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418 jermar 1
#
2071 jermar 2
# Copyright (c) 2005 Jakub Jermar
418 jermar 3
# All rights reserved.
4
#
5
# Redistribution and use in source and binary forms, with or without
6
# modification, are permitted provided that the following conditions
7
# are met:
8
#
9
# - Redistributions of source code must retain the above copyright
10
#   notice, this list of conditions and the following disclaimer.
11
# - Redistributions in binary form must reproduce the above copyright
12
#   notice, this list of conditions and the following disclaimer in the
13
#   documentation and/or other materials provided with the distribution.
14
# - The name of the author may not be used to endorse or promote products
15
#   derived from this software without specific prior written permission.
16
#
17
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
18
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
19
# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
20
# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
21
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
22
# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
26
# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27
#
28
 
1903 jermar 29
#include <arch/arch.h>
3675 svoboda 30
#include <arch/cpu.h>
1789 jermar 31
#include <arch/regdef.h>
1823 jermar 32
#include <arch/boot/boot.h>
1917 jermar 33
#include <arch/stack.h>
846 jermar 34
 
1823 jermar 35
#include <arch/mm/mmu.h>
36
#include <arch/mm/tlb.h>
37
#include <arch/mm/tte.h>
38
 
1903 jermar 39
#ifdef CONFIG_SMP
40
#include <arch/context_offset.h>
41
#endif
42
 
426 jermar 43
.register %g2, #scratch
44
.register %g3, #scratch
45
 
418 jermar 46
.section K_TEXT_START, "ax"
47
 
1978 jermar 48
#define BSP_FLAG	1
49
 
847 jermar 50
/*
3675 svoboda 51
 * 2^PHYSMEM_ADDR_SIZE is the size of the physical address space on
52
 * a given processor.
53
 */
54
#if defined (US)
55
    #define PHYSMEM_ADDR_SIZE	41
56
#elif defined (US3)
57
    #define PHYSMEM_ADDR_SIZE	43
58
#endif
59
 
60
/*
1978 jermar 61
 * Here is where the kernel is passed control from the boot loader.
1790 jermar 62
 * 
63
 * The registers are expected to be in this state:
1978 jermar 64
 * - %o0 starting address of physical memory + bootstrap processor flag
65
 * 	bits 63...1:	physical memory starting address / 2
66
 *	bit 0:		non-zero on BSP processor, zero on AP processors
67
 * - %o1 bootinfo structure address (BSP only)
68
 * - %o2 bootinfo structure size (BSP only)
1792 jermar 69
 *
1978 jermar 70
 * Moreover, we depend on boot having established the following environment:
1792 jermar 71
 * - TLBs are on
72
 * - identity mapping for the kernel image
847 jermar 73
 */
74
 
418 jermar 75
.global kernel_image_start
76
kernel_image_start:
1978 jermar 77
	mov BSP_FLAG, %l0
2001 jermar 78
	and %o0, %l0, %l7			! l7 <= bootstrap processor?
79
	andn %o0, %l0, %l6			! l6 <= start of physical memory
846 jermar 80
 
3675 svoboda 81
	! Get bits (PHYSMEM_ADDR_SIZE - 1):13 of physmem_base.
1982 jermar 82
	srlx %l6, 13, %l5
1978 jermar 83
 
3675 svoboda 84
	! l5 <= physmem_base[(PHYSMEM_ADDR_SIZE - 1):13]
85
	sllx %l5, 13 + (63 - (PHYSMEM_ADDR_SIZE - 1)), %l5
86
	srlx %l5, 63 - (PHYSMEM_ADDR_SIZE - 1), %l5	
87
 
1978 jermar 88
	/*
1823 jermar 89
	 * Setup basic runtime environment.
1790 jermar 90
	 */
424 jermar 91
 
1954 jermar 92
	wrpr %g0, NWINDOWS - 2, %cansave	! set maximum saveable windows
2049 jermar 93
	wrpr %g0, 0, %canrestore		! get rid of windows we will
94
						! never need again
95
	wrpr %g0, 0, %otherwin			! make sure the window state is
96
						! consistent
97
	wrpr %g0, NWINDOWS - 1, %cleanwin	! prevent needless clean_window
98
						! traps for kernel
3675 svoboda 99
 
100
	wrpr %g0, 0, %wstate			! use default spill/fill trap
1823 jermar 101
 
2049 jermar 102
	wrpr %g0, 0, %tl			! TL = 0, primary context
103
						! register is used
1823 jermar 104
 
2049 jermar 105
	wrpr %g0, PSTATE_PRIV_BIT, %pstate	! disable interrupts and disable
106
						! 32-bit address masking
1823 jermar 107
 
1881 jermar 108
	wrpr %g0, 0, %pil			! intialize %pil
109
 
1790 jermar 110
	/*
1823 jermar 111
	 * Switch to kernel trap table.
112
	 */
1880 jermar 113
	sethi %hi(trap_table), %g1
114
	wrpr %g1, %lo(trap_table), %tba
1823 jermar 115
 
116
	/* 
2078 jermar 117
	 * Take over the DMMU by installing locked TTE entry identically
2049 jermar 118
	 * mapping the first 4M of memory.
1792 jermar 119
	 *
2049 jermar 120
	 * In case of DMMU, no FLUSH instructions need to be issued. Because of
121
	 * that, the old DTLB contents can be demapped pretty straightforwardly
122
	 * and without causing any traps.
1792 jermar 123
	 */
124
 
1823 jermar 125
	wr %g0, ASI_DMMU, %asi
895 jermar 126
 
1823 jermar 127
#define SET_TLB_DEMAP_CMD(r1, context_id) \
2049 jermar 128
	set (TLB_DEMAP_CONTEXT << TLB_DEMAP_TYPE_SHIFT) | (context_id << \
129
		TLB_DEMAP_CONTEXT_SHIFT), %r1
1823 jermar 130
 
131
	! demap context 0
132
	SET_TLB_DEMAP_CMD(g1, TLB_DEMAP_NUCLEUS)
133
	stxa %g0, [%g1] ASI_DMMU_DEMAP			
134
	membar #Sync
135
 
136
#define SET_TLB_TAG(r1, context) \
2049 jermar 137
	set VMA | (context << TLB_TAG_ACCESS_CONTEXT_SHIFT), %r1
1823 jermar 138
 
139
	! write DTLB tag
140
	SET_TLB_TAG(g1, MEM_CONTEXT_KERNEL)
141
	stxa %g1, [VA_DMMU_TAG_ACCESS] %asi			
142
	membar #Sync
143
 
2009 jermar 144
#ifdef CONFIG_VIRT_IDX_DCACHE
1996 jermar 145
#define TTE_LOW_DATA(imm) 	(TTE_CP | TTE_CV | TTE_P | LMA | (imm))
2009 jermar 146
#else /* CONFIG_VIRT_IDX_DCACHE */
1996 jermar 147
#define TTE_LOW_DATA(imm) 	(TTE_CP | TTE_P | LMA | (imm))
2009 jermar 148
#endif /* CONFIG_VIRT_IDX_DCACHE */
1996 jermar 149
 
1823 jermar 150
#define SET_TLB_DATA(r1, r2, imm) \
1996 jermar 151
	set TTE_LOW_DATA(imm), %r1; \
1978 jermar 152
	or %r1, %l5, %r1; \
153
	mov PAGESIZE_4M, %r2; \
1823 jermar 154
	sllx %r2, TTE_SIZE_SHIFT, %r2; \
155
	or %r1, %r2, %r1; \
1880 jermar 156
	mov 1, %r2; \
1823 jermar 157
	sllx %r2, TTE_V_SHIFT, %r2; \
158
	or %r1, %r2, %r1;
159
 
160
	! write DTLB data and install the kernel mapping
1887 jermar 161
	SET_TLB_DATA(g1, g2, TTE_L | TTE_W)	! use non-global mapping
1823 jermar 162
	stxa %g1, [%g0] ASI_DTLB_DATA_IN_REG		
163
	membar #Sync
1868 jermar 164
 
165
	/*
2049 jermar 166
	 * Because we cannot use global mappings (because we want to have
167
	 * separate 64-bit address spaces for both the kernel and the
168
	 * userspace), we prepare the identity mapping also in context 1. This
169
	 * step is required by the code installing the ITLB mapping.
1868 jermar 170
	 */
171
	! write DTLB tag of context 1 (i.e. MEM_CONTEXT_TEMP)
172
	SET_TLB_TAG(g1, MEM_CONTEXT_TEMP)
173
	stxa %g1, [VA_DMMU_TAG_ACCESS] %asi			
174
	membar #Sync
175
 
176
	! write DTLB data and install the kernel mapping in context 1
1887 jermar 177
	SET_TLB_DATA(g1, g2, TTE_W)			! use non-global mapping
1868 jermar 178
	stxa %g1, [%g0] ASI_DTLB_DATA_IN_REG		
179
	membar #Sync
1823 jermar 180
 
181
	/*
2049 jermar 182
	 * Now is time to take over the IMMU. Unfortunatelly, it cannot be done
183
	 * as easily as the DMMU, because the IMMU is mapping the code it
184
	 * executes.
1823 jermar 185
	 *
2049 jermar 186
	 * [ Note that brave experiments with disabling the IMMU and using the
187
	 * DMMU approach failed after a dozen of desparate days with only little
188
	 * success. ]
1823 jermar 189
	 *
2049 jermar 190
	 * The approach used here is inspired from OpenBSD. First, the kernel
191
	 * creates IMMU mapping for itself in context 1 (MEM_CONTEXT_TEMP) and
192
	 * switches to it. Context 0 (MEM_CONTEXT_KERNEL) can be demapped
193
	 * afterwards and replaced with the kernel permanent mapping. Finally,
194
	 * the kernel switches back to context 0 and demaps context 1.
1823 jermar 195
	 *
2049 jermar 196
	 * Moreover, the IMMU requires use of the FLUSH instructions. But that
197
	 * is OK because we always use operands with addresses already mapped by
198
	 * the taken over DTLB.
1823 jermar 199
	 */
200
 
1852 jermar 201
	set kernel_image_start, %g5
1823 jermar 202
 
203
	! write ITLB tag of context 1
204
	SET_TLB_TAG(g1, MEM_CONTEXT_TEMP)
1880 jermar 205
	mov VA_DMMU_TAG_ACCESS, %g2
1823 jermar 206
	stxa %g1, [%g2] ASI_IMMU
1852 jermar 207
	flush %g5
1823 jermar 208
 
209
	! write ITLB data and install the temporary mapping in context 1
210
	SET_TLB_DATA(g1, g2, 0)			! use non-global mapping
211
	stxa %g1, [%g0] ASI_ITLB_DATA_IN_REG		
1852 jermar 212
	flush %g5
1823 jermar 213
 
214
	! switch to context 1
1880 jermar 215
	mov MEM_CONTEXT_TEMP, %g1
1823 jermar 216
	stxa %g1, [VA_PRIMARY_CONTEXT_REG] %asi	! ASI_DMMU is correct here !!!
1852 jermar 217
	flush %g5
1823 jermar 218
 
219
	! demap context 0
220
	SET_TLB_DEMAP_CMD(g1, TLB_DEMAP_NUCLEUS)
221
	stxa %g0, [%g1] ASI_IMMU_DEMAP			
1852 jermar 222
	flush %g5
1823 jermar 223
 
224
	! write ITLB tag of context 0
225
	SET_TLB_TAG(g1, MEM_CONTEXT_KERNEL)
1880 jermar 226
	mov VA_DMMU_TAG_ACCESS, %g2
1823 jermar 227
	stxa %g1, [%g2] ASI_IMMU
1852 jermar 228
	flush %g5
1823 jermar 229
 
230
	! write ITLB data and install the permanent kernel mapping in context 0
1887 jermar 231
	SET_TLB_DATA(g1, g2, TTE_L)		! use non-global mapping
1823 jermar 232
	stxa %g1, [%g0] ASI_ITLB_DATA_IN_REG		
1852 jermar 233
	flush %g5
1823 jermar 234
 
1906 jermar 235
	! enter nucleus - using context 0
1823 jermar 236
	wrpr %g0, 1, %tl
237
 
238
	! demap context 1
239
	SET_TLB_DEMAP_CMD(g1, TLB_DEMAP_PRIMARY)
240
	stxa %g0, [%g1] ASI_IMMU_DEMAP			
1852 jermar 241
	flush %g5
1823 jermar 242
 
243
	! set context 0 in the primary context register
244
	stxa %g0, [VA_PRIMARY_CONTEXT_REG] %asi	! ASI_DMMU is correct here !!!
1852 jermar 245
	flush %g5
1823 jermar 246
 
1906 jermar 247
	! leave nucleus - using primary context, i.e. context 0
1823 jermar 248
	wrpr %g0, 0, %tl
1864 jermar 249
 
1903 jermar 250
	brz %l7, 1f				! skip if you are not the bootstrap CPU
251
	nop
1900 jermar 252
 
1917 jermar 253
	/*
1982 jermar 254
	 * Save physmem_base for use by the mm subsystem.
255
	 * %l6 contains starting physical address
256
	 */
257
	sethi %hi(physmem_base), %l4
258
	stx %l6, [%l4 + %lo(physmem_base)]
259
 
260
	/*
261
	 * Precompute kernel 8K TLB data template.
3675 svoboda 262
	 * %l5 contains starting physical address
263
	 * bits [(PHYSMEM_ADDR_SIZE - 1):13]
1982 jermar 264
	 */
265
	sethi %hi(kernel_8k_tlb_data_template), %l4
266
	ldx [%l4 + %lo(kernel_8k_tlb_data_template)], %l3
267
	or %l3, %l5, %l3
268
	stx %l3, [%l4 + %lo(kernel_8k_tlb_data_template)]
269
 
270
	/*
2008 jermar 271
	 * Flush D-Cache.
272
	 */
273
	call dcache_flush
274
	nop
275
 
276
	/*
1917 jermar 277
	 * So far, we have not touched the stack.
1975 jermar 278
	 * It is a good idea to set the kernel stack to a known state now.
1917 jermar 279
	 */
280
	sethi %hi(temporary_boot_stack), %sp
281
	or %sp, %lo(temporary_boot_stack), %sp
282
	sub %sp, STACK_BIAS, %sp
283
 
1906 jermar 284
	sethi %hi(bootinfo), %o0
285
	call memcpy				! copy bootinfo
286
	or %o0, %lo(bootinfo), %o0
287
 
1864 jermar 288
	call arch_pre_main
289
	nop
1823 jermar 290
 
426 jermar 291
	call main_bsp
292
	nop
293
 
294
	/* Not reached. */
295
 
1903 jermar 296
0:
297
	ba 0b
298
	nop
299
 
300
 
3675 svoboda 301
1:
302
#ifdef CONFIG_SMP
1903 jermar 303
	/*
3675 svoboda 304
	 * Determine the width of the MID and save its mask to %g3. The width
305
	 * is
306
	 * 	* 5 for US and US-IIIi,
307
	 * 	* 10 for US3 except US-IIIi.
308
	 */
309
#if defined(US)
310
	mov 0x1f, %g3
311
#elif defined(US3)
312
	mov 0x3ff, %g3
313
	rdpr %ver, %g2
314
	sllx %g2, 16, %g2
315
	srlx %g2, 48, %g2
316
	cmp %g2, IMPL_ULTRASPARCIII_I
317
	move %xcc, 0x1f, %g3
318
#endif
319
 
320
	/*
1903 jermar 321
	 * Read MID from the processor.
322
	 */
3675 svoboda 323
	ldxa [%g0] ASI_ICBUS_CONFIG, %g1
324
	srlx %g1, ICBUS_CONFIG_MID_SHIFT, %g1
325
	and %g1, %g3, %g1
1903 jermar 326
 
327
	/*
2049 jermar 328
	 * Active loop for APs until the BSP picks them up. A processor cannot
329
	 * leave the loop until the global variable 'waking_up_mid' equals its
1903 jermar 330
	 * MID.
331
	 */
332
	set waking_up_mid, %g2
424 jermar 333
2:
1903 jermar 334
	ldx [%g2], %g3
335
	cmp %g3, %g1
336
	bne 2b
424 jermar 337
	nop
1903 jermar 338
 
339
	/*
340
	 * Configure stack for the AP.
341
	 * The AP is expected to use the stack saved
342
	 * in the ctx global variable.
343
	 */
344
	set ctx, %g1
345
	add %g1, OFFSET_SP, %g1
346
	ldx [%g1], %o6
347
 
348
	call main_ap
349
	nop
350
 
351
	/* Not reached. */
1905 jermar 352
#endif
1903 jermar 353
 
354
0:
355
	ba 0b
356
	nop
1917 jermar 357
 
358
 
359
.section K_DATA_START, "aw", @progbits
360
 
361
/*
2049 jermar 362
 * Create small stack to be used by the bootstrap processor. It is going to be
363
 * used only for a very limited period of time, but we switch to it anyway,
364
 * just to be sure we are properly initialized.
1917 jermar 365
 */
366
 
367
#define INITIAL_STACK_SIZE	1024
368
 
369
.align STACK_ALIGNMENT
1978 jermar 370
	.space INITIAL_STACK_SIZE
1917 jermar 371
.align STACK_ALIGNMENT
372
temporary_boot_stack:
1978 jermar 373
	.space STACK_WINDOW_SAVE_AREA_SIZE
374
 
375
 
376
.data
377
 
378
.align 8
379
.global physmem_base		! copy of the physical memory base address
380
physmem_base:
381
	.quad 0
382
 
383
/*
2049 jermar 384
 * This variable is used by the fast_data_MMU_miss trap handler. In runtime, it
385
 * is further modified to reflect the starting address of physical memory.
1978 jermar 386
 */
387
.global kernel_8k_tlb_data_template
388
kernel_8k_tlb_data_template:
2009 jermar 389
#ifdef CONFIG_VIRT_IDX_DCACHE
2049 jermar 390
	.quad ((1 << TTE_V_SHIFT) | (PAGESIZE_8K << TTE_SIZE_SHIFT) | TTE_CP | \
391
		 TTE_CV | TTE_P | TTE_W)
2009 jermar 392
#else /* CONFIG_VIRT_IDX_DCACHE */
2049 jermar 393
	.quad ((1 << TTE_V_SHIFT) | (PAGESIZE_8K << TTE_SIZE_SHIFT) | TTE_CP | \
394
		TTE_P | TTE_W)
2009 jermar 395
#endif /* CONFIG_VIRT_IDX_DCACHE */
2049 jermar 396