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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
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9set print asm-demangle on
10set cp-abi gnu-v2
9bccf70c 11
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12echo Loading Kernel GDB Macros package. Type "help kgm" for more info.\n
13
14define kgm
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15printf ""
16echo These are the gdb macros for kernel debugging. Type "help kgm" for more info.\n
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17end
18
19document kgm
20| These are the kernel gdb macros. These gdb macros are intended to be
21| used when debugging a remote kernel via the kdp protocol. Typically, you
22| would connect to your remote target like so:
23| (gdb) target remote-kdp
24| (gdb) attach <name-of-remote-host>
25|
26| The following macros are available in this package:
91447636 27| showversion Displays a string describing the remote kernel version
1c79356b 28|
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29| showalltasks Display a summary listing of all tasks
30| showallthreads Display info about all threads in the system
31| showallstacks Display the stack for each thread in the system
32| showcurrentthreads Display info about the thread running on each cpu
33| showcurrentstacks Display the stack for the thread running on each cpu
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34| showallvm Display a summary listing of all the vm maps
35| showallvme Display a summary listing of all the vm map entries
36| showallipc Display a summary listing of all the ipc spaces
37| showallrights Display a summary listing of all the ipc rights
38| showallkmods Display a summary listing of all the kernel modules
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39|
40| showallclasses Display info about all OSObject subclasses in the system
41| showobject Show info about an OSObject - its vtable ptr and retain count, & more info for simple container classes.
42| showregistry Show info about all registry entries in the current plane
43| showregistryprops Show info about all registry entries in the current plane, and their properties
44| showregistryentry Show info about a registry entry; its properties and descendants in the current plane
45| setregistryplane Set the plane to be used for the iokit registry macros (pass zero for list)
1c79356b 46|
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47| showtask Display info about the specified task
48| showtaskthreads Display info about the threads in the task
49| showtaskstacks Display the stack for each thread in the task
50| showtaskvm Display info about the specified task's vm_map
51| showtaskvme Display info about the task's vm_map entries
52| showtaskipc Display info about the specified task's ipc space
53| showtaskrights Display info about the task's ipc space entries
1c79356b 54|
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55| showact Display info about a thread specified by activation
56| showactstack Display the stack for a thread specified by activation
1c79356b 57|
55e303ae 58| showmap Display info about the specified vm_map
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59| showmapvme Display a summary list of the specified vm_map's entries
60|
55e303ae 61| showipc Display info about the specified ipc space
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62| showrights Display a summary list of all the rights in an ipc space
63|
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64| showpid Display info about the process identified by pid
65| showproc Display info about the process identified by proc struct
1c79356b 66|
55e303ae 67| showkmod Display info about a kernel module
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68| showkmodaddr Given an address, display the kernel module and offset
69|
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70| dumpcallqueue Dump out all the entries given a queue head
71|
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72| showallmtx Display info about mutexes usage
73| showallrwlck Display info about reader/writer locks usage
74|
55e303ae 75| zprint Display info about the memory zones
91447636 76| showioalloc Display info about iokit allocations
55e303ae 77| paniclog Display the panic log info
9bccf70c 78|
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79| switchtoact Switch to different context specified by activation
80| switchtoctx Switch to different context
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81| showuserstack Display numeric backtrace of the user stack for an
82| activation
83|
84| switchtouserthread Switch to the user context of the specified thread
85| resetstacks Return to the original kernel context
86|
9bccf70c 87| resetctx Reset context
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88| resume_on Resume when detaching from gdb
89| resume_off Don't resume when detaching from gdb
1c79356b 90|
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91| sendcore Configure kernel to send a coredump to the specified IP
92| disablecore Configure the kernel to disable coredump transmission
93| switchtocorethread Corefile version of "switchtoact"
94| resetcorectx Corefile version of "resetctx"
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95|
96| readphys Reads the specified untranslated address
97| readphys64 Reads the specified untranslated 64-bit address
98|
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99| kdp-reboot Restart remote target
100|
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101| Type "help <macro>" for more specific help on a particular macro.
102| Type "show user <macro>" to see what the macro is really doing.
103end
104
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105# This macro should appear before any symbol references, to facilitate
106# a gdb "source" without a loaded symbol file.
107define showversion
108 printf "%s\n", *(char **)0x501C
109end
110
111document showversion
112Syntax: showversion
113| Read the kernel version string from a fixed address in low
114| memory. Useful if you don't know which kernel is on the other end,
115| and need to find the appropriate symbols. Beware that if you've
116| loaded a symbol file, but aren't connected to a remote target,
117| the version string from the symbol file will be displayed instead.
118| This macro expects to be connected to the remote kernel to function
119| correctly.
120end
121
122set $kgm_dummy = &proc0
123set $kgm_dummy = &kmod
124set $kgm_mtype = ((struct mach_header)_mh_execute_header).cputype
125
126set $kgm_reg_depth = 0
127set $kgm_reg_plane = (void **) gIOServicePlane
128set $kgm_namekey = (OSSymbol *) 0
129set $kgm_childkey = (OSSymbol *) 0
130
131set $kgm_show_object_addrs = 0
132set $kgm_show_object_retain = 0
133set $kgm_show_props = 0
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134
135define showkmodheader
136 printf "kmod address size "
137 printf "id refs version name\n"
138end
139
140define showkmodint
141 set $kgm_kmodp = (struct kmod_info *)$arg0
142 printf "0x%08x ", $arg0
143 printf "0x%08x ", $kgm_kmodp->address
144 printf "0x%08x ", $kgm_kmodp->size
145 printf "%3d ", $kgm_kmodp->id
146 printf "%5d ", $kgm_kmodp->reference_count
147 printf "%10s ", &$kgm_kmodp->version
148 printf "%s\n", &$kgm_kmodp->name
149end
150
151set $kgm_kmodmin = 0xffffffff
152set $kgm_fkmodmin = 0x00000000
153set $kgm_kmodmax = 0x00000000
154set $kgm_fkmodmax = 0xffffffff
155set $kgm_pkmod = 0
156set $kgm_pkmodst = 0
157set $kgm_pkmoden = 0
4452a7af 158define showkmodaddrint
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159 printf "0x%x" , $arg0
160 if ((unsigned int)$arg0 >= (unsigned int)$kgm_pkmodst) && ((unsigned int)$arg0 <= (unsigned int)$kgm_pkmoden)
161 set $kgm_off = ((unsigned int)$arg0 - (unsigned int)$kgm_pkmodst)
162 printf " <%s + 0x%x>", $kgm_pkmod->name, $kgm_off
163 else
164 if ((unsigned int)$arg0 <= (unsigned int)$kgm_fkmodmax) && ((unsigned int)$arg0 >= (unsigned int)$kgm_fkmodmin)
165 set $kgm_kmodp = (struct kmod_info *)kmod
166 while $kgm_kmodp
167 set $kgm_kmod = *$kgm_kmodp
168 if $kgm_kmod.address && ($kgm_kmod.address < $kgm_kmodmin)
169 set $kgm_kmodmin = $kgm_kmod.address
170 end
171 if ($kgm_kmod.address + $kgm_kmod.size) > $kgm_kmodmax
4452a7af 172 set $kgm_kmodmax = $kgm_kmod.address + $kgm_kmod.size
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173 end
174 set $kgm_off = ((unsigned int)$arg0 - (unsigned int)$kgm_kmod.address)
175 if ($kgm_kmod.address <= $arg0) && ($kgm_off <= $kgm_kmod.size)
176 printf " <%s + 0x%x>", $kgm_kmodp->name, $kgm_off
177 set $kgm_pkmod = $kgm_kmodp
178 set $kgm_pkmodst = $kgm_kmod.address
179 set $kgm_pkmoden = $kgm_pkmodst + $kgm_kmod.size
180 set $kgm_kmodp = 0
181 else
182 set $kgm_kmodp = $kgm_kmod.next
183 end
184 end
185 if !$kgm_pkmod
186 set $kgm_fkmodmin = $kgm_kmodmin
187 set $kgm_fkmodmax = $kgm_kmodmax
188 end
189 end
190 end
191end
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192
193define showkmodaddr
194 showkmodaddrint $arg0
195 printf "\n"
196end
197
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198document showkmodaddr
199| Given an address, print the offset and name for the kmod containing it
200| The following is the syntax:
201| (gdb) showkmodaddr <addr>
202end
203
204define showkmod
205 showkmodheader
206 showkmodint $arg0
207end
208document showkmod
209| Routine to print info about a kernel module
210| The following is the syntax:
211| (gdb) showkmod <kmod>
212end
213
214define showallkmods
215 showkmodheader
216 set $kgm_kmodp = (struct kmod_info *)kmod
217 while $kgm_kmodp
218 showkmodint $kgm_kmodp
219 set $kgm_kmodp = $kgm_kmodp->next
220 end
221end
222document showallkmods
223| Routine to print a summary listing of all the kernel modules
224| The following is the syntax:
225| (gdb) showallkmods
226end
227
228define showactheader
229 printf " activation "
230 printf "thread pri state wait_queue wait_event\n"
231end
232
233
234define showactint
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235 printf " 0x%08x ", $arg0
236 set $kgm_thread = *(struct thread *)$arg0
237 printf "0x%08x ", $arg0
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238 printf "%3d ", $kgm_thread.sched_pri
239 set $kgm_state = $kgm_thread.state
240 if $kgm_state & 0x80
241 printf "I"
242 end
243 if $kgm_state & 0x40
244 printf "P"
245 end
246 if $kgm_state & 0x20
247 printf "A"
248 end
249 if $kgm_state & 0x10
250 printf "H"
251 end
252 if $kgm_state & 0x08
253 printf "U"
254 end
255 if $kgm_state & 0x04
256 printf "R"
257 end
258 if $kgm_state & 0x02
259 printf "S"
260 end
261 if $kgm_state & 0x01
262 printf "W\t"
263 printf "0x%08x ", $kgm_thread.wait_queue
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264 if (((unsigned)$kgm_thread.wait_event > (unsigned)sectPRELINKB) \
265 && ($arg1 != 2))
266 showkmodaddr $kgm_thread.wait_event
267 else
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268 output /a (unsigned) $kgm_thread.wait_event
269 end
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270 end
271 if $arg1 != 0
272 if ($kgm_thread.kernel_stack != 0)
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273 if ($kgm_thread.reserved_stack != 0)
274 printf "\n\t\treserved_stack=0x%08x", $kgm_thread.reserved_stack
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275 end
276 printf "\n\t\tkernel_stack=0x%08x", $kgm_thread.kernel_stack
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277 if ($kgm_mtype == 18)
278 set $mysp = $kgm_thread.machine.pcb->save_r1
55e303ae 279 else
4452a7af 280 set $kgm_statep = (struct x86_kernel_state32 *) \
91447636 281 ($kgm_thread->kernel_stack + 0x4000 \
4452a7af 282 - sizeof(struct x86_kernel_state32))
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283 set $mysp = $kgm_statep->k_ebp
284 end
4452a7af 285 set $prevsp = $mysp - 16
1c79356b 286 printf "\n\t\tstacktop=0x%08x", $mysp
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287 if ($kgm_mtype == 18)
288 set $stkmask = 0xf
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289 else
290 set $stkmask = 0x3
91447636 291 end
4452a7af 292 set $kgm_return = 0
91447636 293 while ($mysp != 0) && (($mysp & $stkmask) == 0) \
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294 && ($mysp != $prevsp) \
295 && ((((unsigned) $mysp ^ (unsigned) $prevsp) < 0x2000) \
296 || (((unsigned)$mysp < ((unsigned) ($kgm_thread->kernel_stack+0x4000))) \
297 && ((unsigned)$mysp > (unsigned) ($kgm_thread->kernel_stack))))
298
299 if ((unsigned) $kgm_return > (unsigned) sectPRELINKB)
300 showkmodaddr $kgm_return
301 else
302 if ((unsigned) $kgm_return > 0)
303 output /a (unsigned) $kgm_return
304 end
305 end
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306 printf "\n\t\t0x%08x ", $mysp
307 if ($kgm_mtype == 18)
308 set $kgm_return = *($mysp + 8)
309 else
310 set $kgm_return = *($mysp + 4)
311 end
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312 set $prevsp = $mysp
313 set $mysp = * $mysp
1c79356b 314 end
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315 if ((unsigned) $kgm_return > 0)
316 output/a $kgm_return
317 end
318 set $kgm_return = 0
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319 printf "\n\t\tstackbottom=0x%08x", $prevsp
320 else
321 printf "\n\t\t\tcontinuation="
91447636 322 output /a (unsigned) $kgm_thread.continuation
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323 end
324 printf "\n"
325 else
326 printf "\n"
327 end
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328end
329
330define showact
331 showactheader
332 showactint $arg0 0
333end
334document showact
55e303ae 335| Routine to print out the state of a specific thread.
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336| The following is the syntax:
337| (gdb) showact <activation>
338end
339
340
341define showactstack
342 showactheader
343 showactint $arg0 1
344end
345document showactstack
55e303ae 346| Routine to print out the stack of a specific thread.
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347| The following is the syntax:
348| (gdb) showactstack <activation>
349end
350
351
55e303ae 352define showallthreads
1c79356b 353 set $kgm_head_taskp = &default_pset.tasks
9bccf70c 354 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
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355 while $kgm_taskp != $kgm_head_taskp
356 showtaskheader
357 showtaskint $kgm_taskp
358 showactheader
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359 set $kgm_head_actp = &($kgm_taskp->threads)
360 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
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361 while $kgm_actp != $kgm_head_actp
362 showactint $kgm_actp 0
55e303ae 363 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
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364 end
365 printf "\n"
9bccf70c 366 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
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367 end
368end
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369document showallthreads
370| Routine to print out info about all threads in the system.
371| The following is the syntax:
372| (gdb) showallthreads
373end
374
375define showcurrentthreads
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376set $kgm_prp = processor_list
377 while $kgm_prp != 0
378 if ($kgm_prp)->active_thread != 0
379 set $kgm_actp = ($kgm_prp)->active_thread
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380 showtaskheader
381 showtaskint ($kgm_actp)->task
382 showactheader
383 showactint $kgm_actp 0
384 printf "\n"
385 end
91447636 386 set $kgm_prp = ($kgm_prp)->processor_list
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387 end
388end
389document showcurrentthreads
390| Routine to print out info about the thread running on each cpu.
1c79356b 391| The following is the syntax:
55e303ae 392| (gdb) showcurrentthreads
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393end
394
4452a7af 395set $decode_wait_events = 0
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396define showallstacks
397 set $kgm_head_taskp = &default_pset.tasks
9bccf70c 398 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
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399 while $kgm_taskp != $kgm_head_taskp
400 showtaskheader
401 showtaskint $kgm_taskp
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402 set $kgm_head_actp = &($kgm_taskp->threads)
403 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
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404 while $kgm_actp != $kgm_head_actp
405 showactheader
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406 if ($decode_wait_events > 0)
407 showactint $kgm_actp 1
408 else
409 showactint $kgm_actp 2
410 end
55e303ae 411 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
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412 end
413 printf "\n"
9bccf70c 414 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
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415 end
416end
4452a7af 417
1c79356b 418document showallstacks
55e303ae 419| Routine to print out the stack for each thread in the system.
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420| The following is the syntax:
421| (gdb) showallstacks
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422| If the variable $decode_wait_events is non-zero, the routine attempts to
423| interpret thread wait_events as kernel module offsets, which can add to
424| processing time.
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425end
426
55e303ae 427define showcurrentstacks
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428set $kgm_prp = processor_list
429 while $kgm_prp != 0
430 if ($kgm_prp)->active_thread != 0
431 set $kgm_actp = ($kgm_prp)->active_thread
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432 showtaskheader
433 showtaskint ($kgm_actp)->task
434 showactheader
435 showactint $kgm_actp 1
436 printf "\n"
437 end
91447636 438 set $kgm_prp = ($kgm_prp)->processor_list
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439 end
440end
4452a7af 441
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442document showcurrentstacks
443| Routine to print out the thread running on each cpu (incl. its stack)
444| The following is the syntax:
445| (gdb) showcurrentstacks
446end
447
9bccf70c
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448define showwaiterheader
449 printf "waiters activation "
450 printf "thread pri state wait_queue wait_event\n"
451end
452
453define showwaitqwaiters
454 set $kgm_w_waitqp = (struct wait_queue *)$arg0
455 set $kgm_w_linksp = &($kgm_w_waitqp->wq_queue)
456 set $kgm_w_wqe = (struct wait_queue_element *)$kgm_w_linksp->next
457 set $kgm_w_found = 0
458 while ( (queue_entry_t)$kgm_w_wqe != (queue_entry_t)$kgm_w_linksp)
459 if ($kgm_w_wqe->wqe_type != &_wait_queue_link)
460 if !$kgm_w_found
461 set $kgm_w_found = 1
462 showwaiterheader
463 end
55e303ae 464 set $kgm_w_shuttle = (struct thread *)$kgm_w_wqe
91447636 465 showactint $kgm_w_shuttle 0
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466 end
467 set $kgm_w_wqe = (struct wait_queue_element *)$kgm_w_wqe->wqe_links.next
468 end
469end
470
471define showwaitqwaitercount
472 set $kgm_wc_waitqp = (struct wait_queue *)$arg0
473 set $kgm_wc_linksp = &($kgm_wc_waitqp->wq_queue)
474 set $kgm_wc_wqe = (struct wait_queue_element *)$kgm_wc_linksp->next
475 set $kgm_wc_count = 0
476 while ( (queue_entry_t)$kgm_wc_wqe != (queue_entry_t)$kgm_wc_linksp)
477 if ($kgm_wc_wqe->wqe_type != &_wait_queue_link)
478 set $kgm_wc_count = $kgm_wc_count + 1
479 end
480 set $kgm_wc_wqe = (struct wait_queue_element *)$kgm_wc_wqe->wqe_links.next
481 end
482 printf "0x%08x ", $kgm_wc_count
483end
484
1c79356b 485define showwaitqmembercount
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486 set $kgm_mc_waitqsetp = (struct wait_queue_set *)$arg0
487 set $kgm_mc_setlinksp = &($kgm_mc_waitqsetp->wqs_setlinks)
488 set $kgm_mc_wql = (struct wait_queue_link *)$kgm_mc_setlinksp->next
489 set $kgm_mc_count = 0
490 while ( (queue_entry_t)$kgm_mc_wql != (queue_entry_t)$kgm_mc_setlinksp)
491 set $kgm_mc_count = $kgm_mc_count + 1
492 set $kgm_mc_wql = (struct wait_queue_link *)$kgm_mc_wql->wql_setlinks.next
1c79356b 493 end
9bccf70c 494 printf "0x%08x ", $kgm_mc_count
1c79356b
A
495end
496
497
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498define showwaitqmemberheader
499 printf "set-members wait_queue interlock "
500 printf "pol type member_cnt waiter_cnt\n"
501end
502
1c79356b 503define showwaitqmemberint
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504 set $kgm_m_waitqp = (struct wait_queue *)$arg0
505 printf " 0x%08x ", $kgm_m_waitqp
506 printf "0x%08x ", $kgm_m_waitqp->wq_interlock.lock_data
507 if ($kgm_m_waitqp->wq_fifo)
508 printf "Fifo "
1c79356b 509 else
9bccf70c 510 printf "Prio "
1c79356b 511 end
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512 if ($kgm_m_waitqp->wq_type == 0xf1d1)
513 printf "Set "
514 showwaitqmembercount $kgm_m_waitqp
1c79356b 515 else
9bccf70c 516 printf "Que 0x00000000 "
1c79356b 517 end
9bccf70c 518 showwaitqwaitercount $kgm_m_waitqp
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519 printf "\n"
520end
521
522
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523define showwaitqmemberofheader
524 printf "member-of wait_queue interlock "
525 printf "pol type member_cnt waiter_cnt\n"
526end
527
528define showwaitqmemberof
529 set $kgm_mo_waitqp = (struct wait_queue *)$arg0
530 set $kgm_mo_linksp = &($kgm_mo_waitqp->wq_queue)
531 set $kgm_mo_wqe = (struct wait_queue_element *)$kgm_mo_linksp->next
532 set $kgm_mo_found = 0
533 while ( (queue_entry_t)$kgm_mo_wqe != (queue_entry_t)$kgm_mo_linksp)
534 if ($kgm_mo_wqe->wqe_type == &_wait_queue_link)
535 if !$kgm_mo_found
536 set $kgm_mo_found = 1
537 showwaitqmemberofheader
538 end
539 set $kgm_mo_wqlp = (struct wait_queue_link *)$kgm_mo_wqe
540 set $kgm_mo_wqsetp = (struct wait_queue *)($kgm_mo_wqlp->wql_setqueue)
541 showwaitqmemberint $kgm_mo_wqsetp
542 end
543 set $kgm_mo_wqe = (struct wait_queue_element *)$kgm_mo_wqe->wqe_links.next
544 end
545end
546
1c79356b 547define showwaitqmembers
9bccf70c
A
548 set $kgm_ms_waitqsetp = (struct wait_queue_set *)$arg0
549 set $kgm_ms_setlinksp = &($kgm_ms_waitqsetp->wqs_setlinks)
550 set $kgm_ms_wql = (struct wait_queue_link *)$kgm_ms_setlinksp->next
551 set $kgm_ms_found = 0
552 while ( (queue_entry_t)$kgm_ms_wql != (queue_entry_t)$kgm_ms_setlinksp)
553 set $kgm_ms_waitqp = $kgm_ms_wql->wql_element.wqe_queue
554 if !$kgm_ms_found
1c79356b 555 showwaitqmemberheader
9bccf70c 556 set $kgm_ms_found = 1
1c79356b 557 end
9bccf70c
A
558 showwaitqmemberint $kgm_ms_waitqp
559 set $kgm_ms_wql = (struct wait_queue_link *)$kgm_ms_wql->wql_setlinks.next
1c79356b
A
560 end
561end
562
9bccf70c
A
563define showwaitqheader
564 printf "wait_queue ref_count interlock "
565 printf "pol type member_cnt waiter_cnt\n"
566end
567
568define showwaitqint
569 set $kgm_waitqp = (struct wait_queue *)$arg0
570 printf "0x%08x ", $kgm_waitqp
571 if ($kgm_waitqp->wq_type == 0xf1d1)
572 printf "0x%08x ", ((struct wait_queue_set *)$kgm_waitqp)->wqs_refcount
573 else
574 printf "0x00000000 "
575 end
576 printf "0x%08x ", $kgm_waitqp->wq_interlock.lock_data
577 if ($kgm_waitqp->wq_fifo)
578 printf "Fifo "
579 else
580 printf "Prio "
581 end
582 if ($kgm_waitqp->wq_type == 0xf1d1)
583 printf "Set "
584 showwaitqmembercount $kgm_waitqp
585 else
586 printf "Que 0x00000000 "
587 end
588 showwaitqwaitercount $kgm_waitqp
589 printf "\n"
590end
591
1c79356b 592define showwaitq
9bccf70c 593 set $kgm_waitq1p = (wait_queue_t)$arg0
1c79356b 594 showwaitqheader
9bccf70c
A
595 showwaitqint $kgm_waitq1p
596 if ($kgm_waitq1p->wq_type == 0xf1d1)
597 showwaitqmembers $kgm_waitq1p
598 else
599 showwaitqmemberof $kgm_waitq1p
1c79356b 600 end
9bccf70c 601 showwaitqwaiters $kgm_waitq1p
1c79356b
A
602end
603
604define showmapheader
605 printf "vm_map pmap vm_size "
606 printf "#ents rpage hint first_free\n"
607end
608
609define showvmeheader
91447636
A
610 printf " entry start "
611 printf " prot #page object offset\n"
1c79356b
A
612end
613
614define showvmint
615 set $kgm_mapp = (vm_map_t)$arg0
616 set $kgm_map = *$kgm_mapp
617 printf "0x%08x ", $arg0
618 printf "0x%08x ", $kgm_map.pmap
619 printf "0x%08x ", $kgm_map.size
620 printf "%3d ", $kgm_map.hdr.nentries
91447636
A
621 if $kgm_map.pmap
622 printf "%5d ", $kgm_map.pmap->stats.resident_count
623 else
624 printf "<n/a> "
625 end
1c79356b
A
626 printf "0x%08x ", $kgm_map.hint
627 printf "0x%08x\n", $kgm_map.first_free
628 if $arg1 != 0
629 showvmeheader
630 set $kgm_head_vmep = &($kgm_mapp->hdr.links)
631 set $kgm_vmep = $kgm_map.hdr.links.next
632 while (($kgm_vmep != 0) && ($kgm_vmep != $kgm_head_vmep))
633 set $kgm_vme = *$kgm_vmep
91447636
A
634 printf " 0x%08x ", $kgm_vmep
635 printf "0x%016llx ", $kgm_vme.links.start
1c79356b
A
636 printf "%1x", $kgm_vme.protection
637 printf "%1x", $kgm_vme.max_protection
638 if $kgm_vme.inheritance == 0x0
639 printf "S"
640 end
641 if $kgm_vme.inheritance == 0x1
642 printf "C"
643 end
644 if $kgm_vme.inheritance == 0x2
645 printf "-"
646 end
647 if $kgm_vme.inheritance == 0x3
648 printf "D"
649 end
650 if $kgm_vme.is_sub_map
651 printf "s "
652 else
653 if $kgm_vme.needs_copy
654 printf "n "
655 else
656 printf " "
657 end
658 end
659 printf "%5d ",($kgm_vme.links.end - $kgm_vme.links.start) >> 12
660 printf "0x%08x ", $kgm_vme.object.vm_object
91447636 661 printf "0x%016llx\n", $kgm_vme.offset
1c79356b
A
662 set $kgm_vmep = $kgm_vme.links.next
663 end
664 end
665 printf "\n"
666end
667
668
669define showmapvme
670 showmapheader
671 showvmint $arg0 1
672end
673document showmapvme
674| Routine to print out a summary listing of all the entries in a vm_map
675| The following is the syntax:
676| (gdb) showmapvme <vm_map>
677end
678
679
680define showmap
681 showmapheader
682 showvmint $arg0 0
683end
684document showmap
55e303ae 685| Routine to print out info about the specified vm_map
1c79356b
A
686| The following is the syntax:
687| (gdb) showmap <vm_map>
688end
689
690define showallvm
691 set $kgm_head_taskp = &default_pset.tasks
9bccf70c 692 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
1c79356b
A
693 while $kgm_taskp != $kgm_head_taskp
694 showtaskheader
695 showmapheader
696 showtaskint $kgm_taskp
697 showvmint $kgm_taskp->map 0
9bccf70c 698 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
1c79356b
A
699 end
700end
701document showallvm
702| Routine to print a summary listing of all the vm maps
703| The following is the syntax:
704| (gdb) showallvm
705end
706
707
708define showallvme
709 set $kgm_head_taskp = &default_pset.tasks
9bccf70c 710 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
1c79356b
A
711 while $kgm_taskp != $kgm_head_taskp
712 showtaskheader
713 showmapheader
714 showtaskint $kgm_taskp
715 showvmint $kgm_taskp->map 1
9bccf70c 716 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
1c79356b
A
717 end
718end
719document showallvme
720| Routine to print a summary listing of all the vm map entries
721| The following is the syntax:
722| (gdb) showallvme
723end
724
725
726define showipcheader
727 printf "ipc_space is_table table_next "
728 printf "flags tsize splaytree splaybase\n"
729end
730
731define showipceheader
732 printf " name object "
733 printf "rite urefs destname destination\n"
734end
735
736define showipceint
737 set $kgm_ie = *(ipc_entry_t)$arg0
738 printf " 0x%08x ", $arg1
739 printf "0x%08x ", $kgm_ie.ie_object
740 if $kgm_ie.ie_bits & 0x00100000
741 printf "Dead "
742 printf "%5d\n", $kgm_ie.ie_bits & 0xffff
743 else
744 if $kgm_ie.ie_bits & 0x00080000
745 printf "SET "
746 printf "%5d\n", $kgm_ie.ie_bits & 0xffff
747 else
748 if $kgm_ie.ie_bits & 0x00010000
749 if $kgm_ie.ie_bits & 0x00020000
750 printf " SR"
751 else
752 printf " S"
753 end
754 else
755 if $kgm_ie.ie_bits & 0x00020000
756 printf " R"
757 end
758 end
759 if $kgm_ie.ie_bits & 0x00040000
760 printf " O"
761 end
762 if $kgm_ie.index.request
763 printf "n"
764 else
765 printf " "
766 end
767 if $kgm_ie.ie_bits & 0x00800000
768 printf "c"
769 else
770 printf " "
771 end
772 printf "%5d ", $kgm_ie.ie_bits & 0xffff
773 showportdest $kgm_ie.ie_object
774 end
775 end
776end
777
778define showipcint
779 set $kgm_isp = (ipc_space_t)$arg0
780 set $kgm_is = *$kgm_isp
781 printf "0x%08x ", $arg0
782 printf "0x%08x ", $kgm_is.is_table
783 printf "0x%08x ", $kgm_is.is_table_next
784 if $kgm_is.is_growing != 0
785 printf "G"
786 else
787 printf " "
788 end
789 if $kgm_is.is_fast != 0
790 printf "F"
791 else
792 printf " "
793 end
794 if $kgm_is.is_active != 0
795 printf "A "
796 else
797 printf " "
798 end
799 printf "%5d ", $kgm_is.is_table_size
800 printf "0x%08x ", $kgm_is.is_tree_total
801 printf "0x%08x\n", &$kgm_isp->is_tree
802 if $arg1 != 0
803 showipceheader
804 set $kgm_iindex = 0
805 set $kgm_iep = $kgm_is.is_table
806 set $kgm_destspacep = (ipc_space_t)0
807 while ( $kgm_iindex < $kgm_is.is_table_size )
808 set $kgm_ie = *$kgm_iep
809 if $kgm_ie.ie_bits & 0x001f0000
810 set $kgm_name = (($kgm_iindex << 8)|($kgm_ie.ie_bits >> 24))
811 showipceint $kgm_iep $kgm_name
812 end
813 set $kgm_iindex = $kgm_iindex + 1
814 set $kgm_iep = &($kgm_is.is_table[$kgm_iindex])
815 end
816 if $kgm_is.is_tree_total
817 printf "Still need to write tree traversal\n"
818 end
819 end
820 printf "\n"
821end
822
823
824define showipc
825 set $kgm_isp = (ipc_space_t)$arg0
826 showipcheader
827 showipcint $kgm_isp 0
828end
829document showipc
830| Routine to print the status of the specified ipc space
831| The following is the syntax:
832| (gdb) showipc <ipc_space>
833end
834
835define showrights
836 set $kgm_isp = (ipc_space_t)$arg0
837 showipcheader
838 showipcint $kgm_isp 1
839end
840document showrights
841| Routine to print a summary list of all the rights in a specified ipc space
842| The following is the syntax:
843| (gdb) showrights <ipc_space>
844end
845
846
847define showtaskipc
848 set $kgm_taskp = (task_t)$arg0
849 showtaskheader
850 showipcheader
851 showtaskint $kgm_taskp
852 showipcint $kgm_taskp->itk_space 0
853end
854document showtaskipc
55e303ae 855| Routine to print info about the ipc space for a task
1c79356b
A
856| The following is the syntax:
857| (gdb) showtaskipc <task>
858end
859
860
861define showtaskrights
862 set $kgm_taskp = (task_t)$arg0
863 showtaskheader
864 showipcheader
865 showtaskint $kgm_taskp
866 showipcint $kgm_taskp->itk_space 1
867end
868document showtaskrights
55e303ae 869| Routine to print info about the ipc rights for a task
1c79356b
A
870| The following is the syntax:
871| (gdb) showtaskrights <task>
872end
873
874define showallipc
875 set $kgm_head_taskp = &default_pset.tasks
91447636
A
876 set $kgm_cur_taskp = (struct task *)($kgm_head_taskp->next)
877 while $kgm_cur_taskp != $kgm_head_taskp
1c79356b
A
878 showtaskheader
879 showipcheader
91447636
A
880 showtaskint $kgm_cur_taskp
881 showipcint $kgm_cur_taskp->itk_space 0
882 set $kgm_cur_taskp = (struct task *)($kgm_cur_taskp->pset_tasks.next)
1c79356b
A
883 end
884end
885document showallipc
886| Routine to print a summary listing of all the ipc spaces
887| The following is the syntax:
888| (gdb) showallipc
889end
890
891
892define showallrights
893 set $kgm_head_taskp = &default_pset.tasks
91447636
A
894 set $kgm_cur_taskp = (struct task *)($kgm_head_taskp->next)
895 while $kgm_cur_taskp != $kgm_head_taskp
1c79356b
A
896 showtaskheader
897 showipcheader
91447636
A
898 showtaskint $kgm_cur_taskp
899 showipcint $kgm_cur_taskp->itk_space 1
900 set $kgm_cur_taskp = (struct task *)($kgm_cur_taskp->pset_tasks.next)
1c79356b
A
901 end
902end
903document showallrights
904| Routine to print a summary listing of all the ipc rights
905| The following is the syntax:
906| (gdb) showallrights
907end
908
909
910define showtaskvm
911 set $kgm_taskp = (task_t)$arg0
912 showtaskheader
913 showmapheader
914 showtaskint $kgm_taskp
915 showvmint $kgm_taskp->map 0
916end
917document showtaskvm
55e303ae 918| Routine to print out info about a task's vm_map
1c79356b
A
919| The following is the syntax:
920| (gdb) showtaskvm <task>
921end
922
923define showtaskvme
924 set $kgm_taskp = (task_t)$arg0
925 showtaskheader
926 showmapheader
927 showtaskint $kgm_taskp
928 showvmint $kgm_taskp->map 1
929end
930document showtaskvme
55e303ae 931| Routine to print out info about a task's vm_map_entries
1c79356b
A
932| The following is the syntax:
933| (gdb) showtaskvme <task>
934end
935
936
937define showtaskheader
938 printf "task vm_map ipc_space #acts "
939 showprocheader
940end
941
942
943define showtaskint
9bccf70c 944 set $kgm_task = *(struct task *)$arg0
1c79356b
A
945 printf "0x%08x ", $arg0
946 printf "0x%08x ", $kgm_task.map
947 printf "0x%08x ", $kgm_task.itk_space
55e303ae 948 printf "%3d ", $kgm_task.thread_count
1c79356b
A
949 showprocint $kgm_task.bsd_info
950end
951
952define showtask
953 showtaskheader
954 showtaskint $arg0
955end
956document showtask
957| Routine to print out info about a task.
958| The following is the syntax:
959| (gdb) showtask <task>
960end
961
962
55e303ae 963define showtaskthreads
1c79356b 964 showtaskheader
9bccf70c 965 set $kgm_taskp = (struct task *)$arg0
1c79356b
A
966 showtaskint $kgm_taskp
967 showactheader
55e303ae
A
968 set $kgm_head_actp = &($kgm_taskp->threads)
969 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
1c79356b
A
970 while $kgm_actp != $kgm_head_actp
971 showactint $kgm_actp 0
55e303ae 972 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
1c79356b
A
973 end
974end
55e303ae
A
975document showtaskthreads
976| Routine to print info about the threads in a task.
1c79356b 977| The following is the syntax:
55e303ae 978| (gdb) showtaskthreads <task>
1c79356b
A
979end
980
981
982define showtaskstacks
983 showtaskheader
9bccf70c 984 set $kgm_taskp = (struct task *)$arg0
1c79356b 985 showtaskint $kgm_taskp
55e303ae
A
986 set $kgm_head_actp = &($kgm_taskp->threads)
987 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
1c79356b
A
988 while $kgm_actp != $kgm_head_actp
989 showactheader
990 showactint $kgm_actp 1
55e303ae 991 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
1c79356b
A
992 end
993end
994document showtaskstacks
55e303ae 995| Routine to print out the stack for each thread in a task.
1c79356b
A
996| The following is the syntax:
997| (gdb) showtaskstacks <task>
998end
999
1000
1001define showalltasks
1002 showtaskheader
1003 set $kgm_head_taskp = &default_pset.tasks
9bccf70c 1004 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
1c79356b
A
1005 while $kgm_taskp != $kgm_head_taskp
1006 showtaskint $kgm_taskp
9bccf70c 1007 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
1c79356b
A
1008 end
1009end
1010document showalltasks
1011| Routine to print a summary listing of all the tasks
1012| The following is the syntax:
1013| (gdb) showalltasks
1014end
1015
1016
1017define showprocheader
1018 printf " pid proc command\n"
1019end
1020
1021define showprocint
1022 set $kgm_procp = (struct proc *)$arg0
1023 if $kgm_procp != 0
1024 printf "%5d ", $kgm_procp->p_pid
1025 printf "0x%08x ", $kgm_procp
1026 printf "%s\n", $kgm_procp->p_comm
1027 else
1028 printf " *0* 0x00000000 --\n"
1029 end
1030end
1031
1032define showpid
1033 showtaskheader
1034 set $kgm_head_taskp = &default_pset.tasks
9bccf70c 1035 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
1c79356b
A
1036 while $kgm_taskp != $kgm_head_taskp
1037 set $kgm_procp = (struct proc *)$kgm_taskp->bsd_info
1038 if (($kgm_procp != 0) && ($kgm_procp->p_pid == $arg0))
1039 showtaskint $kgm_taskp
1040 set $kgm_taskp = $kgm_head_taskp
1041 else
9bccf70c 1042 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
1c79356b
A
1043 end
1044 end
1045end
1046document showpid
1047| Routine to print a single process by pid
1048| The following is the syntax:
1049| (gdb) showpid <pid>
1050end
1051
1052define showproc
1053 showtaskheader
1054 set $kgm_procp = (struct proc *)$arg0
1055 showtaskint $kgm_procp->task $arg1 $arg2
1056end
1057
1058
1059define kdb
1060 set switch_debugger=1
1061 continue
1062end
1063document kdb
1064| kdb - Switch to the inline kernel debugger
1065|
1066| usage: kdb
1067|
1068| The kdb macro allows you to invoke the inline kernel debugger.
1069end
1070
1071define showpsetheader
1072 printf "portset waitqueue recvname "
1073 printf "flags refs recvname process\n"
1074end
1075
1076define showportheader
1077 printf "port mqueue recvname "
1078 printf "flags refs recvname process\n"
1079end
1080
1081define showportmemberheader
9bccf70c 1082 printf "members port recvname "
1c79356b
A
1083 printf "flags refs mqueue msgcount\n"
1084end
1085
1086define showkmsgheader
9bccf70c 1087 printf "messages kmsg size "
1c79356b
A
1088 printf "disp msgid remote-port local-port\n"
1089end
1090
1091define showkmsgint
1092 printf " 0x%08x ", $arg0
1093 set $kgm_kmsgh = ((ipc_kmsg_t)$arg0)->ikm_header
1094 printf "0x%08x ", $kgm_kmsgh.msgh_size
1095 if (($kgm_kmsgh.msgh_bits & 0xff) == 19)
1096 printf "rC"
1097 else
1098 printf "rM"
1099 end
1100 if (($kgm_kmsgh.msgh_bits & 0xff00) == (19 < 8))
1101 printf "lC"
1102 else
1103 printf "lM"
1104 end
1105 if ($kgm_kmsgh.msgh_bits & 0xf0000000)
1106 printf "c"
1107 else
1108 printf "s"
1109 end
9bccf70c 1110 printf "%5d ", $kgm_kmsgh.msgh_id
1c79356b
A
1111 printf "0x%08x ", $kgm_kmsgh.msgh_remote_port
1112 printf "0x%08x\n", $kgm_kmsgh.msgh_local_port
1113end
1114
1115
1116
1117define showkobject
9bccf70c 1118 set $kgm_portp = (struct ipc_port *)$arg0
1c79356b
A
1119 printf "0x%08x kobject(", $kgm_portp->ip_kobject
1120 set $kgm_kotype = ($kgm_portp->ip_object.io_bits & 0x00000fff)
1121 if ($kgm_kotype == 1)
1122 printf "THREAD"
1123 end
1124 if ($kgm_kotype == 2)
1125 printf "TASK"
1126 end
1127 if ($kgm_kotype == 3)
1128 printf "HOST"
1129 end
1130 if ($kgm_kotype == 4)
1131 printf "HOST_PRIV"
1132 end
1133 if ($kgm_kotype == 5)
1134 printf "PROCESSOR"
1135 end
1136 if ($kgm_kotype == 6)
1137 printf "PSET"
1138 end
1139 if ($kgm_kotype == 7)
1140 printf "PSET_NAME"
1141 end
1142 if ($kgm_kotype == 8)
1143 printf "TIMER"
1144 end
1145 if ($kgm_kotype == 9)
1146 printf "PAGER_REQ"
1147 end
1148 if ($kgm_kotype == 10)
1149 printf "DEVICE"
1150 end
1151 if ($kgm_kotype == 11)
1152 printf "XMM_OBJECT"
1153 end
1154 if ($kgm_kotype == 12)
1155 printf "XMM_PAGER"
1156 end
1157 if ($kgm_kotype == 13)
1158 printf "XMM_KERNEL"
1159 end
1160 if ($kgm_kotype == 14)
1161 printf "XMM_REPLY"
1162 end
1163 if ($kgm_kotype == 15)
1164 printf "NOTDEF 15"
1165 end
1166 if ($kgm_kotype == 16)
1167 printf "NOTDEF 16"
1168 end
1169 if ($kgm_kotype == 17)
1170 printf "HOST_SEC"
1171 end
1172 if ($kgm_kotype == 18)
1173 printf "LEDGER"
1174 end
1175 if ($kgm_kotype == 19)
1176 printf "MASTER_DEV"
1177 end
1178 if ($kgm_kotype == 20)
1179 printf "ACTIVATION"
1180 end
1181 if ($kgm_kotype == 21)
1182 printf "SUBSYSTEM"
1183 end
1184 if ($kgm_kotype == 22)
1185 printf "IO_DONE_QUE"
1186 end
1187 if ($kgm_kotype == 23)
1188 printf "SEMAPHORE"
1189 end
1190 if ($kgm_kotype == 24)
1191 printf "LOCK_SET"
1192 end
1193 if ($kgm_kotype == 25)
1194 printf "CLOCK"
1195 end
1196 if ($kgm_kotype == 26)
1197 printf "CLOCK_CTRL"
1198 end
1199 if ($kgm_kotype == 27)
1200 printf "IOKIT_SPARE"
1201 end
1202 if ($kgm_kotype == 28)
1203 printf "NAMED_MEM"
1204 end
1205 if ($kgm_kotype == 29)
1206 printf "IOKIT_CON"
1207 end
1208 if ($kgm_kotype == 30)
1209 printf "IOKIT_OBJ"
1210 end
1211 if ($kgm_kotype == 31)
1212 printf "UPL"
1213 end
1214 printf ")\n"
1215end
1216
1217define showportdestproc
9bccf70c 1218 set $kgm_portp = (struct ipc_port *)$arg0
1c79356b
A
1219 set $kgm_spacep = $kgm_portp->data.receiver
1220# check against the previous cached value - this is slow
1221 if ($kgm_spacep != $kgm_destspacep)
1222 set $kgm_destprocp = (struct proc *)0
1223 set $kgm_head_taskp = &default_pset.tasks
91447636
A
1224 set $kgm_desttaskp = (struct task *)($kgm_head_taskp->next)
1225 while (($kgm_destprocp == 0) && ($kgm_desttaskp != $kgm_head_taskp))
1226 set $kgm_destspacep = $kgm_desttaskp->itk_space
1c79356b 1227 if ($kgm_destspacep == $kgm_spacep)
91447636 1228 set $kgm_destprocp = (struct proc *)$kgm_desttaskp->bsd_info
1c79356b 1229 else
91447636 1230 set $kgm_desttaskp = (struct task *)($kgm_desttaskp->pset_tasks.next)
1c79356b
A
1231 end
1232 end
1233 end
1234 if $kgm_destprocp != 0
1235 printf "%s(%d)\n", $kgm_destprocp->p_comm, $kgm_destprocp->p_pid
1236 else
91447636 1237 printf "task 0x%08x\n", $kgm_desttaskp
1c79356b
A
1238 end
1239end
1240
1241define showportdest
9bccf70c 1242 set $kgm_portp = (struct ipc_port *)$arg0
1c79356b
A
1243 set $kgm_spacep = $kgm_portp->data.receiver
1244 if ($kgm_spacep == ipc_space_kernel)
1245 showkobject $kgm_portp
1246 else
1247 if ($kgm_portp->ip_object.io_bits & 0x80000000)
1248 printf "0x%08x ", $kgm_portp->ip_object.io_receiver_name
1249 showportdestproc $kgm_portp
1250 else
1251 printf "0x%08x inactive-port\n", $kgm_portp
1252 end
1253 end
1254end
1255
1256define showportmember
1257 printf " 0x%08x ", $arg0
9bccf70c 1258 set $kgm_portp = (struct ipc_port *)$arg0
1c79356b
A
1259 printf "0x%08x ", $kgm_portp->ip_object.io_receiver_name
1260 if ($kgm_portp->ip_object.io_bits & 0x80000000)
1261 printf "A"
1262 else
1263 printf " "
1264 end
1265 if ($kgm_portp->ip_object.io_bits & 0x7fff0000)
1266 printf "Set "
1267 else
1268 printf "Port"
1269 end
1270 printf "%5d ", $kgm_portp->ip_object.io_references
1271 printf "0x%08x ", &($kgm_portp->ip_messages)
1272 printf "0x%08x\n", $kgm_portp->ip_messages.data.port.msgcount
1273end
1274
1275define showportint
1276 printf "0x%08x ", $arg0
9bccf70c 1277 set $kgm_portp = (struct ipc_port *)$arg0
1c79356b
A
1278 printf "0x%08x ", &($kgm_portp->ip_messages)
1279 printf "0x%08x ", $kgm_portp->ip_object.io_receiver_name
1280 if ($kgm_portp->ip_object.io_bits & 0x80000000)
1281 printf "A"
1282 else
1283 printf "D"
1284 end
1285 printf "Port"
1286 printf "%5d ", $kgm_portp->ip_object.io_references
9bccf70c 1287 set $kgm_destspacep = (struct ipc_space *)0
1c79356b
A
1288 showportdest $kgm_portp
1289 set $kgm_kmsgp = (ipc_kmsg_t)$kgm_portp->ip_messages.data.port.messages.ikmq_base
1290 if $arg1 && $kgm_kmsgp
1291 showkmsgheader
1292 showkmsgint $kgm_kmsgp
1293 set $kgm_kmsgheadp = $kgm_kmsgp
1294 set $kgm_kmsgp = $kgm_kmsgp->ikm_next
1295 while $kgm_kmsgp != $kgm_kmsgheadp
1296 showkmsgint $kgm_kmsgp
1297 set $kgm_kmsgp = $kgm_kmsgp->ikm_next
1298 end
1299 end
1300end
1301
1302define showpsetint
1303 printf "0x%08x ", $arg0
9bccf70c 1304 set $kgm_psetp = (struct ipc_pset *)$arg0
1c79356b
A
1305 printf "0x%08x ", &($kgm_psetp->ips_messages)
1306 printf "0x%08x ", $kgm_psetp->ips_object.io_receiver_name
1307 if ($kgm_psetp->ips_object.io_bits & 0x80000000)
1308 printf "A"
1309 else
1310 printf "D"
1311 end
1312 printf "Set "
1313 printf "%5d ", $kgm_psetp->ips_object.io_references
9bccf70c
A
1314 printf "0x%08x ", $kgm_psetp->ips_object.io_receiver_name
1315 set $kgm_setlinksp = &($kgm_psetp->ips_messages.data.set_queue.wqs_setlinks)
1316 set $kgm_wql = (struct wait_queue_link *)$kgm_setlinksp->next
1c79356b 1317 set $kgm_found = 0
9bccf70c
A
1318 while ( (queue_entry_t)$kgm_wql != (queue_entry_t)$kgm_setlinksp)
1319 set $kgm_portp = (struct ipc_port *)((int)($kgm_wql->wql_element->wqe_queue) - ((int)$kgm_portoff))
1c79356b 1320 if !$kgm_found
9bccf70c
A
1321 set $kgm_destspacep = (struct ipc_space *)0
1322 showportdestproc $kgm_portp
1c79356b
A
1323 showportmemberheader
1324 set $kgm_found = 1
1325 end
1326 showportmember $kgm_portp 0
9bccf70c 1327 set $kgm_wql = (struct wait_queue_link *)$kgm_wql->wql_setlinks.next
1c79356b 1328 end
9bccf70c
A
1329 if !$kgm_found
1330 printf "--n/e--\n"
1c79356b
A
1331 end
1332end
1333
1334define showpset
1335 showpsetheader
1336 showpsetint $arg0 1
1337end
1338
1339define showport
1340 showportheader
1341 showportint $arg0 1
1342end
1343
1344define showipcobject
1345 set $kgm_object = (ipc_object_t)$arg0
1346 if ($kgm_objectp->io_bits & 0x7fff0000)
1347 showpset $kgm_objectp
1348 else
1349 showport $kgm_objectp
1350 end
1351end
1352
1353define showmqueue
9bccf70c
A
1354 set $kgm_mqueue = *(struct ipc_mqueue *)$arg0
1355 set $kgm_psetoff = &(((struct ipc_pset *)0)->ips_messages)
1356 set $kgm_portoff = &(((struct ipc_port *)0)->ip_messages)
1357 if ($kgm_mqueue.data.set_queue.wqs_wait_queue.wq_type == 0xf1d1)
1c79356b
A
1358 set $kgm_pset = (((int)$arg0) - ((int)$kgm_psetoff))
1359 showpsetheader
1360 showpsetint $kgm_pset 1
9bccf70c
A
1361 end
1362 if ($kgm_mqueue.data.set_queue.wqs_wait_queue.wq_type == 0xf1d0)
1c79356b
A
1363 showportheader
1364 set $kgm_port = (((int)$arg0) - ((int)$kgm_portoff))
1365 showportint $kgm_port 1
1366 end
1367end
1368
1369define zprint_one
1370set $kgm_zone = (struct zone *)$arg0
1371
1372printf "0x%08x ", $kgm_zone
1373printf "%8d ",$kgm_zone->count
1374printf "%8x ",$kgm_zone->cur_size
1375printf "%8x ",$kgm_zone->max_size
1376printf "%6d ",$kgm_zone->elem_size
1377printf "%8x ",$kgm_zone->alloc_size
1378printf "%s ",$kgm_zone->zone_name
1379
1380if ($kgm_zone->exhaustible)
1381 printf "H"
1382end
1383if ($kgm_zone->collectable)
1384 printf "C"
1385end
1386if ($kgm_zone->expandable)
1387 printf "X"
1388end
1389printf "\n"
1390end
1391
1392
1393define zprint
1394printf "ZONE COUNT TOT_SZ MAX_SZ ELT_SZ ALLOC_SZ NAME\n"
1395set $kgm_zone_ptr = (struct zone *)first_zone
1396while ($kgm_zone_ptr != 0)
1397 zprint_one $kgm_zone_ptr
1398 set $kgm_zone_ptr = $kgm_zone_ptr->next_zone
1399end
1400printf "\n"
1401end
1402document zprint
1403| Routine to print a summary listing of all the kernel zones
1404| The following is the syntax:
1405| (gdb) zprint
1406end
1407
91447636
A
1408define showmtxgrp
1409set $kgm_mtxgrp = (lck_grp_t *)$arg0
1410
1411if ($kgm_mtxgrp->lck_grp_mtxcnt)
1412printf "0x%08x ", $kgm_mtxgrp
1413printf "%8d ",$kgm_mtxgrp->lck_grp_mtxcnt
1414printf "%12u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_util_cnt
1415printf "%8u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_miss_cnt
1416printf "%8u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_wait_cnt
1417printf "%s ",&$kgm_mtxgrp->lck_grp_name
1418printf "\n"
1419end
1420end
1421
1422
1423define showallmtx
1424printf "LCK GROUP CNT UTIL MISS WAIT NAME\n"
1425set $kgm_mtxgrp_ptr = (lck_grp_t *)&lck_grp_queue
1426set $kgm_mtxgrp_ptr = (lck_grp_t *)$kgm_mtxgrp_ptr->lck_grp_link.next
1427while ($kgm_mtxgrp_ptr != (lck_grp_t *)&lck_grp_queue)
1428 showmtxgrp $kgm_mtxgrp_ptr
1429 set $kgm_mtxgrp_ptr = (lck_grp_t *)$kgm_mtxgrp_ptr->lck_grp_link.next
1430end
1431printf "\n"
1432end
1433document showallmtx
1434| Routine to print a summary listing of all mutexes
1435| The following is the syntax:
1436| (gdb) showallmtx
1437end
1438
1439define showrwlckgrp
1440set $kgm_rwlckgrp = (lck_grp_t *)$arg0
1441
1442if ($kgm_rwlckgrp->lck_grp_rwcnt)
1443printf "0x%08x ", $kgm_rwlckgrp
1444printf "%8d ",$kgm_rwlckgrp->lck_grp_rwcnt
1445printf "%12u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_util_cnt
1446printf "%8u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_miss_cnt
1447printf "%8u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_wait_cnt
1448printf "%s ",&$kgm_rwlckgrp->lck_grp_name
1449printf "\n"
1450end
1451end
1452
1453
1454define showallrwlck
1455printf "LCK GROUP CNT UTIL MISS WAIT NAME\n"
1456set $kgm_rwlckgrp_ptr = (lck_grp_t *)&lck_grp_queue
1457set $kgm_rwlckgrp_ptr = (lck_grp_t *)$kgm_rwlckgrp_ptr->lck_grp_link.next
1458while ($kgm_rwlckgrp_ptr != (lck_grp_t *)&lck_grp_queue)
1459 showrwlckgrp $kgm_rwlckgrp_ptr
1460 set $kgm_rwlckgrp_ptr = (lck_grp_t *)$kgm_rwlckgrp_ptr->lck_grp_link.next
1461end
1462printf "\n"
1463end
1464document showallrwlck
1465| Routine to print a summary listing of all read/writer locks
1466| The following is the syntax:
1467| (gdb) showallrwlck
1468end
1469
9bccf70c
A
1470set $kdp_act_counter = 0
1471
1472define switchtoact
4452a7af
A
1473 set $newact = (struct thread *) $arg0
1474 if ($newact->kernel_stack == 0)
1475 echo This activation does not have a stack.\n
1476 echo continuation:
1477 output/a (unsigned) $newact.continuation
1478 echo \n
1479 else
91447636 1480 if ($kgm_mtype == 18)
9bccf70c 1481 if ($kdp_act_counter == 0)
4452a7af 1482 set $kdpstate = (struct savearea *) kdp.saved_state
9bccf70c
A
1483 end
1484 set $kdp_act_counter = $kdp_act_counter + 1
55e303ae 1485 set $newact = (struct thread *) $arg0
4452a7af
A
1486 set (struct savearea *) kdp.saved_state=$newact->machine->pcb
1487 flushregs
1488 flushstack
1489 set $pc=$newact->machine->pcb.save_srr0
1490 update
9bccf70c 1491 else
4452a7af
A
1492 set $kdpstatep = (struct x86_saved_state32 *) kdp.saved_state
1493 if ($kdp_act_counter == 0)
1494 set $kdpstate = *($kdpstatep)
1495 end
1496 set $kdp_act_counter = $kdp_act_counter + 1
1497
1498 set $kgm_statep = (struct x86_kernel_state32 *) \
1499 ($newact->kernel_stack + 0x4000 \
1500 - sizeof(struct x86_kernel_state32))
1501 set $kdpstatep->ebx = $kgm_statep->k_ebx
1502 set $kdpstatep->ebp = $kgm_statep->k_ebp
1503 set $kdpstatep->edi = $kgm_statep->k_edi
1504 set $kdpstatep->esi = $kgm_statep->k_esi
1505 set $kdpstatep->eip = $kgm_statep->k_eip
1506 flushregs
1507 flushstack
1508 set $pc = $kgm_statep->k_eip
1509 update
1510 end
9bccf70c
A
1511 end
1512end
1513
1514document switchtoact
1515Syntax: switchtoact <address of activation>
1516| This command allows gdb to examine the execution context and call
1517| stack for the specified activation. For example, to view the backtrace
1518| for an activation issue "switchtoact <address>", followed by "bt".
1519| Before resuming execution, issue a "resetctx" command, to
1520| return to the original execution context.
1521end
1522
1523define switchtoctx
91447636 1524 if ($kgm_mtype == 18)
9bccf70c
A
1525 if ($kdp_act_counter == 0)
1526 set $kdpstate = (struct savearea *) kdp.saved_state
1527 end
1528 set $kdp_act_counter = $kdp_act_counter + 1
1529 set (struct savearea *) kdp.saved_state=(struct savearea *) $arg0
4452a7af
A
1530 flushregs
1531 flushstack
9bccf70c
A
1532 set $pc=((struct savearea *) $arg0)->save_srr0
1533 update
1534 else
1535 echo switchtoctx not implemented for this architecture.\n
1536 end
1537end
1538
1539document switchtoctx
1540Syntax: switchtoctx <address of pcb>
1541| This command allows gdb to examine an execution context and dump the
1542| backtrace for this execution context.
1543| Before resuming execution, issue a "resetctx" command, to
1544| return to the original execution context.
1545end
1546
1547define resetctx
91447636 1548 if ($kgm_mtype == 18)
9bccf70c 1549 set (struct savearea *)kdp.saved_state=$kdpstate
4452a7af
A
1550 flushregs
1551 flushstack
9bccf70c
A
1552 set $pc=((struct savearea *) kdp.saved_state)->save_srr0
1553 update
1554 set $kdp_act_counter = 0
1555 else
4452a7af
A
1556 set $kdpstatep = (struct x86_saved_state32 *) kdp.saved_state
1557 set *($kdpstatep)=$kdpstate
1558 flushregs
1559 flushstack
1560 set $pc=$kdpstatep->eip
1561 update
1562 set $kdp_act_counter = 0
9bccf70c
A
1563 end
1564end
1565
1566document resetctx
1567| Syntax: resetctx
1568| Returns to the original execution context. This command should be
1569| issued if you wish to resume execution after using the "switchtoact"
1570| or "switchtoctx" commands.
1571end
1572
55e303ae
A
1573define resume_on
1574 set noresume_on_disconnect = 0
1575end
1576
1577document resume_on
1578| Syntax: resume_on
1579| The target system will resume when detaching or exiting from gdb.
1580| This is the default behavior.
1581end
1582
1583define resume_off
1584 set noresume_on_disconnect = 1
1585end
1586
1587document resume_off
1588| Syntax: resume_off
1589| The target system won't resume after detaching from gdb and
1590| can be attached with a new gdb session
1591end
1592
9bccf70c
A
1593define paniclog
1594 set $kgm_panic_bufptr = debug_buf
55e303ae
A
1595 set $kgm_panic_bufptr_max = debug_buf_ptr
1596 while $kgm_panic_bufptr < $kgm_panic_bufptr_max
9bccf70c
A
1597 if *(char *)$kgm_panic_bufptr == 10
1598 printf "\n"
1599 else
1600 printf "%c", *$kgm_panic_bufptr
1601 end
1602 set $kgm_panic_bufptr= (char *)$kgm_panic_bufptr + 1
1603 end
1604end
1605
1606document paniclog
1607| Syntax: paniclog
1608| Display the panic log information
1609|
1610end
55e303ae
A
1611
1612define dumpcallqueue
1613 set $kgm_callhead = (queue_t)&$arg0
1614 set $kgm_call = (struct call_entry *)$kgm_callhead.next
1615 set $kgm_i = 0
1616 while $kgm_call != $kgm_callhead
1617 printf "0x%08x ", $kgm_call
1618 printf "0x%08x 0x%08x ", $kgm_call->param0, $kgm_call->param1
1619 output $kgm_call->state
1620 printf "\t"
1621 output $kgm_call->deadline
1622 printf "\t"
1623 output $kgm_call->func
1624 printf "\n"
1625 set $kgm_i = $kgm_i + 1
1626 set $kgm_call = (struct call_entry *)$kgm_call->q_link.next
1627 end
1628 printf "%d entries\n", $kgm_i
1629end
1630
1631document dumpcallqueue
1632| Syntax: dumpcallqueue <queue head>
1633| Displays the contents of the specified call_entry queue.
1634end
1635
1636define showtaskacts
1637showtaskthreads $arg0
1638end
1639document showtaskacts
1640| See help showtaskthreads.
1641end
1642
1643define showallacts
1644showallthreads
1645end
1646document showallacts
1647| See help showallthreads.
1648end
91447636
A
1649
1650
1651define resetstacks
1652 _kgm_flush_loop
1653 set kdp_pmap = 0
1654 _kgm_flush_loop
1655 resetctx
1656 _kgm_flush_loop
1657 _kgm_update_loop
1658 resetctx
1659 _kgm_update_loop
1660end
1661
1662document resetstacks
1663| Syntax: resetstacks
1664| Internal kgmacro routine used by the "showuserstack" macro
1665| to reset the target pmap to the kernel pmap.
1666end
1667
1668#Barely effective hacks to work around bugs in the "flush" and "update"
1669#gdb commands in Tiger (up to 219); these aren't necessary with Panther
1670#gdb, but do no harm.
1671define _kgm_flush_loop
1672 set $kgm_flush_loop_ctr = 0
1673 while ($kgm_flush_loop_ctr < 30)
4452a7af
A
1674 flushregs
1675 flushstack
91447636
A
1676 set $kgm_flush_loop_ctr = $kgm_flush_loop_ctr + 1
1677 end
1678end
1679
1680define _kgm_update_loop
1681 set $kgm_update_loop_ctr = 0
1682 while ($kgm_update_loop_ctr < 30)
1683 update
1684 set $kgm_update_loop_ctr = $kgm_update_loop_ctr + 1
1685 end
1686end
1687
4452a7af
A
1688#This is necessary since gdb often doesn't do backtraces on x86 correctly
1689#in the absence of symbols.The code below in showuserstack and
1690#showx86backtrace also contains several workarouds for the gdb bug where
1691#gdb stops macro evaluation because of spurious "Cannot read memory"
1692#errors on x86. These errors appear on ppc as well, but they don't
1693#always stop macro evaluation.
1694
1695set $kgm_cur_ebp = 0
1696set $kgm_cur_eip = 0
1697
1698define showx86backtrace
1699 if ($kgm_cur_ebp == 0)
1700 set $kgm_cur_ebp = $ebp
1701 end
1702 if ($kgm_cur_eip == 0)
1703 set $kgm_cur_eip = $eip
1704 end
1705 printf "0: EBP: 0x%08x EIP: 0x%08x\n", $kgm_cur_ebp, $kgm_cur_eip
1706 x/i $kgm_cur_eip
1707 set $kgm_prev_ebp = *((uint32_t *) $kgm_cur_ebp)
1708 set $kgm_prev_eip = *((uint32_t *) ($kgm_cur_ebp + 4))
1709 set $kgm_frameno = 1
1710 while $kgm_prev_ebp != 0
1711 printf "%d: saved EBP: 0x%08x saved EIP: 0x%08x\n", $kgm_frameno, $kgm_prev_ebp, $kgm_prev_eip
1712 x/i $kgm_prev_eip
1713 set $kgm_cur_ebp = $kgm_prev_ebp
1714 set $kgm_prev_ebp = *((uint32_t *) $kgm_cur_ebp)
1715 set $kgm_prev_eip = *((uint32_t *) ($kgm_cur_ebp + 4))
1716 set $kgm_frameno = $kgm_frameno + 1
1717 end
1718 set $kgm_cur_ebp = 0
1719 set $kgm_cur_eip = 0
1720 set kdp_pmap = 0
1721end
1722
91447636
A
1723define showuserstack
1724 if ($kgm_mtype == 18)
1725 if ($kdp_act_counter == 0)
1726 set $kdpstate = (struct savearea *) kdp.saved_state
1727 end
1728 set $kdp_act_counter = $kdp_act_counter + 1
1729 set $newact = (struct thread *) $arg0
1730 _kgm_flush_loop
1731 set $checkpc = $newact->machine->upcb.save_srr0
1732 if ($checkpc == 0)
1733 echo This activation does not appear to have
1734 echo \20 a valid user context.\n
1735 else
1736 set (struct savearea *) kdp.saved_state=$newact->machine->upcb
1737 set $pc = $checkpc
1738#flush and update seem to be executed lazily by gdb on Tiger, hence the
1739#repeated invocations - see 3743135
1740 _kgm_flush_loop
1741# This works because the new pmap is used only for reads
1742 set kdp_pmap = $newact->task->map->pmap
1743 _kgm_flush_loop
1744 _kgm_update_loop
1745 bt
1746 resetstacks
1747 _kgm_flush_loop
1748 _kgm_update_loop
1749 resetstacks
1750 _kgm_flush_loop
1751 _kgm_update_loop
1752 end
1753 else
4452a7af
A
1754 set $newact = (struct thread *) $arg0
1755 set $newiss = (x86_saved_state32_t *) ($newact->machine.pcb->iss)
1756 set $checkpc = $newiss.eip
1757 if ($checkpc == 0)
1758 echo This activation does not appear to have
1759 echo \20 a valid user context.\n
1760 else
1761 set $kgm_cur_ebp = $newiss.ebp
1762 set $kgm_cur_eip = $checkpc
1763 printf "You may now issue the showx86backtrace command to see the user space backtrace for this thread (0x%08x); you can also examine memory locations in this address space (pmap 0x%08x) before issuing the backtrace. This two-step process is necessary to work around various bugs in x86 gdb, which cause it to stop memory evaluation on spurious memory read errors. Additionally, you may need to issue a set kdp_pmap = 0 command after the showx86backtrace completes, to resume reading from the kernel address space.\n", $arg0, $newact->task->map->pmap
1764 set kdp_pmap = $newact->task->map->pmap
1765 _kgm_flush_loop
1766 _kgm_update_loop
1767 end
1768 end
91447636 1769end
91447636
A
1770document showuserstack
1771Syntax: showuserstack <address of thread activation>
1772|This command displays a numeric backtrace for the user space stack of
1773|the given thread activation. It may, of course, fail to display a
1774|complete backtrace if portions of the user stack are not mapped in.
1775|Symbolic backtraces can be obtained either by running gdb on the
1776|user space binary, or a tool such as "symbolicate".
1777|Note that while this command works on Panther's gdb, an issue
1778|with Tiger gdb (3743135) appears to hamper the evaluation of this
1779|macro in some cases.
1780end
1781
1782#Stopgap until gdb can generate the HOSTREBOOT packet
1783define kdp-reboot
1784 set flag_kdp_trigger_reboot = 1
1785 continue
1786end
1787
1788document kdp-reboot
1789Syntax: kdp-reboot
1790|Reboot the remote target machine; not guaranteed to succeed. Requires symbols
1791|until gdb support for the HOSTREBOOT packet is implemented.
1792end
1793
1794define sendcore
1795 set kdp_trigger_core_dump = 1
1796 set kdp_flag |= 0x40
1797 set panicd_ip_str = "$arg0"
1798 set panicd_specified = 1
1799 set disableDebugOuput = 0
1800 set disableConsoleOutput = 0
1801 set logPanicDataToScreen = 1
1802 set reattach_wait = 1
1803 resume_off
1804end
1805
1806document sendcore
1807Syntax: sendcore <IP address>
1808|Configure the kernel to transmit a kernel coredump to a server (kdumpd)
1809|at the specified IP address. This is useful when the remote target has
1810|not been previously configured to transmit coredumps, and you wish to
1811|preserve kernel state for later examination. NOTE: You must issue a "continue"
1812|command after using this macro to trigger the kernel coredump. The kernel
1813|will resume waiting in the debugger after completion of the coredump. You
1814|may disable coredumps by executing the "disablecore" macro.
1815end
1816
1817define disablecore
1818 set kdp_trigger_core_dump = 0
1819 set kdp_flag |= 0x40
1820 set kdp_flag &= ~0x10
1821 set panicd_specified = 0
1822end
1823
1824document disablecore
1825Syntax: disablecore
1826|Reconfigures the kernel so that it no longer transmits kernel coredumps. This
1827|complements the "sendcore" macro, but it may be used if the kernel has been
1828|configured to transmit coredumps through boot-args as well.
1829end
1830
1831#Use of this macro requires the gdb submission from 3401283
1832define switchtocorethread
1833 if ($kgm_mtype == 18)
1834 if ($kdp_act_counter == 0)
1835 set $kdpstate = (struct savearea *) kdp.saved_state
1836 end
1837 set $kdp_act_counter = $kdp_act_counter + 1
1838 set $newact = (struct thread *) $arg0
1839 if ($newact->kernel_stack == 0)
1840 echo This thread does not have a stack.\n
1841 echo continuation:
1842 output/a (unsigned) $newact.continuation
1843 echo \n
1844 else
1845 loadcontext $newact->machine->pcb
1846# flushstack will be introduced in a gdb version > gdb-357
1847 flushstack
1848 set $pc = $newact->machine->pcb.save_srr0
1849 end
1850 else
1851 echo switchtocorethread not implemented for this architecture.\n
1852 end
1853end
1854
1855document switchtocorethread
1856Syntax: switchtocorethread <address of activation>
1857| The corefile equivalent of "switchtoact". When debugging a kernel coredump
1858| file, this command can be used to examine the execution context and stack
1859| trace for a given thread activation. For example, to view the backtrace
1860| for a thread issue "switchtocorethread <address>", followed by "bt".
1861| Before resuming execution, issue a "resetcorectx" command, to
1862| return to the original execution context. Note that this command
1863| requires gdb support, as documented in Radar 3401283.
1864end
1865
1866define loadcontext
1867 set $pc = $arg0.save_srr0
1868 set $r1 = $arg0.save_r1
1869 set $lr = $arg0.save_lr
1870
1871 set $r2 = $arg0.save_r2
1872 set $r3 = $arg0.save_r3
1873 set $r4 = $arg0.save_r4
1874 set $r5 = $arg0.save_r5
1875 set $r6 = $arg0.save_r6
1876 set $r7 = $arg0.save_r7
1877 set $r8 = $arg0.save_r8
1878 set $r9 = $arg0.save_r9
1879 set $r10 = $arg0.save_r10
1880 set $r11 = $arg0.save_r11
1881 set $r12 = $arg0.save_r12
1882 set $r13 = $arg0.save_r13
1883 set $r14 = $arg0.save_r14
1884 set $r15 = $arg0.save_r15
1885 set $r16 = $arg0.save_r16
1886 set $r17 = $arg0.save_r17
1887 set $r18 = $arg0.save_r18
1888 set $r19 = $arg0.save_r19
1889 set $r20 = $arg0.save_r20
1890 set $r21 = $arg0.save_r21
1891 set $r22 = $arg0.save_r22
1892 set $r23 = $arg0.save_r23
1893 set $r24 = $arg0.save_r24
1894 set $r25 = $arg0.save_r25
1895 set $r26 = $arg0.save_r26
1896 set $r27 = $arg0.save_r27
1897 set $r28 = $arg0.save_r28
1898 set $r29 = $arg0.save_r29
1899 set $r30 = $arg0.save_r30
1900 set $r31 = $arg0.save_r31
1901
1902 set $cr = $arg0.save_cr
1903 set $ctr = $arg0.save_ctr
1904end
1905
1906define resetcorectx
1907 set $kgm_corecontext = (struct savearea *) kdp.saved_state
1908 loadcontext $kgm_corecontext
1909# Maintaining this act counter wouldn't be necessary if we just initialized
1910# $kdpstate at the beginning of the macro..
1911 set $kdp_act_counter = 0
1912end
1913
1914document resetcorectx
1915Syntax: resetcorectx
1916| The corefile equivalent of "resetctx". Returns to the original
1917| execution context (that of the active thread at the time of the NMI or
1918| panic). This command should be issued if you wish to resume
1919| execution after using the "switchtocorethread" command.
1920end
1921
1922#Helper function for "showallgdbstacks"
1923
1924define showgdbthread
1925 printf " 0x%08x ", $arg0
1926 set $kgm_thread = *(struct thread *)$arg0
1927 printf "0x%08x ", $arg0
1928 printf "%3d ", $kgm_thread.sched_pri
1929 set $kgm_state = $kgm_thread.state
1930 if $kgm_state & 0x80
1931 printf "I"
1932 end
1933 if $kgm_state & 0x40
1934 printf "P"
1935 end
1936 if $kgm_state & 0x20
1937 printf "A"
1938 end
1939 if $kgm_state & 0x10
1940 printf "H"
1941 end
1942 if $kgm_state & 0x08
1943 printf "U"
1944 end
1945 if $kgm_state & 0x04
1946 printf "R"
1947 end
1948 if $kgm_state & 0x02
1949 printf "S"
1950 end
1951 if $kgm_state & 0x01
1952 printf "W\t"
1953 printf "0x%08x ", $kgm_thread.wait_queue
1954 output /a (unsigned) $kgm_thread.wait_event
1955 end
1956 if $arg1 != 0
1957 if ($kgm_thread.kernel_stack != 0)
1958 if ($kgm_thread.reserved_stack != 0)
1959 printf "\n\t\treserved_stack=0x%08x", $kgm_thread.reserved_stack
1960 end
1961 printf "\n\t\tkernel_stack=0x%08x", $kgm_thread.kernel_stack
1962 if ($kgm_mtype == 18)
1963 set $mysp = $kgm_thread.machine.pcb->save_r1
1964 else
4452a7af 1965 set $kgm_statep = (struct x86_kernel_state32 *) \
91447636 1966 ($kgm_thread->kernel_stack + 0x4000 \
4452a7af 1967 - sizeof(struct x86_kernel_state32))
91447636
A
1968 set $mysp = $kgm_statep->k_ebp
1969 end
1970 set $prevsp = 0
1971 printf "\n\t\tstacktop=0x%08x", $mysp
1972 switchtoact $arg0
1973 bt
1974 else
1975 printf "\n\t\t\tcontinuation="
1976 output /a (unsigned) $kgm_thread.continuation
1977 end
1978 printf "\n"
1979 else
1980 printf "\n"
1981 end
1982end
1983
1984#Use of this macro is currently (8/04) blocked by the fact that gdb
1985#stops evaluating macros when encountering an error, such as a failure
1986#to read memory from a certain location. Until this issue (described in
1987#3758949) is addressed, evaluation of this macro may stop upon
1988#encountering such an error.
1989
1990define showallgdbstacks
1991 set $kgm_head_taskp = &default_pset.tasks
1992 set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
1993 while $kgm_taskp != $kgm_head_taskp
1994 showtaskheader
1995 showtaskint $kgm_taskp
1996 set $kgm_head_actp = &($kgm_taskp->threads)
1997 set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
1998 while $kgm_actp != $kgm_head_actp
1999 showactheader
2000 showgdbthread $kgm_actp 1
2001 set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
2002 end
2003 printf "\n"
2004 set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
2005 end
2006 resetctx
2007end
2008
2009document showallgdbstacks
2010Syntax: showallgdbstacks
2011| An alternative to "showallstacks". Iterates through the task list and
2012| displays a gdb generated backtrace for each kernel thread. It is
2013| advantageous in that it is much faster than "showallstacks", and
2014| decodes function call arguments and displays source level traces, but
2015| it has the drawback that it doesn't determine if frames belong to
2016| functions from kernel extensions, as with "showallstacks".
2017| This command may terminate prematurely because of a gdb bug
2018| (Radar 3758949), which stops macro evaluation on memory read
2019| errors.
2020end
2021
2022define switchtouserthread
2023 if ($kgm_mtype == 18)
2024 if ($kdp_act_counter == 0)
2025 set $kdpstate = (struct savearea *) kdp.saved_state
2026 end
2027 set $kdp_act_counter = $kdp_act_counter + 1
2028 set $newact = (struct thread *) $arg0
2029 _kgm_flush_loop
2030 set $checkpc = $newact->machine->upcb.save_srr0
2031 if ($checkpc == 0)
2032 echo This activation does not appear to have
2033 echo \20 a valid user context.\n
2034 else
2035 set (struct savearea *) kdp.saved_state=$newact->machine->upcb
2036 set $pc = $checkpc
2037#flush and update seem to be executed lazily by gdb on Tiger, hence the
2038#repeated invocations - see 3743135
2039 _kgm_flush_loop
2040# This works because the new pmap is used only for reads
2041 set kdp_pmap = $newact->task->map->pmap
2042 _kgm_flush_loop
2043 _kgm_update_loop
2044 end
2045 else
2046 echo switchtouserthread not implemented for this architecture.\n
2047 end
2048end
2049
2050document switchtouserthread
2051Syntax: switchtouserthread <address of thread>
2052| Analogous to switchtoact, but switches to the user context of a
2053| specified thread address. Similar to the "showuserstack"
2054| command, but this command does not return gdb to the kernel context
2055| immediately. This is to assist with the following (rather risky)
2056| manoeuvre - upon switching to the user context and virtual address
2057| space, the user may choose to call remove-symbol-file on the
2058| mach_kernel symbol file, and then add-symbol-file on the user space
2059| binary's symfile. gdb can then generate symbolic backtraces
2060| for the user space thread. To return to the
2061| kernel context and virtual address space, the process must be
2062| reversed, i.e. call remove-symbol-file on the user space symbols, and
2063| then add-symbol-file on the appropriate mach_kernel, and issue the
2064| "resetstacks" command. Note that gdb may not react kindly to all these
2065| symbol file switches. The same restrictions that apply to "showuserstack"
2066| apply here - pages that have been paged out cannot be read while in the
2067| debugger context, so backtraces may terminate early.
2068| If the virtual addresses in the stack trace do not conflict with those
2069| of symbols in the kernel's address space, it may be sufficient to
2070| just do an add-symbol-file on the user space binary's symbol file.
2071| Note that while this command works on Panther's gdb, an issue
2072| with Tiger gdb (3743135) appears to hamper the evaluation of this
2073| macro in some cases.
2074end
2075
2076define showmetaclass
91447636
A
2077 set $kgm_metaclassp = (OSMetaClass *)$arg0
2078 printf "%-5d", $kgm_metaclassp->instanceCount
2079 printf "x %5d bytes", $kgm_metaclassp->classSize
2080 printf " %s\n", $kgm_metaclassp->className->string
2081end
2082
4452a7af
A
2083define showstring
2084 printf "\"%s\"", ((OSString *)$arg0)->string
2085end
2086
2087define shownumber
2088 printf "%lld", ((OSNumber *)$arg0)->value
2089end
2090
2091define showboolean
2092 if ($arg0 == gOSBooleanFalse)
2093 printf "No"
2094 else
2095 printf "Yes"
2096 end
2097end
2098
2099define showdata
2100 set $kgm_data = (OSData *)$arg0
2101
2102 printf "<"
2103 set $kgm_datap = (const unsigned char *) $kgm_data->data
2104
2105 set $kgm_printstr = 0
2106 if (0 == (3 & (unsigned int)$kgm_datap) && ($kgm_data->length >= 3))
2107 set $kgm_bytes = *(unsigned int *) $kgm_datap
2108 if (0xffff0000 & $kgm_bytes)
2109 set $kgm_idx = 0
2110 set $kgm_printstr = 1
2111 while ($kgm_idx++ < 4)
2112 set $kgm_bytes = $kgm_bytes >> 8
2113 set $kgm_char = 0xff & $kgm_bytes
2114 if ($kgm_char && (($kgm_char < 0x20) || ($kgm_char > 0x7e)))
2115 set $kgm_printstr = 0
2116 end
2117 end
2118 end
2119 end
2120
2121 set $kgm_idx = 0
2122 if ($kgm_printstr)
2123 set $kgm_quoted = 0
2124 while ($kgm_idx < $kgm_data->length)
2125 set $kgm_char = $kgm_datap[$kgm_idx++]
2126 if ($kgm_char)
2127 if (0 == $kgm_quoted)
2128 set $kgm_quoted = 1
2129 if ($kgm_idx > 1)
2130 printf ",\""
2131 else
2132 printf "\""
2133 end
2134 end
2135 printf "%c", $kgm_char
2136 else
2137 if ($kgm_quoted)
2138 set $kgm_quoted = 0
2139 printf "\""
2140 end
2141 end
2142 end
2143 if ($kgm_quoted)
2144 printf "\""
2145 end
2146 else
2147 if (0 == (3 & (unsigned int)$kgm_datap))
2148 while (($kgm_idx + 3) <= $kgm_data->length)
2149 printf "%08x", *(unsigned int *) &$kgm_datap[$kgm_idx]
2150 set $kgm_idx = $kgm_idx + 4
2151 end
2152 end
2153 while ($kgm_idx < $kgm_data->length)
2154 printf "%02x", $kgm_datap[$kgm_idx++]
2155 end
2156 end
2157 printf ">"
2158end
2159
2160define showdictionaryint
2161 set $kgm$arg0_dict = (OSDictionary *)$arg1
2162
2163 printf "{"
2164 set $kgm$arg0_idx = 0
2165 while ($kgm$arg0_idx < $kgm$arg0_dict->count)
2166 set $kgm_obj = $kgm$arg0_dict->dictionary[$kgm$arg0_idx].key
2167 showobjectint _$arg0 $kgm_obj
2168 printf "="
2169 set $kgm_obj = $kgm$arg0_dict->dictionary[$kgm$arg0_idx++].value
2170 showobjectint _$arg0 $kgm_obj
2171 if ($kgm$arg0_idx < $kgm$arg0_dict->count)
2172 printf ","
2173 end
2174 end
2175 printf "}"
2176end
2177
2178define indent
2179 set $kgm_idx = 0
2180 while ($kgm_idx < $arg0)
2181 if ($arg1 & (1 << $kgm_idx++))
2182 printf "| "
2183 else
2184 printf " "
2185 end
2186 end
2187end
2188
2189define showregdictionary
2190 indent $kgm_reg_depth+2 $arg1
2191 printf "{\n"
2192
2193 set $kgm_reg_idx = 0
2194 while ($kgm_reg_idx < $arg0->count)
2195 indent $kgm_reg_depth+2 $arg1
2196 printf " "
2197 set $kgm_obj = $arg0->dictionary[$kgm_reg_idx].key
2198 showobjectint _ $kgm_obj
2199 printf " = "
2200
2201 set $kgm_obj = $arg0->dictionary[$kgm_reg_idx++].value
2202 showobjectint _ $kgm_obj
2203 printf "\n"
2204 end
2205 indent $kgm_reg_depth+2 $arg1
2206 printf "}\n"
2207end
2208
2209
2210define showarraysetint
2211 set $kgm$arg0_array = (OSArray *)$arg1
2212
2213 set $kgm$arg0_idx = 0
2214 while ($kgm$arg0_idx < $kgm$arg0_array->count)
2215 set $kgm_obj = $kgm$arg0_array->array[$kgm$arg0_idx++]
2216 showobjectint _$arg0 $kgm_obj
2217 if ($kgm$arg0_idx < $kgm$arg0_array->count)
2218 printf ","
2219 end
2220 end
2221end
2222
2223define showarrayint
2224 printf "("
2225 showarraysetint $arg0 $arg1
2226 printf ")"
2227end
2228
2229define showsetint
2230 set $kgm_array = ((OSSet *)$arg1)->members
2231 printf "["
2232 showarraysetint $arg0 $kgm_array
2233 printf "]"
2234end
2235
2236
2237define showobjectint
2238 set $kgm_obj = (OSObject *) $arg1
2239 set $kgm_vt = *((void **) $arg1)
2240
2241 if ($kgm_show_object_addrs)
2242 printf "`object %p, vt ", $arg1
2243 output /a (unsigned) $kgm_vt
2244 if ($kgm_show_object_retain)
2245 printf ", retain count %d, container retain %d", (0xffff & $kgm_obj->retainCount), $kgm_obj->retainCount >> 16
2246 end
2247 printf "` "
2248 end
2249
2250 if ($kgm_vt == _ZTV8OSString)
2251 showstring $arg1
2252 else
2253 if ($kgm_vt == _ZTV8OSSymbol)
2254 showstring $arg1
2255 else
2256 if ($kgm_vt == _ZTV8OSNumber)
2257 shownumber $arg1
2258 else
2259 if ($kgm_vt == _ZTV6OSData)
2260 showdata $arg1
2261 else
2262 if ($kgm_vt == _ZTV9OSBoolean)
2263 showboolean $arg1
2264 else
2265 if ($kgm_vt == _ZTV12OSDictionary)
2266 showdictionaryint _$arg0 $arg1
2267 else
2268 if ($kgm_vt == _ZTV7OSArray)
2269 showarrayint _$arg0 $arg1
2270 else
2271 if ($kgm_vt == _ZTV5OSSet)
2272 showsetint _$arg0 $arg1
2273 else
2274 if ($kgm_show_object_addrs == 0)
2275 printf "`object %p, vt ", $arg1
2276 output /a (unsigned) $kgm_vt
2277 printf "`"
2278 end
2279 end
2280 end
2281 end
2282 end
2283 end
2284 end
2285 end
2286 end
2287end
2288
2289define showobject
2290 set $kgm_save = $kgm_show_object_addrs
2291 set $kgm_show_object_addrs = 1
2292 set $kgm_show_object_retain = 1
2293 showobjectint _ $arg0
2294 set $kgm_show_object_addrs = $kgm_save
2295 set $kgm_show_object_retain = 0
2296 printf "\n"
2297end
2298document showobject
2299| Show info about an OSObject - its vtable ptr and retain count.
2300| If the object is a simple container class, more info will be shown.
2301| The following is the syntax:
2302| (gdb) showobject <object address>
2303end
2304
2305define dictget
2306 set $kgm_dictp = (OSDictionary *)$arg0
2307 set $kgm_keyp = (const OSSymbol *)$arg1
2308 set $kgm_idx = 0
2309 set $kgm_result = 0
2310 while (($kgm_idx < $kgm_dictp->count) && ($kgm_result == 0))
2311 if ($kgm_keyp == $kgm_dictp->dictionary[$kgm_idx].key)
2312 set $kgm_result = $kgm_dictp->dictionary[$kgm_idx].value
2313 end
2314 set $kgm_idx = $kgm_idx + 1
2315 end
2316end
2317
2318
2319define showregistryentryrecurse
2320 set $kgm_re = (IOService *)$arg1
2321 set $kgm$arg0_stack = (unsigned long long) $arg2
2322
2323 if ($arg3)
2324 set $kgm$arg0_stack = $kgm$arg0_stack | (1ULL << $kgm_reg_depth)
2325 else
2326 set $kgm$arg0_stack = $kgm$arg0_stack & ~(1ULL << $kgm_reg_depth)
2327 end
2328
2329 dictget $kgm_re->fRegistryTable $kgm_childkey
2330 set $kgm$arg0_child_array = (OSArray *) $kgm_result
2331
2332 if ($kgm$arg0_child_array)
2333 set $kgm$arg0_child_count = $kgm$arg0_child_array->count
2334 else
2335 set $kgm$arg0_child_count = 0
2336 end
2337
2338 if ($kgm$arg0_child_count)
2339 set $kgm$arg0_stack = $kgm$arg0_stack | (2ULL << $kgm_reg_depth)
2340 else
2341 set $kgm$arg0_stack = $kgm$arg0_stack & ~(2ULL << $kgm_reg_depth)
2342 end
2343
2344 indent $kgm_reg_depth $kgm$arg0_stack
2345 printf "+-o "
2346
2347 dictget $kgm_re->fRegistryTable $kgm_namekey
2348 if ($kgm_result == 0)
2349 dictget $kgm_re->fRegistryTable gIONameKey
2350 end
2351 if ($kgm_result == 0)
2352 dictget $kgm_re->fPropertyTable gIOClassKey
2353 end
2354
2355 if ($kgm_result != 0)
2356 printf "%s", ((OSString *)$kgm_result)->string
2357 else
2358 if (((IOService*)$kgm_re)->pm_vars && ((IOService*)$kgm_re)->pm_vars->ourName)
2359 printf "%s", ((IOService*)$kgm_re)->pm_vars->ourName
2360 else
2361# printf ", guessclass "
2362# guessclass $kgm_re
2363 printf "??"
2364 end
2365 end
2366
2367
2368 printf " <object %p, ", $kgm_re
2369 printf "vtable "
2370 set $kgm_vt = (unsigned) *(void**) $kgm_re
2371 output /a $kgm_vt
2372
2373 if ($kgm_vt != _ZTV15IORegistryEntry)
2374 printf ", "
2375 set $kgm_state = $kgm_re->__state[0]
2376 # kIOServiceRegisteredState
2377 if (0 == ($kgm_state & 2))
2378 printf "!"
2379 end
2380 printf "registered, "
2381 # kIOServiceMatchedState
2382 if (0 == ($kgm_state & 4))
2383 printf "!"
2384 end
2385 printf "matched, "
2386 # kIOServiceInactiveState
2387 if ($kgm_state & 1)
2388 printf "in"
2389 end
2390 printf "active, busy %d, retain count %d", (0xff & $kgm_re->__state[1]), (0xffff & $kgm_re->retainCount)
2391 end
2392 printf ">\n"
2393
2394 if ($kgm_show_props)
2395 set $kgm_props = $kgm_re->fPropertyTable
2396 showregdictionary $kgm_props $kgm$arg0_stack
2397 end
2398
2399 # recurse
2400 if ($kgm$arg0_child_count != 0)
2401
2402 set $kgm_reg_depth = $kgm_reg_depth + 1
2403 set $kgm$arg0_child_idx = 0
2404
2405 while ($kgm$arg0_child_idx < $kgm$arg0_child_count)
2406 set $kgm_re = $kgm$arg0_child_array->array[$kgm$arg0_child_idx++]
2407 set $kgm_more_sib = ($kgm$arg0_child_idx < $kgm$arg0_child_count)
2408 showregistryentryrecurse _$arg0 $kgm_re $kgm$arg0_stack $kgm_more_sib
2409 end
2410
2411 set $kgm_reg_depth = $kgm_reg_depth - 1
2412 end
2413end
2414
2415define showregistryentryint
2416 set $kgm_namekey = (OSSymbol *) $kgm_reg_plane[2]
2417 set $kgm_childkey = (OSSymbol *) $kgm_reg_plane[4]
2418
2419 showregistryentryrecurse _ $arg0 0 0
2420end
2421
2422define showregistry
2423 set $kgm_reg_depth = 0
2424 set $kgm_show_props = 0
2425 showregistryentryint gRegistryRoot
2426end
2427document showregistry
2428| Show info about all registry entries in the current plane.
2429| The following is the syntax:
2430| (gdb) showregistry
2431end
2432
2433define showregistryprops
2434 set $kgm_reg_depth = 0
2435 set $kgm_show_props = 1
2436 showregistryentryint gRegistryRoot
2437end
2438document showregistryprops
2439| Show info about all registry entries in the current plane, and their properties.
2440| set $kgm_show_object_addrs = 1 and/or set $kgm_show_object_retain = 1 will display
2441| more verbose information
2442| The following is the syntax:
2443| (gdb) showregistryprops
2444end
2445
2446define showregistryentry
2447 set $kgm_reg_depth = 0
2448 set $kgm_show_props = 1
2449 showregistryentryint $arg0
2450end
2451document showregistryentry
2452| Show info about a registry entry; its properties and descendants in the current plane.
2453| The following is the syntax:
2454| (gdb) showregistryentry <object address>
2455end
2456
2457define setregistryplane
2458 if ($arg0)
2459 set $kgm_reg_plane = (void **) $arg0
2460 else
2461 showobjectint _ gIORegistryPlanes
2462 printf "\n"
2463 end
2464end
2465document setregistryplane
2466| Set the plane to be used for the iokit registry macros. An argument of zero will
2467| display known planes.
2468| The following is the syntax:
2469| (gdb) setregistryplane <plane object address>
2470end
2471
2472define guessclass
89b3af67 2473 set $kgm_classidx = 0
4452a7af
A
2474 set $kgm_lookvt = *((void **) $arg0)
2475 set $kgm_bestvt = (void *) 0
2476 set $kgm_bestidx = 0
2477
89b3af67 2478 while $kgm_classidx < sAllClassesDict->count
21362eb3 2479 set $kgm_meta = (OSMetaClass *) sAllClassesDict->dictionary[$kgm_classidx].value
4452a7af
A
2480
2481 set $kgm_vt = *((void **) $kgm_meta)
2482
2483 if (($kgm_vt > $kgm_bestvt) && ($kgm_vt < $kgm_lookvt))
2484 set $kgm_bestvt = $kgm_vt
2485 set $kgm_bestidx = $kgm_classidx
2486 end
21362eb3 2487 set $kgm_classidx = $kgm_classidx + 1
89b3af67 2488 end
4452a7af 2489 printf "%s", sAllClassesDict->dictionary[$kgm_bestidx].key->string
89b3af67 2490end
4452a7af
A
2491
2492define showallclasses
2493 set $kgm_classidx = 0
2494 while $kgm_classidx < sAllClassesDict->count
2495 set $kgm_meta = (OSMetaClass *) sAllClassesDict->dictionary[$kgm_classidx++].value
2496 showmetaclass $kgm_meta
2497 end
2498end
2499
91447636
A
2500document showallclasses
2501| Show the instance counts and ivar size of all OSObject subclasses. See ioclasscount man page for details.
2502| The following is the syntax:
2503| (gdb) showallclasses
2504end
2505
2506define showioalloc
2507 printf " Instance allocation = 0x%08lx = %4ld K\n", (int) debug_ivars_size, ((int) debug_ivars_size) / 1024
2508 printf "Container allocation = 0x%08lx = %4ld K\n", (int) debug_container_malloc_size, ((int) debug_container_malloc_size) / 1024
2509 printf " IOMalloc allocation = 0x%08lx = %4ld K\n", (int) debug_iomalloc_size, ((int) debug_iomalloc_size) / 1024
2510 printf " Pageable allocation = 0x%08lx = %4ld K\n", (vm_size_t) debug_iomallocpageable_size, ((vm_size_t) debug_iomallocpageable_size) / 1024
2511end
2512
2513document showioalloc
2514| Show some accounting of memory allocated by IOKit allocators. See ioalloccount man page for details.
2515| The following is the syntax:
2516| (gdb) showioalloc
2517end
4452a7af
A
2518
2519define readphys
2520 set kdp_trans_off = 1
2521 x/x $arg0
2522 set kdp_trans_off = 0
2523end
2524
2525define readphys64
2526 if ($kgm_mtype == 18)
2527 set kdp_src_high32 = ((uint32_t) ($arg0)) >> 32
2528 x/x (uint32_t) (($arg0) & 0x00000000ffffffffUL)
2529 set kdp_src_high32 = 0
2530 else
2531 echo readphys64 not available on this architecture.\n
2532 end
2533end
2534
2535document readphys
2536| The argument is interpreted as a physical address, and the word addressed is
2537| displayed. While this fails if no physical page exists at the given address,
2538| it must be used with caution.
2539end
2540
2541document readphys64
2542| The argument is interpreted as a 64-bit physical address, and the word
2543| addressed is displayed. While this fails if no physical page exists at the
2544| given address, it must be used with caution.
2545end