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1/*
2 * OpenRISC head.S
3 *
4 * Linux architectural port borrowing liberally from similar works of
5 * others.  All original copyrights apply as per the original source
6 * declaration.
7 *
8 * Modifications for the OpenRISC architecture:
9 * Copyright (C) 2003 Matjaz Breskvar <phoenix@bsemi.com>
10 * Copyright (C) 2010-2011 Jonas Bonn <jonas@southpole.se>
11 *
12 *      This program is free software; you can redistribute it and/or
13 *      modify it under the terms of the GNU General Public License
14 *      as published by the Free Software Foundation; either version
15 *      2 of the License, or (at your option) any later version.
16 */
17
18#include <linux/linkage.h>
19#include <linux/threads.h>
20#include <linux/errno.h>
21#include <linux/init.h>
22#include <asm/processor.h>
23#include <asm/page.h>
24#include <asm/mmu.h>
25#include <asm/pgtable.h>
26#include <asm/cache.h>
27#include <asm/spr_defs.h>
28#include <asm/asm-offsets.h>
29#include <linux/of_fdt.h>
30
31#define tophys(rd,rs)				\
32	l.movhi	rd,hi(-KERNELBASE)		;\
33	l.add	rd,rd,rs
34
35#define CLEAR_GPR(gpr)				\
36	l.or    gpr,r0,r0
37
38#define LOAD_SYMBOL_2_GPR(gpr,symbol)		\
39	l.movhi gpr,hi(symbol)			;\
40	l.ori   gpr,gpr,lo(symbol)
41
42
43#define UART_BASE_ADD      0x90000000
44
45#define EXCEPTION_SR  (SPR_SR_DME | SPR_SR_IME | SPR_SR_DCE | SPR_SR_ICE | SPR_SR_SM)
46#define SYSCALL_SR  (SPR_SR_DME | SPR_SR_IME | SPR_SR_DCE | SPR_SR_ICE | SPR_SR_IEE | SPR_SR_TEE | SPR_SR_SM)
47
48/* ============================================[ tmp store locations ]=== */
49
50/*
51 * emergency_print temporary stores
52 */
53#define EMERGENCY_PRINT_STORE_GPR4	l.sw    0x20(r0),r4
54#define EMERGENCY_PRINT_LOAD_GPR4	l.lwz   r4,0x20(r0)
55
56#define EMERGENCY_PRINT_STORE_GPR5	l.sw    0x24(r0),r5
57#define EMERGENCY_PRINT_LOAD_GPR5	l.lwz   r5,0x24(r0)
58
59#define EMERGENCY_PRINT_STORE_GPR6	l.sw    0x28(r0),r6
60#define EMERGENCY_PRINT_LOAD_GPR6	l.lwz   r6,0x28(r0)
61
62#define EMERGENCY_PRINT_STORE_GPR7	l.sw    0x2c(r0),r7
63#define EMERGENCY_PRINT_LOAD_GPR7	l.lwz   r7,0x2c(r0)
64
65#define EMERGENCY_PRINT_STORE_GPR8	l.sw    0x30(r0),r8
66#define EMERGENCY_PRINT_LOAD_GPR8	l.lwz   r8,0x30(r0)
67
68#define EMERGENCY_PRINT_STORE_GPR9	l.sw    0x34(r0),r9
69#define EMERGENCY_PRINT_LOAD_GPR9	l.lwz   r9,0x34(r0)
70
71
72/*
73 * TLB miss handlers temorary stores
74 */
75#define EXCEPTION_STORE_GPR9		l.sw    0x10(r0),r9
76#define EXCEPTION_LOAD_GPR9		l.lwz   r9,0x10(r0)
77
78#define EXCEPTION_STORE_GPR2		l.sw    0x64(r0),r2
79#define EXCEPTION_LOAD_GPR2		l.lwz   r2,0x64(r0)
80
81#define EXCEPTION_STORE_GPR3		l.sw    0x68(r0),r3
82#define EXCEPTION_LOAD_GPR3		l.lwz   r3,0x68(r0)
83
84#define EXCEPTION_STORE_GPR4		l.sw    0x6c(r0),r4
85#define EXCEPTION_LOAD_GPR4		l.lwz   r4,0x6c(r0)
86
87#define EXCEPTION_STORE_GPR5		l.sw    0x70(r0),r5
88#define EXCEPTION_LOAD_GPR5		l.lwz   r5,0x70(r0)
89
90#define EXCEPTION_STORE_GPR6		l.sw    0x74(r0),r6
91#define EXCEPTION_LOAD_GPR6		l.lwz   r6,0x74(r0)
92
93
94/*
95 * EXCEPTION_HANDLE temporary stores
96 */
97
98#define EXCEPTION_T_STORE_GPR30		l.sw    0x78(r0),r30
99#define EXCEPTION_T_LOAD_GPR30(reg)	l.lwz   reg,0x78(r0)
100
101#define EXCEPTION_T_STORE_GPR10		l.sw    0x7c(r0),r10
102#define EXCEPTION_T_LOAD_GPR10(reg)	l.lwz   reg,0x7c(r0)
103
104#define EXCEPTION_T_STORE_SP		l.sw	0x80(r0),r1
105#define EXCEPTION_T_LOAD_SP(reg)	l.lwz   reg,0x80(r0)
106
107/*
108 * For UNHANLDED_EXCEPTION
109 */
110
111#define EXCEPTION_T_STORE_GPR31		l.sw    0x84(r0),r31
112#define EXCEPTION_T_LOAD_GPR31(reg)	l.lwz   reg,0x84(r0)
113
114/* =========================================================[ macros ]=== */
115
116
117#define GET_CURRENT_PGD(reg,t1)					\
118	LOAD_SYMBOL_2_GPR(reg,current_pgd)			;\
119	tophys  (t1,reg)					;\
120	l.lwz   reg,0(t1)
121
122
123/*
124 * DSCR: this is a common hook for handling exceptions. it will save
125 *       the needed registers, set up stack and pointer to current
126 *	 then jump to the handler while enabling MMU
127 *
128 * PRMS: handler	- a function to jump to. it has to save the
129 *			remaining registers to kernel stack, call
130 *			appropriate arch-independant exception handler
131 *			and finaly jump to ret_from_except
132 *
133 * PREQ: unchanged state from the time exception happened
134 *
135 * POST: SAVED the following registers original value
136 *	       to the new created exception frame pointed to by r1
137 *
138 *	 r1  - ksp	pointing to the new (exception) frame
139 *	 r4  - EEAR     exception EA
140 *	 r10 - current	pointing to current_thread_info struct
141 *	 r12 - syscall  0, since we didn't come from syscall
142 *	 r13 - temp	it actually contains new SR, not needed anymore
143 *	 r31 - handler	address of the handler we'll jump to
144 *
145 *	 handler has to save remaining registers to the exception
146 *	 ksp frame *before* tainting them!
147 *
148 * NOTE: this function is not reentrant per se. reentrancy is guaranteed
149 *       by processor disabling all exceptions/interrupts when exception
150 *	 accours.
151 *
152 * OPTM: no need to make it so wasteful to extract ksp when in user mode
153 */
154
155#define EXCEPTION_HANDLE(handler)				\
156	EXCEPTION_T_STORE_GPR30					;\
157	l.mfspr r30,r0,SPR_ESR_BASE				;\
158	l.andi  r30,r30,SPR_SR_SM				;\
159	l.sfeqi r30,0						;\
160	EXCEPTION_T_STORE_GPR10					;\
161	l.bnf   2f                            /* kernel_mode */	;\
162	 EXCEPTION_T_STORE_SP                 /* delay slot */	;\
1631: /* user_mode:   */						;\
164	LOAD_SYMBOL_2_GPR(r1,current_thread_info_set)		;\
165	tophys  (r30,r1)					;\
166	/* r10: current_thread_info  */				;\
167	l.lwz   r10,0(r30)					;\
168	tophys  (r30,r10)					;\
169	l.lwz   r1,(TI_KSP)(r30)				;\
170	/* fall through */					;\
1712: /* kernel_mode: */						;\
172	/* create new stack frame, save only needed gprs */	;\
173	/* r1: KSP, r10: current, r4: EEAR, r31: __pa(KSP) */	;\
174	/* r12:	temp, syscall indicator */			;\
175	l.addi  r1,r1,-(INT_FRAME_SIZE)				;\
176	/* r1 is KSP, r30 is __pa(KSP) */			;\
177	tophys  (r30,r1)					;\
178	l.sw    PT_GPR12(r30),r12				;\
179	l.mfspr r12,r0,SPR_EPCR_BASE				;\
180	l.sw    PT_PC(r30),r12					;\
181	l.mfspr r12,r0,SPR_ESR_BASE				;\
182	l.sw    PT_SR(r30),r12					;\
183	/* save r30 */						;\
184	EXCEPTION_T_LOAD_GPR30(r12)				;\
185	l.sw	PT_GPR30(r30),r12				;\
186	/* save r10 as was prior to exception */		;\
187	EXCEPTION_T_LOAD_GPR10(r12)				;\
188	l.sw	PT_GPR10(r30),r12				;\
189	/* save PT_SP as was prior to exception */		;\
190	EXCEPTION_T_LOAD_SP(r12)				;\
191	l.sw	PT_SP(r30),r12					;\
192	/* save exception r4, set r4 = EA */			;\
193	l.sw	PT_GPR4(r30),r4					;\
194	l.mfspr r4,r0,SPR_EEAR_BASE				;\
195	/* r12 == 1 if we come from syscall */			;\
196	CLEAR_GPR(r12)						;\
197	/* ----- turn on MMU ----- */				;\
198	l.ori	r30,r0,(EXCEPTION_SR)				;\
199	l.mtspr	r0,r30,SPR_ESR_BASE				;\
200	/* r30:	EA address of handler */			;\
201	LOAD_SYMBOL_2_GPR(r30,handler)				;\
202	l.mtspr r0,r30,SPR_EPCR_BASE				;\
203	l.rfe
204
205/*
206 * this doesn't work
207 *
208 *
209 * #ifdef CONFIG_JUMP_UPON_UNHANDLED_EXCEPTION
210 * #define UNHANDLED_EXCEPTION(handler)				\
211 *	l.ori   r3,r0,0x1					;\
212 *	l.mtspr r0,r3,SPR_SR					;\
213 *      l.movhi r3,hi(0xf0000100)				;\
214 *      l.ori   r3,r3,lo(0xf0000100)				;\
215 *	l.jr	r3						;\
216 *	l.nop	1
217 *
218 * #endif
219 */
220
221/* DSCR: this is the same as EXCEPTION_HANDLE(), we are just
222 *       a bit more carefull (if we have a PT_SP or current pointer
223 *       corruption) and set them up from 'current_set'
224 *
225 */
226#define UNHANDLED_EXCEPTION(handler)				\
227	EXCEPTION_T_STORE_GPR31					;\
228	EXCEPTION_T_STORE_GPR10					;\
229	EXCEPTION_T_STORE_SP					;\
230	/* temporary store r3, r9 into r1, r10 */		;\
231	l.addi	r1,r3,0x0					;\
232	l.addi	r10,r9,0x0					;\
233	/* the string referenced by r3 must be low enough */	;\
234	l.jal	_emergency_print				;\
235	l.ori	r3,r0,lo(_string_unhandled_exception)		;\
236	l.mfspr	r3,r0,SPR_NPC					;\
237	l.jal	_emergency_print_nr				;\
238	l.andi	r3,r3,0x1f00					;\
239	/* the string referenced by r3 must be low enough */	;\
240	l.jal	_emergency_print				;\
241	l.ori	r3,r0,lo(_string_epc_prefix)			;\
242	l.jal	_emergency_print_nr				;\
243	l.mfspr	r3,r0,SPR_EPCR_BASE				;\
244	l.jal	_emergency_print				;\
245	l.ori	r3,r0,lo(_string_nl)				;\
246	/* end of printing */					;\
247	l.addi	r3,r1,0x0					;\
248	l.addi	r9,r10,0x0					;\
249	/* extract current, ksp from current_set */		;\
250	LOAD_SYMBOL_2_GPR(r1,_unhandled_stack_top)		;\
251	LOAD_SYMBOL_2_GPR(r10,init_thread_union)		;\
252	/* create new stack frame, save only needed gprs */	;\
253	/* r1: KSP, r10: current, r31: __pa(KSP) */		;\
254	/* r12:	temp, syscall indicator, r13 temp */		;\
255	l.addi  r1,r1,-(INT_FRAME_SIZE)				;\
256	/* r1 is KSP, r31 is __pa(KSP) */			;\
257	tophys  (r31,r1)					;\
258	l.sw    PT_GPR12(r31),r12					;\
259	l.mfspr r12,r0,SPR_EPCR_BASE				;\
260	l.sw    PT_PC(r31),r12					;\
261	l.mfspr r12,r0,SPR_ESR_BASE				;\
262	l.sw    PT_SR(r31),r12					;\
263	/* save r31 */						;\
264	EXCEPTION_T_LOAD_GPR31(r12)				;\
265	l.sw	PT_GPR31(r31),r12					;\
266	/* save r10 as was prior to exception */		;\
267	EXCEPTION_T_LOAD_GPR10(r12)				;\
268	l.sw	PT_GPR10(r31),r12					;\
269	/* save PT_SP as was prior to exception */			;\
270	EXCEPTION_T_LOAD_SP(r12)				;\
271	l.sw	PT_SP(r31),r12					;\
272	l.sw    PT_GPR13(r31),r13					;\
273	/* --> */						;\
274	/* save exception r4, set r4 = EA */			;\
275	l.sw	PT_GPR4(r31),r4					;\
276	l.mfspr r4,r0,SPR_EEAR_BASE				;\
277	/* r12 == 1 if we come from syscall */			;\
278	CLEAR_GPR(r12)						;\
279	/* ----- play a MMU trick ----- */			;\
280	l.ori	r31,r0,(EXCEPTION_SR)				;\
281	l.mtspr	r0,r31,SPR_ESR_BASE				;\
282	/* r31:	EA address of handler */			;\
283	LOAD_SYMBOL_2_GPR(r31,handler)				;\
284	l.mtspr r0,r31,SPR_EPCR_BASE				;\
285	l.rfe
286
287/* =====================================================[ exceptions] === */
288
289/* ---[ 0x100: RESET exception ]----------------------------------------- */
290    .org 0x100
291	/* Jump to .init code at _start which lives in the .head section
292	 * and will be discarded after boot.
293	 */
294	LOAD_SYMBOL_2_GPR(r4, _start)
295	tophys	(r3,r4)			/* MMU disabled */
296	l.jr	r3
297	 l.nop
298
299/* ---[ 0x200: BUS exception ]------------------------------------------- */
300    .org 0x200
301_dispatch_bus_fault:
302	EXCEPTION_HANDLE(_bus_fault_handler)
303
304/* ---[ 0x300: Data Page Fault exception ]------------------------------- */
305    .org 0x300
306_dispatch_do_dpage_fault:
307//      totaly disable timer interrupt
308// 	l.mtspr	r0,r0,SPR_TTMR
309//	DEBUG_TLB_PROBE(0x300)
310//	EXCEPTION_DEBUG_VALUE_ER_ENABLED(0x300)
311	EXCEPTION_HANDLE(_data_page_fault_handler)
312
313/* ---[ 0x400: Insn Page Fault exception ]------------------------------- */
314    .org 0x400
315_dispatch_do_ipage_fault:
316//      totaly disable timer interrupt
317//	l.mtspr	r0,r0,SPR_TTMR
318//	DEBUG_TLB_PROBE(0x400)
319//	EXCEPTION_DEBUG_VALUE_ER_ENABLED(0x400)
320	EXCEPTION_HANDLE(_insn_page_fault_handler)
321
322/* ---[ 0x500: Timer exception ]----------------------------------------- */
323    .org 0x500
324	EXCEPTION_HANDLE(_timer_handler)
325
326/* ---[ 0x600: Aligment exception ]-------------------------------------- */
327    .org 0x600
328	EXCEPTION_HANDLE(_alignment_handler)
329
330/* ---[ 0x700: Illegal insn exception ]---------------------------------- */
331    .org 0x700
332	EXCEPTION_HANDLE(_illegal_instruction_handler)
333
334/* ---[ 0x800: External interrupt exception ]---------------------------- */
335    .org 0x800
336	EXCEPTION_HANDLE(_external_irq_handler)
337
338/* ---[ 0x900: DTLB miss exception ]------------------------------------- */
339    .org 0x900
340	l.j	boot_dtlb_miss_handler
341	l.nop
342
343/* ---[ 0xa00: ITLB miss exception ]------------------------------------- */
344    .org 0xa00
345	l.j	boot_itlb_miss_handler
346	l.nop
347
348/* ---[ 0xb00: Range exception ]----------------------------------------- */
349    .org 0xb00
350	UNHANDLED_EXCEPTION(_vector_0xb00)
351
352/* ---[ 0xc00: Syscall exception ]--------------------------------------- */
353    .org 0xc00
354	EXCEPTION_HANDLE(_sys_call_handler)
355
356/* ---[ 0xd00: Trap exception ]------------------------------------------ */
357    .org 0xd00
358	UNHANDLED_EXCEPTION(_vector_0xd00)
359
360/* ---[ 0xe00: Trap exception ]------------------------------------------ */
361    .org 0xe00
362//	UNHANDLED_EXCEPTION(_vector_0xe00)
363	EXCEPTION_HANDLE(_trap_handler)
364
365/* ---[ 0xf00: Reserved exception ]-------------------------------------- */
366    .org 0xf00
367	UNHANDLED_EXCEPTION(_vector_0xf00)
368
369/* ---[ 0x1000: Reserved exception ]------------------------------------- */
370    .org 0x1000
371	UNHANDLED_EXCEPTION(_vector_0x1000)
372
373/* ---[ 0x1100: Reserved exception ]------------------------------------- */
374    .org 0x1100
375	UNHANDLED_EXCEPTION(_vector_0x1100)
376
377/* ---[ 0x1200: Reserved exception ]------------------------------------- */
378    .org 0x1200
379	UNHANDLED_EXCEPTION(_vector_0x1200)
380
381/* ---[ 0x1300: Reserved exception ]------------------------------------- */
382    .org 0x1300
383	UNHANDLED_EXCEPTION(_vector_0x1300)
384
385/* ---[ 0x1400: Reserved exception ]------------------------------------- */
386    .org 0x1400
387	UNHANDLED_EXCEPTION(_vector_0x1400)
388
389/* ---[ 0x1500: Reserved exception ]------------------------------------- */
390    .org 0x1500
391	UNHANDLED_EXCEPTION(_vector_0x1500)
392
393/* ---[ 0x1600: Reserved exception ]------------------------------------- */
394    .org 0x1600
395	UNHANDLED_EXCEPTION(_vector_0x1600)
396
397/* ---[ 0x1700: Reserved exception ]------------------------------------- */
398    .org 0x1700
399	UNHANDLED_EXCEPTION(_vector_0x1700)
400
401/* ---[ 0x1800: Reserved exception ]------------------------------------- */
402    .org 0x1800
403	UNHANDLED_EXCEPTION(_vector_0x1800)
404
405/* ---[ 0x1900: Reserved exception ]------------------------------------- */
406    .org 0x1900
407	UNHANDLED_EXCEPTION(_vector_0x1900)
408
409/* ---[ 0x1a00: Reserved exception ]------------------------------------- */
410    .org 0x1a00
411	UNHANDLED_EXCEPTION(_vector_0x1a00)
412
413/* ---[ 0x1b00: Reserved exception ]------------------------------------- */
414    .org 0x1b00
415	UNHANDLED_EXCEPTION(_vector_0x1b00)
416
417/* ---[ 0x1c00: Reserved exception ]------------------------------------- */
418    .org 0x1c00
419	UNHANDLED_EXCEPTION(_vector_0x1c00)
420
421/* ---[ 0x1d00: Reserved exception ]------------------------------------- */
422    .org 0x1d00
423	UNHANDLED_EXCEPTION(_vector_0x1d00)
424
425/* ---[ 0x1e00: Reserved exception ]------------------------------------- */
426    .org 0x1e00
427	UNHANDLED_EXCEPTION(_vector_0x1e00)
428
429/* ---[ 0x1f00: Reserved exception ]------------------------------------- */
430    .org 0x1f00
431	UNHANDLED_EXCEPTION(_vector_0x1f00)
432
433    .org 0x2000
434/* ===================================================[ kernel start ]=== */
435
436/*    .text*/
437
438/* This early stuff belongs in HEAD, but some of the functions below definitely
439 * don't... */
440
441	__HEAD
442	.global _start
443_start:
444	/* save kernel parameters */
445	l.or	r25,r0,r3	/* pointer to fdt */
446
447	/*
448	 * ensure a deterministic start
449	 */
450
451	l.ori	r3,r0,0x1
452	l.mtspr	r0,r3,SPR_SR
453
454	CLEAR_GPR(r1)
455	CLEAR_GPR(r2)
456	CLEAR_GPR(r3)
457	CLEAR_GPR(r4)
458	CLEAR_GPR(r5)
459	CLEAR_GPR(r6)
460	CLEAR_GPR(r7)
461	CLEAR_GPR(r8)
462	CLEAR_GPR(r9)
463	CLEAR_GPR(r10)
464	CLEAR_GPR(r11)
465	CLEAR_GPR(r12)
466	CLEAR_GPR(r13)
467	CLEAR_GPR(r14)
468	CLEAR_GPR(r15)
469	CLEAR_GPR(r16)
470	CLEAR_GPR(r17)
471	CLEAR_GPR(r18)
472	CLEAR_GPR(r19)
473	CLEAR_GPR(r20)
474	CLEAR_GPR(r21)
475	CLEAR_GPR(r22)
476	CLEAR_GPR(r23)
477	CLEAR_GPR(r24)
478	CLEAR_GPR(r26)
479	CLEAR_GPR(r27)
480	CLEAR_GPR(r28)
481	CLEAR_GPR(r29)
482	CLEAR_GPR(r30)
483	CLEAR_GPR(r31)
484
485	/*
486	 * set up initial ksp and current
487	 */
488	LOAD_SYMBOL_2_GPR(r1,init_thread_union+0x2000)	// setup kernel stack
489	LOAD_SYMBOL_2_GPR(r10,init_thread_union)	// setup current
490	tophys	(r31,r10)
491	l.sw	TI_KSP(r31), r1
492
493	l.ori	r4,r0,0x0
494
495
496	/*
497	 * .data contains initialized data,
498	 * .bss contains uninitialized data - clear it up
499	 */
500clear_bss:
501	LOAD_SYMBOL_2_GPR(r24, __bss_start)
502	LOAD_SYMBOL_2_GPR(r26, _end)
503	tophys(r28,r24)
504	tophys(r30,r26)
505	CLEAR_GPR(r24)
506	CLEAR_GPR(r26)
5071:
508	l.sw    (0)(r28),r0
509	l.sfltu r28,r30
510	l.bf    1b
511	l.addi  r28,r28,4
512
513enable_ic:
514	l.jal	_ic_enable
515	 l.nop
516
517enable_dc:
518	l.jal	_dc_enable
519	 l.nop
520
521flush_tlb:
522	/*
523	 *  I N V A L I D A T E   T L B   e n t r i e s
524	 */
525	LOAD_SYMBOL_2_GPR(r5,SPR_DTLBMR_BASE(0))
526	LOAD_SYMBOL_2_GPR(r6,SPR_ITLBMR_BASE(0))
527	l.addi	r7,r0,128 /* Maximum number of sets */
5281:
529	l.mtspr	r5,r0,0x0
530	l.mtspr	r6,r0,0x0
531
532	l.addi	r5,r5,1
533	l.addi	r6,r6,1
534	l.sfeq	r7,r0
535	l.bnf	1b
536	 l.addi	r7,r7,-1
537
538
539/* The MMU needs to be enabled before or32_early_setup is called */
540
541enable_mmu:
542	/*
543	 * enable dmmu & immu
544	 * SR[5] = 0, SR[6] = 0, 6th and 7th bit of SR set to 0
545	 */
546	l.mfspr	r30,r0,SPR_SR
547	l.movhi	r28,hi(SPR_SR_DME | SPR_SR_IME)
548	l.ori	r28,r28,lo(SPR_SR_DME | SPR_SR_IME)
549	l.or	r30,r30,r28
550	l.mtspr	r0,r30,SPR_SR
551	l.nop
552	l.nop
553	l.nop
554	l.nop
555	l.nop
556	l.nop
557	l.nop
558	l.nop
559	l.nop
560	l.nop
561	l.nop
562	l.nop
563	l.nop
564	l.nop
565	l.nop
566	l.nop
567
568	// reset the simulation counters
569	l.nop 5
570
571	/* check fdt header magic word */
572	l.lwz	r3,0(r25)	/* load magic from fdt into r3 */
573	l.movhi	r4,hi(OF_DT_HEADER)
574	l.ori	r4,r4,lo(OF_DT_HEADER)
575	l.sfeq	r3,r4
576	l.bf	_fdt_found
577	 l.nop
578	/* magic number mismatch, set fdt pointer to null */
579	l.or	r25,r0,r0
580_fdt_found:
581	/* pass fdt pointer to or32_early_setup in r3 */
582	l.or	r3,r0,r25
583	LOAD_SYMBOL_2_GPR(r24, or32_early_setup)
584	l.jalr r24
585	 l.nop
586
587clear_regs:
588	/*
589	 * clear all GPRS to increase determinism
590	 */
591	CLEAR_GPR(r2)
592	CLEAR_GPR(r3)
593	CLEAR_GPR(r4)
594	CLEAR_GPR(r5)
595	CLEAR_GPR(r6)
596	CLEAR_GPR(r7)
597	CLEAR_GPR(r8)
598	CLEAR_GPR(r9)
599	CLEAR_GPR(r11)
600	CLEAR_GPR(r12)
601	CLEAR_GPR(r13)
602	CLEAR_GPR(r14)
603	CLEAR_GPR(r15)
604	CLEAR_GPR(r16)
605	CLEAR_GPR(r17)
606	CLEAR_GPR(r18)
607	CLEAR_GPR(r19)
608	CLEAR_GPR(r20)
609	CLEAR_GPR(r21)
610	CLEAR_GPR(r22)
611	CLEAR_GPR(r23)
612	CLEAR_GPR(r24)
613	CLEAR_GPR(r25)
614	CLEAR_GPR(r26)
615	CLEAR_GPR(r27)
616	CLEAR_GPR(r28)
617	CLEAR_GPR(r29)
618	CLEAR_GPR(r30)
619	CLEAR_GPR(r31)
620
621jump_start_kernel:
622	/*
623	 * jump to kernel entry (start_kernel)
624	 */
625	LOAD_SYMBOL_2_GPR(r30, start_kernel)
626	l.jr    r30
627	 l.nop
628
629/* ========================================[ cache ]=== */
630
631	/* aligment here so we don't change memory offsets with
632	 * memory controler defined
633	 */
634	.align 0x2000
635
636_ic_enable:
637	/* Check if IC present and skip enabling otherwise */
638	l.mfspr r24,r0,SPR_UPR
639	l.andi  r26,r24,SPR_UPR_ICP
640	l.sfeq  r26,r0
641	l.bf	9f
642	l.nop
643
644	/* Disable IC */
645	l.mfspr r6,r0,SPR_SR
646	l.addi  r5,r0,-1
647	l.xori  r5,r5,SPR_SR_ICE
648	l.and   r5,r6,r5
649	l.mtspr r0,r5,SPR_SR
650
651	/* Establish cache block size
652	   If BS=0, 16;
653	   If BS=1, 32;
654	   r14 contain block size
655	*/
656	l.mfspr r24,r0,SPR_ICCFGR
657	l.andi	r26,r24,SPR_ICCFGR_CBS
658	l.srli	r28,r26,7
659	l.ori	r30,r0,16
660	l.sll	r14,r30,r28
661
662	/* Establish number of cache sets
663	   r16 contains number of cache sets
664	   r28 contains log(# of cache sets)
665	*/
666	l.andi  r26,r24,SPR_ICCFGR_NCS
667	l.srli 	r28,r26,3
668	l.ori   r30,r0,1
669	l.sll   r16,r30,r28
670
671	/* Invalidate IC */
672	l.addi  r6,r0,0
673	l.sll   r5,r14,r28
674//        l.mul   r5,r14,r16
675//	l.trap  1
676//	l.addi  r5,r0,IC_SIZE
6771:
678	l.mtspr r0,r6,SPR_ICBIR
679	l.sfne  r6,r5
680	l.bf    1b
681	l.add   r6,r6,r14
682 //       l.addi   r6,r6,IC_LINE
683
684	/* Enable IC */
685	l.mfspr r6,r0,SPR_SR
686	l.ori   r6,r6,SPR_SR_ICE
687	l.mtspr r0,r6,SPR_SR
688	l.nop
689	l.nop
690	l.nop
691	l.nop
692	l.nop
693	l.nop
694	l.nop
695	l.nop
696	l.nop
697	l.nop
6989:
699	l.jr    r9
700	l.nop
701
702_dc_enable:
703	/* Check if DC present and skip enabling otherwise */
704	l.mfspr r24,r0,SPR_UPR
705	l.andi  r26,r24,SPR_UPR_DCP
706	l.sfeq  r26,r0
707	l.bf	9f
708	l.nop
709
710	/* Disable DC */
711	l.mfspr r6,r0,SPR_SR
712	l.addi  r5,r0,-1
713	l.xori  r5,r5,SPR_SR_DCE
714	l.and   r5,r6,r5
715	l.mtspr r0,r5,SPR_SR
716
717	/* Establish cache block size
718	   If BS=0, 16;
719	   If BS=1, 32;
720	   r14 contain block size
721	*/
722	l.mfspr r24,r0,SPR_DCCFGR
723	l.andi	r26,r24,SPR_DCCFGR_CBS
724	l.srli	r28,r26,7
725	l.ori	r30,r0,16
726	l.sll	r14,r30,r28
727
728	/* Establish number of cache sets
729	   r16 contains number of cache sets
730	   r28 contains log(# of cache sets)
731	*/
732	l.andi  r26,r24,SPR_DCCFGR_NCS
733	l.srli 	r28,r26,3
734	l.ori   r30,r0,1
735	l.sll   r16,r30,r28
736
737	/* Invalidate DC */
738	l.addi  r6,r0,0
739	l.sll   r5,r14,r28
7401:
741	l.mtspr r0,r6,SPR_DCBIR
742	l.sfne  r6,r5
743	l.bf    1b
744	l.add   r6,r6,r14
745
746	/* Enable DC */
747	l.mfspr r6,r0,SPR_SR
748	l.ori   r6,r6,SPR_SR_DCE
749	l.mtspr r0,r6,SPR_SR
7509:
751	l.jr    r9
752	l.nop
753
754/* ===============================================[ page table masks ]=== */
755
756/* bit 4 is used in hardware as write back cache bit. we never use this bit
757 * explicitly, so we can reuse it as _PAGE_FILE bit and mask it out when
758 * writing into hardware pte's
759 */
760
761#define DTLB_UP_CONVERT_MASK  0x3fa
762#define ITLB_UP_CONVERT_MASK  0x3a
763
764/* for SMP we'd have (this is a bit subtle, CC must be always set
765 * for SMP, but since we have _PAGE_PRESENT bit always defined
766 * we can just modify the mask)
767 */
768#define DTLB_SMP_CONVERT_MASK  0x3fb
769#define ITLB_SMP_CONVERT_MASK  0x3b
770
771/* ---[ boot dtlb miss handler ]----------------------------------------- */
772
773boot_dtlb_miss_handler:
774
775/* mask for DTLB_MR register: - (0) sets V (valid) bit,
776 *                            - (31-12) sets bits belonging to VPN (31-12)
777 */
778#define DTLB_MR_MASK 0xfffff001
779
780/* mask for DTLB_TR register: - (2) sets CI (cache inhibit) bit,
781 *			      - (4) sets A (access) bit,
782 *                            - (5) sets D (dirty) bit,
783 *                            - (8) sets SRE (superuser read) bit
784 *                            - (9) sets SWE (superuser write) bit
785 *                            - (31-12) sets bits belonging to VPN (31-12)
786 */
787#define DTLB_TR_MASK 0xfffff332
788
789/* These are for masking out the VPN/PPN value from the MR/TR registers...
790 * it's not the same as the PFN */
791#define VPN_MASK 0xfffff000
792#define PPN_MASK 0xfffff000
793
794
795	EXCEPTION_STORE_GPR6
796
797#if 0
798	l.mfspr r6,r0,SPR_ESR_BASE	   //
799	l.andi  r6,r6,SPR_SR_SM            // are we in kernel mode ?
800	l.sfeqi r6,0                       // r6 == 0x1 --> SM
801	l.bf    exit_with_no_dtranslation  //
802	l.nop
803#endif
804
805	/* this could be optimized by moving storing of
806	 * non r6 registers here, and jumping r6 restore
807	 * if not in supervisor mode
808	 */
809
810	EXCEPTION_STORE_GPR2
811	EXCEPTION_STORE_GPR3
812	EXCEPTION_STORE_GPR4
813	EXCEPTION_STORE_GPR5
814
815	l.mfspr r4,r0,SPR_EEAR_BASE        // get the offending EA
816
817immediate_translation:
818	CLEAR_GPR(r6)
819
820	l.srli	r3,r4,0xd                  // r3 <- r4 / 8192 (sets are relative to page size (8Kb) NOT VPN size (4Kb)
821
822	l.mfspr r6, r0, SPR_DMMUCFGR
823	l.andi	r6, r6, SPR_DMMUCFGR_NTS
824	l.srli	r6, r6, SPR_DMMUCFGR_NTS_OFF
825	l.ori	r5, r0, 0x1
826	l.sll	r5, r5, r6 	// r5 = number DMMU sets
827	l.addi	r6, r5, -1  	// r6 = nsets mask
828	l.and	r2, r3, r6	// r2 <- r3 % NSETS_MASK
829
830	l.or    r6,r6,r4                   // r6 <- r4
831	l.ori   r6,r6,~(VPN_MASK)          // r6 <- VPN :VPN .xfff - clear up lo(r6) to 0x**** *fff
832	l.movhi r5,hi(DTLB_MR_MASK)        // r5 <- ffff:0000.x000
833	l.ori   r5,r5,lo(DTLB_MR_MASK)     // r5 <- ffff:1111.x001 - apply DTLB_MR_MASK
834	l.and   r5,r5,r6                   // r5 <- VPN :VPN .x001 - we have DTLBMR entry
835	l.mtspr r2,r5,SPR_DTLBMR_BASE(0)   // set DTLBMR
836
837	/* set up DTLB with no translation for EA <= 0xbfffffff */
838	LOAD_SYMBOL_2_GPR(r6,0xbfffffff)
839	l.sfgeu  r6,r4                     // flag if r6 >= r4 (if 0xbfffffff >= EA)
840	l.bf     1f                        // goto out
841	l.and    r3,r4,r4                  // delay slot :: 24 <- r4 (if flag==1)
842
843	tophys(r3,r4)                      // r3 <- PA
8441:
845	l.ori   r3,r3,~(PPN_MASK)          // r3 <- PPN :PPN .xfff - clear up lo(r6) to 0x**** *fff
846	l.movhi r5,hi(DTLB_TR_MASK)        // r5 <- ffff:0000.x000
847	l.ori   r5,r5,lo(DTLB_TR_MASK)     // r5 <- ffff:1111.x330 - apply DTLB_MR_MASK
848	l.and   r5,r5,r3                   // r5 <- PPN :PPN .x330 - we have DTLBTR entry
849	l.mtspr r2,r5,SPR_DTLBTR_BASE(0)   // set DTLBTR
850
851	EXCEPTION_LOAD_GPR6
852	EXCEPTION_LOAD_GPR5
853	EXCEPTION_LOAD_GPR4
854	EXCEPTION_LOAD_GPR3
855	EXCEPTION_LOAD_GPR2
856
857	l.rfe                              // SR <- ESR, PC <- EPC
858
859exit_with_no_dtranslation:
860	/* EA out of memory or not in supervisor mode */
861	EXCEPTION_LOAD_GPR6
862	EXCEPTION_LOAD_GPR4
863	l.j	_dispatch_bus_fault
864
865/* ---[ boot itlb miss handler ]----------------------------------------- */
866
867boot_itlb_miss_handler:
868
869/* mask for ITLB_MR register: - sets V (valid) bit,
870 *                            - sets bits belonging to VPN (15-12)
871 */
872#define ITLB_MR_MASK 0xfffff001
873
874/* mask for ITLB_TR register: - sets A (access) bit,
875 *                            - sets SXE (superuser execute) bit
876 *                            - sets bits belonging to VPN (15-12)
877 */
878#define ITLB_TR_MASK 0xfffff050
879
880/*
881#define VPN_MASK 0xffffe000
882#define PPN_MASK 0xffffe000
883*/
884
885
886
887	EXCEPTION_STORE_GPR2
888	EXCEPTION_STORE_GPR3
889	EXCEPTION_STORE_GPR4
890	EXCEPTION_STORE_GPR5
891	EXCEPTION_STORE_GPR6
892
893#if 0
894	l.mfspr r6,r0,SPR_ESR_BASE         //
895	l.andi  r6,r6,SPR_SR_SM            // are we in kernel mode ?
896	l.sfeqi r6,0                       // r6 == 0x1 --> SM
897	l.bf    exit_with_no_itranslation
898	l.nop
899#endif
900
901
902	l.mfspr r4,r0,SPR_EEAR_BASE        // get the offending EA
903
904earlyearly:
905	CLEAR_GPR(r6)
906
907	l.srli  r3,r4,0xd                  // r3 <- r4 / 8192 (sets are relative to page size (8Kb) NOT VPN size (4Kb)
908
909	l.mfspr r6, r0, SPR_IMMUCFGR
910	l.andi	r6, r6, SPR_IMMUCFGR_NTS
911	l.srli	r6, r6, SPR_IMMUCFGR_NTS_OFF
912	l.ori	r5, r0, 0x1
913	l.sll	r5, r5, r6 	// r5 = number IMMU sets from IMMUCFGR
914	l.addi	r6, r5, -1  	// r6 = nsets mask
915	l.and	r2, r3, r6	// r2 <- r3 % NSETS_MASK
916
917	l.or    r6,r6,r4                   // r6 <- r4
918	l.ori   r6,r6,~(VPN_MASK)          // r6 <- VPN :VPN .xfff - clear up lo(r6) to 0x**** *fff
919	l.movhi r5,hi(ITLB_MR_MASK)        // r5 <- ffff:0000.x000
920	l.ori   r5,r5,lo(ITLB_MR_MASK)     // r5 <- ffff:1111.x001 - apply ITLB_MR_MASK
921	l.and   r5,r5,r6                   // r5 <- VPN :VPN .x001 - we have ITLBMR entry
922	l.mtspr r2,r5,SPR_ITLBMR_BASE(0)   // set ITLBMR
923
924	/*
925	 * set up ITLB with no translation for EA <= 0x0fffffff
926	 *
927	 * we need this for head.S mapping (EA = PA). if we move all functions
928	 * which run with mmu enabled into entry.S, we might be able to eliminate this.
929	 *
930	 */
931	LOAD_SYMBOL_2_GPR(r6,0x0fffffff)
932	l.sfgeu  r6,r4                     // flag if r6 >= r4 (if 0xb0ffffff >= EA)
933	l.bf     1f                        // goto out
934	l.and    r3,r4,r4                  // delay slot :: 24 <- r4 (if flag==1)
935
936	tophys(r3,r4)                      // r3 <- PA
9371:
938	l.ori   r3,r3,~(PPN_MASK)          // r3 <- PPN :PPN .xfff - clear up lo(r6) to 0x**** *fff
939	l.movhi r5,hi(ITLB_TR_MASK)        // r5 <- ffff:0000.x000
940	l.ori   r5,r5,lo(ITLB_TR_MASK)     // r5 <- ffff:1111.x050 - apply ITLB_MR_MASK
941	l.and   r5,r5,r3                   // r5 <- PPN :PPN .x050 - we have ITLBTR entry
942	l.mtspr r2,r5,SPR_ITLBTR_BASE(0)   // set ITLBTR
943
944	EXCEPTION_LOAD_GPR6
945	EXCEPTION_LOAD_GPR5
946	EXCEPTION_LOAD_GPR4
947	EXCEPTION_LOAD_GPR3
948	EXCEPTION_LOAD_GPR2
949
950	l.rfe                              // SR <- ESR, PC <- EPC
951
952exit_with_no_itranslation:
953	EXCEPTION_LOAD_GPR4
954	EXCEPTION_LOAD_GPR6
955	l.j    _dispatch_bus_fault
956	l.nop
957
958/* ====================================================================== */
959/*
960 * Stuff below here shouldn't go into .head section... maybe this stuff
961 * can be moved to entry.S ???
962 */
963
964/* ==============================================[ DTLB miss handler ]=== */
965
966/*
967 * Comments:
968 *   Exception handlers are entered with MMU off so the following handler
969 *   needs to use physical addressing
970 *
971 */
972
973	.text
974ENTRY(dtlb_miss_handler)
975	EXCEPTION_STORE_GPR2
976	EXCEPTION_STORE_GPR3
977	EXCEPTION_STORE_GPR4
978	EXCEPTION_STORE_GPR5
979	EXCEPTION_STORE_GPR6
980	/*
981	 * get EA of the miss
982	 */
983	l.mfspr	r2,r0,SPR_EEAR_BASE
984	/*
985	 * pmd = (pmd_t *)(current_pgd + pgd_index(daddr));
986	 */
987	GET_CURRENT_PGD(r3,r5)		// r3 is current_pgd, r5 is temp
988	l.srli	r4,r2,0x18		// >> PAGE_SHIFT + (PAGE_SHIFT - 2)
989	l.slli	r4,r4,0x2		// to get address << 2
990	l.add	r5,r4,r3		// r4 is pgd_index(daddr)
991	/*
992	 * if (pmd_none(*pmd))
993	 *   goto pmd_none:
994	 */
995	tophys	(r4,r5)
996	l.lwz	r3,0x0(r4)		// get *pmd value
997	l.sfne	r3,r0
998	l.bnf	d_pmd_none
999	 l.andi	r3,r3,~PAGE_MASK //0x1fff		// ~PAGE_MASK
1000	/*
1001	 * if (pmd_bad(*pmd))
1002	 *   pmd_clear(pmd)
1003	 *   goto pmd_bad:
1004	 */
1005//	l.sfeq	r3,r0			// check *pmd value
1006//	l.bf	d_pmd_good
1007	l.addi	r3,r0,0xffffe000	// PAGE_MASK
1008//	l.j	d_pmd_bad
1009//	l.sw	0x0(r4),r0		// clear pmd
1010d_pmd_good:
1011	/*
1012	 * pte = *pte_offset(pmd, daddr);
1013	 */
1014	l.lwz	r4,0x0(r4)		// get **pmd value
1015	l.and	r4,r4,r3		// & PAGE_MASK
1016	l.srli	r5,r2,0xd		// >> PAGE_SHIFT, r2 == EEAR
1017	l.andi	r3,r5,0x7ff		// (1UL << PAGE_SHIFT - 2) - 1
1018	l.slli	r3,r3,0x2		// to get address << 2
1019	l.add	r3,r3,r4
1020	l.lwz	r2,0x0(r3)		// this is pte at last
1021	/*
1022	 * if (!pte_present(pte))
1023	 */
1024	l.andi	r4,r2,0x1
1025	l.sfne	r4,r0			// is pte present
1026	l.bnf	d_pte_not_present
1027	l.addi	r3,r0,0xffffe3fa	// PAGE_MASK | DTLB_UP_CONVERT_MASK
1028	/*
1029	 * fill DTLB TR register
1030	 */
1031	l.and	r4,r2,r3		// apply the mask
1032	// Determine number of DMMU sets
1033	l.mfspr r6, r0, SPR_DMMUCFGR
1034	l.andi	r6, r6, SPR_DMMUCFGR_NTS
1035	l.srli	r6, r6, SPR_DMMUCFGR_NTS_OFF
1036	l.ori	r3, r0, 0x1
1037	l.sll	r3, r3, r6 	// r3 = number DMMU sets DMMUCFGR
1038	l.addi	r6, r3, -1  	// r6 = nsets mask
1039	l.and	r5, r5, r6	// calc offset:	 & (NUM_TLB_ENTRIES-1)
1040	                                                   //NUM_TLB_ENTRIES
1041	l.mtspr	r5,r4,SPR_DTLBTR_BASE(0)
1042	/*
1043	 * fill DTLB MR register
1044	 */
1045	l.mfspr	r2,r0,SPR_EEAR_BASE
1046	l.addi	r3,r0,0xffffe000	// PAGE_MASK
1047	l.and	r4,r2,r3		// apply PAGE_MASK to EA (__PHX__ do we really need this?)
1048	l.ori	r4,r4,0x1		// set hardware valid bit: DTBL_MR entry
1049	l.mtspr	r5,r4,SPR_DTLBMR_BASE(0)
1050
1051	EXCEPTION_LOAD_GPR2
1052	EXCEPTION_LOAD_GPR3
1053	EXCEPTION_LOAD_GPR4
1054	EXCEPTION_LOAD_GPR5
1055	EXCEPTION_LOAD_GPR6
1056	l.rfe
1057d_pmd_bad:
1058	l.nop	1
1059	EXCEPTION_LOAD_GPR2
1060	EXCEPTION_LOAD_GPR3
1061	EXCEPTION_LOAD_GPR4
1062	EXCEPTION_LOAD_GPR5
1063	EXCEPTION_LOAD_GPR6
1064	l.rfe
1065d_pmd_none:
1066d_pte_not_present:
1067	EXCEPTION_LOAD_GPR2
1068	EXCEPTION_LOAD_GPR3
1069	EXCEPTION_LOAD_GPR4
1070	EXCEPTION_LOAD_GPR5
1071	EXCEPTION_LOAD_GPR6
1072	l.j	_dispatch_do_dpage_fault
1073	l.nop
1074
1075/* ==============================================[ ITLB miss handler ]=== */
1076ENTRY(itlb_miss_handler)
1077	EXCEPTION_STORE_GPR2
1078	EXCEPTION_STORE_GPR3
1079	EXCEPTION_STORE_GPR4
1080	EXCEPTION_STORE_GPR5
1081	EXCEPTION_STORE_GPR6
1082	/*
1083	 * get EA of the miss
1084	 */
1085	l.mfspr	r2,r0,SPR_EEAR_BASE
1086
1087	/*
1088	 * pmd = (pmd_t *)(current_pgd + pgd_index(daddr));
1089	 *
1090	 */
1091	GET_CURRENT_PGD(r3,r5)		// r3 is current_pgd, r5 is temp
1092	l.srli	r4,r2,0x18		// >> PAGE_SHIFT + (PAGE_SHIFT - 2)
1093	l.slli	r4,r4,0x2		// to get address << 2
1094	l.add	r5,r4,r3		// r4 is pgd_index(daddr)
1095	/*
1096	 * if (pmd_none(*pmd))
1097	 *   goto pmd_none:
1098	 */
1099	tophys	(r4,r5)
1100	l.lwz	r3,0x0(r4)		// get *pmd value
1101	l.sfne	r3,r0
1102	l.bnf	i_pmd_none
1103	l.andi	r3,r3,0x1fff		// ~PAGE_MASK
1104	/*
1105	 * if (pmd_bad(*pmd))
1106	 *   pmd_clear(pmd)
1107	 *   goto pmd_bad:
1108	 */
1109
1110//	l.sfeq	r3,r0			// check *pmd value
1111//	l.bf	i_pmd_good
1112	l.addi	r3,r0,0xffffe000	// PAGE_MASK
1113//	l.j	i_pmd_bad
1114//	l.sw	0x0(r4),r0		// clear pmd
1115
1116i_pmd_good:
1117	/*
1118	 * pte = *pte_offset(pmd, iaddr);
1119	 *
1120	 */
1121	l.lwz	r4,0x0(r4)		// get **pmd value
1122	l.and	r4,r4,r3		// & PAGE_MASK
1123	l.srli	r5,r2,0xd		// >> PAGE_SHIFT, r2 == EEAR
1124	l.andi	r3,r5,0x7ff		// (1UL << PAGE_SHIFT - 2) - 1
1125	l.slli	r3,r3,0x2		// to get address << 2
1126	l.add	r3,r3,r4
1127	l.lwz	r2,0x0(r3)		// this is pte at last
1128	/*
1129	 * if (!pte_present(pte))
1130	 *
1131	 */
1132	l.andi	r4,r2,0x1
1133	l.sfne	r4,r0			// is pte present
1134	l.bnf	i_pte_not_present
1135	l.addi	r3,r0,0xffffe03a	// PAGE_MASK | ITLB_UP_CONVERT_MASK
1136	/*
1137	 * fill ITLB TR register
1138	 */
1139	l.and	r4,r2,r3		// apply the mask
1140	l.andi	r3,r2,0x7c0		// _PAGE_EXEC | _PAGE_SRE | _PAGE_SWE |  _PAGE_URE | _PAGE_UWE
1141//	l.andi	r3,r2,0x400		// _PAGE_EXEC
1142	l.sfeq	r3,r0
1143	l.bf	itlb_tr_fill //_workaround
1144	// Determine number of IMMU sets
1145	l.mfspr r6, r0, SPR_IMMUCFGR
1146	l.andi	r6, r6, SPR_IMMUCFGR_NTS
1147	l.srli	r6, r6, SPR_IMMUCFGR_NTS_OFF
1148	l.ori	r3, r0, 0x1
1149	l.sll	r3, r3, r6 	// r3 = number IMMU sets IMMUCFGR
1150	l.addi	r6, r3, -1  	// r6 = nsets mask
1151	l.and	r5, r5, r6	// calc offset:	 & (NUM_TLB_ENTRIES-1)
1152
1153/*
1154 * __PHX__ :: fixme
1155 * we should not just blindly set executable flags,
1156 * but it does help with ping. the clean way would be to find out
1157 * (and fix it) why stack doesn't have execution permissions
1158 */
1159
1160itlb_tr_fill_workaround:
1161	l.ori	r4,r4,0xc0		// | (SPR_ITLBTR_UXE | ITLBTR_SXE)
1162itlb_tr_fill:
1163	l.mtspr	r5,r4,SPR_ITLBTR_BASE(0)
1164	/*
1165	 * fill DTLB MR register
1166	 */
1167	l.mfspr	r2,r0,SPR_EEAR_BASE
1168	l.addi	r3,r0,0xffffe000	// PAGE_MASK
1169	l.and	r4,r2,r3		// apply PAGE_MASK to EA (__PHX__ do we really need this?)
1170	l.ori	r4,r4,0x1		// set hardware valid bit: DTBL_MR entry
1171	l.mtspr	r5,r4,SPR_ITLBMR_BASE(0)
1172
1173	EXCEPTION_LOAD_GPR2
1174	EXCEPTION_LOAD_GPR3
1175	EXCEPTION_LOAD_GPR4
1176	EXCEPTION_LOAD_GPR5
1177	EXCEPTION_LOAD_GPR6
1178	l.rfe
1179
1180i_pmd_bad:
1181	l.nop	1
1182	EXCEPTION_LOAD_GPR2
1183	EXCEPTION_LOAD_GPR3
1184	EXCEPTION_LOAD_GPR4
1185	EXCEPTION_LOAD_GPR5
1186	EXCEPTION_LOAD_GPR6
1187	l.rfe
1188i_pmd_none:
1189i_pte_not_present:
1190	EXCEPTION_LOAD_GPR2
1191	EXCEPTION_LOAD_GPR3
1192	EXCEPTION_LOAD_GPR4
1193	EXCEPTION_LOAD_GPR5
1194	EXCEPTION_LOAD_GPR6
1195	l.j	_dispatch_do_ipage_fault
1196	l.nop
1197
1198/* ==============================================[ boot tlb handlers ]=== */
1199
1200
1201/* =================================================[ debugging aids ]=== */
1202
1203	.align 64
1204_immu_trampoline:
1205	.space 64
1206_immu_trampoline_top:
1207
1208#define TRAMP_SLOT_0		(0x0)
1209#define TRAMP_SLOT_1		(0x4)
1210#define TRAMP_SLOT_2		(0x8)
1211#define TRAMP_SLOT_3		(0xc)
1212#define TRAMP_SLOT_4		(0x10)
1213#define TRAMP_SLOT_5		(0x14)
1214#define TRAMP_FRAME_SIZE	(0x18)
1215
1216ENTRY(_immu_trampoline_workaround)
1217	// r2 EEA
1218	// r6 is physical EEA
1219	tophys(r6,r2)
1220
1221	LOAD_SYMBOL_2_GPR(r5,_immu_trampoline)
1222	tophys	(r3,r5)			// r3 is trampoline (physical)
1223
1224	LOAD_SYMBOL_2_GPR(r4,0x15000000)
1225	l.sw	TRAMP_SLOT_0(r3),r4
1226	l.sw	TRAMP_SLOT_1(r3),r4
1227	l.sw	TRAMP_SLOT_4(r3),r4
1228	l.sw	TRAMP_SLOT_5(r3),r4
1229
1230					// EPC = EEA - 0x4
1231	l.lwz	r4,0x0(r6)		// load op @ EEA + 0x0 (fc address)
1232	l.sw	TRAMP_SLOT_3(r3),r4	// store it to _immu_trampoline_data
1233	l.lwz	r4,-0x4(r6)		// load op @ EEA - 0x4 (f8 address)
1234	l.sw	TRAMP_SLOT_2(r3),r4	// store it to _immu_trampoline_data
1235
1236	l.srli  r5,r4,26                // check opcode for write access
1237	l.sfeqi r5,0                    // l.j
1238	l.bf    0f
1239	l.sfeqi r5,0x11                 // l.jr
1240	l.bf    1f
1241	l.sfeqi r5,1                    // l.jal
1242	l.bf    2f
1243	l.sfeqi r5,0x12                 // l.jalr
1244	l.bf    3f
1245	l.sfeqi r5,3                    // l.bnf
1246	l.bf    4f
1247	l.sfeqi r5,4                    // l.bf
1248	l.bf    5f
124999:
1250	l.nop
1251	l.j	99b			// should never happen
1252	l.nop	1
1253
1254	// r2 is EEA
1255	// r3 is trampoline address (physical)
1256	// r4 is instruction
1257	// r6 is physical(EEA)
1258	//
1259	// r5
1260
12612:	// l.jal
1262
1263	/* 19 20 aa aa	l.movhi r9,0xaaaa
1264	 * a9 29 bb bb  l.ori	r9,0xbbbb
1265	 *
1266	 * where 0xaaaabbbb is EEA + 0x4 shifted right 2
1267	 */
1268
1269	l.addi	r6,r2,0x4		// this is 0xaaaabbbb
1270
1271					// l.movhi r9,0xaaaa
1272	l.ori	r5,r0,0x1920		// 0x1920 == l.movhi r9
1273	l.sh	(TRAMP_SLOT_0+0x0)(r3),r5
1274	l.srli	r5,r6,16
1275	l.sh	(TRAMP_SLOT_0+0x2)(r3),r5
1276
1277					// l.ori   r9,0xbbbb
1278	l.ori	r5,r0,0xa929		// 0xa929 == l.ori r9
1279	l.sh	(TRAMP_SLOT_1+0x0)(r3),r5
1280	l.andi	r5,r6,0xffff
1281	l.sh	(TRAMP_SLOT_1+0x2)(r3),r5
1282
1283	/* falthrough, need to set up new jump offset */
1284
1285
12860:	// l.j
1287	l.slli	r6,r4,6			// original offset shifted left 6 - 2
1288//	l.srli	r6,r6,6			// original offset shifted right 2
1289
1290	l.slli	r4,r2,4			// old jump position: EEA shifted left 4
1291//	l.srli	r4,r4,6			// old jump position: shifted right 2
1292
1293	l.addi	r5,r3,0xc		// new jump position (physical)
1294	l.slli	r5,r5,4			// new jump position: shifted left 4
1295
1296	// calculate new jump offset
1297	// new_off = old_off + (old_jump - new_jump)
1298
1299	l.sub	r5,r4,r5		// old_jump - new_jump
1300	l.add	r5,r6,r5		// orig_off + (old_jump - new_jump)
1301	l.srli	r5,r5,6			// new offset shifted right 2
1302
1303	// r5 is new jump offset
1304					// l.j has opcode 0x0...
1305	l.sw	TRAMP_SLOT_2(r3),r5	// write it back
1306
1307	l.j	trampoline_out
1308	l.nop
1309
1310/* ----------------------------- */
1311
13123:	// l.jalr
1313
1314	/* 19 20 aa aa	l.movhi r9,0xaaaa
1315	 * a9 29 bb bb  l.ori	r9,0xbbbb
1316	 *
1317	 * where 0xaaaabbbb is EEA + 0x4 shifted right 2
1318	 */
1319
1320	l.addi	r6,r2,0x4		// this is 0xaaaabbbb
1321
1322					// l.movhi r9,0xaaaa
1323	l.ori	r5,r0,0x1920		// 0x1920 == l.movhi r9
1324	l.sh	(TRAMP_SLOT_0+0x0)(r3),r5
1325	l.srli	r5,r6,16
1326	l.sh	(TRAMP_SLOT_0+0x2)(r3),r5
1327
1328					// l.ori   r9,0xbbbb
1329	l.ori	r5,r0,0xa929		// 0xa929 == l.ori r9
1330	l.sh	(TRAMP_SLOT_1+0x0)(r3),r5
1331	l.andi	r5,r6,0xffff
1332	l.sh	(TRAMP_SLOT_1+0x2)(r3),r5
1333
1334	l.lhz	r5,(TRAMP_SLOT_2+0x0)(r3)	// load hi part of jump instruction
1335	l.andi	r5,r5,0x3ff		// clear out opcode part
1336	l.ori	r5,r5,0x4400		// opcode changed from l.jalr -> l.jr
1337	l.sh	(TRAMP_SLOT_2+0x0)(r3),r5 // write it back
1338
1339	/* falthrough */
1340
13411:	// l.jr
1342	l.j	trampoline_out
1343	l.nop
1344
1345/* ----------------------------- */
1346
13474:	// l.bnf
13485:	// l.bf
1349	l.slli	r6,r4,6			// original offset shifted left 6 - 2
1350//	l.srli	r6,r6,6			// original offset shifted right 2
1351
1352	l.slli	r4,r2,4			// old jump position: EEA shifted left 4
1353//	l.srli	r4,r4,6			// old jump position: shifted right 2
1354
1355	l.addi	r5,r3,0xc		// new jump position (physical)
1356	l.slli	r5,r5,4			// new jump position: shifted left 4
1357
1358	// calculate new jump offset
1359	// new_off = old_off + (old_jump - new_jump)
1360
1361	l.add	r6,r6,r4		// (orig_off + old_jump)
1362	l.sub	r6,r6,r5		// (orig_off + old_jump) - new_jump
1363	l.srli	r6,r6,6			// new offset shifted right 2
1364
1365	// r6 is new jump offset
1366	l.lwz	r4,(TRAMP_SLOT_2+0x0)(r3)	// load jump instruction
1367	l.srli	r4,r4,16
1368	l.andi	r4,r4,0xfc00		// get opcode part
1369	l.slli	r4,r4,16
1370	l.or	r6,r4,r6		// l.b(n)f new offset
1371	l.sw	TRAMP_SLOT_2(r3),r6	// write it back
1372
1373	/* we need to add l.j to EEA + 0x8 */
1374	tophys	(r4,r2)			// may not be needed (due to shifts down_
1375	l.addi	r4,r4,(0x8 - 0x8)	// jump target = r2 + 0x8 (compensate for 0x8)
1376					// jump position = r5 + 0x8 (0x8 compensated)
1377	l.sub	r4,r4,r5		// jump offset = target - new_position + 0x8
1378
1379	l.slli	r4,r4,4			// the amount of info in imediate of jump
1380	l.srli	r4,r4,6			// jump instruction with offset
1381	l.sw	TRAMP_SLOT_4(r3),r4	// write it to 4th slot
1382
1383	/* fallthrough */
1384
1385trampoline_out:
1386	// set up new EPC to point to our trampoline code
1387	LOAD_SYMBOL_2_GPR(r5,_immu_trampoline)
1388	l.mtspr	r0,r5,SPR_EPCR_BASE
1389
1390	// immu_trampoline is (4x) CACHE_LINE aligned
1391	// and only 6 instructions long,
1392	// so we need to invalidate only 2 lines
1393
1394	/* Establish cache block size
1395	   If BS=0, 16;
1396	   If BS=1, 32;
1397	   r14 contain block size
1398	*/
1399	l.mfspr r21,r0,SPR_ICCFGR
1400	l.andi	r21,r21,SPR_ICCFGR_CBS
1401	l.srli	r21,r21,7
1402	l.ori	r23,r0,16
1403	l.sll	r14,r23,r21
1404
1405	l.mtspr	r0,r5,SPR_ICBIR
1406	l.add	r5,r5,r14
1407	l.mtspr	r0,r5,SPR_ICBIR
1408
1409	l.jr	r9
1410	l.nop
1411
1412
1413/*
1414 * DSCR: prints a string referenced by r3.
1415 *
1416 * PRMS: r3     	- address of the first character of null
1417 *			terminated string to be printed
1418 *
1419 * PREQ: UART at UART_BASE_ADD has to be initialized
1420 *
1421 * POST: caller should be aware that r3, r9 are changed
1422 */
1423ENTRY(_emergency_print)
1424	EMERGENCY_PRINT_STORE_GPR4
1425	EMERGENCY_PRINT_STORE_GPR5
1426	EMERGENCY_PRINT_STORE_GPR6
1427	EMERGENCY_PRINT_STORE_GPR7
14282:
1429	l.lbz	r7,0(r3)
1430	l.sfeq	r7,r0
1431	l.bf	9f
1432	l.nop
1433
1434// putc:
1435	l.movhi r4,hi(UART_BASE_ADD)
1436
1437	l.addi  r6,r0,0x20
14381:      l.lbz   r5,5(r4)
1439	l.andi  r5,r5,0x20
1440	l.sfeq  r5,r6
1441	l.bnf   1b
1442	l.nop
1443
1444	l.sb    0(r4),r7
1445
1446	l.addi  r6,r0,0x60
14471:      l.lbz   r5,5(r4)
1448	l.andi  r5,r5,0x60
1449	l.sfeq  r5,r6
1450	l.bnf   1b
1451	l.nop
1452
1453	/* next character */
1454	l.j	2b
1455	l.addi	r3,r3,0x1
1456
14579:
1458	EMERGENCY_PRINT_LOAD_GPR7
1459	EMERGENCY_PRINT_LOAD_GPR6
1460	EMERGENCY_PRINT_LOAD_GPR5
1461	EMERGENCY_PRINT_LOAD_GPR4
1462	l.jr	r9
1463	l.nop
1464
1465ENTRY(_emergency_print_nr)
1466	EMERGENCY_PRINT_STORE_GPR4
1467	EMERGENCY_PRINT_STORE_GPR5
1468	EMERGENCY_PRINT_STORE_GPR6
1469	EMERGENCY_PRINT_STORE_GPR7
1470	EMERGENCY_PRINT_STORE_GPR8
1471
1472	l.addi	r8,r0,32		// shift register
1473
14741:	/* remove leading zeros */
1475	l.addi	r8,r8,-0x4
1476	l.srl	r7,r3,r8
1477	l.andi	r7,r7,0xf
1478
1479	/* don't skip the last zero if number == 0x0 */
1480	l.sfeqi	r8,0x4
1481	l.bf	2f
1482	l.nop
1483
1484	l.sfeq	r7,r0
1485	l.bf	1b
1486	l.nop
1487
14882:
1489	l.srl	r7,r3,r8
1490
1491	l.andi	r7,r7,0xf
1492	l.sflts	r8,r0
1493	l.bf	9f
1494
1495	l.sfgtui r7,0x9
1496	l.bnf	8f
1497	l.nop
1498	l.addi	r7,r7,0x27
1499
15008:
1501	l.addi	r7,r7,0x30
1502// putc:
1503	l.movhi r4,hi(UART_BASE_ADD)
1504
1505	l.addi  r6,r0,0x20
15061:      l.lbz   r5,5(r4)
1507	l.andi  r5,r5,0x20
1508	l.sfeq  r5,r6
1509	l.bnf   1b
1510	l.nop
1511
1512	l.sb    0(r4),r7
1513
1514	l.addi  r6,r0,0x60
15151:      l.lbz   r5,5(r4)
1516	l.andi  r5,r5,0x60
1517	l.sfeq  r5,r6
1518	l.bnf   1b
1519	l.nop
1520
1521	/* next character */
1522	l.j	2b
1523	l.addi	r8,r8,-0x4
1524
15259:
1526	EMERGENCY_PRINT_LOAD_GPR8
1527	EMERGENCY_PRINT_LOAD_GPR7
1528	EMERGENCY_PRINT_LOAD_GPR6
1529	EMERGENCY_PRINT_LOAD_GPR5
1530	EMERGENCY_PRINT_LOAD_GPR4
1531	l.jr	r9
1532	l.nop
1533
1534
1535/*
1536 * This should be used for debugging only.
1537 * It messes up the Linux early serial output
1538 * somehow, so use it sparingly and essentially
1539 * only if you need to debug something that goes wrong
1540 * before Linux gets the early serial going.
1541 *
1542 * Furthermore, you'll have to make sure you set the
1543 * UART_DEVISOR correctly according to the system
1544 * clock rate.
1545 *
1546 *
1547 */
1548
1549
1550
1551#define SYS_CLK            20000000
1552//#define SYS_CLK            1843200
1553#define OR32_CONSOLE_BAUD  115200
1554#define UART_DIVISOR       SYS_CLK/(16*OR32_CONSOLE_BAUD)
1555
1556ENTRY(_early_uart_init)
1557	l.movhi	r3,hi(UART_BASE_ADD)
1558
1559	l.addi	r4,r0,0x7
1560	l.sb	0x2(r3),r4
1561
1562	l.addi	r4,r0,0x0
1563	l.sb	0x1(r3),r4
1564
1565	l.addi	r4,r0,0x3
1566	l.sb	0x3(r3),r4
1567
1568	l.lbz	r5,3(r3)
1569	l.ori	r4,r5,0x80
1570	l.sb	0x3(r3),r4
1571	l.addi	r4,r0,((UART_DIVISOR>>8) & 0x000000ff)
1572	l.sb	UART_DLM(r3),r4
1573	l.addi  r4,r0,((UART_DIVISOR) & 0x000000ff)
1574	l.sb	UART_DLL(r3),r4
1575	l.sb	0x3(r3),r5
1576
1577	l.jr	r9
1578	l.nop
1579
1580_string_copying_linux:
1581	.string "\n\n\n\n\n\rCopying Linux... \0"
1582
1583_string_ok_booting:
1584	.string "Ok, booting the kernel.\n\r\0"
1585
1586_string_unhandled_exception:
1587	.string "\n\rRunarunaround: Unhandled exception 0x\0"
1588
1589_string_epc_prefix:
1590	.string ": EPC=0x\0"
1591
1592_string_nl:
1593	.string "\n\r\0"
1594
1595	.global	_string_esr_irq_bug
1596_string_esr_irq_bug:
1597	.string "\n\rESR external interrupt bug, for details look into entry.S\n\r\0"
1598
1599
1600
1601/* ========================================[ page aligned structures ]=== */
1602
1603/*
1604 * .data section should be page aligned
1605 *	(look into arch/or32/kernel/vmlinux.lds)
1606 */
1607	.section .data,"aw"
1608	.align	8192
1609	.global  empty_zero_page
1610empty_zero_page:
1611	.space  8192
1612
1613	.global  swapper_pg_dir
1614swapper_pg_dir:
1615	.space  8192
1616
1617	.global	_unhandled_stack
1618_unhandled_stack:
1619	.space	8192
1620_unhandled_stack_top:
1621
1622/* ============================================================[ EOF ]=== */
1623