#
# Kernel gdb macros
#
#  These gdb macros should be useful during kernel development in
#  determining what's going on in the kernel.
#
#  All the convenience variables used by these macros begin with $kgm_

set print asm-demangle on
set cp-abi gnu-v2

echo Loading Kernel GDB Macros package.  Type "help kgm" for more info.\n

define kgm
printf ""
echo  These are the gdb macros for kernel debugging.  Type "help kgm" for more info.\n
end

document kgm
| These are the kernel gdb macros.  These gdb macros are intended to be
| used when debugging a remote kernel via the kdp protocol.  Typically, you
| would connect to your remote target like so:
|     (gdb) target remote-kdp
|     (gdb) attach <name-of-remote-host>
|
| The following macros are available in this package:
|     showversion    Displays a string describing the remote kernel version
|
|     showalltasks   Display a summary listing of all tasks
|     showallthreads Display info about all threads in the system
|     showallstacks  Display the stack for each thread in the system
|     showcurrentthreads   Display info about the thread running on each cpu
|     showcurrentstacks    Display the stack for the thread running on each cpu
|     showallvm      Display a summary listing of all the vm maps
|     showallvme     Display a summary listing of all the vm map entries
|     showallipc     Display a summary listing of all the ipc spaces
|     showallrights  Display a summary listing of all the ipc rights
|     showallkmods   Display a summary listing of all the kernel modules
|
|     showallclasses    Display info about all OSObject subclasses in the system
|     showobject        Show info about an OSObject - its vtable ptr and retain count, & more info for simple container classes.
|     showregistry      Show info about all registry entries in the current plane
|     showregistryprops Show info about all registry entries in the current plane, and their properties
|     showregistryentry Show info about a registry entry; its properties and descendants in the current plane
|     setregistryplane  Set the plane to be used for the iokit registry macros (pass zero for list)
|
|     showtask       Display info about the specified task
|     showtaskthreads      Display info about the threads in the task
|     showtaskstacks Display the stack for each thread in the task
|     showtaskvm     Display info about the specified task's vm_map
|     showtaskvme    Display info about the task's vm_map entries
|     showtaskipc    Display info about the specified task's ipc space
|     showtaskrights Display info about the task's ipc space entries
|
|     showact	     Display info about a thread specified by activation
|     showactstack   Display the stack for a thread specified by activation
|
|     showmap	     Display info about the specified vm_map
|     showmapvme     Display a summary list of the specified vm_map's entries
|
|     showipc        Display info about the specified ipc space
|     showrights     Display a summary list of all the rights in an ipc space
|
|     showpid        Display info about the process identified by pid
|     showproc       Display info about the process identified by proc struct
|
|     showkmod	     Display info about a kernel module
|     showkmodaddr   Given an address, display the kernel module and offset
|
|     dumpcallqueue  Dump out all the entries given a queue head
|
|     showallmtx     Display info about mutexes usage
|     showallrwlck   Display info about reader/writer locks usage
|
|     zprint         Display info about the memory zones
|     showioalloc    Display info about iokit allocations
|     paniclog       Display the panic log info
|
|     switchtoact    Switch to different context specified by activation
|     switchtoctx    Switch to different context
|     showuserstack  Display numeric backtrace of the user stack for an 
|     		     activation
|
|     switchtouserthread Switch to the user context of the specified thread
|     resetstacks    Return to the original kernel context
|
|     resetctx       Reset context
|     resume_on      Resume when detaching from gdb
|     resume_off     Don't resume when detaching from gdb 
|
|     sendcore	     Configure kernel to send a coredump to the specified IP
|     disablecore    Configure the kernel to disable coredump transmission
|     switchtocorethread Corefile version of "switchtoact"
|     resetcorectx   Corefile version of "resetctx"
|
|     readphys       Reads the specified untranslated address
|     readphys64     Reads the specified untranslated 64-bit address
|
|     kdp-reboot     Restart remote target
|	
| Type "help <macro>" for more specific help on a particular macro.
| Type "show user <macro>" to see what the macro is really doing.
end

# This macro should appear before any symbol references, to facilitate
# a gdb "source" without a loaded symbol file.
define showversion
       printf "%s\n", *(char **)0x501C
end

document showversion
Syntax: showversion
| Read the kernel version string from a fixed address in low
| memory. Useful if you don't know which kernel is on the other end,
| and need to find the appropriate symbols. Beware that if you've
| loaded a symbol file, but aren't connected to a remote target,
| the version string from the symbol file will be displayed instead.
| This macro expects to be connected to the remote kernel to function
| correctly.
end

set $kgm_dummy = &proc0
set $kgm_dummy = &kmod
set $kgm_mtype = ((struct mach_header)_mh_execute_header).cputype

set $kgm_reg_depth = 0
set $kgm_reg_plane = (void **) gIOServicePlane
set $kgm_namekey = (OSSymbol *) 0
set $kgm_childkey = (OSSymbol *) 0

set $kgm_show_object_addrs = 0
set $kgm_show_object_retain = 0
set $kgm_show_props = 0

define showkmodheader
    printf "kmod        address     size        "
    printf "id    refs     version  name\n"
end

define showkmodint
    set $kgm_kmodp = (struct kmod_info *)$arg0
    printf "0x%08x  ", $arg0
    printf "0x%08x  ", $kgm_kmodp->address
    printf "0x%08x  ", $kgm_kmodp->size
    printf "%3d  ", $kgm_kmodp->id
    printf "%5d  ", $kgm_kmodp->reference_count
    printf "%10s  ", &$kgm_kmodp->version
    printf "%s\n", &$kgm_kmodp->name
end

set $kgm_kmodmin = 0xffffffff
set $kgm_fkmodmin = 0x00000000
set $kgm_kmodmax = 0x00000000
set $kgm_fkmodmax = 0xffffffff
set $kgm_pkmod = 0
set $kgm_pkmodst = 0
set $kgm_pkmoden = 0
define showkmodaddrint
    printf "0x%x" , $arg0
    if ((unsigned int)$arg0 >= (unsigned int)$kgm_pkmodst) && ((unsigned int)$arg0 <= (unsigned int)$kgm_pkmoden)
	set $kgm_off = ((unsigned int)$arg0 - (unsigned int)$kgm_pkmodst)
	printf " <%s + 0x%x>", $kgm_pkmod->name, $kgm_off
    else
        if  ((unsigned int)$arg0 <= (unsigned int)$kgm_fkmodmax) && ((unsigned int)$arg0 >= (unsigned int)$kgm_fkmodmin)
	    set $kgm_kmodp = (struct kmod_info *)kmod
	    while $kgm_kmodp
		set $kgm_kmod = *$kgm_kmodp
		if $kgm_kmod.address && ($kgm_kmod.address < $kgm_kmodmin)
		    set $kgm_kmodmin = $kgm_kmod.address
		end
		if ($kgm_kmod.address + $kgm_kmod.size) > $kgm_kmodmax
	    	    set $kgm_kmodmax = $kgm_kmod.address + $kgm_kmod.size
	    	end
	        set $kgm_off = ((unsigned int)$arg0 - (unsigned int)$kgm_kmod.address)
	        if ($kgm_kmod.address <= $arg0) && ($kgm_off <= $kgm_kmod.size)
		    printf " <%s + 0x%x>", $kgm_kmodp->name, $kgm_off
		    set $kgm_pkmod = $kgm_kmodp
		    set $kgm_pkmodst = $kgm_kmod.address
		    set $kgm_pkmoden = $kgm_pkmodst + $kgm_kmod.size
	    	    set $kgm_kmodp = 0
	        else
	    	    set $kgm_kmodp = $kgm_kmod.next
	        end
	    end
	    if !$kgm_pkmod
		set $kgm_fkmodmin = $kgm_kmodmin
		set $kgm_fkmodmax = $kgm_kmodmax
	    end
	end
    end
end

define showkmodaddr
    showkmodaddrint $arg0
    printf "\n"
end

document showkmodaddr
| Given an address, print the offset and name for the kmod containing it
| The following is the syntax:
|     (gdb) showkmodaddr <addr>
end

define showkmod
    showkmodheader
    showkmodint $arg0
end
document showkmod
| Routine to print info about a kernel module
| The following is the syntax:
|     (gdb) showkmod <kmod>
end

define showallkmods
    showkmodheader
    set $kgm_kmodp = (struct kmod_info *)kmod
    while $kgm_kmodp
	showkmodint $kgm_kmodp
    	set $kgm_kmodp = $kgm_kmodp->next
    end
end
document showallkmods
| Routine to print a summary listing of all the kernel modules
| The following is the syntax:
|     (gdb) showallkmods
end

define showactheader
    printf "            activation  "
    printf "thread      pri  state  wait_queue  wait_event\n"
end


define showactint
	printf "            0x%08x  ", $arg0
	set $kgm_thread = *(struct thread *)$arg0
	printf "0x%08x  ", $arg0
	printf "%3d  ", $kgm_thread.sched_pri
	set $kgm_state = $kgm_thread.state
	if $kgm_state & 0x80
	    printf "I" 
	end
	if $kgm_state & 0x40
	    printf "P" 
	end
	if $kgm_state & 0x20
	    printf "A" 
	end
	if $kgm_state & 0x10
	    printf "H" 
	end
	if $kgm_state & 0x08
	    printf "U" 
	end
	if $kgm_state & 0x04
	    printf "R" 
	end
	if $kgm_state & 0x02
	    printf "S" 
	end
   	if $kgm_state & 0x01
	    printf "W\t" 
	    printf "0x%08x  ", $kgm_thread.wait_queue
	    	if (((unsigned)$kgm_thread.wait_event > (unsigned)sectPRELINKB) \
		    && ($arg1 != 2))
			showkmodaddr $kgm_thread.wait_event
	        else
			output /a (unsigned) $kgm_thread.wait_event
		end
	end
	if $arg1 != 0
	    if ($kgm_thread.kernel_stack != 0)
		if ($kgm_thread.reserved_stack != 0)
			printf "\n\t\treserved_stack=0x%08x", $kgm_thread.reserved_stack
		end
		printf "\n\t\tkernel_stack=0x%08x", $kgm_thread.kernel_stack
		if ($kgm_mtype == 18)
			set $mysp = $kgm_thread.machine.pcb->save_r1
		else
			set $kgm_statep = (struct x86_kernel_state32 *) \
				($kgm_thread->kernel_stack + 0x4000 \
				 - sizeof(struct x86_kernel_state32))
			set $mysp = $kgm_statep->k_ebp
		end
		set $prevsp = $mysp - 16
		printf "\n\t\tstacktop=0x%08x", $mysp
		if ($kgm_mtype == 18)
			set $stkmask = 0xf
		else
			set $stkmask = 0x3
		end
		set $kgm_return = 0
	    	while ($mysp != 0) && (($mysp & $stkmask) == 0) \
		      && ($mysp != $prevsp) \
		      && ((((unsigned) $mysp ^ (unsigned) $prevsp) < 0x2000) \
		      || (((unsigned)$mysp < ((unsigned) ($kgm_thread->kernel_stack+0x4000))) \
		      && ((unsigned)$mysp > (unsigned) ($kgm_thread->kernel_stack))))

			if ((unsigned) $kgm_return > (unsigned) sectPRELINKB)
			    showkmodaddr $kgm_return
			else
				if ((unsigned) $kgm_return > 0)
				    output /a (unsigned) $kgm_return
				end
			end
			printf "\n\t\t0x%08x  ", $mysp
			if ($kgm_mtype == 18)
				set $kgm_return = *($mysp + 8)
			else
				set $kgm_return = *($mysp + 4)
			end
			set $prevsp = $mysp
			set $mysp = * $mysp
		end
		if ((unsigned) $kgm_return > 0)
		   output/a $kgm_return
		end
		set $kgm_return = 0
		printf "\n\t\tstackbottom=0x%08x", $prevsp
	    else
		printf "\n\t\t\tcontinuation="
		output /a (unsigned) $kgm_thread.continuation
	    end
	    printf "\n"
	else
	    printf "\n"
	end
end	    

define showact
    showactheader
    showactint $arg0 0
end
document showact
| Routine to print out the state of a specific thread.
| The following is the syntax:
|     (gdb) showact <activation> 
end


define showactstack
    showactheader
    showactint $arg0 1
end
document showactstack
| Routine to print out the stack of a specific thread.
| The following is the syntax:
|     (gdb) showactstack <activation> 
end


define showallthreads
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_taskp != $kgm_head_taskp
        showtaskheader
	showtaskint $kgm_taskp
	showactheader
	set $kgm_head_actp = &($kgm_taskp->threads)
        set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
	while $kgm_actp != $kgm_head_actp
	    showactint $kgm_actp 0
  	    set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
        end
	printf "\n"
    	set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
    end
end
document showallthreads
| Routine to print out info about all threads in the system.
| The following is the syntax:
|     (gdb) showallthreads
end

define showcurrentthreads
set $kgm_prp = processor_list
    while $kgm_prp != 0
	if ($kgm_prp)->active_thread != 0
	    set $kgm_actp = ($kgm_prp)->active_thread
	    showtaskheader
	    showtaskint ($kgm_actp)->task
	    showactheader
	    showactint $kgm_actp 0
	    printf "\n"
	end
	set $kgm_prp = ($kgm_prp)->processor_list
    end
end
document showcurrentthreads
| Routine to print out info about the thread running on each cpu.
| The following is the syntax:
|     (gdb) showcurrentthreads
end

set $decode_wait_events = 0
define showallstacks
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_taskp != $kgm_head_taskp
        showtaskheader
	showtaskint $kgm_taskp
	set $kgm_head_actp = &($kgm_taskp->threads)
        set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
	while $kgm_actp != $kgm_head_actp
	    showactheader
	    if ($decode_wait_events > 0)
	       showactint $kgm_actp 1
	    else
	       showactint $kgm_actp 2
	    end
  	    set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
        end
	printf "\n"
    	set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
    end
end

document showallstacks
| Routine to print out the stack for each thread in the system.
| The following is the syntax:
|     (gdb) showallstacks
| If the variable $decode_wait_events is non-zero, the routine attempts to
| interpret thread wait_events as kernel module offsets, which can add to
| processing time.
end

define showcurrentstacks
set $kgm_prp = processor_list
    while $kgm_prp != 0
	if ($kgm_prp)->active_thread != 0
	    set $kgm_actp = ($kgm_prp)->active_thread
	    showtaskheader
	    showtaskint ($kgm_actp)->task
	    showactheader
	    showactint $kgm_actp 1
	    printf "\n"
	end
	set $kgm_prp = ($kgm_prp)->processor_list
    end
end

document showcurrentstacks
| Routine to print out the thread running on each cpu (incl. its stack)
| The following is the syntax:
|     (gdb) showcurrentstacks
end

define showwaiterheader
    printf "waiters     activation  "
    printf "thread      pri  state  wait_queue  wait_event\n"
end

define showwaitqwaiters
    set $kgm_w_waitqp = (struct wait_queue *)$arg0
    set $kgm_w_linksp = &($kgm_w_waitqp->wq_queue)
    set $kgm_w_wqe = (struct wait_queue_element *)$kgm_w_linksp->next
    set $kgm_w_found = 0
    while ( (queue_entry_t)$kgm_w_wqe != (queue_entry_t)$kgm_w_linksp)
	if ($kgm_w_wqe->wqe_type != &_wait_queue_link)
		if !$kgm_w_found
			set $kgm_w_found = 1
			showwaiterheader
		end
		set $kgm_w_shuttle = (struct thread *)$kgm_w_wqe
		showactint $kgm_w_shuttle 0
	end	
	set $kgm_w_wqe = (struct wait_queue_element *)$kgm_w_wqe->wqe_links.next
    end
end

define showwaitqwaitercount
    set $kgm_wc_waitqp = (struct wait_queue *)$arg0
    set $kgm_wc_linksp = &($kgm_wc_waitqp->wq_queue)
    set $kgm_wc_wqe = (struct wait_queue_element *)$kgm_wc_linksp->next
    set $kgm_wc_count = 0
    while ( (queue_entry_t)$kgm_wc_wqe != (queue_entry_t)$kgm_wc_linksp)
	if ($kgm_wc_wqe->wqe_type != &_wait_queue_link)
        	set $kgm_wc_count = $kgm_wc_count + 1
	end
        set $kgm_wc_wqe = (struct wait_queue_element *)$kgm_wc_wqe->wqe_links.next
    end
    printf "0x%08x  ", $kgm_wc_count
end

define showwaitqmembercount
    set $kgm_mc_waitqsetp = (struct wait_queue_set *)$arg0
    set $kgm_mc_setlinksp = &($kgm_mc_waitqsetp->wqs_setlinks)
    set $kgm_mc_wql = (struct wait_queue_link *)$kgm_mc_setlinksp->next
    set $kgm_mc_count = 0
    while ( (queue_entry_t)$kgm_mc_wql != (queue_entry_t)$kgm_mc_setlinksp)
        set $kgm_mc_count = $kgm_mc_count + 1
        set $kgm_mc_wql = (struct wait_queue_link *)$kgm_mc_wql->wql_setlinks.next
    end
    printf "0x%08x  ", $kgm_mc_count
end

    
define showwaitqmemberheader
    printf "set-members wait_queue  interlock   "
    printf "pol  type   member_cnt  waiter_cnt\n"
end

define showwaitqmemberint
    set $kgm_m_waitqp = (struct wait_queue *)$arg0
    printf "            0x%08x  ", $kgm_m_waitqp
    printf "0x%08x  ", $kgm_m_waitqp->wq_interlock.lock_data
    if ($kgm_m_waitqp->wq_fifo)
        printf "Fifo "
    else
	printf "Prio "
    end
    if ($kgm_m_waitqp->wq_type == 0xf1d1)
	printf "Set    "
	showwaitqmembercount $kgm_m_waitqp
    else
	printf "Que    0x00000000  "
    end
    showwaitqwaitercount $kgm_m_waitqp
    printf "\n"
end


define showwaitqmemberofheader
    printf "member-of   wait_queue  interlock   "
    printf "pol  type   member_cnt  waiter_cnt\n"
end

define showwaitqmemberof
    set $kgm_mo_waitqp = (struct wait_queue *)$arg0
    set $kgm_mo_linksp = &($kgm_mo_waitqp->wq_queue)
    set $kgm_mo_wqe = (struct wait_queue_element *)$kgm_mo_linksp->next
    set $kgm_mo_found = 0
    while ( (queue_entry_t)$kgm_mo_wqe != (queue_entry_t)$kgm_mo_linksp)
	if ($kgm_mo_wqe->wqe_type == &_wait_queue_link)
		if !$kgm_mo_found
			set $kgm_mo_found = 1
			showwaitqmemberofheader
		end
		set $kgm_mo_wqlp = (struct wait_queue_link *)$kgm_mo_wqe
		set $kgm_mo_wqsetp = (struct wait_queue *)($kgm_mo_wqlp->wql_setqueue)
		showwaitqmemberint $kgm_mo_wqsetp
	end	
	set $kgm_mo_wqe = (struct wait_queue_element *)$kgm_mo_wqe->wqe_links.next
    end
end

define showwaitqmembers
    set $kgm_ms_waitqsetp = (struct wait_queue_set *)$arg0
    set $kgm_ms_setlinksp = &($kgm_ms_waitqsetp->wqs_setlinks)
    set $kgm_ms_wql = (struct wait_queue_link *)$kgm_ms_setlinksp->next
    set $kgm_ms_found = 0
    while ( (queue_entry_t)$kgm_ms_wql != (queue_entry_t)$kgm_ms_setlinksp)
        set $kgm_ms_waitqp = $kgm_ms_wql->wql_element.wqe_queue
        if !$kgm_ms_found  
	    showwaitqmemberheader
	    set $kgm_ms_found = 1
        end
        showwaitqmemberint $kgm_ms_waitqp
	set $kgm_ms_wql = (struct wait_queue_link *)$kgm_ms_wql->wql_setlinks.next
    end
end

define showwaitqheader
    printf "wait_queue  ref_count   interlock   "
    printf "pol  type   member_cnt  waiter_cnt\n"
end

define showwaitqint
    set $kgm_waitqp = (struct wait_queue *)$arg0
    printf "0x%08x  ", $kgm_waitqp
    if ($kgm_waitqp->wq_type == 0xf1d1)
	printf "0x%08x  ", ((struct wait_queue_set *)$kgm_waitqp)->wqs_refcount
    else
	printf "0x00000000  "
    end
    printf "0x%08x  ", $kgm_waitqp->wq_interlock.lock_data
    if ($kgm_waitqp->wq_fifo)
        printf "Fifo "
    else
	printf "Prio "
    end
    if ($kgm_waitqp->wq_type == 0xf1d1)
	printf "Set    "
	showwaitqmembercount $kgm_waitqp
    else
	printf "Que    0x00000000  "
    end
    showwaitqwaitercount $kgm_waitqp
    printf "\n"
end

define showwaitq
    set $kgm_waitq1p = (wait_queue_t)$arg0
    showwaitqheader
    showwaitqint $kgm_waitq1p	
    if ($kgm_waitq1p->wq_type == 0xf1d1)
	showwaitqmembers $kgm_waitq1p
    else
    	showwaitqmemberof $kgm_waitq1p
    end
    showwaitqwaiters $kgm_waitq1p
end

define showmapheader
    printf "vm_map      pmap        vm_size    "
    printf "#ents rpage  hint        first_free\n"
end

define showvmeheader
    printf "    entry       start       "
    printf "        prot #page  object      offset\n"
end

define showvmint
    set $kgm_mapp = (vm_map_t)$arg0
    set $kgm_map = *$kgm_mapp
    printf "0x%08x  ", $arg0
    printf "0x%08x  ", $kgm_map.pmap
    printf "0x%08x  ", $kgm_map.size
    printf "%3d  ", $kgm_map.hdr.nentries
    if $kgm_map.pmap
	printf "%5d  ", $kgm_map.pmap->stats.resident_count
    else
	printf "<n/a>  "
    end
    printf "0x%08x  ", $kgm_map.hint
    printf "0x%08x\n", $kgm_map.first_free
    if $arg1 != 0
	showvmeheader	
	set $kgm_head_vmep = &($kgm_mapp->hdr.links)
	set $kgm_vmep = $kgm_map.hdr.links.next
	while (($kgm_vmep != 0) && ($kgm_vmep != $kgm_head_vmep))
	    set $kgm_vme = *$kgm_vmep
	    printf "    0x%08x  ", $kgm_vmep
	    printf "0x%016llx  ", $kgm_vme.links.start
	    printf "%1x", $kgm_vme.protection
	    printf "%1x", $kgm_vme.max_protection
	    if $kgm_vme.inheritance == 0x0
		printf "S"
	    end
	    if $kgm_vme.inheritance == 0x1
		printf "C"
	    end
	    if $kgm_vme.inheritance == 0x2
		printf "-"
	    end
	    if $kgm_vme.inheritance == 0x3
		printf "D"
	    end
	    if $kgm_vme.is_sub_map
		printf "s "
	    else
		if $kgm_vme.needs_copy
		    printf "n "
		else
		    printf "  "
		end
	    end
	    printf "%5d  ",($kgm_vme.links.end - $kgm_vme.links.start) >> 12
	    printf "0x%08x  ", $kgm_vme.object.vm_object
	    printf "0x%016llx\n", $kgm_vme.offset
  	    set $kgm_vmep = $kgm_vme.links.next
        end
    end
    printf "\n"
end


define showmapvme
	showmapheader
	showvmint $arg0 1
end
document showmapvme
| Routine to print out a summary listing of all the entries in a vm_map
| The following is the syntax:
|     (gdb) showmapvme <vm_map>
end


define showmap
	showmapheader
	showvmint $arg0 0
end
document showmap
| Routine to print out info about the specified vm_map
| The following is the syntax:
|     (gdb) showmap <vm_map>
end

define showallvm
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_taskp != $kgm_head_taskp
        showtaskheader
	showmapheader
	showtaskint $kgm_taskp
	showvmint $kgm_taskp->map 0
    	set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
    end
end
document showallvm
| Routine to print a summary listing of all the vm maps
| The following is the syntax:
|     (gdb) showallvm
end


define showallvme
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_taskp != $kgm_head_taskp
        showtaskheader
	showmapheader
	showtaskint $kgm_taskp
	showvmint $kgm_taskp->map 1
    	set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
    end
end
document showallvme
| Routine to print a summary listing of all the vm map entries
| The following is the syntax:
|     (gdb) showallvme
end


define showipcheader
    printf "ipc_space   is_table    table_next "
    printf "flags tsize  splaytree   splaybase\n"
end

define showipceheader
    printf "            name        object      "
    printf "rite urefs  destname    destination\n"
end

define showipceint
    set $kgm_ie = *(ipc_entry_t)$arg0
    printf "            0x%08x  ", $arg1
    printf "0x%08x  ", $kgm_ie.ie_object
    if $kgm_ie.ie_bits & 0x00100000
	printf "Dead "
        printf "%5d\n", $kgm_ie.ie_bits & 0xffff
    else
        if $kgm_ie.ie_bits & 0x00080000
	    printf "SET  "
            printf "%5d\n", $kgm_ie.ie_bits & 0xffff
        else
            if $kgm_ie.ie_bits & 0x00010000
	        if $kgm_ie.ie_bits & 0x00020000
	            printf " SR"
	        else
	            printf "  S"
	        end
            else
	        if $kgm_ie.ie_bits & 0x00020000
	           printf "  R"
	        end
            end
            if $kgm_ie.ie_bits & 0x00040000
	        printf "  O"
            end
            if $kgm_ie.index.request
	        printf "n"
            else
                printf " "
            end
            if $kgm_ie.ie_bits & 0x00800000
		printf "c"
    	    else
		printf " "
    	    end
            printf "%5d  ", $kgm_ie.ie_bits & 0xffff
            showportdest $kgm_ie.ie_object
        end
    end
end

define showipcint
    set $kgm_isp = (ipc_space_t)$arg0
    set $kgm_is = *$kgm_isp
    printf "0x%08x  ", $arg0
    printf "0x%08x  ", $kgm_is.is_table
    printf "0x%08x  ", $kgm_is.is_table_next
    if $kgm_is.is_growing != 0
	printf "G"
    else
	printf " "
    end
    if $kgm_is.is_fast != 0
	printf "F"
    else
	printf " "
    end
    if $kgm_is.is_active != 0
	printf "A  "
    else
	printf "   "
    end
    printf "%5d  ", $kgm_is.is_table_size
    printf "0x%08x  ", $kgm_is.is_tree_total
    printf "0x%08x\n", &$kgm_isp->is_tree
    if $arg1 != 0
	showipceheader
	set $kgm_iindex = 0
	set $kgm_iep = $kgm_is.is_table
	set $kgm_destspacep = (ipc_space_t)0
        while ( $kgm_iindex < $kgm_is.is_table_size )
	    set $kgm_ie = *$kgm_iep
	    if $kgm_ie.ie_bits & 0x001f0000
		set $kgm_name = (($kgm_iindex << 8)|($kgm_ie.ie_bits >> 24))
		showipceint $kgm_iep $kgm_name
	    end
	    set $kgm_iindex = $kgm_iindex + 1
	    set $kgm_iep = &($kgm_is.is_table[$kgm_iindex])
	end
	if $kgm_is.is_tree_total
	    printf "Still need to write tree traversal\n"
	end
    end
    printf "\n"
end


define showipc
	set $kgm_isp = (ipc_space_t)$arg0
        showipcheader
	showipcint $kgm_isp 0
end
document showipc
| Routine to print the status of the specified ipc space
| The following is the syntax:
|     (gdb) showipc <ipc_space>
end

define showrights
	set $kgm_isp = (ipc_space_t)$arg0
        showipcheader
	showipcint $kgm_isp 1
end
document showrights
| Routine to print a summary list of all the rights in a specified ipc space
| The following is the syntax:
|     (gdb) showrights <ipc_space>
end


define showtaskipc
	set $kgm_taskp = (task_t)$arg0
	showtaskheader
    showipcheader
	showtaskint $kgm_taskp
	showipcint $kgm_taskp->itk_space 0
end
document showtaskipc
| Routine to print info about the ipc space for a task
| The following is the syntax:
|     (gdb) showtaskipc <task>
end


define showtaskrights
	set $kgm_taskp = (task_t)$arg0
	showtaskheader
        showipcheader
	showtaskint $kgm_taskp
	showipcint $kgm_taskp->itk_space 1
end
document showtaskrights
| Routine to print info about the ipc rights for a task
| The following is the syntax:
|     (gdb) showtaskrights <task>
end

define showallipc
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_cur_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_cur_taskp != $kgm_head_taskp
        showtaskheader
        showipcheader
	showtaskint $kgm_cur_taskp
	showipcint $kgm_cur_taskp->itk_space 0
    	set $kgm_cur_taskp = (struct task *)($kgm_cur_taskp->pset_tasks.next)
    end
end
document showallipc
| Routine to print a summary listing of all the ipc spaces
| The following is the syntax:
|     (gdb) showallipc
end


define showallrights
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_cur_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_cur_taskp != $kgm_head_taskp
        showtaskheader
        showipcheader
	showtaskint $kgm_cur_taskp
	showipcint $kgm_cur_taskp->itk_space 1
    	set $kgm_cur_taskp = (struct task *)($kgm_cur_taskp->pset_tasks.next)
    end
end
document showallrights
| Routine to print a summary listing of all the ipc rights
| The following is the syntax:
|     (gdb) showallrights
end


define showtaskvm
	set $kgm_taskp = (task_t)$arg0
	showtaskheader
	showmapheader
	showtaskint $kgm_taskp
	showvmint $kgm_taskp->map 0
end
document showtaskvm
| Routine to print out info about a task's vm_map
| The following is the syntax:
|     (gdb) showtaskvm <task>
end

define showtaskvme
	set $kgm_taskp = (task_t)$arg0
	showtaskheader
	showmapheader
	showtaskint $kgm_taskp
	showvmint $kgm_taskp->map 1
end
document showtaskvme
| Routine to print out info about a task's vm_map_entries
| The following is the syntax:
|     (gdb) showtaskvme <task>
end


define showtaskheader
    printf "task        vm_map      ipc_space  #acts  "
    showprocheader
end


define showtaskint
    set $kgm_task = *(struct task *)$arg0
    printf "0x%08x  ", $arg0
    printf "0x%08x  ", $kgm_task.map
    printf "0x%08x  ", $kgm_task.itk_space
    printf "%3d  ", $kgm_task.thread_count
    showprocint $kgm_task.bsd_info
end

define showtask
    showtaskheader
    showtaskint $arg0
end
document showtask
| Routine to print out info about a task.
| The following is the syntax:
|     (gdb) showtask <task>
end


define showtaskthreads
    showtaskheader
    set $kgm_taskp = (struct task *)$arg0
    showtaskint $kgm_taskp
    showactheader
    set $kgm_head_actp = &($kgm_taskp->threads)
    set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
    while $kgm_actp != $kgm_head_actp
	showactint $kgm_actp 0
    	set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
    end
end
document showtaskthreads
| Routine to print info about the threads in a task.
| The following is the syntax:
|     (gdb) showtaskthreads <task>
end


define showtaskstacks
    showtaskheader
    set $kgm_taskp = (struct task *)$arg0
    showtaskint $kgm_taskp
    set $kgm_head_actp = &($kgm_taskp->threads)
    set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
    while $kgm_actp != $kgm_head_actp
        showactheader
	showactint $kgm_actp 1
    	set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
    end
end
document showtaskstacks
| Routine to print out the stack for each thread in a task.
| The following is the syntax:
|     (gdb) showtaskstacks <task>
end


define showalltasks
    showtaskheader
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_taskp != $kgm_head_taskp
	showtaskint $kgm_taskp
    	set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
    end
end
document showalltasks
| Routine to print a summary listing of all the tasks
| The following is the syntax:
|     (gdb) showalltasks
end


define showprocheader
    printf " pid  proc        command\n"
end

define showprocint
    set $kgm_procp = (struct proc *)$arg0
    if $kgm_procp != 0
        printf "%5d  ", $kgm_procp->p_pid
	printf "0x%08x  ", $kgm_procp
	printf "%s\n", $kgm_procp->p_comm
    else
	printf "  *0*  0x00000000  --\n"
    end
end

define showpid
    showtaskheader
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_taskp != $kgm_head_taskp
	set $kgm_procp = (struct proc *)$kgm_taskp->bsd_info
	if (($kgm_procp != 0) && ($kgm_procp->p_pid == $arg0))
	    showtaskint $kgm_taskp
	    set $kgm_taskp = $kgm_head_taskp
	else
    	    set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
	end
    end
end
document showpid
| Routine to print a single process by pid
| The following is the syntax:
|     (gdb) showpid <pid>
end

define showproc
    showtaskheader
    set $kgm_procp = (struct proc *)$arg0
    showtaskint $kgm_procp->task $arg1 $arg2
end


define kdb
    set switch_debugger=1
    continue
end
document kdb
| kdb - Switch to the inline kernel debugger
|
| usage: kdb
|
| The kdb macro allows you to invoke the inline kernel debugger.
end

define showpsetheader
    printf "portset     waitqueue   recvname    "
    printf "flags refs  recvname    process\n"
end

define showportheader
    printf "port        mqueue      recvname    "
    printf "flags refs  recvname    process\n"
end

define showportmemberheader
    printf "members     port        recvname    "
    printf "flags refs  mqueue      msgcount\n"
end

define showkmsgheader
    printf "messages    kmsg        size        "
    printf "disp msgid  remote-port local-port\n"
end

define showkmsgint
    printf "            0x%08x  ", $arg0
    set $kgm_kmsgh = ((ipc_kmsg_t)$arg0)->ikm_header
    printf "0x%08x  ", $kgm_kmsgh.msgh_size
    if (($kgm_kmsgh.msgh_bits & 0xff) == 19)
	printf "rC"
    else
	printf "rM"
    end
    if (($kgm_kmsgh.msgh_bits & 0xff00) == (19 < 8))
	printf "lC"
    else
	printf "lM"
    end
    if ($kgm_kmsgh.msgh_bits & 0xf0000000)
	printf "c"
    else
	printf "s"
    end
    printf "%5d  ", $kgm_kmsgh.msgh_id
    printf "0x%08x  ", $kgm_kmsgh.msgh_remote_port
    printf "0x%08x\n", $kgm_kmsgh.msgh_local_port
end



define showkobject
    set $kgm_portp = (struct ipc_port *)$arg0
    printf "0x%08x  kobject(", $kgm_portp->ip_kobject
    set $kgm_kotype = ($kgm_portp->ip_object.io_bits & 0x00000fff)
    if ($kgm_kotype == 1)
	printf "THREAD"
    end
    if ($kgm_kotype == 2)
	printf "TASK"
    end
    if ($kgm_kotype == 3)
	printf "HOST"
    end
    if ($kgm_kotype == 4)
	printf "HOST_PRIV"
    end
    if ($kgm_kotype == 5)
	printf "PROCESSOR"
    end
    if ($kgm_kotype == 6)
	printf "PSET"
    end
    if ($kgm_kotype == 7)
	printf "PSET_NAME"
    end
    if ($kgm_kotype == 8)
	printf "TIMER"
    end
    if ($kgm_kotype == 9)
	printf "PAGER_REQ"
    end
    if ($kgm_kotype == 10)
	printf "DEVICE"
    end
    if ($kgm_kotype == 11)
	printf "XMM_OBJECT"
    end
    if ($kgm_kotype == 12)
	printf "XMM_PAGER"
    end
    if ($kgm_kotype == 13)
	printf "XMM_KERNEL"
    end
    if ($kgm_kotype == 14)
	printf "XMM_REPLY"
    end
    if ($kgm_kotype == 15)
	printf "NOTDEF 15"
    end
    if ($kgm_kotype == 16)
	printf "NOTDEF 16"
    end
    if ($kgm_kotype == 17)
	printf "HOST_SEC"
    end
    if ($kgm_kotype == 18)
	printf "LEDGER"
    end
    if ($kgm_kotype == 19)
	printf "MASTER_DEV"
    end
    if ($kgm_kotype == 20)
	printf "ACTIVATION"
    end
    if ($kgm_kotype == 21)
	printf "SUBSYSTEM"
    end
    if ($kgm_kotype == 22)
	printf "IO_DONE_QUE"
    end
    if ($kgm_kotype == 23)
	printf "SEMAPHORE"
    end
    if ($kgm_kotype == 24)
	printf "LOCK_SET"
    end
    if ($kgm_kotype == 25)
	printf "CLOCK"
    end
    if ($kgm_kotype == 26)
	printf "CLOCK_CTRL"
    end
    if ($kgm_kotype == 27)
	printf "IOKIT_SPARE"
    end
    if ($kgm_kotype == 28)
	printf "NAMED_MEM"
    end
    if ($kgm_kotype == 29)
	printf "IOKIT_CON"
    end
    if ($kgm_kotype == 30)
	printf "IOKIT_OBJ"
    end
    if ($kgm_kotype == 31)
	printf "UPL"
    end
    printf ")\n"
end

define showportdestproc
    set $kgm_portp = (struct ipc_port *)$arg0
    set $kgm_spacep = $kgm_portp->data.receiver
#   check against the previous cached value - this is slow
    if ($kgm_spacep != $kgm_destspacep)
	set $kgm_destprocp = (struct proc *)0
        set $kgm_head_taskp = &default_pset.tasks
        set $kgm_desttaskp = (struct task *)($kgm_head_taskp->next)
        while (($kgm_destprocp == 0) && ($kgm_desttaskp != $kgm_head_taskp))
	    set $kgm_destspacep = $kgm_desttaskp->itk_space
	    if ($kgm_destspacep == $kgm_spacep)
	       set $kgm_destprocp = (struct proc *)$kgm_desttaskp->bsd_info
	    else
    	       set $kgm_desttaskp = (struct task *)($kgm_desttaskp->pset_tasks.next)
            end
        end
    end
    if $kgm_destprocp != 0
       printf "%s(%d)\n", $kgm_destprocp->p_comm, $kgm_destprocp->p_pid
    else
       printf "task 0x%08x\n", $kgm_desttaskp
    end
end

define showportdest
    set $kgm_portp = (struct ipc_port *)$arg0
    set $kgm_spacep = $kgm_portp->data.receiver
    if ($kgm_spacep == ipc_space_kernel)
	showkobject $kgm_portp
    else
	if ($kgm_portp->ip_object.io_bits & 0x80000000)
	    printf "0x%08x  ", $kgm_portp->ip_object.io_receiver_name
	    showportdestproc $kgm_portp
	else
	    printf "0x%08x  inactive-port\n", $kgm_portp
	end
    end
end

define showportmember
    printf "            0x%08x  ", $arg0
    set $kgm_portp = (struct ipc_port *)$arg0
    printf "0x%08x  ", $kgm_portp->ip_object.io_receiver_name
    if ($kgm_portp->ip_object.io_bits & 0x80000000)
	printf "A"
    else
	printf " "
    end
    if ($kgm_portp->ip_object.io_bits & 0x7fff0000)
	printf "Set "
    else
	printf "Port"
    end
    printf "%5d  ", $kgm_portp->ip_object.io_references
    printf "0x%08x  ", &($kgm_portp->ip_messages)
    printf "0x%08x\n", $kgm_portp->ip_messages.data.port.msgcount
end

define showportint
    printf "0x%08x  ", $arg0
    set $kgm_portp = (struct ipc_port *)$arg0
    printf "0x%08x  ", &($kgm_portp->ip_messages)
    printf "0x%08x  ", $kgm_portp->ip_object.io_receiver_name
    if ($kgm_portp->ip_object.io_bits & 0x80000000)
	printf "A"
    else
	printf "D"
    end
    printf "Port"
    printf "%5d  ", $kgm_portp->ip_object.io_references
    set $kgm_destspacep = (struct ipc_space *)0
    showportdest $kgm_portp
    set $kgm_kmsgp = (ipc_kmsg_t)$kgm_portp->ip_messages.data.port.messages.ikmq_base
    if $arg1 && $kgm_kmsgp
	showkmsgheader
	showkmsgint $kgm_kmsgp
	set $kgm_kmsgheadp = $kgm_kmsgp
	set $kgm_kmsgp = $kgm_kmsgp->ikm_next
	while $kgm_kmsgp != $kgm_kmsgheadp
	    showkmsgint $kgm_kmsgp
	    set $kgm_kmsgp = $kgm_kmsgp->ikm_next
        end
    end
end

define showpsetint
    printf "0x%08x  ", $arg0
    set $kgm_psetp = (struct ipc_pset *)$arg0
    printf "0x%08x  ", &($kgm_psetp->ips_messages)
    printf "0x%08x  ", $kgm_psetp->ips_object.io_receiver_name
    if ($kgm_psetp->ips_object.io_bits & 0x80000000)
	printf "A"
    else
	printf "D"
    end
    printf "Set "
    printf "%5d  ", $kgm_psetp->ips_object.io_references
    printf "0x%08x  ", $kgm_psetp->ips_object.io_receiver_name
    set $kgm_setlinksp = &($kgm_psetp->ips_messages.data.set_queue.wqs_setlinks)
    set $kgm_wql = (struct wait_queue_link *)$kgm_setlinksp->next
    set $kgm_found = 0
    while ( (queue_entry_t)$kgm_wql != (queue_entry_t)$kgm_setlinksp)
        set $kgm_portp = (struct ipc_port *)((int)($kgm_wql->wql_element->wqe_queue) - ((int)$kgm_portoff))
	if !$kgm_found  
	    set $kgm_destspacep = (struct ipc_space *)0
	    showportdestproc $kgm_portp
	    showportmemberheader
	    set $kgm_found = 1
	end
	showportmember $kgm_portp 0
	set $kgm_wql = (struct wait_queue_link *)$kgm_wql->wql_setlinks.next
    end
    if !$kgm_found
	printf "--n/e--\n"
    end
end

define showpset
    showpsetheader
    showpsetint $arg0 1
end

define showport
    showportheader
    showportint $arg0 1
end

define showipcobject
    set $kgm_object = (ipc_object_t)$arg0
    if ($kgm_objectp->io_bits & 0x7fff0000)
	showpset $kgm_objectp
    else
	showport $kgm_objectp
    end
end

define showmqueue
    set $kgm_mqueue = *(struct ipc_mqueue *)$arg0
    set $kgm_psetoff = &(((struct ipc_pset *)0)->ips_messages)
    set $kgm_portoff = &(((struct ipc_port *)0)->ip_messages)
    if ($kgm_mqueue.data.set_queue.wqs_wait_queue.wq_type == 0xf1d1)
	set $kgm_pset = (((int)$arg0) - ((int)$kgm_psetoff))
        showpsetheader
	showpsetint $kgm_pset 1
    end
    if ($kgm_mqueue.data.set_queue.wqs_wait_queue.wq_type == 0xf1d0)
	showportheader
	set $kgm_port = (((int)$arg0) - ((int)$kgm_portoff))
	showportint $kgm_port 1
    end
end

define zprint_one
set $kgm_zone = (struct zone *)$arg0

printf "0x%08x ", $kgm_zone
printf "%8d ",$kgm_zone->count
printf "%8x ",$kgm_zone->cur_size
printf "%8x ",$kgm_zone->max_size
printf "%6d ",$kgm_zone->elem_size
printf "%8x ",$kgm_zone->alloc_size
printf "%s ",$kgm_zone->zone_name

if ($kgm_zone->exhaustible)
	printf "H"
end
if ($kgm_zone->collectable)
	printf "C"
end
if ($kgm_zone->expandable)
	printf "X"
end
printf "\n"
end


define zprint
printf "ZONE          COUNT   TOT_SZ   MAX_SZ ELT_SZ ALLOC_SZ NAME\n"
set $kgm_zone_ptr = (struct zone *)first_zone
while ($kgm_zone_ptr != 0)
	zprint_one $kgm_zone_ptr
	set $kgm_zone_ptr = $kgm_zone_ptr->next_zone
end
printf "\n"
end
document zprint
| Routine to print a summary listing of all the kernel zones
| The following is the syntax:
|     (gdb) zprint
end

define showmtxgrp
set $kgm_mtxgrp = (lck_grp_t *)$arg0

if ($kgm_mtxgrp->lck_grp_mtxcnt)
printf "0x%08x ", $kgm_mtxgrp
printf "%8d ",$kgm_mtxgrp->lck_grp_mtxcnt
printf "%12u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_util_cnt
printf "%8u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_miss_cnt
printf "%8u ",$kgm_mtxgrp->lck_grp_stat.lck_grp_mtx_stat.lck_grp_mtx_wait_cnt
printf "%s ",&$kgm_mtxgrp->lck_grp_name
printf "\n"
end
end


define showallmtx
printf "LCK GROUP       CNT         UTIL     MISS     WAIT NAME\n"
set $kgm_mtxgrp_ptr = (lck_grp_t *)&lck_grp_queue
set $kgm_mtxgrp_ptr = (lck_grp_t *)$kgm_mtxgrp_ptr->lck_grp_link.next
while ($kgm_mtxgrp_ptr != (lck_grp_t *)&lck_grp_queue)
	showmtxgrp $kgm_mtxgrp_ptr
	set $kgm_mtxgrp_ptr = (lck_grp_t *)$kgm_mtxgrp_ptr->lck_grp_link.next
end
printf "\n"
end
document showallmtx
| Routine to print a summary listing of all mutexes
| The following is the syntax:
|     (gdb) showallmtx
end

define showrwlckgrp
set $kgm_rwlckgrp = (lck_grp_t *)$arg0

if ($kgm_rwlckgrp->lck_grp_rwcnt)
printf "0x%08x ", $kgm_rwlckgrp
printf "%8d ",$kgm_rwlckgrp->lck_grp_rwcnt
printf "%12u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_util_cnt
printf "%8u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_miss_cnt
printf "%8u ",$kgm_rwlckgrp->lck_grp_stat.lck_grp_rw_stat.lck_grp_rw_wait_cnt
printf "%s ",&$kgm_rwlckgrp->lck_grp_name
printf "\n"
end
end


define showallrwlck
printf "LCK GROUP       CNT         UTIL     MISS     WAIT NAME\n"
set $kgm_rwlckgrp_ptr = (lck_grp_t *)&lck_grp_queue
set $kgm_rwlckgrp_ptr = (lck_grp_t *)$kgm_rwlckgrp_ptr->lck_grp_link.next
while ($kgm_rwlckgrp_ptr != (lck_grp_t *)&lck_grp_queue)
	showrwlckgrp $kgm_rwlckgrp_ptr
	set $kgm_rwlckgrp_ptr = (lck_grp_t *)$kgm_rwlckgrp_ptr->lck_grp_link.next
end
printf "\n"
end
document showallrwlck
| Routine to print a summary listing of all read/writer locks
| The following is the syntax:
|     (gdb) showallrwlck
end

set $kdp_act_counter = 0

define switchtoact
	set $newact = (struct thread *) $arg0
	if ($newact->kernel_stack == 0)
		echo This activation does not have a stack.\n
		echo continuation:
		output/a (unsigned) $newact.continuation
		echo \n
	else
	if ($kgm_mtype == 18)
		if ($kdp_act_counter == 0)
			set $kdpstate = (struct savearea *) kdp.saved_state
		end
		set $kdp_act_counter = $kdp_act_counter + 1
		set $newact = (struct thread *) $arg0
		set (struct savearea *) kdp.saved_state=$newact->machine->pcb
		flushregs
		flushstack
		set $pc=$newact->machine->pcb.save_srr0
		update
	else
		set $kdpstatep = (struct x86_saved_state32 *) kdp.saved_state
		if ($kdp_act_counter == 0)
			set $kdpstate = *($kdpstatep)
		end	
		set $kdp_act_counter = $kdp_act_counter + 1

		set $kgm_statep = (struct x86_kernel_state32 *) \
					($newact->kernel_stack + 0x4000 \
					 - sizeof(struct x86_kernel_state32))
		set $kdpstatep->ebx = $kgm_statep->k_ebx 
		set $kdpstatep->ebp = $kgm_statep->k_ebp 
		set $kdpstatep->edi = $kgm_statep->k_edi 
		set $kdpstatep->esi = $kgm_statep->k_esi 
		set $kdpstatep->eip = $kgm_statep->k_eip 
		flushregs
		flushstack
		set $pc = $kgm_statep->k_eip
		update
	end
	end
end

document switchtoact  
Syntax: switchtoact <address of activation>
| This command allows gdb to examine the execution context and call
| stack for the specified activation. For example, to view the backtrace
| for an activation issue "switchtoact <address>", followed by "bt".
| Before resuming execution, issue a "resetctx" command, to
| return to the original execution context.
end     

define switchtoctx
	if ($kgm_mtype == 18)
		if ($kdp_act_counter == 0)
		set $kdpstate = (struct savearea *) kdp.saved_state
		end
		set $kdp_act_counter = $kdp_act_counter + 1
		set (struct savearea *) kdp.saved_state=(struct savearea *) $arg0
		flushregs
		flushstack
		set $pc=((struct savearea *) $arg0)->save_srr0
		update
	else
		echo switchtoctx not implemented for this architecture.\n
	end
end

document switchtoctx  
Syntax: switchtoctx <address of pcb>
| This command allows gdb to examine an execution context and dump the
| backtrace for this execution context.
| Before resuming execution, issue a "resetctx" command, to
| return to the original execution context.
end     

define resetctx
	if ($kgm_mtype == 18)
		set (struct savearea *)kdp.saved_state=$kdpstate
		flushregs
		flushstack
		set $pc=((struct savearea *) kdp.saved_state)->save_srr0
		update
		set $kdp_act_counter = 0
	else
		set $kdpstatep = (struct x86_saved_state32 *) kdp.saved_state
		set *($kdpstatep)=$kdpstate
		flushregs
		flushstack
		set $pc=$kdpstatep->eip
		update
		set $kdp_act_counter = 0
	end
end     
        
document resetctx
| Syntax: resetctx
| Returns to the original execution context. This command should be
| issued if you wish to resume execution after using the "switchtoact"
| or "switchtoctx" commands.
end     

define resume_on
	set noresume_on_disconnect = 0
end

document resume_on
| Syntax: resume_on
| The target system will resume when detaching  or exiting from gdb. 
| This is the default behavior.
end

define resume_off
	set noresume_on_disconnect = 1
end

document resume_off
| Syntax: resume_off
| The target system  won't resume after detaching from gdb and
| can be attached with a new gdb session
end

define paniclog
	set $kgm_panic_bufptr = debug_buf
	set $kgm_panic_bufptr_max = debug_buf_ptr
	while $kgm_panic_bufptr < $kgm_panic_bufptr_max
		if *(char *)$kgm_panic_bufptr == 10
			printf "\n"
		else
			printf "%c", *$kgm_panic_bufptr
		end
		set $kgm_panic_bufptr= (char *)$kgm_panic_bufptr + 1
	end
end

document paniclog
| Syntax: paniclog
| Display the panic log information
|
end

define dumpcallqueue
	set $kgm_callhead = (queue_t)&$arg0
	set $kgm_call = (struct call_entry *)$kgm_callhead.next
	set $kgm_i = 0
	while $kgm_call != $kgm_callhead
		printf "0x%08x ", $kgm_call
		printf "0x%08x 0x%08x ", $kgm_call->param0, $kgm_call->param1
		output $kgm_call->state
		printf "\t"
		output $kgm_call->deadline
		printf "\t"
		output $kgm_call->func
		printf "\n"
		set $kgm_i = $kgm_i + 1
		set $kgm_call = (struct call_entry *)$kgm_call->q_link.next
	end
	printf "%d entries\n", $kgm_i
end

document dumpcallqueue
| Syntax: dumpcallqueue <queue head>
| Displays the contents of the specified call_entry queue.
end

define showtaskacts
showtaskthreads $arg0
end
document showtaskacts
| See help showtaskthreads.
end

define showallacts
showallthreads
end
document showallacts
| See help showallthreads.
end


define resetstacks
       _kgm_flush_loop
       set kdp_pmap = 0
       _kgm_flush_loop
       resetctx
       _kgm_flush_loop
       _kgm_update_loop
       resetctx
       _kgm_update_loop
end

document resetstacks
| Syntax: resetstacks
| Internal kgmacro routine used by the "showuserstack" macro 
| to reset the target pmap to the kernel pmap.
end

#Barely effective hacks to work around bugs in the "flush" and "update" 
#gdb commands in Tiger (up to 219); these aren't necessary with Panther
#gdb, but do no harm.
define _kgm_flush_loop
       set $kgm_flush_loop_ctr = 0
       while ($kgm_flush_loop_ctr < 30)
       	     flushregs
	     flushstack
	     set $kgm_flush_loop_ctr = $kgm_flush_loop_ctr + 1
       end
end

define _kgm_update_loop
       set $kgm_update_loop_ctr = 0
       while ($kgm_update_loop_ctr < 30)
       	     update
       	     set $kgm_update_loop_ctr = $kgm_update_loop_ctr + 1
       end
end

#This is necessary since gdb often doesn't do backtraces on x86 correctly
#in the absence of symbols.The code below in showuserstack and 
#showx86backtrace also contains several workarouds for the gdb bug where 
#gdb stops macro evaluation because of spurious "Cannot read memory"
#errors on x86. These errors appear on ppc as well, but they don't
#always stop macro evaluation.

set $kgm_cur_ebp = 0
set $kgm_cur_eip = 0

define showx86backtrace
	if ($kgm_cur_ebp == 0)
		set $kgm_cur_ebp = $ebp
	end
	if ($kgm_cur_eip == 0)
		set $kgm_cur_eip = $eip
	end
	printf "0: EBP: 0x%08x EIP: 0x%08x\n", $kgm_cur_ebp, $kgm_cur_eip
	x/i $kgm_cur_eip
	set $kgm_prev_ebp = *((uint32_t *) $kgm_cur_ebp)
	set $kgm_prev_eip = *((uint32_t *) ($kgm_cur_ebp + 4))
	set $kgm_frameno = 1
	while $kgm_prev_ebp != 0
		printf "%d: saved EBP: 0x%08x saved EIP: 0x%08x\n", $kgm_frameno, $kgm_prev_ebp, $kgm_prev_eip
		x/i $kgm_prev_eip
		set $kgm_cur_ebp = $kgm_prev_ebp
		set $kgm_prev_ebp = *((uint32_t *) $kgm_cur_ebp)
		set $kgm_prev_eip = *((uint32_t *) ($kgm_cur_ebp + 4))
		set $kgm_frameno = $kgm_frameno + 1
	end
	set $kgm_cur_ebp = 0
	set $kgm_cur_eip = 0
	set kdp_pmap = 0
end

define showuserstack
  		if ($kgm_mtype == 18)	
		   if ($kdp_act_counter == 0)
		      set $kdpstate = (struct savearea *) kdp.saved_state
		   end
		   set $kdp_act_counter = $kdp_act_counter + 1
		   set $newact = (struct thread *) $arg0
		   _kgm_flush_loop
		   set $checkpc = $newact->machine->upcb.save_srr0
		   if ($checkpc == 0)
		      echo This activation does not appear to have
		      echo \20 a valid user context.\n
		   else	      
		     set (struct savearea *) kdp.saved_state=$newact->machine->upcb
		     set $pc = $checkpc
#flush and update seem to be executed lazily by gdb on Tiger, hence the
#repeated invocations - see 3743135
	   	    _kgm_flush_loop
# This works because the new pmap is used only for reads
		     set kdp_pmap = $newact->task->map->pmap
		     _kgm_flush_loop
		     _kgm_update_loop
		     bt
		     resetstacks
		     _kgm_flush_loop
		     _kgm_update_loop
		     resetstacks
		     _kgm_flush_loop
		     _kgm_update_loop
		   end
		else
			set $newact = (struct thread *) $arg0
			set $newiss = (x86_saved_state32_t *) ($newact->machine.pcb->iss)
			set $checkpc = $newiss.eip
			if ($checkpc == 0)
			    echo This activation does not appear to have
			    echo \20 a valid user context.\n
			else
			set $kgm_cur_ebp = $newiss.ebp
			set $kgm_cur_eip = $checkpc
			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
			set kdp_pmap = $newact->task->map->pmap
			_kgm_flush_loop
			_kgm_update_loop
			end			
		end
end
document showuserstack
Syntax: showuserstack <address of thread activation>
|This command displays a numeric backtrace for the user space stack of
|the given thread activation. It may, of course, fail to display a
|complete backtrace if portions of the user stack are not mapped in.
|Symbolic backtraces can be obtained either by running gdb on the
|user space binary, or a tool such as "symbolicate".
|Note that while this command works on Panther's gdb, an issue
|with Tiger gdb (3743135) appears to hamper the evaluation of this
|macro in some cases.
end

#Stopgap until gdb can generate the HOSTREBOOT packet
define kdp-reboot
       set flag_kdp_trigger_reboot = 1
       continue
end

document kdp-reboot
Syntax: kdp-reboot
|Reboot the remote target machine; not guaranteed to succeed. Requires symbols
|until gdb support for the HOSTREBOOT packet is implemented.
end

define sendcore
       set kdp_trigger_core_dump = 1
       set kdp_flag |= 0x40
       set panicd_ip_str = "$arg0"
       set panicd_specified = 1
       set disableDebugOuput = 0
       set disableConsoleOutput = 0
       set logPanicDataToScreen = 1
       set reattach_wait = 1
       resume_off
end

document sendcore
Syntax: sendcore <IP address>
|Configure the kernel to transmit a kernel coredump to a server (kdumpd) 
|at the specified IP address. This is useful when the remote target has
|not been previously configured to transmit coredumps, and you wish to
|preserve kernel state for later examination. NOTE: You must issue a "continue"
|command after using this macro to trigger the kernel coredump. The kernel
|will resume waiting in the debugger after completion of the coredump. You
|may disable coredumps by executing the "disablecore" macro.
end

define disablecore
       set kdp_trigger_core_dump = 0
       set kdp_flag |= 0x40
       set kdp_flag &= ~0x10
       set panicd_specified = 0
end

document disablecore
Syntax: disablecore
|Reconfigures the kernel so that it no longer transmits kernel coredumps. This
|complements the "sendcore" macro, but it may be used if the kernel has been
|configured to transmit coredumps through boot-args as well.
end

#Use of this macro requires the gdb submission from 3401283
define switchtocorethread
	if ($kgm_mtype == 18)
		if ($kdp_act_counter == 0)
		set $kdpstate = (struct savearea *) kdp.saved_state
		end
		set $kdp_act_counter = $kdp_act_counter + 1
		set $newact = (struct thread *) $arg0
		if ($newact->kernel_stack == 0)
		   echo This thread does not have a stack.\n
		   echo continuation:
		   output/a (unsigned) $newact.continuation
		   echo \n
		else
		   loadcontext $newact->machine->pcb
# flushstack will be introduced in a gdb version > gdb-357
		   flushstack
		   set $pc = $newact->machine->pcb.save_srr0
		end
	else
		echo switchtocorethread not implemented for this architecture.\n
	end
end

document switchtocorethread
Syntax: switchtocorethread <address of activation>
| The corefile equivalent of "switchtoact". When debugging a kernel coredump
| file, this command can be used to examine the execution context and stack
| trace for a given thread activation. For example, to view the backtrace
| for a thread issue "switchtocorethread <address>", followed by "bt".
| Before resuming execution, issue a "resetcorectx" command, to
| return to the original execution context. Note that this command
| requires gdb support, as documented in Radar 3401283.
end

define loadcontext
       set $pc = $arg0.save_srr0
       set $r1 = $arg0.save_r1
       set $lr = $arg0.save_lr
       
       set $r2 = $arg0.save_r2
       set $r3 = $arg0.save_r3
       set $r4 = $arg0.save_r4
       set $r5 = $arg0.save_r5
       set $r6 = $arg0.save_r6
       set $r7 = $arg0.save_r7
       set $r8 = $arg0.save_r8
       set $r9 = $arg0.save_r9
       set $r10 = $arg0.save_r10
       set $r11 = $arg0.save_r11
       set $r12 = $arg0.save_r12
       set $r13 = $arg0.save_r13
       set $r14 = $arg0.save_r14
       set $r15 = $arg0.save_r15
       set $r16 = $arg0.save_r16
       set $r17 = $arg0.save_r17
       set $r18 = $arg0.save_r18
       set $r19 = $arg0.save_r19
       set $r20 = $arg0.save_r20
       set $r21 = $arg0.save_r21
       set $r22 = $arg0.save_r22
       set $r23 = $arg0.save_r23
       set $r24 = $arg0.save_r24
       set $r25 = $arg0.save_r25
       set $r26 = $arg0.save_r26
       set $r27 = $arg0.save_r27
       set $r28 = $arg0.save_r28
       set $r29 = $arg0.save_r29
       set $r30 = $arg0.save_r30
       set $r31 = $arg0.save_r31
       
       set $cr = $arg0.save_cr
       set $ctr = $arg0.save_ctr
end

define resetcorectx
       set $kgm_corecontext = (struct savearea *) kdp.saved_state
       loadcontext $kgm_corecontext
# Maintaining this act counter wouldn't be necessary if we just initialized
# $kdpstate at the beginning of the macro..
       set $kdp_act_counter = 0 
end

document resetcorectx
Syntax: resetcorectx
| The corefile equivalent of "resetctx". Returns to the original
| execution context (that of the active thread at the time of the NMI or
| panic). This command should be issued if you wish to resume
| execution after using the "switchtocorethread" command.
end

#Helper function for "showallgdbstacks"

define showgdbthread
	printf "            0x%08x  ", $arg0
	set $kgm_thread = *(struct thread *)$arg0
	printf "0x%08x  ", $arg0
	printf "%3d  ", $kgm_thread.sched_pri
	set $kgm_state = $kgm_thread.state
	if $kgm_state & 0x80
	    printf "I" 
	end
	if $kgm_state & 0x40
	    printf "P" 
	end
	if $kgm_state & 0x20
	    printf "A" 
	end
	if $kgm_state & 0x10
	    printf "H" 
	end
	if $kgm_state & 0x08
	    printf "U" 
	end
	if $kgm_state & 0x04
	    printf "R" 
	end
	if $kgm_state & 0x02
	    printf "S" 
	end
   	if $kgm_state & 0x01
	    printf "W\t" 
	    printf "0x%08x  ", $kgm_thread.wait_queue
            output /a (unsigned) $kgm_thread.wait_event
	end
	if $arg1 != 0
	    if ($kgm_thread.kernel_stack != 0)
		if ($kgm_thread.reserved_stack != 0)
			printf "\n\t\treserved_stack=0x%08x", $kgm_thread.reserved_stack
		end
		printf "\n\t\tkernel_stack=0x%08x", $kgm_thread.kernel_stack
		if ($kgm_mtype == 18)
			set $mysp = $kgm_thread.machine.pcb->save_r1
		else
			set $kgm_statep = (struct x86_kernel_state32 *) \
				($kgm_thread->kernel_stack + 0x4000 \
				 - sizeof(struct x86_kernel_state32))
			set $mysp = $kgm_statep->k_ebp
		end
		set $prevsp = 0
		printf "\n\t\tstacktop=0x%08x", $mysp
		switchtoact $arg0
	    	bt
	    else
		printf "\n\t\t\tcontinuation="
		output /a (unsigned) $kgm_thread.continuation
	    end
	    printf "\n"
	else
	    printf "\n"
	end
end	    

#Use of this macro is currently (8/04) blocked by the fact that gdb
#stops evaluating macros when encountering an error, such as a failure
#to read memory from a certain location. Until this issue (described in
#3758949) is addressed, evaluation of this macro may stop upon
#encountering such an error.

define showallgdbstacks
    set $kgm_head_taskp = &default_pset.tasks
    set $kgm_taskp = (struct task *)($kgm_head_taskp->next)
    while $kgm_taskp != $kgm_head_taskp
        showtaskheader
	showtaskint $kgm_taskp
	set $kgm_head_actp = &($kgm_taskp->threads)
        set $kgm_actp = (struct thread *)($kgm_taskp->threads.next)
	while $kgm_actp != $kgm_head_actp
	    showactheader
	    showgdbthread $kgm_actp 1
  	    set $kgm_actp = (struct thread *)($kgm_actp->task_threads.next)
        end
	printf "\n"
    	set $kgm_taskp = (struct task *)($kgm_taskp->pset_tasks.next)
    end
    resetctx
end

document showallgdbstacks
Syntax: showallgdbstacks
| An alternative to "showallstacks". Iterates through the task list and
| displays a gdb generated backtrace for each kernel thread. It is
| advantageous in that it is much faster than "showallstacks", and
| decodes function call arguments and displays source level traces, but
| it has the drawback that it doesn't determine if frames belong to
| functions from kernel extensions, as with "showallstacks".
| This command may terminate prematurely because of a gdb bug
| (Radar 3758949), which stops macro evaluation on memory read
| errors.
end

define switchtouserthread
  		if ($kgm_mtype == 18)	
		   if ($kdp_act_counter == 0)
		      set $kdpstate = (struct savearea *) kdp.saved_state
		   end
		   set $kdp_act_counter = $kdp_act_counter + 1
		   set $newact = (struct thread *) $arg0
		   _kgm_flush_loop
		   set $checkpc = $newact->machine->upcb.save_srr0
		   if ($checkpc == 0)
		      echo This activation does not appear to have
		      echo \20 a valid user context.\n
		   else	      
		     set (struct savearea *) kdp.saved_state=$newact->machine->upcb
		     set $pc = $checkpc
#flush and update seem to be executed lazily by gdb on Tiger, hence the
#repeated invocations - see 3743135
	   	    _kgm_flush_loop
# This works because the new pmap is used only for reads
		     set kdp_pmap = $newact->task->map->pmap
		     _kgm_flush_loop
		     _kgm_update_loop
		   end
		else
		   echo switchtouserthread not implemented for this architecture.\n
	end
end

document switchtouserthread
Syntax: switchtouserthread <address of thread>
| Analogous to switchtoact, but switches to the user context of a
| specified thread address. Similar to the "showuserstack"
| command, but this command does not return gdb to the kernel context
| immediately. This is to assist with the following (rather risky)
| manoeuvre - upon switching to the user context and virtual address
| space, the user may choose to call remove-symbol-file on the
| mach_kernel symbol file, and then add-symbol-file on the user space
| binary's symfile. gdb can then generate symbolic backtraces 
| for the user space thread. To return to the
| kernel context and virtual address space, the process must be
| reversed, i.e. call remove-symbol-file on the user space symbols, and
| then add-symbol-file on the appropriate mach_kernel, and issue the
| "resetstacks" command. Note that gdb may not react kindly to all these
| symbol file switches. The same restrictions that apply to "showuserstack"
| apply here - pages that have been paged out cannot be read while in the
| debugger context, so backtraces may terminate early.
| If the virtual addresses in the stack trace do not conflict with those
| of symbols in the kernel's address space, it may be sufficient to
| just do an add-symbol-file on the user space binary's symbol file.
| Note that while this command works on Panther's gdb, an issue
| with Tiger gdb (3743135) appears to hamper the evaluation of this
| macro in some cases.
end

define showmetaclass
    set $kgm_metaclassp = (OSMetaClass *)$arg0
    printf "%-5d", $kgm_metaclassp->instanceCount
    printf "x %5d bytes", $kgm_metaclassp->classSize
    printf " %s\n", $kgm_metaclassp->className->string
end

define showstring
    printf "\"%s\"", ((OSString *)$arg0)->string
end

define shownumber
    printf "%lld", ((OSNumber *)$arg0)->value
end

define showboolean
    if ($arg0 == gOSBooleanFalse)
	printf "No"
    else
	printf "Yes"
    end
end

define showdata
    set $kgm_data = (OSData *)$arg0

    printf "<"
    set $kgm_datap = (const unsigned char *) $kgm_data->data

    set $kgm_printstr = 0
    if (0 == (3 & (unsigned int)$kgm_datap) && ($kgm_data->length >= 3))
	set $kgm_bytes = *(unsigned int *) $kgm_datap
	if (0xffff0000 & $kgm_bytes)
	    set $kgm_idx = 0
	    set $kgm_printstr = 1
	    while ($kgm_idx++ < 4)
		set $kgm_bytes = $kgm_bytes >> 8
		set $kgm_char = 0xff & $kgm_bytes
		if ($kgm_char && (($kgm_char < 0x20) || ($kgm_char > 0x7e)))
		    set $kgm_printstr = 0
		end
	    end
	end
    end
    
    set $kgm_idx = 0
    if ($kgm_printstr)
	set $kgm_quoted = 0
	while ($kgm_idx < $kgm_data->length)
	    set $kgm_char = $kgm_datap[$kgm_idx++]
	    if ($kgm_char)
		if (0 == $kgm_quoted)
		    set $kgm_quoted = 1
		    if ($kgm_idx > 1)
			printf ",\""
		    else
			printf "\""
		    end
		end
		printf "%c", $kgm_char
	    else
		if ($kgm_quoted)
		    set $kgm_quoted = 0
		    printf "\""
		end
	    end
	end
	if ($kgm_quoted)
	    printf "\""
	end
    else
	if (0 == (3 & (unsigned int)$kgm_datap))
	    while (($kgm_idx + 3) <= $kgm_data->length)
		printf "%08x", *(unsigned int *) &$kgm_datap[$kgm_idx]
		set $kgm_idx = $kgm_idx + 4
	    end
	end
	while ($kgm_idx < $kgm_data->length)
	    printf "%02x", $kgm_datap[$kgm_idx++]
	end
    end
    printf ">"
end

define showdictionaryint
    set $kgm$arg0_dict = (OSDictionary *)$arg1

    printf "{"
    set $kgm$arg0_idx = 0
    while ($kgm$arg0_idx < $kgm$arg0_dict->count)
	set $kgm_obj = $kgm$arg0_dict->dictionary[$kgm$arg0_idx].key
	showobjectint _$arg0 $kgm_obj
	printf "="
	set $kgm_obj = $kgm$arg0_dict->dictionary[$kgm$arg0_idx++].value
	showobjectint _$arg0 $kgm_obj
	if ($kgm$arg0_idx < $kgm$arg0_dict->count)
	    printf ","
	end
    end
    printf "}"
end

define indent
    set $kgm_idx = 0
    while ($kgm_idx < $arg0)
	if ($arg1 & (1 << $kgm_idx++))
	    printf "| "
	else
	    printf "  "
	end
    end
end

define showregdictionary
    indent $kgm_reg_depth+2 $arg1
    printf "{\n"

    set $kgm_reg_idx = 0
    while ($kgm_reg_idx < $arg0->count)
	indent $kgm_reg_depth+2 $arg1
	printf "  "
	set $kgm_obj = $arg0->dictionary[$kgm_reg_idx].key
	showobjectint _ $kgm_obj
	printf " = "

	set $kgm_obj = $arg0->dictionary[$kgm_reg_idx++].value
	showobjectint _ $kgm_obj
	printf "\n"
    end
    indent $kgm_reg_depth+2 $arg1
    printf "}\n"
end


define showarraysetint
    set $kgm$arg0_array = (OSArray *)$arg1

    set $kgm$arg0_idx = 0
    while ($kgm$arg0_idx < $kgm$arg0_array->count)
	set $kgm_obj = $kgm$arg0_array->array[$kgm$arg0_idx++]
	showobjectint _$arg0 $kgm_obj
	if ($kgm$arg0_idx < $kgm$arg0_array->count)
	    printf ","
	end
    end
end

define showarrayint
    printf "("
    showarraysetint $arg0 $arg1
    printf ")"
end

define showsetint
    set $kgm_array = ((OSSet *)$arg1)->members
    printf "["
    showarraysetint $arg0 $kgm_array
    printf "]"
end


define showobjectint
    set $kgm_obj = (OSObject *) $arg1
    set $kgm_vt = *((void **) $arg1)

    if ($kgm_show_object_addrs)
	printf "`object %p, vt ", $arg1
	output /a (unsigned) $kgm_vt
	if ($kgm_show_object_retain)
	    printf ", retain count %d, container retain %d", (0xffff & $kgm_obj->retainCount), $kgm_obj->retainCount >> 16
	end
	printf "` "
    end

    if ($kgm_vt == _ZTV8OSString)
	showstring $arg1
    else
	if ($kgm_vt == _ZTV8OSSymbol)
	    showstring $arg1
	else
	    if ($kgm_vt == _ZTV8OSNumber)
		shownumber $arg1
	    else
		if ($kgm_vt == _ZTV6OSData)
		    showdata $arg1
		else
		    if ($kgm_vt == _ZTV9OSBoolean)
			showboolean $arg1
		    else
			if ($kgm_vt == _ZTV12OSDictionary)
			    showdictionaryint _$arg0 $arg1
			else
			    if ($kgm_vt == _ZTV7OSArray)
				showarrayint _$arg0 $arg1
			    else
				if ($kgm_vt == _ZTV5OSSet)
				    showsetint _$arg0 $arg1
				else
				    if ($kgm_show_object_addrs == 0)
					printf "`object %p, vt ", $arg1
					output /a (unsigned) $kgm_vt
					printf "`"
				    end
				end
			    end
			end
		    end
		end
	    end
	end
    end
end

define showobject
    set $kgm_save = $kgm_show_object_addrs
    set $kgm_show_object_addrs = 1
    set $kgm_show_object_retain = 1
    showobjectint _ $arg0
    set $kgm_show_object_addrs = $kgm_save
    set $kgm_show_object_retain = 0
    printf "\n"
end
document showobject
| Show info about an OSObject - its vtable ptr and retain count.
| If the object is a simple container class, more info will be shown.
| The following is the syntax:
|     (gdb) showobject <object address>
end

define dictget 
    set $kgm_dictp = (OSDictionary *)$arg0
    set $kgm_keyp = (const OSSymbol *)$arg1
    set $kgm_idx = 0
    set $kgm_result = 0
    while (($kgm_idx < $kgm_dictp->count) && ($kgm_result == 0))
	if ($kgm_keyp == $kgm_dictp->dictionary[$kgm_idx].key)
	    set $kgm_result = $kgm_dictp->dictionary[$kgm_idx].value
	end
	set $kgm_idx = $kgm_idx + 1
    end
end


define showregistryentryrecurse
    set $kgm_re         = (IOService *)$arg1
    set $kgm$arg0_stack = (unsigned long long) $arg2

    if ($arg3)
	set $kgm$arg0_stack = $kgm$arg0_stack | (1ULL << $kgm_reg_depth)
    else
	set $kgm$arg0_stack = $kgm$arg0_stack & ~(1ULL << $kgm_reg_depth)
    end

    dictget $kgm_re->fRegistryTable $kgm_childkey
    set $kgm$arg0_child_array = (OSArray *) $kgm_result

    if ($kgm$arg0_child_array)
	set $kgm$arg0_child_count = $kgm$arg0_child_array->count
    else
	set $kgm$arg0_child_count = 0
    end

    if ($kgm$arg0_child_count)
	set $kgm$arg0_stack = $kgm$arg0_stack | (2ULL << $kgm_reg_depth)
    else
	set $kgm$arg0_stack = $kgm$arg0_stack & ~(2ULL << $kgm_reg_depth)
    end

    indent $kgm_reg_depth $kgm$arg0_stack
    printf "+-o "

    dictget $kgm_re->fRegistryTable $kgm_namekey
    if ($kgm_result == 0)
	dictget $kgm_re->fRegistryTable gIONameKey
    end
    if ($kgm_result == 0)
	dictget $kgm_re->fPropertyTable gIOClassKey
    end

    if ($kgm_result != 0)
	printf "%s", ((OSString *)$kgm_result)->string
    else
 	if (((IOService*)$kgm_re)->pm_vars &&  ((IOService*)$kgm_re)->pm_vars->ourName)
 	    printf "%s", ((IOService*)$kgm_re)->pm_vars->ourName
	else
#	    printf ", guessclass "
#	    guessclass $kgm_re
	    printf "??"
	end
    end


    printf "  <object %p, ", $kgm_re
    printf "vtable "
    set $kgm_vt = (unsigned) *(void**) $kgm_re
    output /a $kgm_vt

    if ($kgm_vt != _ZTV15IORegistryEntry)
	printf ", "
	set $kgm_state =  $kgm_re->__state[0]
	# kIOServiceRegisteredState
	if (0 == ($kgm_state & 2))
	    printf "!"
	end
	printf "registered, "
	# kIOServiceMatchedState
	if (0 == ($kgm_state & 4))
	    printf "!"
	end
	printf "matched, "
	# kIOServiceInactiveState
	if ($kgm_state & 1)
	    printf "in"
	end
	printf "active, busy %d, retain count %d", (0xff & $kgm_re->__state[1]), (0xffff & $kgm_re->retainCount)
    end
    printf ">\n"

    if ($kgm_show_props)
	set $kgm_props = $kgm_re->fPropertyTable
	showregdictionary $kgm_props $kgm$arg0_stack
    end

    # recurse
    if ($kgm$arg0_child_count != 0)

	set $kgm_reg_depth = $kgm_reg_depth + 1
	set $kgm$arg0_child_idx = 0

	while ($kgm$arg0_child_idx < $kgm$arg0_child_count)
	    set $kgm_re = $kgm$arg0_child_array->array[$kgm$arg0_child_idx++]
	    set $kgm_more_sib = ($kgm$arg0_child_idx < $kgm$arg0_child_count)
	    showregistryentryrecurse _$arg0 $kgm_re $kgm$arg0_stack $kgm_more_sib
	end

	set $kgm_reg_depth = $kgm_reg_depth - 1
    end
end

define showregistryentryint
    set $kgm_namekey   = (OSSymbol *) $kgm_reg_plane[2]
    set $kgm_childkey  = (OSSymbol *) $kgm_reg_plane[4]

    showregistryentryrecurse _ $arg0 0 0
end

define showregistry
    set $kgm_reg_depth  = 0
    set $kgm_show_props = 0
    showregistryentryint gRegistryRoot
end
document showregistry
| Show info about all registry entries in the current plane.
| The following is the syntax:
|     (gdb) showregistry 
end

define showregistryprops
    set $kgm_reg_depth  = 0
    set $kgm_show_props = 1
    showregistryentryint gRegistryRoot
end
document showregistryprops
| Show info about all registry entries in the current plane, and their properties.
| set $kgm_show_object_addrs = 1 and/or set $kgm_show_object_retain = 1 will display
| more verbose information
| The following is the syntax:
|     (gdb) showregistryprops 
end

define showregistryentry
    set $kgm_reg_depth  = 0
    set $kgm_show_props = 1
    showregistryentryint $arg0
end
document showregistryentry
| Show info about a registry entry; its properties and descendants in the current plane.
| The following is the syntax:
|     (gdb) showregistryentry <object address>
end

define setregistryplane
    if ($arg0)
	set $kgm_reg_plane = (void **) $arg0
    else
	showobjectint _ gIORegistryPlanes
	printf "\n"
    end
end
document setregistryplane
| Set the plane to be used for the iokit registry macros. An argument of zero will 
| display known planes.
| The following is the syntax:
|     (gdb) setregistryplane <plane object address>
end

define guessclass
    set $kgm_classidx = 0
    set $kgm_lookvt = *((void **) $arg0)
    set $kgm_bestvt = (void *) 0
    set $kgm_bestidx = 0
    
    while $kgm_classidx < sAllClassesDict->count
	set $kgm_meta = (OSMetaClass *) sAllClassesDict->dictionary[$kgm_classidx].value

	set $kgm_vt = *((void **) $kgm_meta)

	if (($kgm_vt > $kgm_bestvt) && ($kgm_vt < $kgm_lookvt))
	    set $kgm_bestvt  = $kgm_vt
	    set $kgm_bestidx = $kgm_classidx
	end
	set $kgm_classidx = $kgm_classidx + 1
    end
    printf "%s", sAllClassesDict->dictionary[$kgm_bestidx].key->string
end

define showallclasses
    set $kgm_classidx = 0
    while $kgm_classidx < sAllClassesDict->count
	set $kgm_meta = (OSMetaClass *) sAllClassesDict->dictionary[$kgm_classidx++].value
	showmetaclass $kgm_meta
    end
end

document showallclasses
| Show the instance counts and ivar size of all OSObject subclasses. See ioclasscount man page for details.
| The following is the syntax:
|     (gdb) showallclasses
end

define showioalloc
    printf " Instance allocation = 0x%08lx = %4ld K\n", (int) debug_ivars_size, ((int) debug_ivars_size) / 1024
    printf "Container allocation = 0x%08lx = %4ld K\n", (int) debug_container_malloc_size, ((int) debug_container_malloc_size) / 1024
    printf " IOMalloc allocation = 0x%08lx = %4ld K\n", (int) debug_iomalloc_size, ((int) debug_iomalloc_size) / 1024
    printf " Pageable allocation = 0x%08lx = %4ld K\n", (vm_size_t) debug_iomallocpageable_size, ((vm_size_t) debug_iomallocpageable_size) / 1024
end

document showioalloc
| Show some accounting of memory allocated by IOKit allocators. See ioalloccount man page for details.
| The following is the syntax:
|     (gdb) showioalloc
end

define readphys
       set kdp_trans_off = 1
       x/x $arg0
       set kdp_trans_off = 0
end

define readphys64
	if ($kgm_mtype == 18)
	   set kdp_src_high32 = ((uint32_t) ($arg0)) >> 32
	   x/x (uint32_t) (($arg0) & 0x00000000ffffffffUL)
	   set kdp_src_high32 = 0
	else
		echo readphys64 not available on this architecture.\n
	end
end

document readphys
| The argument is interpreted as a physical address, and the word addressed is
| displayed. While this fails if no physical page exists at the given address,
| it must be used with caution.
end

document readphys64
| The argument is interpreted as a 64-bit physical address, and the word
| addressed is displayed. While this fails if no physical page exists at the
| given address, it must be used with caution.
end