Diff markup
001 001
>> 002
002 003
003 004
004 005
005 006
006 007
007 008
008 009
009 010
010 011
011 012
012 013
013 014
014 015
015 016
016 017
017 018
018 019
019 020
020 #include <bootstrap/multiboot.h> 021 #include <bootstrap/multiboot.h>
021 #include <hwcore/idt.h> <<
022 #include <hwcore/gdt.h> <<
023 #include <hwcore/irq.h> <<
024 #include <hwcore/exception.h> <<
025 #include <hwcore/i8254.h> <<
026 #include <sos/list.h> <<
027 #include <sos/physmem.h> <<
028 #include <hwcore/paging.h> <<
029 #include <hwcore/mm_context.h> <<
030 #include <hwcore/swintr.h> <<
031 #include <sos/kmem_vmm.h> <<
032 #include <sos/kmalloc.h> <<
033 #include <sos/time.h> <<
034 #include <sos/thread.h> <<
035 #include <sos/process.h> <<
036 #include <sos/umem_vmm.h> <<
037 #include <sos/klibc.h> 022 #include <sos/klibc.h>
038 #include <sos/assert.h> 023 #include <sos/assert.h>
039 #include <drivers/x86_videomem.h> 024 #include <drivers/x86_videomem.h>
040 #include <drivers/bochs.h> 025 #include <drivers/bochs.h>
041 #include <sos/calcload.h> <<
042 #include <sos/umem_vmm.h> <<
043 #include <sos/binfmt_elf32.h> <<
044 #include <drivers/zero.h> <<
045 026
046 027
047 <<
048 <<
049 void display_bits(unsigned char row, unsigned <<
050 unsigned char attribute, <<
051 sos_ui32_t integer) <<
052 { <<
053 int i; <<
054 <<
055 for (i = 31 ; i >= 0 ; i--) <<
056 { <<
057 <<
058 int bit_i = (integer & (1 << i)); <<
059 <<
060 unsigned char ascii_code = bit_i?219:177 <<
061 sos_x86_videomem_putchar(row, col++, <<
062 attribute, <<
063 ascii_code); <<
064 } <<
065 } <<
066 <<
067 <<
068 <<
069 static void clk_it(int intid) <<
070 { <<
071 static sos_ui32_t clock_count = 0; <<
072 <<
073 display_bits(0, 48, <<
074 SOS_X86_VIDEO_FG_LTGREEN | SOS_ <<
075 clock_count); <<
076 clock_count++; <<
077 <<
078 <<
079 sos_time_do_tick(); <<
080 <<
081 <<
082 sos_sched_do_timer_tick(); <<
083 } <<
084 <<
085 <<
086 <<
087 <<
088 <<
089 028
090 !! 029
091 <<
092 static void pgflt_ex(int intid, struct sos_cpu <<
093 { <<
094 static sos_ui32_t demand_paging_count = 0; <<
095 struct sos_thread * cur_thr = sos_thread_get <<
096 sos_vaddr_t faulting_vaddr = sos_cpu_contex <<
097 sos_paddr_t ppage_paddr; <<
098 <<
099 if (sos_cpu_context_is_in_user_mode(ctxt) <<
100 || (cur_thr->fixup_uaccess.return_vaddr) <<
101 { <<
102 __label__ unforce_address_space; <<
103 sos_bool_t need_to_setup_mmu; <<
104 sos_ui32_t errcode = sos_cpu_context_get <<
105 <<
106 <<
107 <<
108 need_to_setup_mmu = (cur_thr->squatted_m <<
109 != sos_process_get_ <<
110 if (need_to_setup_mmu) <<
111 sos_thread_prepare_user_space_access(N <<
112 <<
113 if (SOS_OK == <<
114 sos_umem_vmm_try_resolve_page_fault( <<
115 <<
116 <<
117 goto unforce_address_space; <<
118 <<
119 <<
120 <<
121 if (! sos_cpu_context_is_in_user_mode(ct <<
122 { <<
123 cur_thr->fixup_uaccess.faulted_uaddr <<
124 sos_cpu_context_set_EX_return_addres <<
125 <<
126 goto unforce_address_space; <<
127 } <<
128 <<
129 if (need_to_setup_mmu) <<
130 sos_thread_end_user_space_access(); <<
131 <<
132 sos_bochs_printf("Unresolved USER page F <<
133 sos_cpu_context_get_PC( <<
134 (unsigned)faulting_vadd <<
135 (unsigned)sos_cpu_conte <<
136 sos_bochs_printf("Terminating User threa <<
137 sos_thread_exit(); <<
138 <<
139 unforce_address_space: <<
140 if (need_to_setup_mmu) <<
141 sos_thread_end_user_space_access(); <<
142 return; <<
143 } <<
144 <<
145 <<
146 if (! sos_kmem_vmm_is_valid_vaddr(faulting_v <<
147 { <<
148 <<
149 <<
150 sos_display_fatal_error("Unresolved page <<
151 sos_cpu_context_ <<
152 (unsigned)faulti <<
153 (unsigned)sos_cp <<
154 SOS_ASSERT_FATAL(! "Got page fault (note <<
155 } <<
156 <<
157 <<
158 <<
159 <<
160 <<
161 <<
162 <<
163 demand_paging_count ++; <<
164 display_bits(0, 0, <<
165 SOS_X86_VIDEO_FG_LTRED | SOS_X8 <<
166 demand_paging_count); <<
167 <<
168 <<
169 ppage_paddr = sos_physmem_ref_physpage_new(F <<
170 if (! ppage_paddr) <<
171 SOS_ASSERT_FATAL(! "TODO: implement swap. <<
172 SOS_ASSERT_FATAL(SOS_OK == sos_paging_map(pp <<
173 SO <<
174 FA <<
175 SO <<
176 | <<
177 | <<
178 sos_physmem_unref_physpage(ppage_paddr); <<
179 <<
180 <<
181 } <<
182 <<
183 <<
184 <<
185 <<
186 <<
187 <<
188 <<
189 static void idle_thread() <<
190 { <<
191 sos_ui32_t idle_twiddle = 0; <<
192 <<
193 while (1) <<
194 { <<
195 <<
196 <<
197 asm("hlt\n"); <<
198 <<
199 idle_twiddle ++; <<
200 display_bits(0, 0, SOS_X86_VIDEO_FG_GREE <<
201 idle_twiddle); <<
202 <<
203 <<
204 sos_thread_yield(); <<
205 } <<
206 } <<
207 <<
208 <<
209 <<
210 <<
211 <<
212 static void stat_thread() <<
213 { <<
214 while (1) <<
215 { <<
216 sos_ui32_t flags; <<
217 sos_ui32_t load1, load5, load15; <<
218 char str1[11], str5[11], str15[11]; <<
219 struct sos_time t; <<
220 t.sec = 1; <<
221 t.nanosec = 0; <<
222 <<
223 sos_thread_sleep(& t); <<
224 <<
225 sos_disable_IRQs(flags); <<
226 <<
227 <<
228 sos_load_get_sload(&load1, &load5, &load <<
229 sos_load_to_string(str1, load1); <<
230 sos_load_to_string(str5, load5); <<
231 sos_load_to_string(str15, load15); <<
232 sos_x86_videomem_printf(16, 34, <<
233 SOS_X86_VIDEO_FG <<
234 "Kernel (- Idle) <<
235 str1, str5, str1 <<
236 <<
237 sos_load_get_uload(&load1, &load5, &load <<
238 sos_load_to_string(str1, load1); <<
239 sos_load_to_string(str5, load5); <<
240 sos_load_to_string(str15, load15); <<
241 sos_x86_videomem_printf(17, 34, <<
242 SOS_X86_VIDEO_FG <<
243 "User: %s %s %s <<
244 str1, str5, str1 <<
245 <<
246 sos_load_get_uratio(&load1, &load5, &loa <<
247 sos_load_to_string(str1, load1); <<
248 sos_load_to_string(str5, load5); <<
249 sos_load_to_string(str15, load15); <<
250 sos_x86_videomem_printf(18, 34, <<
251 SOS_X86_VIDEO_FG <<
252 "User CPU %%: %s <<
253 str1, str5, str1 <<
254 <<
255 <<
256 sos_load_get_sratio(&load1, &load5, &loa <<
257 sos_load_to_string(str1, load1); <<
258 sos_load_to_string(str5, load5); <<
259 sos_load_to_string(str15, load15); <<
260 sos_x86_videomem_printf(19, 34, <<
261 SOS_X86_VIDEO_FG <<
262 "Kernel CPU %% ( <<
263 str1, str5, str1 <<
264 sos_restore_IRQs(flags); <<
265 } <<
266 } <<
267 <<
268 <<
269 <<
270 <<
271 <<
272 static sos_ret_t start_init() <<
273 { <<
274 sos_ret_t retval; <<
275 struct sos_umem_vmm_as *as_init; <<
276 struct sos_process *proc_init; <<
277 struct sos_thread *new_thr; <<
278 sos_uaddr_t ustack, start_uaddr; <<
279 <<
280 <<
281 proc_init = sos_process_create("init", FALSE <<
282 if (! proc_init) <<
283 return -SOS_ENOMEM; <<
284 as_init = sos_process_get_address_space(proc <<
285 <<
286 <<
287 start_uaddr = sos_binfmt_elf32_map(as_init, <<
288 if (0 == start_uaddr) <<
289 { <<
290 sos_process_unref(proc_init); <<
291 return -SOS_ENOENT; <<
292 } <<
293 <<
294 <<
295 ustack = (SOS_PAGING_TOP_USER_ADDRESS - SOS_ <<
296 retval = sos_dev_zero_map(as_init, &ustack, <<
297 SOS_VM_MAP_PROT_RE <<
298 0); <<
299 if (SOS_OK != retval) <<
300 { <<
301 sos_bochs_printf("ici 2\n"); <<
302 sos_process_unref(proc_init); <<
303 return -SOS_ENOMEM; <<
304 } <<
305 <<
306 <<
307 new_thr = sos_create_user_thread(NULL, <<
308 proc_init, <<
309 start_uaddr <<
310 0, 0, <<
311 ustack + SO <<
312 SOS_SCHED_P <<
313 if (! new_thr) <<
314 { <<
315 sos_bochs_printf("ici 3\n"); <<
316 sos_process_unref(proc_init); <<
317 return -SOS_ENOMEM; <<
318 } <<
319 <<
320 sos_process_unref(proc_init); <<
321 return SOS_OK; <<
322 } <<
323 <<
324 <<
325 <<
326 <<
327 <<
328 void sos_main(unsigned long magic, unsigned lo 030 void sos_main(unsigned long magic, unsigned long addr)
329 { 031 {
330 unsigned i; 032 unsigned i;
331 sos_paddr_t sos_kernel_core_base_paddr, sos_ <<
332 struct sos_time tick_resolution; <<
333 033
334 034
335 035
336 036
337 multiboot_info_t *mbi; 037 multiboot_info_t *mbi;
338 mbi = (multiboot_info_t *) addr; 038 mbi = (multiboot_info_t *) addr;
339 039
340 040
341 sos_bochs_setup(); 041 sos_bochs_setup();
342 042
343 sos_x86_videomem_setup(); 043 sos_x86_videomem_setup();
344 sos_x86_videomem_cls(SOS_X86_VIDEO_BG_BLUE); 044 sos_x86_videomem_cls(SOS_X86_VIDEO_BG_BLUE);
345 045
346 046
347 if (magic == MULTIBOOT_BOOTLOADER_MAGIC) 047 if (magic == MULTIBOOT_BOOTLOADER_MAGIC)
348 048
349 sos_x86_videomem_printf(1, 0, 049 sos_x86_videomem_printf(1, 0,
350 SOS_X86_VIDEO_FG_Y 050 SOS_X86_VIDEO_FG_YELLOW | SOS_X86_VIDEO_BG_BLUE,
351 "Welcome From GRUB 051 "Welcome From GRUB to %s%c RAM is %dMB (upper mem = 0x%x kB)",
352 "SOS article 7.5", !! 052 "SOS", ',',
353 (unsigned)(mbi->me 053 (unsigned)(mbi->mem_upper >> 10) + 1,
354 (unsigned)mbi->mem 054 (unsigned)mbi->mem_upper);
355 else 055 else
356 056
357 sos_x86_videomem_printf(1, 0, 057 sos_x86_videomem_printf(1, 0,
358 SOS_X86_VIDEO_FG_Y 058 SOS_X86_VIDEO_FG_YELLOW | SOS_X86_VIDEO_BG_BLUE,
359 "Welcome to SOS ar !! 059 "Welcome to SOS");
>> 060
>> 061 sos_bochs_putstring("Message in a bochs\n");
>> 062
360 063
361 sos_bochs_putstring("Message in a bochs: Thi !! 064
>> 065 for (;;)
>> 066 continue;
362 067
363 !! 068 return;
364 sos_gdt_subsystem_setup(); <<
365 sos_idt_subsystem_setup(); <<
366 <<
367 <<
368 sos_exception_subsystem_setup(); <<
369 sos_irq_subsystem_setup(); <<
370 <<
371 <<
372 sos_i8254_set_frequency(100); <<
373 <<
374 <<
375 <<
376 tick_resolution = (struct sos_time) { .sec=0 <<
377 sos_time_subsysem_setup(& tick_resolution); <<
378 <<
379 <<
380 if (magic != MULTIBOOT_BOOTLOADER_MAGIC) <<
381 { <<
382 sos_x86_videomem_putstring(20, 0, <<
383 SOS_X86_VIDEO <<
384 | SOS_X86_V <<
385 | SOS_X86_V <<
386 "I'm not load <<
387 <<
388 for (;;) <<
389 continue; <<
390 } <<
391 <<
392 <<
393 <<
394 <<
395 <<
396 <<
397 sos_irq_set_routine(SOS_IRQ_TIMER, <<
398 clk_it); <<
399 <<
400 <<
401 <<
402 <<
403 <<
404 <<
405 <<
406 <<
407 sos_physmem_subsystem_setup((mbi->mem_upper< <<
408 & sos_kernel_cor <<
409 & sos_kernel_cor <<
410 <<
411 <<
412 <<
413 <<
414 <<
415 <<
416 <<
417 SOS_ASSERT_FATAL(SOS_OK == <<
418 sos_paging_subsystem_setup( <<
419 <<
420 <<
421 <<
422 sos_exception_set_routine(SOS_EXCEPT_PAGE_FA <<
423 pgflt_ex); <<
424 <<
425 <<
426 <<
427 <<
428 <<
429 if (sos_kmem_vmm_subsystem_setup(sos_kernel_ <<
430 sos_kernel_ <<
431 bootstrap_s <<
432 bootstrap_s <<
433 + bootstrap <<
434 sos_bochs_printf("Could not setup the Kern <<
435 <<
436 if (sos_kmalloc_subsystem_setup()) <<
437 sos_bochs_printf("Could not setup the Kmal <<
438 <<
439 <<
440 <<
441 <<
442 sos_mm_context_subsystem_setup(); <<
443 <<
444 <<
445 <<
446 <<
447 sos_cpu_context_subsystem_setup(); <<
448 <<
449 <<
450 <<
451 <<
452 sos_swintr_subsystem_setup(); <<
453 <<
454 <<
455 <<
456 <<
457 <<
458 <<
459 <<
460 sos_thread_subsystem_setup(bootstrap_stack_b <<
461 bootstrap_stack_s <<
462 <<
463 <<
464 sos_sched_subsystem_setup(); <<
465 <<
466 <<
467 SOS_ASSERT_FATAL(sos_create_kernel_thread("i <<
468 SO <<
469 <<
470 <<
471 sos_load_subsystem_setup(); <<
472 <<
473 <<
474 SOS_ASSERT_FATAL(sos_create_kernel_thread("s <<
475 NU <<
476 SO <<
477 <<
478 <<
479 <<
480 <<
481 <<
482 sos_umem_vmm_subsystem_setup(); <<
483 sos_dev_zero_subsystem_setup(); <<
484 <<
485 <<
486 <<
487 <<
488 sos_process_subsystem_setup(); <<
489 <<
490 <<
491 <<
492 <<
493 asm volatile ("sti\n"); <<
494 <<
495 <<
496 <<
497 start_init(); <<
498 <<
499 <<
500 <<
501 <<
502 <<
503 <<
504 <<
505 <<
506 <<
507 <<
508 <<
509 <<
510 <<
511 sos_bochs_printf("Bye from primary thread !\ <<
512 sos_thread_exit(); <<
513 SOS_FATAL_ERROR("No trespassing !"); <<
514 } 069 }