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1 #
2 # Kernel gdb macros
3 #
4 # These gdb macros should be useful during kernel development in
5 # determining what's going on in the kernel.
6 #
7 # All the convenience variables used by these macros begin with $kgm_
8
9 define showversion
10 #Display version string, a pointer to which is pinned at 0x501C in the kernel's
11 #low memory globals
12 p (char *) *0x501c
13 end
14
15 document showversion
16 Syntax: showversion
17 | Read the kernel version string from a fixed address in low
18 | memory. Useful if you don't know which kernel is on the other end,
19 | and need to find the appropriate symbols. Beware that if you've
20 | loaded a symbol file, but aren't connected to a remote target,
21 | the version string from the symbol file will be displayed instead.
22 | This macro expects to be connected to the remote kernel to function
23 | correctly.
24 end
25
26 set $kgm_dummy = &proc0
27 set $kgm_dummy = &kmod
28 set $kgm_mtype = ((struct mach_header)_mh_execute_header).cputype
29
30 echo Loading Kernel GDB Macros package. Type "help kgm" for more info.\n
31
32 define kgm
33 printf ""
34 echo These are the gdb macros for kernel debugging. Type "help kgm" for more info.\n
35 end
36
37 document kgm
38 | These are the kernel gdb macros. These gdb macros are intended to be
39 | used when debugging a remote kernel via the kdp protocol. Typically, you
40 | would connect to your remote target like so:
41 | (gdb) target remote-kdp
42 | (gdb) attach <name-of-remote-host>
43 |
44 | The following macros are available in this package:
45 | showversion Displays a string describing the remote kernel version
46 |
47 | showalltasks Display a summary listing of all tasks
48 | showallthreads Display info about all threads in the system
49 | showallstacks Display the stack for each thread in the system
50 | showcurrentthreads Display info about the thread running on each cpu
51 | showcurrentstacks Display the stack for the thread running on each cpu
52 | showallvm Display a summary listing of all the vm maps
53 | showallvme Display a summary listing of all the vm map entries
54 | showallipc Display a summary listing of all the ipc spaces
55 | showallrights Display a summary listing of all the ipc rights
56 | showallkmods Display a summary listing of all the kernel modules
57 | showallclasses Display info about all OSObject subclasses in the system
58 |
59 | showtask Display info about the specified task
60 | showtaskthreads Display info about the threads in the task
61 | showtaskstacks Display the stack for each thread in the task
62 | showtaskvm Display info about the specified task's vm_map
63 | showtaskvme Display info about the task's vm_map entries
64 | showtaskipc Display info about the specified task's ipc space
65 | showtaskrights Display info about the task's ipc space entries
66 |
67 | showact Display info about a thread specified by activation
68 | showactstack Display the stack for a thread specified by activation
69 |
70 | showmap Display info about the specified vm_map
71 | showmapvme Display a summary list of the specified vm_map's entries
72 |
73 | showipc Display info about the specified ipc space
74 | showrights Display a summary list of all the rights in an ipc space
75 |
76 | showpid Display info about the process identified by pid
77 | showproc Display info about the process identified by proc struct
78 |
79 | showkmod Display info about a kernel module
80 | showkmodaddr Given an address, display the kernel module and offset
81 |
82 | dumpcallqueue Dump out all the entries given a queue head
83 |
84 | showallmtx Display info about mutexes usage
85 | showallrwlck Display info about reader/writer locks usage
86 |
87 | zprint Display info about the memory zones
88 | showioalloc Display info about iokit allocations
89 | paniclog Display the panic log info
90 |
91 | switchtoact Switch to different context specified by activation
92 | switchtoctx Switch to different context
93 | showuserstack Display numeric backtrace of the user stack for an
94 | activation
95 |
96 | switchtouserthread Switch to the user context of the specified thread
97 | resetstacks Return to the original kernel context
98 |
99 | resetctx Reset context
100 | resume_on Resume when detaching from gdb
101 | resume_off Don't resume when detaching from gdb
102 |
103 | sendcore Configure kernel to send a coredump to the specified IP
104 | disablecore Configure the kernel to disable coredump transmission
105 | switchtocorethread Corefile version of "switchtoact"
106 | resetcorectx Corefile version of "resetctx"
107 |
108 | kdp-reboot Restart remote target
109 |
110 | Type "help <macro>" for more specific help on a particular macro.
111 | Type "show user <macro>" to see what the macro is really doing.
112 end
113
114
115 define showkmodheader
116 printf "kmod address size "
117 printf "id refs version name\n"
118 end
119
120 define showkmodint
121 set $kgm_kmodp = (struct kmod_info *)$arg0
122 printf "0x%08x ", $arg0
123 printf "0x%08x ", $kgm_kmodp->address
124 printf "0x%08x ", $kgm_kmodp->size
125 printf "%3d ", $kgm_kmodp->id
126 printf "%5d ", $kgm_kmodp->reference_count
127 printf "%10s ", &$kgm_kmodp->version
128 printf "%s\n", &$kgm_kmodp->name
129 end
130
131 set $kgm_kmodmin = 0xffffffff
132 set $kgm_fkmodmin = 0x00000000
133 set $kgm_kmodmax = 0x00000000
134 set $kgm_fkmodmax = 0xffffffff
135 set $kgm_pkmod = 0
136 set $kgm_pkmodst = 0
137 set $kgm_pkmoden = 0
138 define showkmodaddr
139 printf "0x%x" , $arg0
140 if ((unsigned int)$arg0 >= (unsigned int)$kgm_pkmodst) && ((unsigned int)$arg0 <= (unsigned int)$kgm_pkmoden)
141 set $kgm_off = ((unsigned int)$arg0 - (unsigned int)$kgm_pkmodst)
142 printf " <%s + 0x%x>", $kgm_pkmod->name, $kgm_off
143 else
144 if ((unsigned int)$arg0 <= (unsigned int)$kgm_fkmodmax) && ((unsigned int)$arg0 >= (unsigned int)$kgm_fkmodmin)
145 set $kgm_kmodp = (struct kmod_info *)kmod
146 while $kgm_kmodp
147 set $kgm_kmod = *$kgm_kmodp
148 if $kgm_kmod.address && ($kgm_kmod.address < $kgm_kmodmin)
149 set $kgm_kmodmin = $kgm_kmod.address
150 end
151 if ($kgm_kmod.address + $kgm_kmod.size) > $kgm_kmodmax
152 set $kgm_kmodmax = $kgm_kmod.address
153 end
154 set $kgm_off = ((unsigned int)$arg0 - (unsigned int)$kgm_kmod.address)
155 if ($kgm_kmod.address <= $arg0) && ($kgm_off <= $kgm_kmod.size)
156 printf " <%s + 0x%x>", $kgm_kmodp->name, $kgm_off
157 set $kgm_pkmod = $kgm_kmodp
158 set $kgm_pkmodst = $kgm_kmod.address
159 set $kgm_pkmoden = $kgm_pkmodst + $kgm_kmod.size
160 set $kgm_kmodp = 0
161 else
162 set $kgm_kmodp = $kgm_kmod.next
163 end
164 end
165 if !$kgm_pkmod
166 set $kgm_fkmodmin = $kgm_kmodmin
167 set $kgm_fkmodmax = $kgm_kmodmax
168 end
169 end
170 end
171 end
172 document showkmodaddr
173 | Given an address, print the offset and name for the kmod containing it
174 | The following is the syntax:
175 | (gdb) showkmodaddr <addr>
176 end
177
178 define showkmod
179 showkmodheader
180 showkmodint $arg0
181 end
182 document showkmod
183 | Routine to print info about a kernel module
184 | The following is the syntax:
185 | (gdb) showkmod <kmod>
186 end
187
188 define showallkmods
189 showkmodheader
190 set $kgm_kmodp = (struct kmod_info *)kmod
191 while $kgm_kmodp
192 showkmodint $kgm_kmodp
193 set $kgm_kmodp = $kgm_kmodp->next
194 end
195 end
196 document showallkmods
197 | Routine to print a summary listing of all the kernel modules
198 | The following is the syntax:
199 | (gdb) showallkmods
200 end
201
202 define showactheader
203 printf " activation "
204 printf "thread pri state wait_queue wait_event\n"
205 end
206
207
208 define showactint
209 printf " 0x%08x ", $arg0
210 set $kgm_thread = *(struct thread *)$arg0
211 printf "0x%08x ", $arg0
212 printf "%3d ", $kgm_thread.sched_pri
213 set $kgm_state = $kgm_thread.state
214 if $kgm_state & 0x80
215 printf "I"
216 end
217 if $kgm_state & 0x40
218 printf "P"
219 end
220 if $kgm_state & 0x20
221 printf "A"
222 end
223 if $kgm_state & 0x10
224 printf "H"
225 end
226 if $kgm_state & 0x08
227 printf "U"
228 end
229 if $kgm_state & 0x04
230 printf "R"
231 end
232 if $kgm_state & 0x02
233 printf "S"
234 end
235 if $kgm_state & 0x01
236 printf "W\t"
237 printf "0x%08x ", $kgm_thread.wait_queue
238
239 if ((unsigned)$kgm_thread.wait_event > (unsigned)sectPRELINKB)
240 showkmodaddr $kgm_thread.wait_event
241 else
242 output /a (unsigned) $kgm_thread.wait_event
243 end
244 end
245 if $arg1 != 0
246 if ($kgm_thread.kernel_stack != 0)
247 if ($kgm_thread.reserved_stack != 0)
248 printf "\n\t\treserved_stack=0x%08x", $kgm_thread.reserved_stack
249 end
250 printf "\n\t\tkernel_stack=0x%08x", $kgm_thread.kernel_stack
251 if ($kgm_mtype == 18)
252 set $mysp = $kgm_thread.machine.pcb->save_r1
253 else
254 set $kgm_statep = (struct i386_kernel_state *) \
255 ($kgm_thread->kernel_stack + 0x4000 \
256 - sizeof(struct i386_kernel_state))
257 set $mysp = $kgm_statep->k_ebp
258 end
259 set $prevsp = 0
260 printf "\n\t\tstacktop=0x%08x", $mysp
261 if ($kgm_mtype == 18)
262 set $stkmask = 0xf
263 set $stklimit = 0xb0000000
264 else
265 set $stkmask = 0x3
266 set $stklimit = 0xfc000000
267 end
268 while ($mysp != 0) && (($mysp & $stkmask) == 0) \
269 && ($mysp < $stklimit) \
270 && ((unsigned)$mysp > (unsigned)$prevsp)
271 printf "\n\t\t0x%08x ", $mysp
272 if ($kgm_mtype == 18)
273 set $kgm_return = *($mysp + 8)
274 else
275 set $kgm_return = *($mysp + 4)
276 end
277 if ((unsigned) $kgm_return > (unsigned) sectPRELINKB)
278 showkmodaddr $kgm_return
279 else
280 output /a (unsigned) $kgm_return
281 end
282 set $prevsp = $mysp
283 set $mysp = * $mysp
284 end
285 printf "\n\t\tstackbottom=0x%08x", $prevsp
286 else
287 printf "\n\t\t\tcontinuation="
288 output /a (unsigned) $kgm_thread.continuation
289 end
290 printf "\n"
291 else
292 printf "\n"
293 end
294 end
295
296 define showact
297 showactheader
298 showactint $arg0 0
299 end
300 document showact
301 | Routine to print out the state of a specific thread.
302 | The following is the syntax:
303 | (gdb) showact <activation>
304 end
305
306
307 define showactstack
308 showactheader
309 showactint $arg0 1
310 end
311 document showactstack
312 | Routine to print out the stack of a specific thread.
313 | The following is the syntax:
314 | (gdb) showactstack <activation>
315 end
316
317
318 define showallthreads
319 set $kgm_head_taskp = &default_pset.tasks
320 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
321 while $kgm_taskp != $kgm_head_taskp
322 showtaskheader
323 showtaskint $kgm_taskp
324 showactheader
325 set $kgm_head_actp = &($kgm_taskp->threads)
326 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
327 while $kgm_actp != $kgm_head_actp
328 showactint $kgm_actp 0
329 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
330 end
331 printf "\n"
332 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
333 end
334 end
335 document showallthreads
336 | Routine to print out info about all threads in the system.
337 | The following is the syntax:
338 | (gdb) showallthreads
339 end
340
341 define showcurrentthreads
342 set $kgm_prp = processor_list
343 while $kgm_prp != 0
344 if ($kgm_prp)->active_thread != 0
345 set $kgm_actp = ($kgm_prp)->active_thread
346 showtaskheader
347 showtaskint ($kgm_actp)->task
348 showactheader
349 showactint $kgm_actp 0
350 printf "\n"
351 end
352 set $kgm_prp = ($kgm_prp)->processor_list
353 end
354 end
355 document showcurrentthreads
356 | Routine to print out info about the thread running on each cpu.
357 | The following is the syntax:
358 | (gdb) showcurrentthreads
359 end
360
361 define showallstacks
362 set $kgm_head_taskp = &default_pset.tasks
363 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
364 while $kgm_taskp != $kgm_head_taskp
365 showtaskheader
366 showtaskint $kgm_taskp
367 set $kgm_head_actp = &($kgm_taskp->threads)
368 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
369 while $kgm_actp != $kgm_head_actp
370 showactheader
371 showactint $kgm_actp 1
372 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
373 end
374 printf "\n"
375 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
376 end
377 end
378 document showallstacks
379 | Routine to print out the stack for each thread in the system.
380 | The following is the syntax:
381 | (gdb) showallstacks
382 end
383
384 define showcurrentstacks
385 set $kgm_prp = processor_list
386 while $kgm_prp != 0
387 if ($kgm_prp)->active_thread != 0
388 set $kgm_actp = ($kgm_prp)->active_thread
389 showtaskheader
390 showtaskint ($kgm_actp)->task
391 showactheader
392 showactint $kgm_actp 1
393 printf "\n"
394 end
395 set $kgm_prp = ($kgm_prp)->processor_list
396 end
397 end
398 document showcurrentstacks
399 | Routine to print out the thread running on each cpu (incl. its stack)
400 | The following is the syntax:
401 | (gdb) showcurrentstacks
402 end
403
404 define showwaiterheader
405 printf "waiters activation "
406 printf "thread pri state wait_queue wait_event\n"
407 end
408
409 define showwaitqwaiters
410 set $kgm_w_waitqp = (struct wait_queue *)$arg0
411 set $kgm_w_linksp = &($kgm_w_waitqp->wq_queue)
412 set $kgm_w_wqe = (struct wait_queue_element *)$kgm_w_linksp->next
413 set $kgm_w_found = 0
414 while ( (queue_entry_t)$kgm_w_wqe != (queue_entry_t)$kgm_w_linksp)
415 if ($kgm_w_wqe->wqe_type != &_wait_queue_link)
416 if !$kgm_w_found
417 set $kgm_w_found = 1
418 showwaiterheader
419 end
420 set $kgm_w_shuttle = (struct thread *)$kgm_w_wqe
421 showactint $kgm_w_shuttle 0
422 end
423 set $kgm_w_wqe = (struct wait_queue_element *)$kgm_w_wqe->wqe_links.next
424 end
425 end
426
427 define showwaitqwaitercount
428 set $kgm_wc_waitqp = (struct wait_queue *)$arg0
429 set $kgm_wc_linksp = &($kgm_wc_waitqp->wq_queue)
430 set $kgm_wc_wqe = (struct wait_queue_element *)$kgm_wc_linksp->next
431 set $kgm_wc_count = 0
432 while ( (queue_entry_t)$kgm_wc_wqe != (queue_entry_t)$kgm_wc_linksp)
433 if ($kgm_wc_wqe->wqe_type != &_wait_queue_link)
434 set $kgm_wc_count = $kgm_wc_count + 1
435 end
436 set $kgm_wc_wqe = (struct wait_queue_element *)$kgm_wc_wqe->wqe_links.next
437 end
438 printf "0x%08x ", $kgm_wc_count
439 end
440
441 define showwaitqmembercount
442 set $kgm_mc_waitqsetp = (struct wait_queue_set *)$arg0
443 set $kgm_mc_setlinksp = &($kgm_mc_waitqsetp->wqs_setlinks)
444 set $kgm_mc_wql = (struct wait_queue_link *)$kgm_mc_setlinksp->next
445 set $kgm_mc_count = 0
446 while ( (queue_entry_t)$kgm_mc_wql != (queue_entry_t)$kgm_mc_setlinksp)
447 set $kgm_mc_count = $kgm_mc_count + 1
448 set $kgm_mc_wql = (struct wait_queue_link *)$kgm_mc_wql->wql_setlinks.next
449 end
450 printf "0x%08x ", $kgm_mc_count
451 end
452
453
454 define showwaitqmemberheader
455 printf "set-members wait_queue interlock "
456 printf "pol type member_cnt waiter_cnt\n"
457 end
458
459 define showwaitqmemberint
460 set $kgm_m_waitqp = (struct wait_queue *)$arg0
461 printf " 0x%08x ", $kgm_m_waitqp
462 printf "0x%08x ", $kgm_m_waitqp->wq_interlock.lock_data
463 if ($kgm_m_waitqp->wq_fifo)
464 printf "Fifo "
465 else
466 printf "Prio "
467 end
468 if ($kgm_m_waitqp->wq_type == 0xf1d1)
469 printf "Set "
470 showwaitqmembercount $kgm_m_waitqp
471 else
472 printf "Que 0x00000000 "
473 end
474 showwaitqwaitercount $kgm_m_waitqp
475 printf "\n"
476 end
477
478
479 define showwaitqmemberofheader
480 printf "member-of wait_queue interlock "
481 printf "pol type member_cnt waiter_cnt\n"
482 end
483
484 define showwaitqmemberof
485 set $kgm_mo_waitqp = (struct wait_queue *)$arg0
486 set $kgm_mo_linksp = &($kgm_mo_waitqp->wq_queue)
487 set $kgm_mo_wqe = (struct wait_queue_element *)$kgm_mo_linksp->next
488 set $kgm_mo_found = 0
489 while ( (queue_entry_t)$kgm_mo_wqe != (queue_entry_t)$kgm_mo_linksp)
490 if ($kgm_mo_wqe->wqe_type == &_wait_queue_link)
491 if !$kgm_mo_found
492 set $kgm_mo_found = 1
493 showwaitqmemberofheader
494 end
495 set $kgm_mo_wqlp = (struct wait_queue_link *)$kgm_mo_wqe
496 set $kgm_mo_wqsetp = (struct wait_queue *)($kgm_mo_wqlp->wql_setqueue)
497 showwaitqmemberint $kgm_mo_wqsetp
498 end
499 set $kgm_mo_wqe = (struct wait_queue_element *)$kgm_mo_wqe->wqe_links.next
500 end
501 end
502
503 define showwaitqmembers
504 set $kgm_ms_waitqsetp = (struct wait_queue_set *)$arg0
505 set $kgm_ms_setlinksp = &($kgm_ms_waitqsetp->wqs_setlinks)
506 set $kgm_ms_wql = (struct wait_queue_link *)$kgm_ms_setlinksp->next
507 set $kgm_ms_found = 0
508 while ( (queue_entry_t)$kgm_ms_wql != (queue_entry_t)$kgm_ms_setlinksp)
509 set $kgm_ms_waitqp = $kgm_ms_wql->wql_element.wqe_queue
510 if !$kgm_ms_found
511 showwaitqmemberheader
512 set $kgm_ms_found = 1
513 end
514 showwaitqmemberint $kgm_ms_waitqp
515 set $kgm_ms_wql = (struct wait_queue_link *)$kgm_ms_wql->wql_setlinks.next
516 end
517 end
518
519 define showwaitqheader
520 printf "wait_queue ref_count interlock "
521 printf "pol type member_cnt waiter_cnt\n"
522 end
523
524 define showwaitqint
525 set $kgm_waitqp = (struct wait_queue *)$arg0
526 printf "0x%08x ", $kgm_waitqp
527 if ($kgm_waitqp->wq_type == 0xf1d1)
528 printf "0x%08x ", ((struct wait_queue_set *)$kgm_waitqp)->wqs_refcount
529 else
530 printf "0x00000000 "
531 end
532 printf "0x%08x ", $kgm_waitqp->wq_interlock.lock_data
533 if ($kgm_waitqp->wq_fifo)
534 printf "Fifo "
535 else
536 printf "Prio "
537 end
538 if ($kgm_waitqp->wq_type == 0xf1d1)
539 printf "Set "
540 showwaitqmembercount $kgm_waitqp
541 else
542 printf "Que 0x00000000 "
543 end
544 showwaitqwaitercount $kgm_waitqp
545 printf "\n"
546 end
547
548 define showwaitq
549 set $kgm_waitq1p = (wait_queue_t)$arg0
550 showwaitqheader
551 showwaitqint $kgm_waitq1p
552 if ($kgm_waitq1p->wq_type == 0xf1d1)
553 showwaitqmembers $kgm_waitq1p
554 else
555 showwaitqmemberof $kgm_waitq1p
556 end
557 showwaitqwaiters $kgm_waitq1p
558 end
559
560 define showmapheader
561 printf "vm_map pmap vm_size "
562 printf "#ents rpage hint first_free\n"
563 end
564
565 define showvmeheader
566 printf " entry start "
567 printf " prot #page object offset\n"
568 end
569
570 define showvmint
571 set $kgm_mapp = (vm_map_t)$arg0
572 set $kgm_map = *$kgm_mapp
573 printf "0x%08x ", $arg0
574 printf "0x%08x ", $kgm_map.pmap
575 printf "0x%08x ", $kgm_map.size
576 printf "%3d ", $kgm_map.hdr.nentries
577 if $kgm_map.pmap
578 printf "%5d ", $kgm_map.pmap->stats.resident_count
579 else
580 printf "<n/a> "
581 end
582 printf "0x%08x ", $kgm_map.hint
583 printf "0x%08x\n", $kgm_map.first_free
584 if $arg1 != 0
585 showvmeheader
586 set $kgm_head_vmep = &($kgm_mapp->hdr.links)
587 set $kgm_vmep = $kgm_map.hdr.links.next
588 while (($kgm_vmep != 0) && ($kgm_vmep != $kgm_head_vmep))
589 set $kgm_vme = *$kgm_vmep
590 printf " 0x%08x ", $kgm_vmep
591 printf "0x%016llx ", $kgm_vme.links.start
592 printf "%1x", $kgm_vme.protection
593 printf "%1x", $kgm_vme.max_protection
594 if $kgm_vme.inheritance == 0x0
595 printf "S"
596 end
597 if $kgm_vme.inheritance == 0x1
598 printf "C"
599 end
600 if $kgm_vme.inheritance == 0x2
601 printf "-"
602 end
603 if $kgm_vme.inheritance == 0x3
604 printf "D"
605 end
606 if $kgm_vme.is_sub_map
607 printf "s "
608 else
609 if $kgm_vme.needs_copy
610 printf "n "
611 else
612 printf " "
613 end
614 end
615 printf "%5d ",($kgm_vme.links.end - $kgm_vme.links.start) >> 12
616 printf "0x%08x ", $kgm_vme.object.vm_object
617 printf "0x%016llx\n", $kgm_vme.offset
618 set $kgm_vmep = $kgm_vme.links.next
619 end
620 end
621 printf "\n"
622 end
623
624
625 define showmapvme
626 showmapheader
627 showvmint $arg0 1
628 end
629 document showmapvme
630 | Routine to print out a summary listing of all the entries in a vm_map
631 | The following is the syntax:
632 | (gdb) showmapvme <vm_map>
633 end
634
635
636 define showmap
637 showmapheader
638 showvmint $arg0 0
639 end
640 document showmap
641 | Routine to print out info about the specified vm_map
642 | The following is the syntax:
643 | (gdb) showmap <vm_map>
644 end
645
646 define showallvm
647 set $kgm_head_taskp = &default_pset.tasks
648 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
649 while $kgm_taskp != $kgm_head_taskp
650 showtaskheader
651 showmapheader
652 showtaskint $kgm_taskp
653 showvmint $kgm_taskp->map 0
654 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
655 end
656 end
657 document showallvm
658 | Routine to print a summary listing of all the vm maps
659 | The following is the syntax:
660 | (gdb) showallvm
661 end
662
663
664 define showallvme
665 set $kgm_head_taskp = &default_pset.tasks
666 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
667 while $kgm_taskp != $kgm_head_taskp
668 showtaskheader
669 showmapheader
670 showtaskint $kgm_taskp
671 showvmint $kgm_taskp->map 1
672 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
673 end
674 end
675 document showallvme
676 | Routine to print a summary listing of all the vm map entries
677 | The following is the syntax:
678 | (gdb) showallvme
679 end
680
681
682 define showipcheader
683 printf "ipc_space is_table table_next "
684 printf "flags tsize splaytree splaybase\n"
685 end
686
687 define showipceheader
688 printf " name object "
689 printf "rite urefs destname destination\n"
690 end
691
692 define showipceint
693 set $kgm_ie = *(ipc_entry_t)$arg0
694 printf " 0x%08x ", $arg1
695 printf "0x%08x ", $kgm_ie.ie_object
696 if $kgm_ie.ie_bits & 0x00100000
697 printf "Dead "
698 printf "%5d\n", $kgm_ie.ie_bits & 0xffff
699 else
700 if $kgm_ie.ie_bits & 0x00080000
701 printf "SET "
702 printf "%5d\n", $kgm_ie.ie_bits & 0xffff
703 else
704 if $kgm_ie.ie_bits & 0x00010000
705 if $kgm_ie.ie_bits & 0x00020000
706 printf " SR"
707 else
708 printf " S"
709 end
710 else
711 if $kgm_ie.ie_bits & 0x00020000
712 printf " R"
713 end
714 end
715 if $kgm_ie.ie_bits & 0x00040000
716 printf " O"
717 end
718 if $kgm_ie.index.request
719 printf "n"
720 else
721 printf " "
722 end
723 if $kgm_ie.ie_bits & 0x00800000
724 printf "c"
725 else
726 printf " "
727 end
728 printf "%5d ", $kgm_ie.ie_bits & 0xffff
729 showportdest $kgm_ie.ie_object
730 end
731 end
732 end
733
734 define showipcint
735 set $kgm_isp = (ipc_space_t)$arg0
736 set $kgm_is = *$kgm_isp
737 printf "0x%08x ", $arg0
738 printf "0x%08x ", $kgm_is.is_table
739 printf "0x%08x ", $kgm_is.is_table_next
740 if $kgm_is.is_growing != 0
741 printf "G"
742 else
743 printf " "
744 end
745 if $kgm_is.is_fast != 0
746 printf "F"
747 else
748 printf " "
749 end
750 if $kgm_is.is_active != 0
751 printf "A "
752 else
753 printf " "
754 end
755 printf "%5d ", $kgm_is.is_table_size
756 printf "0x%08x ", $kgm_is.is_tree_total
757 printf "0x%08x\n", &$kgm_isp->is_tree
758 if $arg1 != 0
759 showipceheader
760 set $kgm_iindex = 0
761 set $kgm_iep = $kgm_is.is_table
762 set $kgm_destspacep = (ipc_space_t)0
763 while ( $kgm_iindex < $kgm_is.is_table_size )
764 set $kgm_ie = *$kgm_iep
765 if $kgm_ie.ie_bits & 0x001f0000
766 set $kgm_name = (($kgm_iindex << 8)|($kgm_ie.ie_bits >> 24))
767 showipceint $kgm_iep $kgm_name
768 end
769 set $kgm_iindex = $kgm_iindex + 1
770 set $kgm_iep = &($kgm_is.is_table[$kgm_iindex])
771 end
772 if $kgm_is.is_tree_total
773 printf "Still need to write tree traversal\n"
774 end
775 end
776 printf "\n"
777 end
778
779
780 define showipc
781 set $kgm_isp = (ipc_space_t)$arg0
782 showipcheader
783 showipcint $kgm_isp 0
784 end
785 document showipc
786 | Routine to print the status of the specified ipc space
787 | The following is the syntax:
788 | (gdb) showipc <ipc_space>
789 end
790
791 define showrights
792 set $kgm_isp = (ipc_space_t)$arg0
793 showipcheader
794 showipcint $kgm_isp 1
795 end
796 document showrights
797 | Routine to print a summary list of all the rights in a specified ipc space
798 | The following is the syntax:
799 | (gdb) showrights <ipc_space>
800 end
801
802
803 define showtaskipc
804 set $kgm_taskp = (task_t)$arg0
805 showtaskheader
806 showipcheader
807 showtaskint $kgm_taskp
808 showipcint $kgm_taskp->itk_space 0
809 end
810 document showtaskipc
811 | Routine to print info about the ipc space for a task
812 | The following is the syntax:
813 | (gdb) showtaskipc <task>
814 end
815
816
817 define showtaskrights
818 set $kgm_taskp = (task_t)$arg0
819 showtaskheader
820 showipcheader
821 showtaskint $kgm_taskp
822 showipcint $kgm_taskp->itk_space 1
823 end
824 document showtaskrights
825 | Routine to print info about the ipc rights for a task
826 | The following is the syntax:
827 | (gdb) showtaskrights <task>
828 end
829
830 define showallipc
831 set $kgm_head_taskp = &default_pset.tasks
832 set $kgm_cur_taskp = (struct task *)($kgm_head_taskp->next)
833 while $kgm_cur_taskp != $kgm_head_taskp
834 showtaskheader
835 showipcheader
836 showtaskint $kgm_cur_taskp
837 showipcint $kgm_cur_taskp->itk_space 0
838 set $kgm_cur_taskp = (struct task *)($kgm_cur_taskp->pset_tasks.next)
839 end
840 end
841 document showallipc
842 | Routine to print a summary listing of all the ipc spaces
843 | The following is the syntax:
844 | (gdb) showallipc
845 end
846
847
848 define showallrights
849 set $kgm_head_taskp = &default_pset.tasks
850 set $kgm_cur_taskp = (struct task *)($kgm_head_taskp->next)
851 while $kgm_cur_taskp != $kgm_head_taskp
852 showtaskheader
853 showipcheader
854 showtaskint $kgm_cur_taskp
855 showipcint $kgm_cur_taskp->itk_space 1
856 set $kgm_cur_taskp = (struct task *)($kgm_cur_taskp->pset_tasks.next)
857 end
858 end
859 document showallrights
860 | Routine to print a summary listing of all the ipc rights
861 | The following is the syntax:
862 | (gdb) showallrights
863 end
864
865
866 define showtaskvm
867 set $kgm_taskp = (task_t)$arg0
868 showtaskheader
869 showmapheader
870 showtaskint $kgm_taskp
871 showvmint $kgm_taskp->map 0
872 end
873 document showtaskvm
874 | Routine to print out info about a task's vm_map
875 | The following is the syntax:
876 | (gdb) showtaskvm <task>
877 end
878
879 define showtaskvme
880 set $kgm_taskp = (task_t)$arg0
881 showtaskheader
882 showmapheader
883 showtaskint $kgm_taskp
884 showvmint $kgm_taskp->map 1
885 end
886 document showtaskvme
887 | Routine to print out info about a task's vm_map_entries
888 | The following is the syntax:
889 | (gdb) showtaskvme <task>
890 end
891
892
893 define showtaskheader
894 printf "task vm_map ipc_space #acts "
895 showprocheader
896 end
897
898
899 define showtaskint
900 set $kgm_task = *(struct task *)$arg0
901 printf "0x%08x ", $arg0
902 printf "0x%08x ", $kgm_task.map
903 printf "0x%08x ", $kgm_task.itk_space
904 printf "%3d ", $kgm_task.thread_count
905 showprocint $kgm_task.bsd_info
906 end
907
908 define showtask
909 showtaskheader
910 showtaskint $arg0
911 end
912 document showtask
913 | Routine to print out info about a task.
914 | The following is the syntax:
915 | (gdb) showtask <task>
916 end
917
918
919 define showtaskthreads
920 showtaskheader
921 set $kgm_taskp = (struct task *)$arg0
922 showtaskint $kgm_taskp
923 showactheader
924 set $kgm_head_actp = &($kgm_taskp->threads)
925 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
926 while $kgm_actp != $kgm_head_actp
927 showactint $kgm_actp 0
928 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
929 end
930 end
931 document showtaskthreads
932 | Routine to print info about the threads in a task.
933 | The following is the syntax:
934 | (gdb) showtaskthreads <task>
935 end
936
937
938 define showtaskstacks
939 showtaskheader
940 set $kgm_taskp = (struct task *)$arg0
941 showtaskint $kgm_taskp
942 set $kgm_head_actp = &($kgm_taskp->threads)
943 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
944 while $kgm_actp != $kgm_head_actp
945 showactheader
946 showactint $kgm_actp 1
947 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
948 end
949 end
950 document showtaskstacks
951 | Routine to print out the stack for each thread in a task.
952 | The following is the syntax:
953 | (gdb) showtaskstacks <task>
954 end
955
956
957 define showalltasks
958 showtaskheader
959 set $kgm_head_taskp = &default_pset.tasks
960 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
961 while $kgm_taskp != $kgm_head_taskp
962 showtaskint $kgm_taskp
963 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
964 end
965 end
966 document showalltasks
967 | Routine to print a summary listing of all the tasks
968 | The following is the syntax:
969 | (gdb) showalltasks
970 end
971
972
973 define showprocheader
974 printf " pid proc command\n"
975 end
976
977 define showprocint
978 set $kgm_procp = (struct proc *)$arg0
979 if $kgm_procp != 0
980 printf "%5d ", $kgm_procp->p_pid
981 printf "0x%08x ", $kgm_procp
982 printf "%s\n", $kgm_procp->p_comm
983 else
984 printf " *0* 0x00000000 --\n"
985 end
986 end
987
988 define showpid
989 showtaskheader
990 set $kgm_head_taskp = &default_pset.tasks
991 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
992 while $kgm_taskp != $kgm_head_taskp
993 set $kgm_procp = (struct proc *)$kgm_taskp->bsd_info
994 if (($kgm_procp != 0) && ($kgm_procp->p_pid == $arg0))
995 showtaskint $kgm_taskp
996 set $kgm_taskp = $kgm_head_taskp
997 else
998 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
999 end
1000 end
1001 end
1002 document showpid
1003 | Routine to print a single process by pid
1004 | The following is the syntax:
1005 | (gdb) showpid <pid>
1006 end
1007
1008 define showproc
1009 showtaskheader
1010 set $kgm_procp = (struct proc *)$arg0
1011 showtaskint $kgm_procp->task $arg1 $arg2
1012 end
1013
1014
1015 define kdb
1016 set switch_debugger=1
1017 continue
1018 end
1019 document kdb
1020 | kdb - Switch to the inline kernel debugger
1021 |
1022 | usage: kdb
1023 |
1024 | The kdb macro allows you to invoke the inline kernel debugger.
1025 end
1026
1027 define showpsetheader
1028 printf "portset waitqueue recvname "
1029 printf "flags refs recvname process\n"
1030 end
1031
1032 define showportheader
1033 printf "port mqueue recvname "
1034 printf "flags refs recvname process\n"
1035 end
1036
1037 define showportmemberheader
1038 printf "members port recvname "
1039 printf "flags refs mqueue msgcount\n"
1040 end
1041
1042 define showkmsgheader
1043 printf "messages kmsg size "
1044 printf "disp msgid remote-port local-port\n"
1045 end
1046
1047 define showkmsgint
1048 printf " 0x%08x ", $arg0
1049 set $kgm_kmsgh = ((ipc_kmsg_t)$arg0)->ikm_header
1050 printf "0x%08x ", $kgm_kmsgh.msgh_size
1051 if (($kgm_kmsgh.msgh_bits & 0xff) == 19)
1052 printf "rC"
1053 else
1054 printf "rM"
1055 end
1056 if (($kgm_kmsgh.msgh_bits & 0xff00) == (19 < 8))
1057 printf "lC"
1058 else
1059 printf "lM"
1060 end
1061 if ($kgm_kmsgh.msgh_bits & 0xf0000000)
1062 printf "c"
1063 else
1064 printf "s"
1065 end
1066 printf "%5d ", $kgm_kmsgh.msgh_id
1067 printf "0x%08x ", $kgm_kmsgh.msgh_remote_port
1068 printf "0x%08x\n", $kgm_kmsgh.msgh_local_port
1069 end
1070
1071
1072
1073 define showkobject
1074 set $kgm_portp = (struct ipc_port *)$arg0
1075 printf "0x%08x kobject(", $kgm_portp->ip_kobject
1076 set $kgm_kotype = ($kgm_portp->ip_object.io_bits & 0x00000fff)
1077 if ($kgm_kotype == 1)
1078 printf "THREAD"
1079 end
1080 if ($kgm_kotype == 2)
1081 printf "TASK"
1082 end
1083 if ($kgm_kotype == 3)
1084 printf "HOST"
1085 end
1086 if ($kgm_kotype == 4)
1087 printf "HOST_PRIV"
1088 end
1089 if ($kgm_kotype == 5)
1090 printf "PROCESSOR"
1091 end
1092 if ($kgm_kotype == 6)
1093 printf "PSET"
1094 end
1095 if ($kgm_kotype == 7)
1096 printf "PSET_NAME"
1097 end
1098 if ($kgm_kotype == 8)
1099 printf "TIMER"
1100 end
1101 if ($kgm_kotype == 9)
1102 printf "PAGER_REQ"
1103 end
1104 if ($kgm_kotype == 10)
1105 printf "DEVICE"
1106 end
1107 if ($kgm_kotype == 11)
1108 printf "XMM_OBJECT"
1109 end
1110 if ($kgm_kotype == 12)
1111 printf "XMM_PAGER"
1112 end
1113 if ($kgm_kotype == 13)
1114 printf "XMM_KERNEL"
1115 end
1116 if ($kgm_kotype == 14)
1117 printf "XMM_REPLY"
1118 end
1119 if ($kgm_kotype == 15)
1120 printf "NOTDEF 15"
1121 end
1122 if ($kgm_kotype == 16)
1123 printf "NOTDEF 16"
1124 end
1125 if ($kgm_kotype == 17)
1126 printf "HOST_SEC"
1127 end
1128 if ($kgm_kotype == 18)
1129 printf "LEDGER"
1130 end
1131 if ($kgm_kotype == 19)
1132 printf "MASTER_DEV"
1133 end
1134 if ($kgm_kotype == 20)
1135 printf "ACTIVATION"
1136 end
1137 if ($kgm_kotype == 21)
1138 printf "SUBSYSTEM"
1139 end
1140 if ($kgm_kotype == 22)
1141 printf "IO_DONE_QUE"
1142 end
1143 if ($kgm_kotype == 23)
1144 printf "SEMAPHORE"
1145 end
1146 if ($kgm_kotype == 24)
1147 printf "LOCK_SET"
1148 end
1149 if ($kgm_kotype == 25)
1150 printf "CLOCK"
1151 end
1152 if ($kgm_kotype == 26)
1153 printf "CLOCK_CTRL"
1154 end
1155 if ($kgm_kotype == 27)
1156 printf "IOKIT_SPARE"
1157 end
1158 if ($kgm_kotype == 28)
1159 printf "NAMED_MEM"
1160 end
1161 if ($kgm_kotype == 29)
1162 printf "IOKIT_CON"
1163 end
1164 if ($kgm_kotype == 30)
1165 printf "IOKIT_OBJ"
1166 end
1167 if ($kgm_kotype == 31)
1168 printf "UPL"
1169 end
1170 printf ")\n"
1171 end
1172
1173 define showportdestproc
1174 set $kgm_portp = (struct ipc_port *)$arg0
1175 set $kgm_spacep = $kgm_portp->data.receiver
1176 # check against the previous cached value - this is slow
1177 if ($kgm_spacep != $kgm_destspacep)
1178 set $kgm_destprocp = (struct proc *)0
1179 set $kgm_head_taskp = &default_pset.tasks
1180 set $kgm_desttaskp = (struct task *)($kgm_head_taskp->next)
1181 while (($kgm_destprocp == 0) && ($kgm_desttaskp != $kgm_head_taskp))
1182 set $kgm_destspacep = $kgm_desttaskp->itk_space
1183 if ($kgm_destspacep == $kgm_spacep)
1184 set $kgm_destprocp = (struct proc *)$kgm_desttaskp->bsd_info
1185 else
1186 set $kgm_desttaskp = (struct task *)($kgm_desttaskp->pset_tasks.next)
1187 end
1188 end
1189 end
1190 if $kgm_destprocp != 0
1191 printf "%s(%d)\n", $kgm_destprocp->p_comm, $kgm_destprocp->p_pid
1192 else
1193 printf "task 0x%08x\n", $kgm_desttaskp
1194 end
1195 end
1196
1197 define showportdest
1198 set $kgm_portp = (struct ipc_port *)$arg0
1199 set $kgm_spacep = $kgm_portp->data.receiver
1200 if ($kgm_spacep == ipc_space_kernel)
1201 showkobject $kgm_portp
1202 else
1203 if ($kgm_portp->ip_object.io_bits & 0x80000000)
1204 printf "0x%08x ", $kgm_portp->ip_object.io_receiver_name
1205 showportdestproc $kgm_portp
1206 else
1207 printf "0x%08x inactive-port\n", $kgm_portp
1208 end
1209 end
1210 end
1211
1212 define showportmember
1213 printf " 0x%08x ", $arg0
1214 set $kgm_portp = (struct ipc_port *)$arg0
1215 printf "0x%08x ", $kgm_portp->ip_object.io_receiver_name
1216 if ($kgm_portp->ip_object.io_bits & 0x80000000)
1217 printf "A"
1218 else
1219 printf " "
1220 end
1221 if ($kgm_portp->ip_object.io_bits & 0x7fff0000)
1222 printf "Set "
1223 else
1224 printf "Port"
1225 end
1226 printf "%5d ", $kgm_portp->ip_object.io_references
1227 printf "0x%08x ", &($kgm_portp->ip_messages)
1228 printf "0x%08x\n", $kgm_portp->ip_messages.data.port.msgcount
1229 end
1230
1231 define showportint
1232 printf "0x%08x ", $arg0
1233 set $kgm_portp = (struct ipc_port *)$arg0
1234 printf "0x%08x ", &($kgm_portp->ip_messages)
1235 printf "0x%08x ", $kgm_portp->ip_object.io_receiver_name
1236 if ($kgm_portp->ip_object.io_bits & 0x80000000)
1237 printf "A"
1238 else
1239 printf "D"
1240 end
1241 printf "Port"
1242 printf "%5d ", $kgm_portp->ip_object.io_references
1243 set $kgm_destspacep = (struct ipc_space *)0
1244 showportdest $kgm_portp
1245 set $kgm_kmsgp = (ipc_kmsg_t)$kgm_portp->ip_messages.data.port.messages.ikmq_base
1246 if $arg1 && $kgm_kmsgp
1247 showkmsgheader
1248 showkmsgint $kgm_kmsgp
1249 set $kgm_kmsgheadp = $kgm_kmsgp
1250 set $kgm_kmsgp = $kgm_kmsgp->ikm_next
1251 while $kgm_kmsgp != $kgm_kmsgheadp
1252 showkmsgint $kgm_kmsgp
1253 set $kgm_kmsgp = $kgm_kmsgp->ikm_next
1254 end
1255 end
1256 end
1257
1258 define showpsetint
1259 printf "0x%08x ", $arg0
1260 set $kgm_psetp = (struct ipc_pset *)$arg0
1261 printf "0x%08x ", &($kgm_psetp->ips_messages)
1262 printf "0x%08x ", $kgm_psetp->ips_object.io_receiver_name
1263 if ($kgm_psetp->ips_object.io_bits & 0x80000000)
1264 printf "A"
1265 else
1266 printf "D"
1267 end
1268 printf "Set "
1269 printf "%5d ", $kgm_psetp->ips_object.io_references
1270 printf "0x%08x ", $kgm_psetp->ips_object.io_receiver_name
1271 set $kgm_setlinksp = &($kgm_psetp->ips_messages.data.set_queue.wqs_setlinks)
1272 set $kgm_wql = (struct wait_queue_link *)$kgm_setlinksp->next
1273 set $kgm_found = 0
1274 while ( (queue_entry_t)$kgm_wql != (queue_entry_t)$kgm_setlinksp)
1275 set $kgm_portp = (struct ipc_port *)((int)($kgm_wql->wql_element->wqe_queue) - ((int)$kgm_portoff))
1276 if !$kgm_found
1277 set $kgm_destspacep = (struct ipc_space *)0
1278 showportdestproc $kgm_portp
1279 showportmemberheader
1280 set $kgm_found = 1
1281 end
1282 showportmember $kgm_portp 0
1283 set $kgm_wql = (struct wait_queue_link *)$kgm_wql->wql_setlinks.next
1284 end
1285 if !$kgm_found
1286 printf "--n/e--\n"
1287 end
1288 end
1289
1290 define showpset
1291 showpsetheader
1292 showpsetint $arg0 1
1293 end
1294
1295 define showport
1296 showportheader
1297 showportint $arg0 1
1298 end
1299
1300 define showipcobject
1301 set $kgm_object = (ipc_object_t)$arg0
1302 if ($kgm_objectp->io_bits & 0x7fff0000)
1303 showpset $kgm_objectp
1304 else
1305 showport $kgm_objectp
1306 end
1307 end
1308
1309 define showmqueue
1310 set $kgm_mqueue = *(struct ipc_mqueue *)$arg0
1311 set $kgm_psetoff = &(((struct ipc_pset *)0)->ips_messages)
1312 set $kgm_portoff = &(((struct ipc_port *)0)->ip_messages)
1313 if ($kgm_mqueue.data.set_queue.wqs_wait_queue.wq_type == 0xf1d1)
1314 set $kgm_pset = (((int)$arg0) - ((int)$kgm_psetoff))
1315 showpsetheader
1316 showpsetint $kgm_pset 1
1317 end
1318 if ($kgm_mqueue.data.set_queue.wqs_wait_queue.wq_type == 0xf1d0)
1319 showportheader
1320 set $kgm_port = (((int)$arg0) - ((int)$kgm_portoff))
1321 showportint $kgm_port 1
1322 end
1323 end
1324
1325 define zprint_one
1326 set $kgm_zone = (struct zone *)$arg0
1327
1328 printf "0x%08x ", $kgm_zone
1329 printf "%8d ",$kgm_zone->count
1330 printf "%8x ",$kgm_zone->cur_size
1331 printf "%8x ",$kgm_zone->max_size
1332 printf "%6d ",$kgm_zone->elem_size
1333 printf "%8x ",$kgm_zone->alloc_size
1334 printf "%s ",$kgm_zone->zone_name
1335
1336 if ($kgm_zone->exhaustible)
1337 printf "H"
1338 end
1339 if ($kgm_zone->collectable)
1340 printf "C"
1341 end
1342 if ($kgm_zone->expandable)
1343 printf "X"
1344 end
1345 printf "\n"
1346 end
1347
1348
1349 define zprint
1350 printf "ZONE COUNT TOT_SZ MAX_SZ ELT_SZ ALLOC_SZ NAME\n"
1351 set $kgm_zone_ptr = (struct zone *)first_zone
1352 while ($kgm_zone_ptr != 0)
1353 zprint_one $kgm_zone_ptr
1354 set $kgm_zone_ptr = $kgm_zone_ptr->next_zone
1355 end
1356 printf "\n"
1357 end
1358 document zprint
1359 | Routine to print a summary listing of all the kernel zones
1360 | The following is the syntax:
1361 | (gdb) zprint
1362 end
1363
1364 define showmtxgrp
1365 set $kgm_mtxgrp = (lck_grp_t *)$arg0
1366
1367 if ($kgm_mtxgrp->lck_grp_mtxcnt)
1368 printf "0x%08x ", $kgm_mtxgrp
1369 printf "%8d ",$kgm_mtxgrp->lck_grp_mtxcnt
1370 printf "%12u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_util_cnt
1371 printf "%8u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_miss_cnt
1372 printf "%8u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_wait_cnt
1373 printf "%s ",&$kgm_mtxgrp->lck_grp_name
1374 printf "\n"
1375 end
1376 end
1377
1378
1379 define showallmtx
1380 printf "LCK GROUP CNT UTIL MISS WAIT NAME\n"
1381 set $kgm_mtxgrp_ptr = (lck_grp_t *)&lck_grp_queue
1382 set $kgm_mtxgrp_ptr = (lck_grp_t *)$kgm_mtxgrp_ptr->lck_grp_link.next
1383 while ($kgm_mtxgrp_ptr != (lck_grp_t *)&lck_grp_queue)
1384 showmtxgrp $kgm_mtxgrp_ptr
1385 set $kgm_mtxgrp_ptr = (lck_grp_t *)$kgm_mtxgrp_ptr->lck_grp_link.next
1386 end
1387 printf "\n"
1388 end
1389 document showallmtx
1390 | Routine to print a summary listing of all mutexes
1391 | The following is the syntax:
1392 | (gdb) showallmtx
1393 end
1394
1395 define showrwlckgrp
1396 set $kgm_rwlckgrp = (lck_grp_t *)$arg0
1397
1398 if ($kgm_rwlckgrp->lck_grp_rwcnt)
1399 printf "0x%08x ", $kgm_rwlckgrp
1400 printf "%8d ",$kgm_rwlckgrp->lck_grp_rwcnt
1401 printf "%12u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_util_cnt
1402 printf "%8u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_miss_cnt
1403 printf "%8u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_wait_cnt
1404 printf "%s ",&$kgm_rwlckgrp->lck_grp_name
1405 printf "\n"
1406 end
1407 end
1408
1409
1410 define showallrwlck
1411 printf "LCK GROUP CNT UTIL MISS WAIT NAME\n"
1412 set $kgm_rwlckgrp_ptr = (lck_grp_t *)&lck_grp_queue
1413 set $kgm_rwlckgrp_ptr = (lck_grp_t *)$kgm_rwlckgrp_ptr->lck_grp_link.next
1414 while ($kgm_rwlckgrp_ptr != (lck_grp_t *)&lck_grp_queue)
1415 showrwlckgrp $kgm_rwlckgrp_ptr
1416 set $kgm_rwlckgrp_ptr = (lck_grp_t *)$kgm_rwlckgrp_ptr->lck_grp_link.next
1417 end
1418 printf "\n"
1419 end
1420 document showallrwlck
1421 | Routine to print a summary listing of all read/writer locks
1422 | The following is the syntax:
1423 | (gdb) showallrwlck
1424 end
1425
1426 set $kdp_act_counter = 0
1427
1428 define switchtoact
1429 if ($kgm_mtype == 18)
1430 if ($kdp_act_counter == 0)
1431 set $kdpstate = (struct savearea *) kdp.saved_state
1432 end
1433 set $kdp_act_counter = $kdp_act_counter + 1
1434 set $newact = (struct thread *) $arg0
1435 if ($newact->kernel_stack == 0)
1436 echo This activation does not have a stack.\n
1437 echo continuation:
1438 output/a (unsigned) $newact.continuation
1439 echo \n
1440 else
1441 set (struct savearea *) kdp.saved_state=$newact->machine->pcb
1442 flush
1443 set $pc=$newact->machine->pcb.save_srr0
1444 update
1445 end
1446 else
1447 echo switchtoact not implemented for this architecture.\n
1448 end
1449 end
1450
1451 document switchtoact
1452 Syntax: switchtoact <address of activation>
1453 | This command allows gdb to examine the execution context and call
1454 | stack for the specified activation. For example, to view the backtrace
1455 | for an activation issue "switchtoact <address>", followed by "bt".
1456 | Before resuming execution, issue a "resetctx" command, to
1457 | return to the original execution context.
1458 end
1459
1460 define switchtoctx
1461 if ($kgm_mtype == 18)
1462 if ($kdp_act_counter == 0)
1463 set $kdpstate = (struct savearea *) kdp.saved_state
1464 end
1465 set $kdp_act_counter = $kdp_act_counter + 1
1466 set (struct savearea *) kdp.saved_state=(struct savearea *) $arg0
1467 flush
1468 set $pc=((struct savearea *) $arg0)->save_srr0
1469 update
1470 else
1471 echo switchtoctx not implemented for this architecture.\n
1472 end
1473 end
1474
1475 document switchtoctx
1476 Syntax: switchtoctx <address of pcb>
1477 | This command allows gdb to examine an execution context and dump the
1478 | backtrace for this execution context.
1479 | Before resuming execution, issue a "resetctx" command, to
1480 | return to the original execution context.
1481 end
1482
1483 define resetctx
1484 if ($kgm_mtype == 18)
1485 set (struct savearea *)kdp.saved_state=$kdpstate
1486 flush
1487 set $pc=((struct savearea *) kdp.saved_state)->save_srr0
1488 update
1489 set $kdp_act_counter = 0
1490 else
1491 echo resetctx not implemented for this architecture.\n
1492 end
1493 end
1494
1495 document resetctx
1496 | Syntax: resetctx
1497 | Returns to the original execution context. This command should be
1498 | issued if you wish to resume execution after using the "switchtoact"
1499 | or "switchtoctx" commands.
1500 end
1501
1502 define resume_on
1503 set noresume_on_disconnect = 0
1504 end
1505
1506 document resume_on
1507 | Syntax: resume_on
1508 | The target system will resume when detaching or exiting from gdb.
1509 | This is the default behavior.
1510 end
1511
1512 define resume_off
1513 set noresume_on_disconnect = 1
1514 end
1515
1516 document resume_off
1517 | Syntax: resume_off
1518 | The target system won't resume after detaching from gdb and
1519 | can be attached with a new gdb session
1520 end
1521
1522 define paniclog
1523 set $kgm_panic_bufptr = debug_buf
1524 set $kgm_panic_bufptr_max = debug_buf_ptr
1525 while $kgm_panic_bufptr < $kgm_panic_bufptr_max
1526 if *(char *)$kgm_panic_bufptr == 10
1527 printf "\n"
1528 else
1529 printf "%c", *$kgm_panic_bufptr
1530 end
1531 set $kgm_panic_bufptr= (char *)$kgm_panic_bufptr + 1
1532 end
1533 end
1534
1535 document paniclog
1536 | Syntax: paniclog
1537 | Display the panic log information
1538 |
1539 end
1540
1541 define dumpcallqueue
1542 set $kgm_callhead = (queue_t)&$arg0
1543 set $kgm_call = (struct call_entry *)$kgm_callhead.next
1544 set $kgm_i = 0
1545 while $kgm_call != $kgm_callhead
1546 printf "0x%08x ", $kgm_call
1547 printf "0x%08x 0x%08x ", $kgm_call->param0, $kgm_call->param1
1548 output $kgm_call->state
1549 printf "\t"
1550 output $kgm_call->deadline
1551 printf "\t"
1552 output $kgm_call->func
1553 printf "\n"
1554 set $kgm_i = $kgm_i + 1
1555 set $kgm_call = (struct call_entry *)$kgm_call->q_link.next
1556 end
1557 printf "%d entries\n", $kgm_i
1558 end
1559
1560 document dumpcallqueue
1561 | Syntax: dumpcallqueue <queue head>
1562 | Displays the contents of the specified call_entry queue.
1563 end
1564
1565 define showtaskacts
1566 showtaskthreads $arg0
1567 end
1568 document showtaskacts
1569 | See help showtaskthreads.
1570 end
1571
1572 define showallacts
1573 showallthreads
1574 end
1575 document showallacts
1576 | See help showallthreads.
1577 end
1578
1579
1580 define resetstacks
1581 _kgm_flush_loop
1582 set kdp_pmap = 0
1583 _kgm_flush_loop
1584 resetctx
1585 _kgm_flush_loop
1586 _kgm_update_loop
1587 resetctx
1588 _kgm_update_loop
1589 end
1590
1591 document resetstacks
1592 | Syntax: resetstacks
1593 | Internal kgmacro routine used by the "showuserstack" macro
1594 | to reset the target pmap to the kernel pmap.
1595 end
1596
1597 #Barely effective hacks to work around bugs in the "flush" and "update"
1598 #gdb commands in Tiger (up to 219); these aren't necessary with Panther
1599 #gdb, but do no harm.
1600 define _kgm_flush_loop
1601 set $kgm_flush_loop_ctr = 0
1602 while ($kgm_flush_loop_ctr < 30)
1603 flush
1604 set $kgm_flush_loop_ctr = $kgm_flush_loop_ctr + 1
1605 end
1606 end
1607
1608 define _kgm_update_loop
1609 set $kgm_update_loop_ctr = 0
1610 while ($kgm_update_loop_ctr < 30)
1611 update
1612 set $kgm_update_loop_ctr = $kgm_update_loop_ctr + 1
1613 end
1614 end
1615
1616 define showuserstack
1617 if ($kgm_mtype == 18)
1618 if ($kdp_act_counter == 0)
1619 set $kdpstate = (struct savearea *) kdp.saved_state
1620 end
1621 set $kdp_act_counter = $kdp_act_counter + 1
1622 set $newact = (struct thread *) $arg0
1623 _kgm_flush_loop
1624 set $checkpc = $newact->machine->upcb.save_srr0
1625 if ($checkpc == 0)
1626 echo This activation does not appear to have
1627 echo \20 a valid user context.\n
1628 else
1629 set (struct savearea *) kdp.saved_state=$newact->machine->upcb
1630 set $pc = $checkpc
1631 #flush and update seem to be executed lazily by gdb on Tiger, hence the
1632 #repeated invocations - see 3743135
1633 _kgm_flush_loop
1634 # This works because the new pmap is used only for reads
1635 set kdp_pmap = $newact->task->map->pmap
1636 _kgm_flush_loop
1637 _kgm_update_loop
1638 bt
1639 resetstacks
1640 _kgm_flush_loop
1641 _kgm_update_loop
1642 resetstacks
1643 _kgm_flush_loop
1644 _kgm_update_loop
1645 end
1646 else
1647 echo showuserstack not implemented for this architecture.\n
1648 end
1649 end
1650
1651 document showuserstack
1652 Syntax: showuserstack <address of thread activation>
1653 |This command displays a numeric backtrace for the user space stack of
1654 |the given thread activation. It may, of course, fail to display a
1655 |complete backtrace if portions of the user stack are not mapped in.
1656 |Symbolic backtraces can be obtained either by running gdb on the
1657 |user space binary, or a tool such as "symbolicate".
1658 |Note that while this command works on Panther's gdb, an issue
1659 |with Tiger gdb (3743135) appears to hamper the evaluation of this
1660 |macro in some cases.
1661 end
1662
1663 #Stopgap until gdb can generate the HOSTREBOOT packet
1664 define kdp-reboot
1665 set flag_kdp_trigger_reboot = 1
1666 continue
1667 end
1668
1669 document kdp-reboot
1670 Syntax: kdp-reboot
1671 |Reboot the remote target machine; not guaranteed to succeed. Requires symbols
1672 |until gdb support for the HOSTREBOOT packet is implemented.
1673 end
1674
1675 define sendcore
1676 set kdp_trigger_core_dump = 1
1677 set kdp_flag |= 0x40
1678 set panicd_ip_str = "$arg0"
1679 set panicd_specified = 1
1680 set disableDebugOuput = 0
1681 set disableConsoleOutput = 0
1682 set logPanicDataToScreen = 1
1683 set reattach_wait = 1
1684 resume_off
1685 end
1686
1687 document sendcore
1688 Syntax: sendcore <IP address>
1689 |Configure the kernel to transmit a kernel coredump to a server (kdumpd)
1690 |at the specified IP address. This is useful when the remote target has
1691 |not been previously configured to transmit coredumps, and you wish to
1692 |preserve kernel state for later examination. NOTE: You must issue a "continue"
1693 |command after using this macro to trigger the kernel coredump. The kernel
1694 |will resume waiting in the debugger after completion of the coredump. You
1695 |may disable coredumps by executing the "disablecore" macro.
1696 end
1697
1698 define disablecore
1699 set kdp_trigger_core_dump = 0
1700 set kdp_flag |= 0x40
1701 set kdp_flag &= ~0x10
1702 set panicd_specified = 0
1703 end
1704
1705 document disablecore
1706 Syntax: disablecore
1707 |Reconfigures the kernel so that it no longer transmits kernel coredumps. This
1708 |complements the "sendcore" macro, but it may be used if the kernel has been
1709 |configured to transmit coredumps through boot-args as well.
1710 end
1711
1712 #Use of this macro requires the gdb submission from 3401283
1713 define switchtocorethread
1714 if ($kgm_mtype == 18)
1715 if ($kdp_act_counter == 0)
1716 set $kdpstate = (struct savearea *) kdp.saved_state
1717 end
1718 set $kdp_act_counter = $kdp_act_counter + 1
1719 set $newact = (struct thread *) $arg0
1720 if ($newact->kernel_stack == 0)
1721 echo This thread does not have a stack.\n
1722 echo continuation:
1723 output/a (unsigned) $newact.continuation
1724 echo \n
1725 else
1726 loadcontext $newact->machine->pcb
1727 # flushstack will be introduced in a gdb version > gdb-357
1728 flushstack
1729 set $pc = $newact->machine->pcb.save_srr0
1730 end
1731 else
1732 echo switchtocorethread not implemented for this architecture.\n
1733 end
1734 end
1735
1736 document switchtocorethread
1737 Syntax: switchtocorethread <address of activation>
1738 | The corefile equivalent of "switchtoact". When debugging a kernel coredump
1739 | file, this command can be used to examine the execution context and stack
1740 | trace for a given thread activation. For example, to view the backtrace
1741 | for a thread issue "switchtocorethread <address>", followed by "bt".
1742 | Before resuming execution, issue a "resetcorectx" command, to
1743 | return to the original execution context. Note that this command
1744 | requires gdb support, as documented in Radar 3401283.
1745 end
1746
1747 define loadcontext
1748 set $pc = $arg0.save_srr0
1749 set $r1 = $arg0.save_r1
1750 set $lr = $arg0.save_lr
1751
1752 set $r2 = $arg0.save_r2
1753 set $r3 = $arg0.save_r3
1754 set $r4 = $arg0.save_r4
1755 set $r5 = $arg0.save_r5
1756 set $r6 = $arg0.save_r6
1757 set $r7 = $arg0.save_r7
1758 set $r8 = $arg0.save_r8
1759 set $r9 = $arg0.save_r9
1760 set $r10 = $arg0.save_r10
1761 set $r11 = $arg0.save_r11
1762 set $r12 = $arg0.save_r12
1763 set $r13 = $arg0.save_r13
1764 set $r14 = $arg0.save_r14
1765 set $r15 = $arg0.save_r15
1766 set $r16 = $arg0.save_r16
1767 set $r17 = $arg0.save_r17
1768 set $r18 = $arg0.save_r18
1769 set $r19 = $arg0.save_r19
1770 set $r20 = $arg0.save_r20
1771 set $r21 = $arg0.save_r21
1772 set $r22 = $arg0.save_r22
1773 set $r23 = $arg0.save_r23
1774 set $r24 = $arg0.save_r24
1775 set $r25 = $arg0.save_r25
1776 set $r26 = $arg0.save_r26
1777 set $r27 = $arg0.save_r27
1778 set $r28 = $arg0.save_r28
1779 set $r29 = $arg0.save_r29
1780 set $r30 = $arg0.save_r30
1781 set $r31 = $arg0.save_r31
1782
1783 set $cr = $arg0.save_cr
1784 set $ctr = $arg0.save_ctr
1785 end
1786
1787 define resetcorectx
1788 set $kgm_corecontext = (struct savearea *) kdp.saved_state
1789 loadcontext $kgm_corecontext
1790 # Maintaining this act counter wouldn't be necessary if we just initialized
1791 # $kdpstate at the beginning of the macro..
1792 set $kdp_act_counter = 0
1793 end
1794
1795 document resetcorectx
1796 Syntax: resetcorectx
1797 | The corefile equivalent of "resetctx". Returns to the original
1798 | execution context (that of the active thread at the time of the NMI or
1799 | panic). This command should be issued if you wish to resume
1800 | execution after using the "switchtocorethread" command.
1801 end
1802
1803 #Helper function for "showallgdbstacks"
1804
1805 define showgdbthread
1806 printf " 0x%08x ", $arg0
1807 set $kgm_thread = *(struct thread *)$arg0
1808 printf "0x%08x ", $arg0
1809 printf "%3d ", $kgm_thread.sched_pri
1810 set $kgm_state = $kgm_thread.state
1811 if $kgm_state & 0x80
1812 printf "I"
1813 end
1814 if $kgm_state & 0x40
1815 printf "P"
1816 end
1817 if $kgm_state & 0x20
1818 printf "A"
1819 end
1820 if $kgm_state & 0x10
1821 printf "H"
1822 end
1823 if $kgm_state & 0x08
1824 printf "U"
1825 end
1826 if $kgm_state & 0x04
1827 printf "R"
1828 end
1829 if $kgm_state & 0x02
1830 printf "S"
1831 end
1832 if $kgm_state & 0x01
1833 printf "W\t"
1834 printf "0x%08x ", $kgm_thread.wait_queue
1835 output /a (unsigned) $kgm_thread.wait_event
1836 end
1837 if $arg1 != 0
1838 if ($kgm_thread.kernel_stack != 0)
1839 if ($kgm_thread.reserved_stack != 0)
1840 printf "\n\t\treserved_stack=0x%08x", $kgm_thread.reserved_stack
1841 end
1842 printf "\n\t\tkernel_stack=0x%08x", $kgm_thread.kernel_stack
1843 if ($kgm_mtype == 18)
1844 set $mysp = $kgm_thread.machine.pcb->save_r1
1845 else
1846 set $kgm_statep = (struct i386_kernel_state *) \
1847 ($kgm_thread->kernel_stack + 0x4000 \
1848 - sizeof(struct i386_kernel_state))
1849 set $mysp = $kgm_statep->k_ebp
1850 end
1851 set $prevsp = 0
1852 printf "\n\t\tstacktop=0x%08x", $mysp
1853 switchtoact $arg0
1854 bt
1855 else
1856 printf "\n\t\t\tcontinuation="
1857 output /a (unsigned) $kgm_thread.continuation
1858 end
1859 printf "\n"
1860 else
1861 printf "\n"
1862 end
1863 end
1864
1865 #Use of this macro is currently (8/04) blocked by the fact that gdb
1866 #stops evaluating macros when encountering an error, such as a failure
1867 #to read memory from a certain location. Until this issue (described in
1868 #3758949) is addressed, evaluation of this macro may stop upon
1869 #encountering such an error.
1870
1871 define showallgdbstacks
1872 set $kgm_head_taskp = &default_pset.tasks
1873 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
1874 while $kgm_taskp != $kgm_head_taskp
1875 showtaskheader
1876 showtaskint $kgm_taskp
1877 set $kgm_head_actp = &($kgm_taskp->threads)
1878 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
1879 while $kgm_actp != $kgm_head_actp
1880 showactheader
1881 showgdbthread $kgm_actp 1
1882 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
1883 end
1884 printf "\n"
1885 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
1886 end
1887 resetctx
1888 end
1889
1890 document showallgdbstacks
1891 Syntax: showallgdbstacks
1892 | An alternative to "showallstacks". Iterates through the task list and
1893 | displays a gdb generated backtrace for each kernel thread. It is
1894 | advantageous in that it is much faster than "showallstacks", and
1895 | decodes function call arguments and displays source level traces, but
1896 | it has the drawback that it doesn't determine if frames belong to
1897 | functions from kernel extensions, as with "showallstacks".
1898 | This command may terminate prematurely because of a gdb bug
1899 | (Radar 3758949), which stops macro evaluation on memory read
1900 | errors.
1901 end
1902
1903 define switchtouserthread
1904 if ($kgm_mtype == 18)
1905 if ($kdp_act_counter == 0)
1906 set $kdpstate = (struct savearea *) kdp.saved_state
1907 end
1908 set $kdp_act_counter = $kdp_act_counter + 1
1909 set $newact = (struct thread *) $arg0
1910 _kgm_flush_loop
1911 set $checkpc = $newact->machine->upcb.save_srr0
1912 if ($checkpc == 0)
1913 echo This activation does not appear to have
1914 echo \20 a valid user context.\n
1915 else
1916 set (struct savearea *) kdp.saved_state=$newact->machine->upcb
1917 set $pc = $checkpc
1918 #flush and update seem to be executed lazily by gdb on Tiger, hence the
1919 #repeated invocations - see 3743135
1920 _kgm_flush_loop
1921 # This works because the new pmap is used only for reads
1922 set kdp_pmap = $newact->task->map->pmap
1923 _kgm_flush_loop
1924 _kgm_update_loop
1925 end
1926 else
1927 echo switchtouserthread not implemented for this architecture.\n
1928 end
1929 end
1930
1931 document switchtouserthread
1932 Syntax: switchtouserthread <address of thread>
1933 | Analogous to switchtoact, but switches to the user context of a
1934 | specified thread address. Similar to the "showuserstack"
1935 | command, but this command does not return gdb to the kernel context
1936 | immediately. This is to assist with the following (rather risky)
1937 | manoeuvre - upon switching to the user context and virtual address
1938 | space, the user may choose to call remove-symbol-file on the
1939 | mach_kernel symbol file, and then add-symbol-file on the user space
1940 | binary's symfile. gdb can then generate symbolic backtraces
1941 | for the user space thread. To return to the
1942 | kernel context and virtual address space, the process must be
1943 | reversed, i.e. call remove-symbol-file on the user space symbols, and
1944 | then add-symbol-file on the appropriate mach_kernel, and issue the
1945 | "resetstacks" command. Note that gdb may not react kindly to all these
1946 | symbol file switches. The same restrictions that apply to "showuserstack"
1947 | apply here - pages that have been paged out cannot be read while in the
1948 | debugger context, so backtraces may terminate early.
1949 | If the virtual addresses in the stack trace do not conflict with those
1950 | of symbols in the kernel's address space, it may be sufficient to
1951 | just do an add-symbol-file on the user space binary's symbol file.
1952 | Note that while this command works on Panther's gdb, an issue
1953 | with Tiger gdb (3743135) appears to hamper the evaluation of this
1954 | macro in some cases.
1955 end
1956
1957 define showmetaclass
1958 set cp-abi gnu-v2
1959 set $kgm_metaclassp = (OSMetaClass *)$arg0
1960 printf "%-5d", $kgm_metaclassp->instanceCount
1961 printf "x %5d bytes", $kgm_metaclassp->classSize
1962 printf " %s\n", $kgm_metaclassp->className->string
1963 end
1964
1965 define showallclasses
1966 set cp-abi gnu-v2
1967 set $kgm_classidx = 0
1968 while $kgm_classidx < sAllClassesDict->count
1969 set $kgm_meta = (OSMetaClass *) sAllClassesDict->dictionary[$kgm_classidx].value
1970 showmetaclass $kgm_meta
1971 set $kgm_classidx = $kgm_classidx + 1
1972 end
1973 end
1974 document showallclasses
1975 | Show the instance counts and ivar size of all OSObject subclasses. See ioclasscount man page for details.
1976 | The following is the syntax:
1977 | (gdb) showallclasses
1978 end
1979
1980 define showioalloc
1981 printf " Instance allocation = 0x%08lx = %4ld K\n", (int) debug_ivars_size, ((int) debug_ivars_size) / 1024
1982 printf "Container allocation = 0x%08lx = %4ld K\n", (int) debug_container_malloc_size, ((int) debug_container_malloc_size) / 1024
1983 printf " IOMalloc allocation = 0x%08lx = %4ld K\n", (int) debug_iomalloc_size, ((int) debug_iomalloc_size) / 1024
1984 printf " Pageable allocation = 0x%08lx = %4ld K\n", (vm_size_t) debug_iomallocpageable_size, ((vm_size_t) debug_iomallocpageable_size) / 1024
1985 end
1986
1987 document showioalloc
1988 | Show some accounting of memory allocated by IOKit allocators. See ioalloccount man page for details.
1989 | The following is the syntax:
1990 | (gdb) showioalloc
1991 end