xref: /freebsd/sys/arm64/arm64/locore.S (revision 1323ec571215a77ddd21294f0871979d5ad6b992)
1/*-
2 * Copyright (c) 2012-2014 Andrew Turner
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 * 1. Redistributions of source code must retain the above copyright
9 *    notice, this list of conditions and the following disclaimer.
10 * 2. Redistributions in binary form must reproduce the above copyright
11 *    notice, this list of conditions and the following disclaimer in the
12 *    documentation and/or other materials provided with the distribution.
13 *
14 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
15 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
16 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
17 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
18 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
19 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
20 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
21 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
22 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
23 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
24 * SUCH DAMAGE.
25 *
26 * $FreeBSD$
27 */
28
29#include "assym.inc"
30#include "opt_kstack_pages.h"
31#include <sys/syscall.h>
32#include <machine/asm.h>
33#include <machine/armreg.h>
34#include <machine/hypervisor.h>
35#include <machine/param.h>
36#include <machine/pte.h>
37#include <machine/vm.h>
38#include <machine/vmparam.h>
39
40#define	VIRT_BITS	48
41
42	.globl	kernbase
43	.set	kernbase, KERNBASE
44
45/*
46 * We assume:
47 *  MMU      on with an identity map, or off
48 *  D-Cache: off
49 *  I-Cache: on or off
50 *  We are loaded at a 2MiB aligned address
51 */
52
53ENTRY(_start)
54	/* Drop to EL1 */
55	bl	drop_to_el1
56
57	/*
58	 * Disable the MMU. We may have entered the kernel with it on and
59	 * will need to update the tables later. If this has been set up
60	 * with anything other than a VA == PA map then this will fail,
61	 * but in this case the code to find where we are running from
62	 * would have also failed.
63	 */
64	dsb	sy
65	mrs	x2, sctlr_el1
66	bic	x2, x2, SCTLR_M
67	msr	sctlr_el1, x2
68	isb
69
70	/* Set the context id */
71	msr	contextidr_el1, xzr
72
73	/* Get the virt -> phys offset */
74	bl	get_virt_delta
75
76	/*
77	 * At this point:
78	 * x29 = PA - VA
79	 * x28 = Our physical load address
80	 */
81
82	/* Create the page tables */
83	bl	create_pagetables
84
85	/*
86	 * At this point:
87	 * x27 = TTBR0 table
88	 * x26 = Kernel L1 table
89	 * x24 = TTBR1 table
90	 */
91
92	/* Enable the mmu */
93	bl	start_mmu
94
95	/* Load the new ttbr0 pagetable */
96	adrp	x27, pagetable_l0_ttbr0
97	add	x27, x27, :lo12:pagetable_l0_ttbr0
98
99	/* Jump to the virtual address space */
100	ldr	x15, .Lvirtdone
101	br	x15
102
103virtdone:
104	/* Set up the stack */
105	adrp	x25, initstack_end
106	add	x25, x25, :lo12:initstack_end
107	mov	sp, x25
108	sub	sp, sp, #PCB_SIZE
109
110	/* Zero the BSS */
111	ldr	x15, .Lbss
112	ldr	x14, .Lend
1131:
114	str	xzr, [x15], #8
115	cmp	x15, x14
116	b.lo	1b
117
118#if defined(PERTHREAD_SSP)
119	/* Set sp_el0 to the boot canary for early per-thread SSP to work */
120	adrp	x15, boot_canary
121	add	x15, x15, :lo12:boot_canary
122	msr	sp_el0, x15
123#endif
124
125	/* Backup the module pointer */
126	mov	x1, x0
127
128	/* Make the page table base a virtual address */
129	sub	x26, x26, x29
130	sub	x24, x24, x29
131
132	sub	sp, sp, #BOOTPARAMS_SIZE
133	mov	x0, sp
134
135	/* Degate the delda so it is VA -> PA */
136	neg	x29, x29
137
138	str	x1,  [x0, #BP_MODULEP]
139	str	x26, [x0, #BP_KERN_L1PT]
140	str	x29, [x0, #BP_KERN_DELTA]
141	adrp	x25, initstack
142	add	x25, x25, :lo12:initstack
143	str	x25, [x0, #BP_KERN_STACK]
144	str	x24, [x0, #BP_KERN_L0PT]
145	str	x27, [x0, #BP_KERN_TTBR0]
146	str	x23, [x0, #BP_BOOT_EL]
147
148	/* trace back starts here */
149	mov	fp, #0
150	/* Branch to C code */
151	bl	initarm
152	/* We are done with the boot params */
153	add	sp, sp, #BOOTPARAMS_SIZE
154
155	/*
156	 * Enable pointer authentication in the kernel. We set the keys for
157	 * thread0 in initarm so have to wait until it returns to enable it.
158	 * If we were to enable it in initarm then any authentication when
159	 * returning would fail as it was called with pointer authentication
160	 * disabled.
161	 */
162	bl	ptrauth_start
163
164	bl	mi_startup
165
166	/* We should not get here */
167	brk	0
168
169	.align 3
170.Lvirtdone:
171	.quad	virtdone
172.Lbss:
173	.quad	__bss_start
174.Lend:
175	.quad	__bss_end
176END(_start)
177
178#ifdef SMP
179/*
180 * mpentry(unsigned long)
181 *
182 * Called by a core when it is being brought online.
183 * The data in x0 is passed straight to init_secondary.
184 */
185ENTRY(mpentry)
186	/* Disable interrupts */
187	msr	daifset, #DAIF_INTR
188
189	/* Drop to EL1 */
190	bl	drop_to_el1
191
192	/* Set the context id */
193	msr	contextidr_el1, xzr
194
195	/* Load the kernel page table */
196	adrp	x24, pagetable_l0_ttbr1
197	add	x24, x24, :lo12:pagetable_l0_ttbr1
198	/* Load the identity page table */
199	adrp	x27, pagetable_l0_ttbr0_boostrap
200	add	x27, x27, :lo12:pagetable_l0_ttbr0_boostrap
201
202	/* Enable the mmu */
203	bl	start_mmu
204
205	/* Load the new ttbr0 pagetable */
206	adrp	x27, pagetable_l0_ttbr0
207	add	x27, x27, :lo12:pagetable_l0_ttbr0
208
209	/* Jump to the virtual address space */
210	ldr	x15, =mp_virtdone
211	br	x15
212
213mp_virtdone:
214	/* Start using the AP boot stack */
215	ldr	x4, =bootstack
216	ldr	x4, [x4]
217	mov	sp, x4
218
219#if defined(PERTHREAD_SSP)
220	/* Set sp_el0 to the boot canary for early per-thread SSP to work */
221	adrp	x15, boot_canary
222	add	x15, x15, :lo12:boot_canary
223	msr	sp_el0, x15
224#endif
225
226	/* Load the kernel ttbr0 pagetable */
227	msr	ttbr0_el1, x27
228	isb
229
230	/* Invalidate the TLB */
231	tlbi	vmalle1
232	dsb	sy
233	isb
234
235	b	init_secondary
236END(mpentry)
237#endif
238
239/*
240 * If we are started in EL2, configure the required hypervisor
241 * registers and drop to EL1.
242 */
243LENTRY(drop_to_el1)
244	mrs	x23, CurrentEL
245	lsr	x23, x23, #2
246	cmp	x23, #0x2
247	b.eq	1f
248	ret
2491:
250	/* Configure the Hypervisor */
251	ldr	x2, =(HCR_RW | HCR_APK | HCR_API)
252	msr	hcr_el2, x2
253
254	/* Load the Virtualization Process ID Register */
255	mrs	x2, midr_el1
256	msr	vpidr_el2, x2
257
258	/* Load the Virtualization Multiprocess ID Register */
259	mrs	x2, mpidr_el1
260	msr	vmpidr_el2, x2
261
262	/* Set the bits that need to be 1 in sctlr_el1 */
263	ldr	x2, .Lsctlr_res1
264	msr	sctlr_el1, x2
265
266	/* Don't trap to EL2 for exceptions */
267	mov	x2, #CPTR_RES1
268	msr	cptr_el2, x2
269
270	/* Don't trap to EL2 for CP15 traps */
271	msr	hstr_el2, xzr
272
273	/* Enable access to the physical timers at EL1 */
274	mrs	x2, cnthctl_el2
275	orr	x2, x2, #(CNTHCTL_EL1PCTEN | CNTHCTL_EL1PCEN)
276	msr	cnthctl_el2, x2
277
278	/* Set the counter offset to a known value */
279	msr	cntvoff_el2, xzr
280
281	/* Hypervisor trap functions */
282	adrp	x2, hyp_vectors
283	add	x2, x2, :lo12:hyp_vectors
284	msr	vbar_el2, x2
285
286	mov	x2, #(PSR_F | PSR_I | PSR_A | PSR_D | PSR_M_EL1h)
287	msr	spsr_el2, x2
288
289	/* Configure GICv3 CPU interface */
290	mrs	x2, id_aa64pfr0_el1
291	/* Extract GIC bits from the register */
292	ubfx	x2, x2, #ID_AA64PFR0_GIC_SHIFT, #ID_AA64PFR0_GIC_BITS
293	/* GIC[3:0] == 0001 - GIC CPU interface via special regs. supported */
294	cmp	x2, #(ID_AA64PFR0_GIC_CPUIF_EN >> ID_AA64PFR0_GIC_SHIFT)
295	b.ne	2f
296
297	mrs	x2, icc_sre_el2
298	orr	x2, x2, #ICC_SRE_EL2_EN	/* Enable access from insecure EL1 */
299	orr	x2, x2, #ICC_SRE_EL2_SRE	/* Enable system registers */
300	msr	icc_sre_el2, x2
3012:
302
303	/* Set the address to return to our return address */
304	msr	elr_el2, x30
305	isb
306
307	eret
308
309	.align 3
310.Lsctlr_res1:
311	.quad SCTLR_RES1
312LEND(drop_to_el1)
313
314#define	VECT_EMPTY	\
315	.align 7;	\
316	1:	b	1b
317
318	.align 11
319hyp_vectors:
320	VECT_EMPTY	/* Synchronous EL2t */
321	VECT_EMPTY	/* IRQ EL2t */
322	VECT_EMPTY	/* FIQ EL2t */
323	VECT_EMPTY	/* Error EL2t */
324
325	VECT_EMPTY	/* Synchronous EL2h */
326	VECT_EMPTY	/* IRQ EL2h */
327	VECT_EMPTY	/* FIQ EL2h */
328	VECT_EMPTY	/* Error EL2h */
329
330	VECT_EMPTY	/* Synchronous 64-bit EL1 */
331	VECT_EMPTY	/* IRQ 64-bit EL1 */
332	VECT_EMPTY	/* FIQ 64-bit EL1 */
333	VECT_EMPTY	/* Error 64-bit EL1 */
334
335	VECT_EMPTY	/* Synchronous 32-bit EL1 */
336	VECT_EMPTY	/* IRQ 32-bit EL1 */
337	VECT_EMPTY	/* FIQ 32-bit EL1 */
338	VECT_EMPTY	/* Error 32-bit EL1 */
339
340/*
341 * Get the delta between the physical address we were loaded to and the
342 * virtual address we expect to run from. This is used when building the
343 * initial page table.
344 */
345LENTRY(get_virt_delta)
346	/* Load the physical address of virt_map */
347	adrp	x29, virt_map
348	add	x29, x29, :lo12:virt_map
349	/* Load the virtual address of virt_map stored in virt_map */
350	ldr	x28, [x29]
351	/* Find PA - VA as PA' = VA' - VA + PA = VA' + (PA - VA) = VA' + x29 */
352	sub	x29, x29, x28
353	/* Find the load address for the kernel */
354	mov	x28, #(KERNBASE)
355	add	x28, x28, x29
356	ret
357
358	.align 3
359virt_map:
360	.quad	virt_map
361LEND(get_virt_delta)
362
363/*
364 * This builds the page tables containing the identity map, and the kernel
365 * virtual map.
366 *
367 * It relys on:
368 *  We were loaded to an address that is on a 2MiB boundary
369 *  All the memory must not cross a 1GiB boundaty
370 *  x28 contains the physical address we were loaded from
371 *
372 * TODO: This is out of date.
373 *  There are at least 5 pages before that address for the page tables
374 *   The pages used are:
375 *    - The Kernel L2 table
376 *    - The Kernel L1 table
377 *    - The Kernel L0 table             (TTBR1)
378 *    - The identity (PA = VA) L1 table
379 *    - The identity (PA = VA) L0 table (TTBR0)
380 */
381LENTRY(create_pagetables)
382	/* Save the Link register */
383	mov	x5, x30
384
385	/* Clean the page table */
386	adrp	x6, pagetable
387	add	x6, x6, :lo12:pagetable
388	mov	x26, x6
389	adrp	x27, pagetable_end
390	add	x27, x27, :lo12:pagetable_end
3911:
392	stp	xzr, xzr, [x6], #16
393	stp	xzr, xzr, [x6], #16
394	stp	xzr, xzr, [x6], #16
395	stp	xzr, xzr, [x6], #16
396	cmp	x6, x27
397	b.lo	1b
398
399	/*
400	 * Build the TTBR1 maps.
401	 */
402
403	/* Find the size of the kernel */
404	mov	x6, #(KERNBASE)
405
406#if defined(LINUX_BOOT_ABI)
407	/* X19 is used as 'map FDT data' flag */
408	mov	x19, xzr
409
410	/* No modules or FDT pointer ? */
411	cbz	x0, booti_no_fdt
412
413	/*
414	 * Test if x0 points to modules descriptor(virtual address) or
415	 * to FDT (physical address)
416	 */
417	cmp	x0, x6		/* x6 is #(KERNBASE) */
418	b.lo	booti_fdt
419#endif
420
421	/* Booted with modules pointer */
422	/* Find modulep - begin */
423	sub	x8, x0, x6
424	/* Add two 2MiB pages for the module data and round up */
425	ldr	x7, =(3 * L2_SIZE - 1)
426	add	x8, x8, x7
427	b	common
428
429#if defined(LINUX_BOOT_ABI)
430booti_fdt:
431	/* Booted by U-Boot booti with FDT data */
432	/* Set 'map FDT data' flag */
433	mov	x19, #1
434
435booti_no_fdt:
436	/* Booted by U-Boot booti without FTD data */
437	/* Find the end - begin */
438	ldr     x7, .Lend
439	sub     x8, x7, x6
440
441	/*
442	 * Add one 2MiB page for copy of FDT data (maximum FDT size),
443	 * one for metadata and round up
444	 */
445	ldr	x7, =(3 * L2_SIZE - 1)
446	add	x8, x8, x7
447#endif
448
449common:
450	/* Get the number of l2 pages to allocate, rounded down */
451	lsr	x10, x8, #(L2_SHIFT)
452
453	/* Create the kernel space L2 table */
454	mov	x6, x26
455	mov	x7, #(ATTR_S1_IDX(VM_MEMATTR_WRITE_BACK))
456	mov	x8, #(KERNBASE)
457	mov	x9, x28
458	bl	build_l2_block_pagetable
459
460	/* Move to the l1 table */
461	add	x26, x26, #PAGE_SIZE
462
463	/* Link the l1 -> l2 table */
464	mov	x9, x6
465	mov	x6, x26
466	bl	link_l1_pagetable
467
468	/* Move to the l0 table */
469	add	x24, x26, #PAGE_SIZE
470
471	/* Link the l0 -> l1 table */
472	mov	x9, x6
473	mov	x6, x24
474	mov	x10, #1
475	bl	link_l0_pagetable
476
477	/*
478	 * Build the TTBR0 maps.  As TTBR0 maps, they must specify ATTR_S1_nG.
479	 * They are only needed early on, so the VA = PA map is uncached.
480	 */
481	add	x27, x24, #PAGE_SIZE
482
483	mov	x6, x27		/* The initial page table */
484
485	/* Create the VA = PA map */
486	mov	x7, #(ATTR_S1_nG | ATTR_S1_IDX(VM_MEMATTR_WRITE_BACK))
487	adrp	x16, _start
488	and	x16, x16, #(~L2_OFFSET)
489	mov	x9, x16		/* PA start */
490	mov	x8, x16		/* VA start (== PA start) */
491	mov	x10, #1
492	bl	build_l2_block_pagetable
493
494#if defined(SOCDEV_PA)
495	/* Create a table for the UART */
496	mov	x7, #(ATTR_S1_nG | ATTR_S1_IDX(VM_MEMATTR_DEVICE))
497	add	x16, x16, #(L2_SIZE)	/* VA start */
498	mov	x8, x16
499
500	/* Store the socdev virtual address */
501	add	x17, x8, #(SOCDEV_PA & L2_OFFSET)
502	adrp	x9, socdev_va
503	str	x17, [x9, :lo12:socdev_va]
504
505	mov	x9, #(SOCDEV_PA & ~L2_OFFSET)	/* PA start */
506	mov	x10, #1
507	bl	build_l2_block_pagetable
508#endif
509
510#if defined(LINUX_BOOT_ABI)
511	/* Map FDT data ? */
512	cbz	x19, 1f
513
514	/* Create the mapping for FDT data (2 MiB max) */
515	mov	x7, #(ATTR_S1_nG | ATTR_S1_IDX(VM_MEMATTR_WRITE_BACK))
516	add	x16, x16, #(L2_SIZE)	/* VA start */
517	mov	x8, x16
518	mov	x9, x0			/* PA start */
519	/* Update the module pointer to point at the allocated memory */
520	and	x0, x0, #(L2_OFFSET)	/* Keep the lower bits */
521	add	x0, x0, x8		/* Add the aligned virtual address */
522
523	mov	x10, #1
524	bl	build_l2_block_pagetable
525
5261:
527#endif
528
529	/* Move to the l1 table */
530	add	x27, x27, #PAGE_SIZE
531
532	/* Link the l1 -> l2 table */
533	mov	x9, x6
534	mov	x6, x27
535	bl	link_l1_pagetable
536
537	/* Move to the l0 table */
538	add	x27, x27, #PAGE_SIZE
539
540	/* Link the l0 -> l1 table */
541	mov	x9, x6
542	mov	x6, x27
543	mov	x10, #1
544	bl	link_l0_pagetable
545
546	/* Restore the Link register */
547	mov	x30, x5
548	ret
549LEND(create_pagetables)
550
551/*
552 * Builds an L0 -> L1 table descriptor
553 *
554 *  x6  = L0 table
555 *  x8  = Virtual Address
556 *  x9  = L1 PA (trashed)
557 *  x10 = Entry count (trashed)
558 *  x11, x12 and x13 are trashed
559 */
560LENTRY(link_l0_pagetable)
561	/*
562	 * Link an L0 -> L1 table entry.
563	 */
564	/* Find the table index */
565	lsr	x11, x8, #L0_SHIFT
566	and	x11, x11, #L0_ADDR_MASK
567
568	/* Build the L0 block entry */
569	mov	x12, #L0_TABLE
570	orr	x12, x12, #(TATTR_UXN_TABLE | TATTR_AP_TABLE_NO_EL0)
571
572	/* Only use the output address bits */
573	lsr	x9, x9, #PAGE_SHIFT
5741:	orr	x13, x12, x9, lsl #PAGE_SHIFT
575
576	/* Store the entry */
577	str	x13, [x6, x11, lsl #3]
578
579	sub	x10, x10, #1
580	add	x11, x11, #1
581	add	x9, x9, #1
582	cbnz	x10, 1b
583
584	ret
585LEND(link_l0_pagetable)
586
587/*
588 * Builds an L1 -> L2 table descriptor
589 *
590 *  x6  = L1 table
591 *  x8  = Virtual Address
592 *  x9  = L2 PA (trashed)
593 *  x11, x12 and x13 are trashed
594 */
595LENTRY(link_l1_pagetable)
596	/*
597	 * Link an L1 -> L2 table entry.
598	 */
599	/* Find the table index */
600	lsr	x11, x8, #L1_SHIFT
601	and	x11, x11, #Ln_ADDR_MASK
602
603	/* Build the L1 block entry */
604	mov	x12, #L1_TABLE
605
606	/* Only use the output address bits */
607	lsr	x9, x9, #PAGE_SHIFT
608	orr	x13, x12, x9, lsl #PAGE_SHIFT
609
610	/* Store the entry */
611	str	x13, [x6, x11, lsl #3]
612
613	ret
614LEND(link_l1_pagetable)
615
616/*
617 * Builds count 2 MiB page table entry
618 *  x6  = L2 table
619 *  x7  = Block attributes
620 *  x8  = VA start
621 *  x9  = PA start (trashed)
622 *  x10 = Entry count (trashed)
623 *  x11, x12 and x13 are trashed
624 */
625LENTRY(build_l2_block_pagetable)
626	/*
627	 * Build the L2 table entry.
628	 */
629	/* Find the table index */
630	lsr	x11, x8, #L2_SHIFT
631	and	x11, x11, #Ln_ADDR_MASK
632
633	/* Build the L2 block entry */
634	orr	x12, x7, #L2_BLOCK
635	orr	x12, x12, #(ATTR_DEFAULT)
636	orr	x12, x12, #(ATTR_S1_UXN)
637
638	/* Only use the output address bits */
639	lsr	x9, x9, #L2_SHIFT
640
641	/* Set the physical address for this virtual address */
6421:	orr	x13, x12, x9, lsl #L2_SHIFT
643
644	/* Store the entry */
645	str	x13, [x6, x11, lsl #3]
646
647	sub	x10, x10, #1
648	add	x11, x11, #1
649	add	x9, x9, #1
650	cbnz	x10, 1b
651
652	ret
653LEND(build_l2_block_pagetable)
654
655LENTRY(start_mmu)
656	dsb	sy
657
658	/* Load the exception vectors */
659	ldr	x2, =exception_vectors
660	msr	vbar_el1, x2
661
662	/* Load ttbr0 and ttbr1 */
663	msr	ttbr0_el1, x27
664	msr	ttbr1_el1, x24
665	isb
666
667	/* Clear the Monitor Debug System control register */
668	msr	mdscr_el1, xzr
669
670	/* Invalidate the TLB */
671	tlbi	vmalle1is
672	dsb	ish
673	isb
674
675	ldr	x2, mair
676	msr	mair_el1, x2
677
678	/*
679	 * Setup TCR according to the PARange and ASIDBits fields
680	 * from ID_AA64MMFR0_EL1 and the HAFDBS field from the
681	 * ID_AA64MMFR1_EL1.  More precisely, set TCR_EL1.AS
682	 * to 1 only if the ASIDBits field equals 0b0010.
683	 */
684	ldr	x2, tcr
685	mrs	x3, id_aa64mmfr0_el1
686
687	/* Copy the bottom 3 bits from id_aa64mmfr0_el1 into TCR.IPS */
688	bfi	x2, x3, #(TCR_IPS_SHIFT), #(TCR_IPS_WIDTH)
689	and	x3, x3, #(ID_AA64MMFR0_ASIDBits_MASK)
690
691	/* Check if the HW supports 16 bit ASIDS */
692	cmp	x3, #(ID_AA64MMFR0_ASIDBits_16)
693	/* If so x3 == 1, else x3 == 0 */
694	cset	x3, eq
695	/* Set TCR.AS with x3 */
696	bfi	x2, x3, #(TCR_ASID_SHIFT), #(TCR_ASID_WIDTH)
697
698	/*
699	 * Check if the HW supports access flag and dirty state updates,
700	 * and set TCR_EL1.HA and TCR_EL1.HD accordingly.
701	 */
702	mrs	x3, id_aa64mmfr1_el1
703	and	x3, x3, #(ID_AA64MMFR1_HAFDBS_MASK)
704	cmp	x3, #1
705	b.ne	1f
706	orr 	x2, x2, #(TCR_HA)
707	b	2f
7081:
709	cmp	x3, #2
710	b.ne	2f
711	orr 	x2, x2, #(TCR_HA | TCR_HD)
7122:
713	msr	tcr_el1, x2
714
715	/*
716	 * Setup SCTLR.
717	 */
718	ldr	x2, sctlr_set
719	ldr	x3, sctlr_clear
720	mrs	x1, sctlr_el1
721	bic	x1, x1, x3	/* Clear the required bits */
722	orr	x1, x1, x2	/* Set the required bits */
723	msr	sctlr_el1, x1
724	isb
725
726	ret
727
728	.align 3
729mair:
730	.quad	MAIR_ATTR(MAIR_DEVICE_nGnRnE, VM_MEMATTR_DEVICE_nGnRnE) | \
731		MAIR_ATTR(MAIR_NORMAL_NC, VM_MEMATTR_UNCACHEABLE)   |	\
732		MAIR_ATTR(MAIR_NORMAL_WB, VM_MEMATTR_WRITE_BACK)    |	\
733		MAIR_ATTR(MAIR_NORMAL_WT, VM_MEMATTR_WRITE_THROUGH) |	\
734		MAIR_ATTR(MAIR_DEVICE_nGnRE, VM_MEMATTR_DEVICE_nGnRE)
735tcr:
736	.quad (TCR_TxSZ(64 - VIRT_BITS) | TCR_TG1_4K | TCR_TG0_4K | \
737	    TCR_CACHE_ATTRS | TCR_SMP_ATTRS)
738sctlr_set:
739	/* Bits to set */
740	.quad (SCTLR_LSMAOE | SCTLR_nTLSMD | SCTLR_UCI | SCTLR_SPAN | \
741	    SCTLR_nTWE | SCTLR_nTWI | SCTLR_UCT | SCTLR_DZE | \
742	    SCTLR_I | SCTLR_SED | SCTLR_SA0 | SCTLR_SA | SCTLR_C | \
743	    SCTLR_M | SCTLR_CP15BEN)
744sctlr_clear:
745	/* Bits to clear */
746	.quad (SCTLR_EE | SCTLR_E0E | SCTLR_IESB | SCTLR_WXN | SCTLR_UMA | \
747	    SCTLR_ITD | SCTLR_A)
748LEND(start_mmu)
749
750ENTRY(abort)
751	b abort
752END(abort)
753
754	.section .init_pagetable, "aw", %nobits
755	.align PAGE_SHIFT
756	/*
757	 * 6 initial tables (in the following order):
758	 *           L2 for kernel (High addresses)
759	 *           L1 for kernel
760	 *           L0 for kernel
761	 *           L1 bootstrap for user   (Low addresses)
762	 *           L0 bootstrap for user
763	 *           L0 for user
764	 */
765	.globl pagetable_l0_ttbr1
766pagetable:
767	.space	PAGE_SIZE
768pagetable_l1_ttbr1:
769	.space	PAGE_SIZE
770pagetable_l0_ttbr1:
771	.space	PAGE_SIZE
772pagetable_l2_ttbr0_bootstrap:
773	.space	PAGE_SIZE
774pagetable_l1_ttbr0_bootstrap:
775	.space	PAGE_SIZE
776pagetable_l0_ttbr0_boostrap:
777	.space	PAGE_SIZE
778pagetable_l0_ttbr0:
779	.space	PAGE_SIZE
780
781pagetable_end:
782
783el2_pagetable:
784	.space	PAGE_SIZE
785
786	.align	4
787initstack:
788	.space	(PAGE_SIZE * KSTACK_PAGES)
789initstack_end:
790
791
792.text
793EENTRY(aarch32_sigcode)
794	.word 0xe1a0000d	// mov r0, sp
795	.word 0xe2800040	// add r0, r0, #SIGF_UC
796	.word 0xe59f700c	// ldr r7, [pc, #12]
797	.word 0xef000000	// swi #0
798	.word 0xe59f7008	// ldr r7, [pc, #8]
799	.word 0xef000000	// swi #0
800	.word 0xeafffffa	// b . - 16
801EEND(aarch32_sigcode)
802	.word SYS_sigreturn
803	.word SYS_exit
804	.align	3
805aarch32_esigcode:
806	.data
807	.global sz_aarch32_sigcode
808sz_aarch32_sigcode:
809	.quad aarch32_esigcode - aarch32_sigcode
810