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29 #ifndef _DTRACE_PTSS_H_
30 #define _DTRACE_PTSS_H_
37 * The pid provider needs a small per thread scratch space,
38 * in the address space of the user task. This code is used to
43 * To avoid serialization, this is a (mostly) lockless allocator. If
44 * a new page has to be allocated, the process's sprlock will be acquired.
46 * NOTE: The dtrace copyin/copyout code is still the shared code that
47 * can handle unmapped pages, so the scratch space isn't wired for now.
48 * * Each page in user space is wired. It cannot be paged out, because
49 * * dtrace's copyin/copyout is only guaranteed to handle pages already
52 * Each page in user space is represented by a dt_ptss_page. Page entries
53 * are chained. Once allocated, a page is not freed until dtrace "cleans up"
56 * Clean up works like this:
58 * At process exit, free all kernel allocated memory, but ignore user pages.
59 * At process exec, free all kernel allocated memory, but ignore user pages.
60 * At process fork, free user pages copied from parent, and do not allocate kernel memory.
62 * This is making the assumption that it is faster to let the bulk vm_map
63 * operations in exec/exit do their work, instead of explicit page free(s)
64 * via mach_vm_deallocate.
66 * As each page is allocated, its entries are chained and added to the
67 * free_list. To claim an entry, cas it off the list. When a thread exits,
68 * cas its entry onto the list. We could potentially optimize this by
69 * keeping a head/tail, and cas'ing the frees to the tail instead of the
70 * head. Without evidence to support such a need, it seems better to keep
71 * things simple for now.
75 #define DTRACE_PTSS_SCRATCH_SPACE_PER_THREAD (64)
77 #define DTRACE_PTSS_ENTRIES_PER_PAGE (PAGE_SIZE / DTRACE_PTSS_SCRATCH_SPACE_PER_THREAD)
79 struct dtrace_ptss_page_entry
{
80 struct dtrace_ptss_page_entry
* next
;
83 user_addr_t write_addr
;
87 struct dtrace_ptss_page
{
88 struct dtrace_ptss_page
* next
;
89 struct dtrace_ptss_page_entry entries
[PAGE_MAX_SIZE
/ DTRACE_PTSS_SCRATCH_SPACE_PER_THREAD
];
92 struct dtrace_ptss_page_entry
* dtrace_ptss_claim_entry(struct proc
* p
); /* sprlock not held */
93 struct dtrace_ptss_page_entry
* dtrace_ptss_claim_entry_locked(struct proc
* p
); /* sprlock held */
94 void dtrace_ptss_release_entry(struct proc
* p
, struct dtrace_ptss_page_entry
* e
);
96 struct dtrace_ptss_page
* dtrace_ptss_allocate_page(struct proc
* p
);
97 void dtrace_ptss_free_page(struct proc
* p
, struct dtrace_ptss_page
* ptss_page
);
99 void dtrace_ptss_enable(struct proc
* p
);
100 void dtrace_ptss_exec_exit(struct proc
* p
);
101 void dtrace_ptss_fork(struct proc
* parent
, struct proc
* child
);
107 #endif /* _DTRACE_PTSS_H_ */