1*42e22086SApple OSS Distributions /*
2*42e22086SApple OSS Distributions * Copyright (c) 2000-2006 Apple Computer, Inc. All rights reserved.
3*42e22086SApple OSS Distributions *
4*42e22086SApple OSS Distributions * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5*42e22086SApple OSS Distributions *
6*42e22086SApple OSS Distributions * This file contains Original Code and/or Modifications of Original Code
7*42e22086SApple OSS Distributions * as defined in and that are subject to the Apple Public Source License
8*42e22086SApple OSS Distributions * Version 2.0 (the 'License'). You may not use this file except in
9*42e22086SApple OSS Distributions * compliance with the License. The rights granted to you under the License
10*42e22086SApple OSS Distributions * may not be used to create, or enable the creation or redistribution of,
11*42e22086SApple OSS Distributions * unlawful or unlicensed copies of an Apple operating system, or to
12*42e22086SApple OSS Distributions * circumvent, violate, or enable the circumvention or violation of, any
13*42e22086SApple OSS Distributions * terms of an Apple operating system software license agreement.
14*42e22086SApple OSS Distributions *
15*42e22086SApple OSS Distributions * Please obtain a copy of the License at
16*42e22086SApple OSS Distributions * http://www.opensource.apple.com/apsl/ and read it before using this file.
17*42e22086SApple OSS Distributions *
18*42e22086SApple OSS Distributions * The Original Code and all software distributed under the License are
19*42e22086SApple OSS Distributions * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20*42e22086SApple OSS Distributions * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21*42e22086SApple OSS Distributions * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22*42e22086SApple OSS Distributions * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23*42e22086SApple OSS Distributions * Please see the License for the specific language governing rights and
24*42e22086SApple OSS Distributions * limitations under the License.
25*42e22086SApple OSS Distributions *
26*42e22086SApple OSS Distributions * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27*42e22086SApple OSS Distributions */
28*42e22086SApple OSS Distributions
29*42e22086SApple OSS Distributions #include <sys/types.h>
30*42e22086SApple OSS Distributions #include <sys/proc.h>
31*42e22086SApple OSS Distributions #include <sys/proc_internal.h>
32*42e22086SApple OSS Distributions #include <sys/systm.h>
33*42e22086SApple OSS Distributions #include <sys/user.h>
34*42e22086SApple OSS Distributions #include <sys/dtrace_ptss.h>
35*42e22086SApple OSS Distributions
36*42e22086SApple OSS Distributions #include <mach/vm_map.h>
37*42e22086SApple OSS Distributions #include <mach/vm_param.h>
38*42e22086SApple OSS Distributions #include <mach/mach_vm.h>
39*42e22086SApple OSS Distributions
40*42e22086SApple OSS Distributions #include <kern/task.h>
41*42e22086SApple OSS Distributions
42*42e22086SApple OSS Distributions #include <vm/vm_map.h>
43*42e22086SApple OSS Distributions
44*42e22086SApple OSS Distributions /*
45*42e22086SApple OSS Distributions * This function requires the sprlock to be held
46*42e22086SApple OSS Distributions *
47*42e22086SApple OSS Distributions * In general, it will not block. If it needs to allocate a new
48*42e22086SApple OSS Distributions * page of memory, the underlying kernel kalloc may block.
49*42e22086SApple OSS Distributions */
50*42e22086SApple OSS Distributions struct dtrace_ptss_page_entry*
dtrace_ptss_claim_entry_locked(struct proc * p)51*42e22086SApple OSS Distributions dtrace_ptss_claim_entry_locked(struct proc* p)
52*42e22086SApple OSS Distributions {
53*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&p->p_dtrace_sprlock, LCK_MTX_ASSERT_OWNED);
54*42e22086SApple OSS Distributions
55*42e22086SApple OSS Distributions struct dtrace_ptss_page_entry* entry = NULL;
56*42e22086SApple OSS Distributions
57*42e22086SApple OSS Distributions while (TRUE) {
58*42e22086SApple OSS Distributions struct dtrace_ptss_page_entry* temp = p->p_dtrace_ptss_free_list;
59*42e22086SApple OSS Distributions
60*42e22086SApple OSS Distributions if (temp == NULL) {
61*42e22086SApple OSS Distributions // Nothing on the free list. Allocate a new page, its okay if multiple threads race here.
62*42e22086SApple OSS Distributions struct dtrace_ptss_page* page = dtrace_ptss_allocate_page(p);
63*42e22086SApple OSS Distributions
64*42e22086SApple OSS Distributions // Make sure we actually got a page
65*42e22086SApple OSS Distributions if (page == NULL) {
66*42e22086SApple OSS Distributions return NULL;
67*42e22086SApple OSS Distributions }
68*42e22086SApple OSS Distributions
69*42e22086SApple OSS Distributions // Add the page to the page list
70*42e22086SApple OSS Distributions page->next = p->p_dtrace_ptss_pages;
71*42e22086SApple OSS Distributions p->p_dtrace_ptss_pages = page;
72*42e22086SApple OSS Distributions
73*42e22086SApple OSS Distributions // CAS the entries onto the free list.
74*42e22086SApple OSS Distributions do {
75*42e22086SApple OSS Distributions page->entries[DTRACE_PTSS_ENTRIES_PER_PAGE - 1].next = p->p_dtrace_ptss_free_list;
76*42e22086SApple OSS Distributions } while (!OSCompareAndSwapPtr((void *)page->entries[DTRACE_PTSS_ENTRIES_PER_PAGE - 1].next,
77*42e22086SApple OSS Distributions (void *)&page->entries[0],
78*42e22086SApple OSS Distributions (void * volatile *)&p->p_dtrace_ptss_free_list));
79*42e22086SApple OSS Distributions
80*42e22086SApple OSS Distributions // Now that we've added to the free list, try again.
81*42e22086SApple OSS Distributions continue;
82*42e22086SApple OSS Distributions }
83*42e22086SApple OSS Distributions
84*42e22086SApple OSS Distributions // Claim temp
85*42e22086SApple OSS Distributions if (!OSCompareAndSwapPtr((void *)temp, (void *)temp->next, (void * volatile *)&p->p_dtrace_ptss_free_list)) {
86*42e22086SApple OSS Distributions continue;
87*42e22086SApple OSS Distributions }
88*42e22086SApple OSS Distributions
89*42e22086SApple OSS Distributions // At this point, we own temp.
90*42e22086SApple OSS Distributions entry = temp;
91*42e22086SApple OSS Distributions
92*42e22086SApple OSS Distributions break;
93*42e22086SApple OSS Distributions }
94*42e22086SApple OSS Distributions
95*42e22086SApple OSS Distributions return entry;
96*42e22086SApple OSS Distributions }
97*42e22086SApple OSS Distributions
98*42e22086SApple OSS Distributions /*
99*42e22086SApple OSS Distributions * This function does not require any locks to be held on entry.
100*42e22086SApple OSS Distributions */
101*42e22086SApple OSS Distributions struct dtrace_ptss_page_entry*
dtrace_ptss_claim_entry(struct proc * p)102*42e22086SApple OSS Distributions dtrace_ptss_claim_entry(struct proc* p)
103*42e22086SApple OSS Distributions {
104*42e22086SApple OSS Distributions // Verify no locks held on entry
105*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&p->p_dtrace_sprlock, LCK_MTX_ASSERT_NOTOWNED);
106*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&p->p_mlock, LCK_MTX_ASSERT_NOTOWNED);
107*42e22086SApple OSS Distributions
108*42e22086SApple OSS Distributions struct dtrace_ptss_page_entry* entry = NULL;
109*42e22086SApple OSS Distributions
110*42e22086SApple OSS Distributions while (TRUE) {
111*42e22086SApple OSS Distributions struct dtrace_ptss_page_entry* temp = p->p_dtrace_ptss_free_list;
112*42e22086SApple OSS Distributions
113*42e22086SApple OSS Distributions if (temp == NULL) {
114*42e22086SApple OSS Distributions lck_mtx_lock(&p->p_dtrace_sprlock);
115*42e22086SApple OSS Distributions temp = dtrace_ptss_claim_entry_locked(p);
116*42e22086SApple OSS Distributions lck_mtx_unlock(&p->p_dtrace_sprlock);
117*42e22086SApple OSS Distributions return temp;
118*42e22086SApple OSS Distributions }
119*42e22086SApple OSS Distributions
120*42e22086SApple OSS Distributions // Claim temp
121*42e22086SApple OSS Distributions if (!OSCompareAndSwapPtr((void *)temp, (void *)temp->next, (void * volatile *)&p->p_dtrace_ptss_free_list)) {
122*42e22086SApple OSS Distributions continue;
123*42e22086SApple OSS Distributions }
124*42e22086SApple OSS Distributions
125*42e22086SApple OSS Distributions // At this point, we own temp.
126*42e22086SApple OSS Distributions entry = temp;
127*42e22086SApple OSS Distributions
128*42e22086SApple OSS Distributions break;
129*42e22086SApple OSS Distributions }
130*42e22086SApple OSS Distributions
131*42e22086SApple OSS Distributions return entry;
132*42e22086SApple OSS Distributions }
133*42e22086SApple OSS Distributions
134*42e22086SApple OSS Distributions /*
135*42e22086SApple OSS Distributions * This function does not require any locks to be held on entry.
136*42e22086SApple OSS Distributions *
137*42e22086SApple OSS Distributions * (PR-11138709) A NULL p->p_dtrace_ptss_pages means the entry can
138*42e22086SApple OSS Distributions * no longer be referenced safely. When found in this state, the chore
139*42e22086SApple OSS Distributions * of releasing an entry to the free list is ignored.
140*42e22086SApple OSS Distributions */
141*42e22086SApple OSS Distributions void
dtrace_ptss_release_entry(struct proc * p,struct dtrace_ptss_page_entry * e)142*42e22086SApple OSS Distributions dtrace_ptss_release_entry(struct proc* p, struct dtrace_ptss_page_entry* e)
143*42e22086SApple OSS Distributions {
144*42e22086SApple OSS Distributions if (p && p->p_dtrace_ptss_pages && e) {
145*42e22086SApple OSS Distributions do {
146*42e22086SApple OSS Distributions e->next = p->p_dtrace_ptss_free_list;
147*42e22086SApple OSS Distributions } while (!OSCompareAndSwapPtr((void *)e->next, (void *)e, (void * volatile *)&p->p_dtrace_ptss_free_list));
148*42e22086SApple OSS Distributions }
149*42e22086SApple OSS Distributions }
150*42e22086SApple OSS Distributions
151*42e22086SApple OSS Distributions /*
152*42e22086SApple OSS Distributions * This function allocates a new page in the target process's address space.
153*42e22086SApple OSS Distributions *
154*42e22086SApple OSS Distributions * It returns a dtrace_ptss_page that has its entries chained, with the last
155*42e22086SApple OSS Distributions * entries next field set to NULL. It does not add the page or the entries to
156*42e22086SApple OSS Distributions * the process's page/entry lists.
157*42e22086SApple OSS Distributions *
158*42e22086SApple OSS Distributions * This function does not require that any locks be held when it is invoked.
159*42e22086SApple OSS Distributions */
160*42e22086SApple OSS Distributions struct dtrace_ptss_page*
dtrace_ptss_allocate_page(struct proc * p)161*42e22086SApple OSS Distributions dtrace_ptss_allocate_page(struct proc* p)
162*42e22086SApple OSS Distributions {
163*42e22086SApple OSS Distributions // Allocate the kernel side data
164*42e22086SApple OSS Distributions struct dtrace_ptss_page* ptss_page = kalloc_type(struct dtrace_ptss_page, Z_ZERO | Z_WAITOK);
165*42e22086SApple OSS Distributions if (ptss_page == NULL) {
166*42e22086SApple OSS Distributions return NULL;
167*42e22086SApple OSS Distributions }
168*42e22086SApple OSS Distributions
169*42e22086SApple OSS Distributions // Now allocate a page in user space and set its protections to allow execute.
170*42e22086SApple OSS Distributions task_t task = proc_task(p);
171*42e22086SApple OSS Distributions vm_map_t map = get_task_map_reference(task);
172*42e22086SApple OSS Distributions if (map == NULL) {
173*42e22086SApple OSS Distributions goto err;
174*42e22086SApple OSS Distributions }
175*42e22086SApple OSS Distributions
176*42e22086SApple OSS Distributions mach_vm_size_t size = PAGE_MAX_SIZE;
177*42e22086SApple OSS Distributions mach_vm_offset_t addr = 0;
178*42e22086SApple OSS Distributions mach_vm_offset_t write_addr = 0;
179*42e22086SApple OSS Distributions /*
180*42e22086SApple OSS Distributions * The embedded OS has extra permissions for writable and executable pages.
181*42e22086SApple OSS Distributions * To ensure correct permissions, we must set the page protections separately.
182*42e22086SApple OSS Distributions */
183*42e22086SApple OSS Distributions vm_prot_t cur_protection = VM_PROT_READ | VM_PROT_EXECUTE;
184*42e22086SApple OSS Distributions vm_prot_t max_protection = VM_PROT_READ | VM_PROT_EXECUTE | VM_PROT_WRITE;
185*42e22086SApple OSS Distributions
186*42e22086SApple OSS Distributions kern_return_t kr = mach_vm_map_kernel(map, &addr, size, 0, VM_FLAGS_ANYWHERE, VM_MAP_KERNEL_FLAGS_NONE, VM_KERN_MEMORY_NONE, IPC_PORT_NULL, 0, FALSE, cur_protection, max_protection, VM_INHERIT_DEFAULT);
187*42e22086SApple OSS Distributions if (kr != KERN_SUCCESS) {
188*42e22086SApple OSS Distributions goto err;
189*42e22086SApple OSS Distributions }
190*42e22086SApple OSS Distributions /*
191*42e22086SApple OSS Distributions * If on embedded, remap the scratch space as writable at another
192*42e22086SApple OSS Distributions * virtual address
193*42e22086SApple OSS Distributions */
194*42e22086SApple OSS Distributions kr = mach_vm_remap_kernel(map, &write_addr, size, 0, VM_FLAGS_ANYWHERE, VM_KERN_MEMORY_NONE, map, addr, FALSE, &cur_protection, &max_protection, VM_INHERIT_DEFAULT);
195*42e22086SApple OSS Distributions if (kr != KERN_SUCCESS || !(max_protection & VM_PROT_WRITE)) {
196*42e22086SApple OSS Distributions goto err;
197*42e22086SApple OSS Distributions }
198*42e22086SApple OSS Distributions
199*42e22086SApple OSS Distributions kr = mach_vm_protect(map, (mach_vm_offset_t)write_addr, (mach_vm_size_t)size, 0, VM_PROT_READ | VM_PROT_WRITE);
200*42e22086SApple OSS Distributions if (kr != KERN_SUCCESS) {
201*42e22086SApple OSS Distributions goto err;
202*42e22086SApple OSS Distributions }
203*42e22086SApple OSS Distributions
204*42e22086SApple OSS Distributions // Chain the page entries.
205*42e22086SApple OSS Distributions int i;
206*42e22086SApple OSS Distributions for (i = 0; i < DTRACE_PTSS_ENTRIES_PER_PAGE; i++) {
207*42e22086SApple OSS Distributions ptss_page->entries[i].addr = addr + (i * DTRACE_PTSS_SCRATCH_SPACE_PER_THREAD);
208*42e22086SApple OSS Distributions ptss_page->entries[i].write_addr = write_addr + (i * DTRACE_PTSS_SCRATCH_SPACE_PER_THREAD);
209*42e22086SApple OSS Distributions ptss_page->entries[i].next = &ptss_page->entries[i + 1];
210*42e22086SApple OSS Distributions }
211*42e22086SApple OSS Distributions
212*42e22086SApple OSS Distributions // The last entry should point to NULL
213*42e22086SApple OSS Distributions ptss_page->entries[DTRACE_PTSS_ENTRIES_PER_PAGE - 1].next = NULL;
214*42e22086SApple OSS Distributions
215*42e22086SApple OSS Distributions vm_map_deallocate(map);
216*42e22086SApple OSS Distributions
217*42e22086SApple OSS Distributions return ptss_page;
218*42e22086SApple OSS Distributions
219*42e22086SApple OSS Distributions err:
220*42e22086SApple OSS Distributions kfree_type(struct dtrace_ptss_page, ptss_page);
221*42e22086SApple OSS Distributions
222*42e22086SApple OSS Distributions if (map) {
223*42e22086SApple OSS Distributions vm_map_deallocate(map);
224*42e22086SApple OSS Distributions }
225*42e22086SApple OSS Distributions
226*42e22086SApple OSS Distributions return NULL;
227*42e22086SApple OSS Distributions }
228*42e22086SApple OSS Distributions
229*42e22086SApple OSS Distributions /*
230*42e22086SApple OSS Distributions * This function frees an existing page in the target process's address space.
231*42e22086SApple OSS Distributions *
232*42e22086SApple OSS Distributions * It does not alter any of the process's page/entry lists.
233*42e22086SApple OSS Distributions *
234*42e22086SApple OSS Distributions * TODO: Inline in dtrace_ptrace_exec_exit?
235*42e22086SApple OSS Distributions */
236*42e22086SApple OSS Distributions void
dtrace_ptss_free_page(struct proc * p,struct dtrace_ptss_page * ptss_page)237*42e22086SApple OSS Distributions dtrace_ptss_free_page(struct proc* p, struct dtrace_ptss_page* ptss_page)
238*42e22086SApple OSS Distributions {
239*42e22086SApple OSS Distributions // Grab the task and get a reference to its vm_map
240*42e22086SApple OSS Distributions task_t task = proc_task(p);
241*42e22086SApple OSS Distributions vm_map_t map = get_task_map_reference(task);
242*42e22086SApple OSS Distributions
243*42e22086SApple OSS Distributions mach_vm_address_t addr = ptss_page->entries[0].addr;
244*42e22086SApple OSS Distributions mach_vm_size_t size = PAGE_SIZE; // We need some way to assert that this matches vm_map_round_page() !!!
245*42e22086SApple OSS Distributions
246*42e22086SApple OSS Distributions // Silent failures, no point in checking return code.
247*42e22086SApple OSS Distributions mach_vm_deallocate(map, addr, size);
248*42e22086SApple OSS Distributions
249*42e22086SApple OSS Distributions mach_vm_address_t write_addr = ptss_page->entries[0].write_addr;
250*42e22086SApple OSS Distributions mach_vm_deallocate(map, write_addr, size);
251*42e22086SApple OSS Distributions
252*42e22086SApple OSS Distributions vm_map_deallocate(map);
253*42e22086SApple OSS Distributions }
254*42e22086SApple OSS Distributions
255*42e22086SApple OSS Distributions /*
256*42e22086SApple OSS Distributions * This function assumes that the target process has been
257*42e22086SApple OSS Distributions * suspended, and the proc_lock & sprlock is held
258*42e22086SApple OSS Distributions */
259*42e22086SApple OSS Distributions void
dtrace_ptss_enable(struct proc * p)260*42e22086SApple OSS Distributions dtrace_ptss_enable(struct proc* p)
261*42e22086SApple OSS Distributions {
262*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&p->p_dtrace_sprlock, LCK_MTX_ASSERT_OWNED);
263*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&p->p_mlock, LCK_MTX_ASSERT_OWNED);
264*42e22086SApple OSS Distributions
265*42e22086SApple OSS Distributions struct uthread* uth;
266*42e22086SApple OSS Distributions /*
267*42e22086SApple OSS Distributions * XXX There has been a concern raised about holding the proc_lock
268*42e22086SApple OSS Distributions * while calling dtrace_ptss_claim_entry(), due to the fact
269*42e22086SApple OSS Distributions * that dtrace_ptss_claim_entry() can potentially malloc.
270*42e22086SApple OSS Distributions */
271*42e22086SApple OSS Distributions TAILQ_FOREACH(uth, &p->p_uthlist, uu_list) {
272*42e22086SApple OSS Distributions uth->t_dtrace_scratch = dtrace_ptss_claim_entry_locked(p);
273*42e22086SApple OSS Distributions }
274*42e22086SApple OSS Distributions }
275*42e22086SApple OSS Distributions
276*42e22086SApple OSS Distributions /*
277*42e22086SApple OSS Distributions * This function is not thread safe.
278*42e22086SApple OSS Distributions *
279*42e22086SApple OSS Distributions * It assumes the sprlock is held, and the proc_lock is not.
280*42e22086SApple OSS Distributions */
281*42e22086SApple OSS Distributions void
dtrace_ptss_exec_exit(struct proc * p)282*42e22086SApple OSS Distributions dtrace_ptss_exec_exit(struct proc* p)
283*42e22086SApple OSS Distributions {
284*42e22086SApple OSS Distributions /*
285*42e22086SApple OSS Distributions * Should hold sprlock to touch the pages list. Must not
286*42e22086SApple OSS Distributions * hold the proc lock to avoid deadlock.
287*42e22086SApple OSS Distributions */
288*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&p->p_dtrace_sprlock, LCK_MTX_ASSERT_OWNED);
289*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&p->p_mlock, LCK_MTX_ASSERT_NOTOWNED);
290*42e22086SApple OSS Distributions
291*42e22086SApple OSS Distributions p->p_dtrace_ptss_free_list = NULL;
292*42e22086SApple OSS Distributions
293*42e22086SApple OSS Distributions struct dtrace_ptss_page* temp = p->p_dtrace_ptss_pages;
294*42e22086SApple OSS Distributions p->p_dtrace_ptss_pages = NULL;
295*42e22086SApple OSS Distributions
296*42e22086SApple OSS Distributions while (temp != NULL) {
297*42e22086SApple OSS Distributions struct dtrace_ptss_page* next = temp->next;
298*42e22086SApple OSS Distributions
299*42e22086SApple OSS Distributions // Do we need to specifically mach_vm_deallocate the user pages?
300*42e22086SApple OSS Distributions // This can be called when the process is exiting, I believe the proc's
301*42e22086SApple OSS Distributions // vm_map_t may already be toast.
302*42e22086SApple OSS Distributions
303*42e22086SApple OSS Distributions // Must be certain to free the kernel memory!
304*42e22086SApple OSS Distributions kfree_type(struct dtrace_ptss_page, temp);
305*42e22086SApple OSS Distributions temp = next;
306*42e22086SApple OSS Distributions }
307*42e22086SApple OSS Distributions }
308*42e22086SApple OSS Distributions
309*42e22086SApple OSS Distributions /*
310*42e22086SApple OSS Distributions * This function is not thread safe.
311*42e22086SApple OSS Distributions *
312*42e22086SApple OSS Distributions * The child proc ptss fields are initialized to NULL at fork time.
313*42e22086SApple OSS Distributions * Pages allocated in the parent are copied as part of the vm_map copy, though.
314*42e22086SApple OSS Distributions * We need to deallocate those pages.
315*42e22086SApple OSS Distributions *
316*42e22086SApple OSS Distributions * Parent and child sprlock should be held, and proc_lock must NOT be held.
317*42e22086SApple OSS Distributions */
318*42e22086SApple OSS Distributions void
dtrace_ptss_fork(struct proc * parent,struct proc * child)319*42e22086SApple OSS Distributions dtrace_ptss_fork(struct proc* parent, struct proc* child)
320*42e22086SApple OSS Distributions {
321*42e22086SApple OSS Distributions // The child should not have any pages/entries allocated at this point.
322*42e22086SApple OSS Distributions // ASSERT(child->p_dtrace_ptss_pages == NULL);
323*42e22086SApple OSS Distributions // ASSERT(child->p_dtrace_ptss_free_list == NULL);
324*42e22086SApple OSS Distributions
325*42e22086SApple OSS Distributions /*
326*42e22086SApple OSS Distributions * The parent's sprlock should be held, to protect its pages list
327*42e22086SApple OSS Distributions * from changing while the child references it. The child's sprlock
328*42e22086SApple OSS Distributions * must also be held, because we are modifying its pages list.
329*42e22086SApple OSS Distributions * Finally, to prevent a deadlock with the fasttrap cleanup code,
330*42e22086SApple OSS Distributions * neither the parent or child proc_lock should be held.
331*42e22086SApple OSS Distributions */
332*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&parent->p_dtrace_sprlock, LCK_MTX_ASSERT_OWNED);
333*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&parent->p_mlock, LCK_MTX_ASSERT_NOTOWNED);
334*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&child->p_dtrace_sprlock, LCK_MTX_ASSERT_OWNED);
335*42e22086SApple OSS Distributions LCK_MTX_ASSERT(&child->p_mlock, LCK_MTX_ASSERT_NOTOWNED);
336*42e22086SApple OSS Distributions
337*42e22086SApple OSS Distributions // Get page list from *PARENT*
338*42e22086SApple OSS Distributions struct dtrace_ptss_page* temp = parent->p_dtrace_ptss_pages;
339*42e22086SApple OSS Distributions
340*42e22086SApple OSS Distributions while (temp != NULL) {
341*42e22086SApple OSS Distributions // Freeing the page in the *CHILD*
342*42e22086SApple OSS Distributions dtrace_ptss_free_page(child, temp);
343*42e22086SApple OSS Distributions
344*42e22086SApple OSS Distributions // Do not free the kernel memory, it belong to the parent.
345*42e22086SApple OSS Distributions temp = temp->next;
346*42e22086SApple OSS Distributions }
347*42e22086SApple OSS Distributions }
348