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1 jermar 1
#
2071 jermar 2
# Copyright (c) 2001-2004 Jakub Jermar
3
# Copyright (c) 2005-2006 Martin Decky
1 jermar 4
# All rights reserved.
5
#
6
# Redistribution and use in source and binary forms, with or without
7
# modification, are permitted provided that the following conditions
8
# are met:
9
#
10
# - Redistributions of source code must retain the above copyright
11
#   notice, this list of conditions and the following disclaimer.
12
# - Redistributions in binary form must reproduce the above copyright
13
#   notice, this list of conditions and the following disclaimer in the
14
#   documentation and/or other materials provided with the distribution.
15
# - The name of the author may not be used to endorse or promote products
16
#   derived from this software without specific prior written permission.
17
#
18
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
19
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
20
# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
21
# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
22
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
23
# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
24
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
25
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
27
# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28
#
29
 
222 decky 30
#include <arch/boot/boot.h>
506 decky 31
#include <arch/boot/memmap.h>
300 palkovsky 32
#include <arch/mm/page.h>
33
#include <arch/pm.h>
222 decky 34
 
693 decky 35
#define START_STACK (BOOT_OFFSET - BOOT_STACK_SIZE)
36
 
406 jermar 37
.section K_TEXT_START, "ax"
1 jermar 38
 
112 jermar 39
.code32
222 decky 40
.align 4
693 decky 41
.global multiboot_image_start
222 decky 42
multiboot_header:
43
	.long MULTIBOOT_HEADER_MAGIC
44
	.long MULTIBOOT_HEADER_FLAGS
45
	.long -(MULTIBOOT_HEADER_MAGIC + MULTIBOOT_HEADER_FLAGS)	# checksum
693 decky 46
	.long multiboot_header
47
	.long unmapped_ktext_start
222 decky 48
	.long 0
49
	.long 0
693 decky 50
	.long multiboot_image_start
222 decky 51
 
52
multiboot_image_start:
693 decky 53
	movl $START_STACK, %esp			# initialize stack pointer
54
	lgdt KA2PA(bootstrap_gdtr)		# initialize Global Descriptor Table register
112 jermar 55
 
1811 decky 56
	movw $selector(KDATA_DES), %cx
280 decky 57
	movw %cx, %es
1639 decky 58
	movw %cx, %fs
280 decky 59
	movw %cx, %gs
693 decky 60
	movw %cx, %ds					# kernel data + stack
280 decky 61
	movw %cx, %ss
235 decky 62
 
1811 decky 63
	jmpl $selector(KTEXT_DES), $multiboot_meeting_point
271 decky 64
	multiboot_meeting_point:
65
 
323 jermar 66
	pushl %ebx							# save parameters from GRUB
280 decky 67
	pushl %eax
1639 decky 68
 
1287 vana 69
#ifdef CONFIG_FB
1639 decky 70
	mov $vesa_init, %esi
71
	mov $VESA_INIT_SEGMENT << 4, %edi
72
	mov $e_vesa_init - vesa_init, %ecx
73
	cld
74
	rep movsb
1287 vana 75
 
1639 decky 76
	mov $VESA_INIT_SEGMENT << 4, %edi
77
	jmpl %edi
78
 
79
	vesa_meeting_point:
80
 
81
	mov %esi, KA2PA(vesa_ph_addr)
82
	mov %di, KA2PA(vesa_height)
83
	shr $16, %edi
84
	mov %di, KA2PA(vesa_width)
85
	mov %bx, KA2PA(vesa_scanline)
86
	shr $16, %ebx
87
	mov %bx, KA2PA(vesa_bpp)
1287 vana 88
#endif	
280 decky 89
 
323 jermar 90
	call map_kernel							# map kernel and turn paging on
235 decky 91
 
280 decky 92
	popl %eax
93
	popl %ebx
323 jermar 94
	cmpl $MULTIBOOT_LOADER_MAGIC, %eax				# compare GRUB signature
280 decky 95
	je valid_boot
96
 
285 decky 97
		xorl %ecx, %ecx							# no memory size or map available
98
		movl %ecx, e801memorysize
99
		movl %ecx, e820counter
100
 
280 decky 101
		jmp invalid_boot
285 decky 102
 
280 decky 103
	valid_boot:
104
 
285 decky 105
		movl (%ebx), %eax						# ebx = physical address of struct multiboot_info
280 decky 106
 
285 decky 107
		bt $0, %eax								# mbi->flags[0] (mem_lower, mem_upper valid)
108
		jc mem_valid
109
 
110
			xorl %ecx, %ecx
111
			jmp mem_invalid
112
 
113
		mem_valid:
114
		movl 4(%ebx), %ecx						# mbi->mem_lower
115
		addl 8(%ebx), %ecx						# mbi->mem_upper
280 decky 116
 
285 decky 117
		mem_invalid:
280 decky 118
		movl %ecx, e801memorysize
119
 
1037 decky 120
		bt $3, %eax								# mbi->flags[3] (mods_count, mods_addr valid)
506 decky 121
		jc mods_valid
122
 
123
			xorl %ecx, %ecx
1037 decky 124
			movl %ecx, init
125
			jmp mods_end
506 decky 126
 
127
		mods_valid:
1037 decky 128
 
628 decky 129
		movl 20(%ebx), %ecx						# mbi->mods_count
1037 decky 130
		movl %ecx, init
131
 
628 decky 132
		cmpl $0, %ecx
1037 decky 133
		je mods_end
506 decky 134
 
628 decky 135
		movl 24(%ebx), %esi						# mbi->mods_addr
1037 decky 136
		movl $init, %edi
628 decky 137
 
1037 decky 138
		mods_loop:
506 decky 139
 
1037 decky 140
			movl 0(%esi), %edx					# mods->mod_start
141
			addl $0x80000000, %edx
142
			movl %edx, 4(%edi)
143
 
144
			movl 4(%esi), %edx
145
			subl 0(%esi), %edx					# mods->mod_end - mods->mod_start
146
			movl %edx, 8(%edi)
147
 
148
			addl $16, %esi
149
			addl $8	, %edi
150
 
151
			loop mods_loop
152
 
153
		mods_end:
154
 
285 decky 155
		bt $6, %eax								# mbi->flags[6] (mmap_length, mmap_addr valid)	
156
		jc mmap_valid
157
 
158
			xorl %edx, %edx
159
			jmp mmap_invalid
160
 
161
		mmap_valid:
162
		movl 44(%ebx), %ecx						# mbi->mmap_length
163
		movl 48(%ebx), %esi						# mbi->mmap_addr
164
		movl $e820table, %edi
165
		xorl %edx, %edx
280 decky 166
 
285 decky 167
		mmap_loop:
168
			cmpl $0, %ecx
169
			jle mmap_end
170
 
171
			movl 4(%esi), %eax					# mmap->base_addr_low
172
			movl %eax, (%edi)
173
 
174
			movl 8(%esi), %eax					# mmap->base_addr_high
175
			movl %eax, 4(%edi)
176
 
177
			movl 12(%esi), %eax					# mmap->length_low
178
			movl %eax, 8(%edi)
179
 
180
			movl 16(%esi), %eax					# mmap->length_high
181
			movl %eax, 12(%edi)
182
 
183
			movl 20(%esi), %eax					# mmap->type
184
			movl %eax, 16(%edi)
185
 
186
			movl (%esi), %eax					# mmap->size
187
			addl $0x4, %eax
188
			addl %eax, %esi
189
			subl %eax, %ecx
190
			addl $MEMMAP_E820_RECORD_SIZE, %edi
191
			incl %edx
192
			jmp mmap_loop
193
 
194
		mmap_end:
195
 
196
		mmap_invalid:
197
		movl %edx, e820counter
198
 
280 decky 199
	invalid_boot:
200
 
693 decky 201
#ifdef CONFIG_SMP
202
 
203
	# copy AP bootstrap routines below 1 MB
204
 
205
	movl $BOOT_OFFSET, %esi
206
	movl $AP_BOOT_OFFSET, %edi
207
	movl $_hardcoded_unmapped_size, %ecx
208
	cld
209
	rep movsb
210
 
211
#endif
212
 
213
	call main_bsp								# never returns
110 jermar 214
 
215
	cli
216
	hlt
217
 
218
.global map_kernel
219
map_kernel:
105 jermar 220
	#
221
	# Here we setup mapping for both the unmapped and mapped sections of the kernel.
371 jermar 222
	# For simplicity, we map the entire 4G space.
105 jermar 223
	#
224
	movl %cr4, %ecx
225
	orl $(1<<4), %ecx
323 jermar 226
	movl %ecx, %cr4							# turn PSE on
1 jermar 227
 
371 jermar 228
	movl $(page_directory+0), %esi
229
	movl $(page_directory+2048), %edi
230
	xorl %ecx, %ecx
231
	xorl %ebx, %ebx
232
0:
105 jermar 233
	movl $((1<<7)|(1<<0)), %eax
371 jermar 234
	orl %ebx, %eax
235
	movl %eax, (%esi,%ecx,4)					# mapping 0x00000000+%ecx*4M => 0x00000000+%ecx*4M
236
	movl %eax, (%edi,%ecx,4)					# mapping 0x80000000+%ecx*4M => 0x00000000+%ecx*4M
237
	addl $(4*1024*1024), %ebx
1 jermar 238
 
371 jermar 239
	incl %ecx
240
	cmpl $512, %ecx
241
	jl 0b
105 jermar 242
 
371 jermar 243
	movl %esi, %cr3
105 jermar 244
 
177 jermar 245
	# turn paging on
105 jermar 246
	movl %cr0, %ebx
247
	orl $(1<<31), %ebx
248
	movl %ebx, %cr0
110 jermar 249
	ret
105 jermar 250
 
1287 vana 251
#ifdef CONFIG_FB
252
vesa_init:
1639 decky 253
	jmp $selector(VESA_INIT_DES), $vesa_init_real - vesa_init
254
 
1287 vana 255
.code16
1639 decky 256
vesa_init_real:
1287 vana 257
 
1639 decky 258
	mov %cr0, %eax
259
	and $~1, %eax
260
	mov %eax, %cr0
261
 
262
	jmp $VESA_INIT_SEGMENT, $vesa_init_real2 - vesa_init
263
 
264
vesa_init_real2:
265
 
266
	mov $VESA_INIT_SEGMENT, %bx
267
 
268
	mov %bx, %es
269
	mov %bx, %fs
270
	mov %bx, %gs
271
	mov %bx, %ds
272
	mov %bx, %ss
273
 
274
	movl %esp, %eax
275
	movl $0x0000fffc, %esp
276
	movl $0x0000fffc, %ebp
277
	pushl %eax
278
 
1287 vana 279
#define VESA_INFO_SIZE 1024
280
 
1639 decky 281
#define VESA_MODE_LIST_PTR_OFFSET 14
1287 vana 282
#define VESA_MODE_WIDTH_OFFSET 18
283
#define VESA_MODE_HEIGHT_OFFSET 20
284
#define VESA_MODE_BPP_OFFSET 25
285
#define VESA_MODE_SCANLINE_OFFSET 16
286
#define VESA_MODE_PHADDR_OFFSET 40
287
 
1639 decky 288
#define VESA_END_OF_MODES 0xffff
1287 vana 289
 
1639 decky 290
#define VESA_OK 0x4f
1287 vana 291
 
1639 decky 292
#define VESA_GET_INFO 0x4f00
1287 vana 293
#define VESA_GET_MODE_INFO 0x4f01
294
#define VESA_SET_MODE 0x4f02
295
 
296
#define CONFIG_VESA_BPP_a 255
297
 
1639 decky 298
#if CONFIG_VESA_BPP == 24
1287 vana 299
#undef CONFIG_VESA_BPP_a
300
#define CONFIG_VESA_BPP_a 32
301
#endif
302
 
1639 decky 303
	mov $VESA_GET_INFO, %ax
304
	mov $e_vesa_init - vesa_init, %di
305
	push %di
306
	int $0x10
307
 
308
	pop %di
309
	cmp $VESA_OK, %al
310
	jnz 0f
311
 
312
	mov 2 + VESA_MODE_LIST_PTR_OFFSET(%di), %si
313
	mov %si, %gs
314
	mov VESA_MODE_LIST_PTR_OFFSET(%di), %si
315
 
316
	add $VESA_INFO_SIZE, %di
1287 vana 317
 
318
1:# Try next mode
1639 decky 319
	mov %gs:(%si), %cx
320
	cmp $VESA_END_OF_MODES, %cx
321
	jz 0f
322
 
323
	inc %si
324
	inc %si
325
	push %cx
326
	push %di
327
	push %si
328
	mov $VESA_GET_MODE_INFO, %ax
329
	int $0x10
330
 
331
	pop %si
332
	pop %di
333
	pop %cx
334
	cmp $VESA_OK, %al
335
	jnz 0f
336
 
337
	mov $CONFIG_VESA_WIDTH, %ax
338
	cmp VESA_MODE_WIDTH_OFFSET(%di), %ax
339
	jnz 1b
340
 
341
	mov $CONFIG_VESA_HEIGHT,%ax
342
	cmp VESA_MODE_HEIGHT_OFFSET(%di), %ax
343
	jnz 1b
344
 
345
	mov $CONFIG_VESA_BPP, %al
346
	cmp VESA_MODE_BPP_OFFSET(%di), %al
347
	jz 2f
348
 
349
	mov $CONFIG_VESA_BPP_a, %al
350
	cmp VESA_MODE_BPP_OFFSET(%di), %al
351
	jnz 1b
352
 
1287 vana 353
2:
354
 
1639 decky 355
	mov %cx, %bx
356
	or $0xc000, %bx
357
	push %di
358
	mov $VESA_SET_MODE, %ax
359
	int $0x10
1287 vana 360
 
1639 decky 361
	pop %di
362
	cmp $VESA_OK, %al
363
	jnz 0f
1287 vana 364
 
1639 decky 365
	mov VESA_MODE_PHADDR_OFFSET(%di), %esi
366
	mov VESA_MODE_WIDTH_OFFSET(%di), %ax
367
	shl $16, %eax
368
	mov VESA_MODE_HEIGHT_OFFSET(%di), %ax
369
	mov VESA_MODE_BPP_OFFSET(%di), %bl
370
	xor %bh, %bh
371
	shl $16, %ebx
372
	mov VESA_MODE_SCANLINE_OFFSET(%di), %bx
373
	mov %eax, %edi
374
 
1287 vana 375
8:	
1639 decky 376
 
377
	mov %cr0, %eax
378
	or $1, %eax
1641 decky 379
	mov %eax, %cr0
1639 decky 380
 
381
	jmp 9f
1287 vana 382
9:
1639 decky 383
 
1811 decky 384
	ljmpl $selector(KTEXT_DES), $(vesa_init_protect - vesa_init + VESA_INIT_SEGMENT << 4)
1287 vana 385
 
1639 decky 386
0:# No prefered mode found
387
	mov $0x111, %cx
388
	push %di
389
	push %cx
390
	mov $VESA_GET_MODE_INFO, %ax
391
	int $0x10
392
 
393
	pop %cx
394
	pop %di
395
	cmp $VESA_OK, %al
396
	jnz 1f
397
	jz 2b						# Force relative jump
398
 
399
1:
400
	mov $0x0003, %ax
401
	int $0x10
402
	mov $0xffffffff, %edi		# EGA text mode used, because of problems with VESA
403
	xor %ax, %ax
404
	jz 8b						# Force relative jump
405
 
1287 vana 406
 
1639 decky 407
.code32
408
vesa_init_protect:
409
	popl %esp
1287 vana 410
 
1811 decky 411
	movw $selector(KDATA_DES), %cx
1639 decky 412
	movw %cx, %es
413
	movw %cx, %fs
414
	movw %cx, %gs
415
	movw %cx, %ds					# kernel data + stack
416
	movw %cx, %ss
417
 
1811 decky 418
	jmpl $selector(KTEXT_DES), $vesa_meeting_point
1287 vana 419
 
420
.align 4
421
e_vesa_init:
422
#endif	
423
 
406 jermar 424
.section K_DATA_START, "aw", @progbits
105 jermar 425
 
426
.align 4096
427
page_directory:
428
	.space 4096, 0