1970	ldo	-4(%r1), %r1
1971	bv,n	(%r1)
1972
1973ENDPROC_CFI(ftrace_caller)
1974
1975#ifdef CONFIG_HAVE_DYNAMIC_FTRACE_WITH_REGS
1976ENTRY_CFI(ftrace_regs_caller,caller,frame=FTRACE_FRAME_SIZE+PT_SZ_ALGN,
1977	CALLS,SAVE_RP,SAVE_SP)
1978ftrace_regs_caller:
1979	.global ftrace_regs_caller
1980
1981	ldo	-FTRACE_FRAME_SIZE(%sp), %r1
1982	STREG	%rp, -RP_OFFSET(%r1)
1983
1984	copy	%sp, %r1
1985	ldo	PT_SZ_ALGN(%sp), %sp
1986
1987	STREG	%rp, PT_GR2(%r1)
1988	STREG	%r3, PT_GR3(%r1)
1989	STREG	%r4, PT_GR4(%r1)
1990	STREG	%r5, PT_GR5(%r1)
1991	STREG	%r6, PT_GR6(%r1)
1992	STREG	%r7, PT_GR7(%r1)
1993	STREG	%r8, PT_GR8(%r1)
1994	STREG	%r9, PT_GR9(%r1)
1995	STREG   %r10, PT_GR10(%r1)
1996	STREG   %r11, PT_GR11(%r1)
1997	STREG   %r12, PT_GR12(%r1)
1998	STREG   %r13, PT_GR13(%r1)
1999	STREG   %r14, PT_GR14(%r1)
2000	STREG   %r15, PT_GR15(%r1)
2001	STREG   %r16, PT_GR16(%r1)
2002	STREG   %r17, PT_GR17(%r1)
2003	STREG   %r18, PT_GR18(%r1)
2004	STREG	%r19, PT_GR19(%r1)
2005	STREG	%r20, PT_GR20(%r1)
2006	STREG	%r21, PT_GR21(%r1)
2007	STREG	%r22, PT_GR22(%r1)
2008	STREG	%r23, PT_GR23(%r1)
2009	STREG	%r24, PT_GR24(%r1)
2010	STREG	%r25, PT_GR25(%r1)
2011	STREG	%r26, PT_GR26(%r1)
2012	STREG	%r27, PT_GR27(%r1)
2013	STREG	%r28, PT_GR28(%r1)
2014	STREG	%r29, PT_GR29(%r1)
2015	STREG	%r30, PT_GR30(%r1)
2016	STREG	%r31, PT_GR31(%r1)
2017	mfctl	%cr11, %r26
2018	STREG	%r26, PT_SAR(%r1)
2019
2020	copy	%rp, %r26
2021	LDREG	-FTRACE_FRAME_SIZE-PT_SZ_ALGN(%sp), %r25
2022	ldo	-8(%r25), %r25
2023	ldo	-FTRACE_FRAME_SIZE(%r1), %arg2
2024	b,l	ftrace_function_trampoline, %rp
2025	copy	%r1, %arg3 /* struct pt_regs */
2026
2027	ldo	-PT_SZ_ALGN(%sp), %r1
2028
2029	LDREG	PT_SAR(%r1), %rp
2030	mtctl	%rp, %cr11
2031
2032	LDREG	PT_GR2(%r1), %rp
2033	LDREG	PT_GR3(%r1), %r3
2034	LDREG	PT_GR4(%r1), %r4
2035	LDREG	PT_GR5(%r1), %r5
2036	LDREG	PT_GR6(%r1), %r6
2037	LDREG	PT_GR7(%r1), %r7
2038	LDREG	PT_GR8(%r1), %r8
2039	LDREG	PT_GR9(%r1), %r9
2040	LDREG   PT_GR10(%r1),%r10
2041	LDREG   PT_GR11(%r1),%r11
2042	LDREG   PT_GR12(%r1),%r12
2043	LDREG   PT_GR13(%r1),%r13
2044	LDREG   PT_GR14(%r1),%r14
2045	LDREG   PT_GR15(%r1),%r15
2046	LDREG   PT_GR16(%r1),%r16
2047	LDREG   PT_GR17(%r1),%r17
2048	LDREG   PT_GR18(%r1),%r18
2049	LDREG   PT_GR19(%r1),%r19
2050	LDREG   PT_GR20(%r1),%r20
2051	LDREG   PT_GR21(%r1),%r21
2052	LDREG   PT_GR22(%r1),%r22
2053	LDREG   PT_GR23(%r1),%r23
2054	LDREG   PT_GR24(%r1),%r24
2055	LDREG   PT_GR25(%r1),%r25
2056	LDREG   PT_GR26(%r1),%r26
2057	LDREG   PT_GR27(%r1),%r27
2058	LDREG   PT_GR28(%r1),%r28
2059	LDREG   PT_GR29(%r1),%r29
2060	LDREG   PT_GR30(%r1),%r30
2061	LDREG   PT_GR31(%r1),%r31
2062
2063	ldo	-PT_SZ_ALGN(%sp), %sp
2064	LDREGM	-FTRACE_FRAME_SIZE(%sp), %r1
2065	/* Adjust return point to jump back to beginning of traced function */
2066	ldo	-4(%r1), %r1
2067	bv,n	(%r1)
2068
2069ENDPROC_CFI(ftrace_regs_caller)
2070
2071#endif
2072#endif
2073
2074#ifdef CONFIG_FUNCTION_GRAPH_TRACER
2075	.align 8
2076ENTRY_CFI(return_to_handler, caller,frame=FRAME_SIZE)
2077	.export parisc_return_to_handler,data
2078parisc_return_to_handler:
2079	copy %r3,%r1
2080	STREG %r0,-RP_OFFSET(%sp)	/* store 0 as %rp */
2081	copy %sp,%r3
2082	STREGM %r1,FRAME_SIZE(%sp)
2083	STREG %ret0,8(%r3)
2084	STREG %ret1,16(%r3)
2085
2086#ifdef CONFIG_64BIT
2087	loadgp
2088#endif
2089
2090	/* call ftrace_return_to_handler(0) */
2091	.import ftrace_return_to_handler,code
2092	load32 ftrace_return_to_handler,%ret0
2093	load32 .Lftrace_ret,%r2
2094#ifdef CONFIG_64BIT
2095	ldo -16(%sp),%ret1		/* Reference param save area */
2096	bve	(%ret0)
2097#else
2098	bv	%r0(%ret0)
2099#endif
2100	ldi 0,%r26
2101.Lftrace_ret:
2102	copy %ret0,%rp
2103
2104	/* restore original return values */
2105	LDREG 8(%r3),%ret0
2106	LDREG 16(%r3),%ret1
2107
2108	/* return from function */
2109#ifdef CONFIG_64BIT
2110	bve	(%rp)
2111#else
2112	bv	%r0(%rp)
2113#endif
2114	LDREGM -FRAME_SIZE(%sp),%r3
2115ENDPROC_CFI(return_to_handler)
2116
2117#endif /* CONFIG_FUNCTION_GRAPH_TRACER */
2118
2119#endif	/* CONFIG_FUNCTION_TRACER */
2120
2121#ifdef CONFIG_IRQSTACKS
2122/* void call_on_stack(unsigned long param1, void *func,
2123		      unsigned long new_stack) */
2124ENTRY_CFI(call_on_stack, FRAME=2*FRAME_SIZE,CALLS,SAVE_RP,SAVE_SP)
2125ENTRY(_call_on_stack)
2126	copy	%sp, %r1
2127
2128	/* Regarding the HPPA calling conventions for function pointers,
2129	   we assume the PIC register is not changed across call.  For
2130	   CONFIG_64BIT, the argument pointer is left to point at the
2131	   argument region allocated for the call to call_on_stack. */
2132
2133	/* Switch to new stack.  We allocate two frames.  */
2134	ldo	2*FRAME_SIZE(%arg2), %sp
2135# ifdef CONFIG_64BIT
2136	/* Save previous stack pointer and return pointer in frame marker */
2137	STREG	%rp, -FRAME_SIZE-RP_OFFSET(%sp)
2138	/* Calls always use function descriptor */
2139	LDREG	16(%arg1), %arg1
2140	bve,l	(%arg1), %rp
2141	STREG	%r1, -FRAME_SIZE-REG_SZ(%sp)
2142	LDREG	-FRAME_SIZE-RP_OFFSET(%sp), %rp
2143	bve	(%rp)
2144	LDREG	-FRAME_SIZE-REG_SZ(%sp), %sp
2145# else
2146	/* Save previous stack pointer and return pointer in frame marker */
2147	STREG	%r1, -FRAME_SIZE-REG_SZ(%sp)
2148	STREG	%rp, -FRAME_SIZE-RP_OFFSET(%sp)
2149	/* Calls use function descriptor if PLABEL bit is set */
2150	bb,>=,n	%arg1, 30, 1f
2151	depwi	0,31,2, %arg1
2152	LDREG	0(%arg1), %arg1
21531:
2154	be,l	0(%sr4,%arg1), %sr0, %r31
2155	copy	%r31, %rp
2156	LDREG	-FRAME_SIZE-RP_OFFSET(%sp), %rp
2157	bv	(%rp)
2158	LDREG	-FRAME_SIZE-REG_SZ(%sp), %sp
2159# endif /* CONFIG_64BIT */
2160ENDPROC_CFI(call_on_stack)
2161#endif /* CONFIG_IRQSTACKS */
2162
2163ENTRY_CFI(get_register)
2164	/*
2165	 * get_register is used by the non access tlb miss handlers to
2166	 * copy the value of the general register specified in r8 into
2167	 * r1. This routine can't be used for shadowed registers, since
2168	 * the rfir will restore the original value. So, for the shadowed
2169	 * registers we put a -1 into r1 to indicate that the register
2170	 * should not be used (the register being copied could also have
2171	 * a -1 in it, but that is OK, it just means that we will have
2172	 * to use the slow path instead).
2173	 */
2174	blr     %r8,%r0
2175	nop
2176	bv      %r0(%r25)    /* r0 */
2177	copy    %r0,%r1
2178	bv      %r0(%r25)    /* r1 - shadowed */
2179	ldi     -1,%r1
2180	bv      %r0(%r25)    /* r2 */
2181	copy    %r2,%r1
2182	bv      %r0(%r25)    /* r3 */
2183	copy    %r3,%r1
2184	bv      %r0(%r25)    /* r4 */
2185	copy    %r4,%r1
2186	bv      %r0(%r25)    /* r5 */
2187	copy    %r5,%r1
2188	bv      %r0(%r25)    /* r6 */
2189	copy    %r6,%r1
2190	bv      %r0(%r25)    /* r7 */
2191	copy    %r7,%r1
2192	bv      %r0(%r25)    /* r8 - shadowed */
2193	ldi     -1,%r1
2194	bv      %r0(%r25)    /* r9 - shadowed */
2195	ldi     -1,%r1
2196	bv      %r0(%r25)    /* r10 */
2197	copy    %r10,%r1
2198	bv      %r0(%r25)    /* r11 */
2199	copy    %r11,%r1
2200	bv      %r0(%r25)    /* r12 */
2201	copy    %r12,%r1
2202	bv      %r0(%r25)    /* r13 */
2203	copy    %r13,%r1
2204	bv      %r0(%r25)    /* r14 */
2205	copy    %r14,%r1
2206	bv      %r0(%r25)    /* r15 */
2207	copy    %r15,%r1
2208	bv      %r0(%r25)    /* r16 - shadowed */
2209	ldi     -1,%r1
2210	bv      %r0(%r25)    /* r17 - shadowed */
2211	ldi     -1,%r1
2212	bv      %r0(%r25)    /* r18 */
2213	copy    %r18,%r1
2214	bv      %r0(%r25)    /* r19 */
2215	copy    %r19,%r1
2216	bv      %r0(%r25)    /* r20 */
2217	copy    %r20,%r1
2218	bv      %r0(%r25)    /* r21 */
2219	copy    %r21,%r1
2220	bv      %r0(%r25)    /* r22 */
2221	copy    %r22,%r1
2222	bv      %r0(%r25)    /* r23 */
2223	copy    %r23,%r1
2224	bv      %r0(%r25)    /* r24 - shadowed */
2225	ldi     -1,%r1
2226	bv      %r0(%r25)    /* r25 - shadowed */
2227	ldi     -1,%r1
2228	bv      %r0(%r25)    /* r26 */
2229	copy    %r26,%r1
2230	bv      %r0(%r25)    /* r27 */
2231	copy    %r27,%r1
2232	bv      %r0(%r25)    /* r28 */
2233	copy    %r28,%r1
2234	bv      %r0(%r25)    /* r29 */
2235	copy    %r29,%r1
2236	bv      %r0(%r25)    /* r30 */
2237	copy    %r30,%r1
2238	bv      %r0(%r25)    /* r31 */
2239	copy    %r31,%r1
2240ENDPROC_CFI(get_register)
2241
2242
2243ENTRY_CFI(set_register)
2244	/*
2245	 * set_register is used by the non access tlb miss handlers to
2246	 * copy the value of r1 into the general register specified in
2247	 * r8.
2248	 */
2249	blr     %r8,%r0
2250	nop
2251	bv      %r0(%r25)    /* r0 (silly, but it is a place holder) */
2252	copy    %r1,%r0
2253	bv      %r0(%r25)    /* r1 */
2254	copy    %r1,%r1
2255	bv      %r0(%r25)    /* r2 */
2256	copy    %r1,%r2
2257	bv      %r0(%r25)    /* r3 */
2258	copy    %r1,%r3
2259	bv      %r0(%r25)    /* r4 */
2260	copy    %r1,%r4
2261	bv      %r0(%r25)    /* r5 */
2262	copy    %r1,%r5
2263	bv      %r0(%r25)    /* r6 */
2264	copy    %r1,%r6
2265	bv      %r0(%r25)    /* r7 */
2266	copy    %r1,%r7
2267	bv      %r0(%r25)    /* r8 */
2268	copy    %r1,%r8
2269	bv      %r0(%r25)    /* r9 */
2270	copy    %r1,%r9
2271	bv      %r0(%r25)    /* r10 */
2272	copy    %r1,%r10
2273	bv      %r0(%r25)    /* r11 */
2274	copy    %r1,%r11
2275	bv      %r0(%r25)    /* r12 */
2276	copy    %r1,%r12
2277	bv      %r0(%r25)    /* r13 */
2278	copy    %r1,%r13
2279	bv      %r0(%r25)    /* r14 */
2280	copy    %r1,%r14
2281	bv      %r0(%r25)    /* r15 */
2282	copy    %r1,%r15
2283	bv      %r0(%r25)    /* r16 */
2284	copy    %r1,%r16
2285	bv      %r0(%r25)    /* r17 */
2286	copy    %r1,%r17
2287	bv      %r0(%r25)    /* r18 */
2288	copy    %r1,%r18
2289	bv      %r0(%r25)    /* r19 */
2290	copy    %r1,%r19
2291	bv      %r0(%r25)    /* r20 */
2292	copy    %r1,%r20
2293	bv      %r0(%r25)    /* r21 */
2294	copy    %r1,%r21
2295	bv      %r0(%r25)    /* r22 */
2296	copy    %r1,%r22
2297	bv      %r0(%r25)    /* r23 */
2298	copy    %r1,%r23
2299	bv      %r0(%r25)    /* r24 */
2300	copy    %r1,%r24
2301	bv      %r0(%r25)    /* r25 */
2302	copy    %r1,%r25
2303	bv      %r0(%r25)    /* r26 */
2304	copy    %r1,%r26
2305	bv      %r0(%r25)    /* r27 */
2306	copy    %r1,%r27
2307	bv      %r0(%r25)    /* r28 */
2308	copy    %r1,%r28
2309	bv      %r0(%r25)    /* r29 */
2310	copy    %r1,%r29
2311	bv      %r0(%r25)    /* r30 */
2312	copy    %r1,%r30
2313	bv      %r0(%r25)    /* r31 */
2314	copy    %r1,%r31
2315ENDPROC_CFI(set_register)
2316
2317