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Linux/Documentation/admin-guide/mm/pagemap.rst

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Differences between /Documentation/admin-guide/mm/pagemap.rst (Architecture sparc64) and /Documentation/admin-guide/mm/pagemap.rst (Architecture i386)


  1 =============================                       1 =============================
  2 Examining Process Page Tables                       2 Examining Process Page Tables
  3 =============================                       3 =============================
  4                                                     4 
  5 pagemap is a new (as of 2.6.25) set of interfa      5 pagemap is a new (as of 2.6.25) set of interfaces in the kernel that allow
  6 userspace programs to examine the page tables       6 userspace programs to examine the page tables and related information by
  7 reading files in ``/proc``.                         7 reading files in ``/proc``.
  8                                                     8 
  9 There are four components to pagemap:               9 There are four components to pagemap:
 10                                                    10 
 11  * ``/proc/pid/pagemap``.  This file lets a us     11  * ``/proc/pid/pagemap``.  This file lets a userspace process find out which
 12    physical frame each virtual page is mapped      12    physical frame each virtual page is mapped to.  It contains one 64-bit
 13    value for each virtual page, containing the     13    value for each virtual page, containing the following data (from
 14    ``fs/proc/task_mmu.c``, above pagemap_read)     14    ``fs/proc/task_mmu.c``, above pagemap_read):
 15                                                    15 
 16     * Bits 0-54  page frame number (PFN) if pr     16     * Bits 0-54  page frame number (PFN) if present
 17     * Bits 0-4   swap type if swapped              17     * Bits 0-4   swap type if swapped
 18     * Bits 5-54  swap offset if swapped            18     * Bits 5-54  swap offset if swapped
 19     * Bit  55    pte is soft-dirty (see            19     * Bit  55    pte is soft-dirty (see
 20       Documentation/admin-guide/mm/soft-dirty.     20       Documentation/admin-guide/mm/soft-dirty.rst)
 21     * Bit  56    page exclusively mapped (sinc     21     * Bit  56    page exclusively mapped (since 4.2)
 22     * Bit  57    pte is uffd-wp write-protecte     22     * Bit  57    pte is uffd-wp write-protected (since 5.13) (see
 23       Documentation/admin-guide/mm/userfaultfd     23       Documentation/admin-guide/mm/userfaultfd.rst)
 24     * Bits 58-60 zero                              24     * Bits 58-60 zero
 25     * Bit  61    page is file-page or shared-a     25     * Bit  61    page is file-page or shared-anon (since 3.5)
 26     * Bit  62    page swapped                      26     * Bit  62    page swapped
 27     * Bit  63    page present                      27     * Bit  63    page present
 28                                                    28 
 29    Since Linux 4.0 only users with the CAP_SYS     29    Since Linux 4.0 only users with the CAP_SYS_ADMIN capability can get PFNs.
 30    In 4.0 and 4.1 opens by unprivileged fail w     30    In 4.0 and 4.1 opens by unprivileged fail with -EPERM.  Starting from
 31    4.2 the PFN field is zeroed if the user doe     31    4.2 the PFN field is zeroed if the user does not have CAP_SYS_ADMIN.
 32    Reason: information about PFNs helps in exp     32    Reason: information about PFNs helps in exploiting Rowhammer vulnerability.
 33                                                    33 
 34    If the page is not present but in swap, the     34    If the page is not present but in swap, then the PFN contains an
 35    encoding of the swap file number and the pa     35    encoding of the swap file number and the page's offset into the
 36    swap. Unmapped pages return a null PFN. Thi     36    swap. Unmapped pages return a null PFN. This allows determining
 37    precisely which pages are mapped (or in swa     37    precisely which pages are mapped (or in swap) and comparing mapped
 38    pages between processes.                        38    pages between processes.
 39                                                    39 
 40    Efficient users of this interface will use      40    Efficient users of this interface will use ``/proc/pid/maps`` to
 41    determine which areas of memory are actuall     41    determine which areas of memory are actually mapped and llseek to
 42    skip over unmapped regions.                     42    skip over unmapped regions.
 43                                                    43 
 44  * ``/proc/kpagecount``.  This file contains a     44  * ``/proc/kpagecount``.  This file contains a 64-bit count of the number of
 45    times each page is mapped, indexed by PFN.      45    times each page is mapped, indexed by PFN.
 46                                                    46 
 47 The page-types tool in the tools/mm directory      47 The page-types tool in the tools/mm directory can be used to query the
 48 number of times a page is mapped.                  48 number of times a page is mapped.
 49                                                    49 
 50  * ``/proc/kpageflags``.  This file contains a     50  * ``/proc/kpageflags``.  This file contains a 64-bit set of flags for each
 51    page, indexed by PFN.                           51    page, indexed by PFN.
 52                                                    52 
 53    The flags are (from ``fs/proc/page.c``, abo     53    The flags are (from ``fs/proc/page.c``, above kpageflags_read):
 54                                                    54 
 55     0. LOCKED                                      55     0. LOCKED
 56     1. ERROR                                       56     1. ERROR
 57     2. REFERENCED                                  57     2. REFERENCED
 58     3. UPTODATE                                    58     3. UPTODATE
 59     4. DIRTY                                       59     4. DIRTY
 60     5. LRU                                         60     5. LRU
 61     6. ACTIVE                                      61     6. ACTIVE
 62     7. SLAB                                        62     7. SLAB
 63     8. WRITEBACK                                   63     8. WRITEBACK
 64     9. RECLAIM                                     64     9. RECLAIM
 65     10. BUDDY                                      65     10. BUDDY
 66     11. MMAP                                       66     11. MMAP
 67     12. ANON                                       67     12. ANON
 68     13. SWAPCACHE                                  68     13. SWAPCACHE
 69     14. SWAPBACKED                                 69     14. SWAPBACKED
 70     15. COMPOUND_HEAD                              70     15. COMPOUND_HEAD
 71     16. COMPOUND_TAIL                              71     16. COMPOUND_TAIL
 72     17. HUGE                                       72     17. HUGE
 73     18. UNEVICTABLE                                73     18. UNEVICTABLE
 74     19. HWPOISON                                   74     19. HWPOISON
 75     20. NOPAGE                                     75     20. NOPAGE
 76     21. KSM                                        76     21. KSM
 77     22. THP                                        77     22. THP
 78     23. OFFLINE                                    78     23. OFFLINE
 79     24. ZERO_PAGE                                  79     24. ZERO_PAGE
 80     25. IDLE                                       80     25. IDLE
 81     26. PGTABLE                                    81     26. PGTABLE
 82                                                    82 
 83  * ``/proc/kpagecgroup``.  This file contains      83  * ``/proc/kpagecgroup``.  This file contains a 64-bit inode number of the
 84    memory cgroup each page is charged to, inde     84    memory cgroup each page is charged to, indexed by PFN. Only available when
 85    CONFIG_MEMCG is set.                            85    CONFIG_MEMCG is set.
 86                                                    86 
 87 Short descriptions to the page flags               87 Short descriptions to the page flags
 88 ====================================               88 ====================================
 89                                                    89 
 90 0 - LOCKED                                         90 0 - LOCKED
 91    The page is being locked for exclusive acce     91    The page is being locked for exclusive access, e.g. by undergoing read/write
 92    IO.                                             92    IO.
 93 7 - SLAB                                           93 7 - SLAB
 94    The page is managed by the SLAB/SLUB kernel     94    The page is managed by the SLAB/SLUB kernel memory allocator.
 95    When compound page is used, either will onl     95    When compound page is used, either will only set this flag on the head
 96    page.                                           96    page.
 97 10 - BUDDY                                         97 10 - BUDDY
 98     A free memory block managed by the buddy s     98     A free memory block managed by the buddy system allocator.
 99     The buddy system organizes free memory in      99     The buddy system organizes free memory in blocks of various orders.
100     An order N block has 2^N physically contig    100     An order N block has 2^N physically contiguous pages, with the BUDDY flag
101     set for and _only_ for the first page.        101     set for and _only_ for the first page.
102 15 - COMPOUND_HEAD                                102 15 - COMPOUND_HEAD
103     A compound page with order N consists of 2    103     A compound page with order N consists of 2^N physically contiguous pages.
104     A compound page with order 2 takes the for    104     A compound page with order 2 takes the form of "HTTT", where H donates its
105     head page and T donates its tail page(s).     105     head page and T donates its tail page(s).  The major consumers of compound
106     pages are hugeTLB pages (Documentation/adm    106     pages are hugeTLB pages (Documentation/admin-guide/mm/hugetlbpage.rst),
107     the SLUB etc.  memory allocators and vario    107     the SLUB etc.  memory allocators and various device drivers.
108     However in this interface, only huge/giga     108     However in this interface, only huge/giga pages are made visible
109     to end users.                                 109     to end users.
110 16 - COMPOUND_TAIL                                110 16 - COMPOUND_TAIL
111     A compound page tail (see description abov    111     A compound page tail (see description above).
112 17 - HUGE                                         112 17 - HUGE
113     This is an integral part of a HugeTLB page    113     This is an integral part of a HugeTLB page.
114 19 - HWPOISON                                     114 19 - HWPOISON
115     Hardware detected memory corruption on thi    115     Hardware detected memory corruption on this page: don't touch the data!
116 20 - NOPAGE                                       116 20 - NOPAGE
117     No page frame exists at the requested addr    117     No page frame exists at the requested address.
118 21 - KSM                                          118 21 - KSM
119     Identical memory pages dynamically shared     119     Identical memory pages dynamically shared between one or more processes.
120 22 - THP                                          120 22 - THP
121     Contiguous pages which construct THP of an    121     Contiguous pages which construct THP of any size and mapped by any granularity.
122 23 - OFFLINE                                      122 23 - OFFLINE
123     The page is logically offline.                123     The page is logically offline.
124 24 - ZERO_PAGE                                    124 24 - ZERO_PAGE
125     Zero page for pfn_zero or huge_zero page.     125     Zero page for pfn_zero or huge_zero page.
126 25 - IDLE                                         126 25 - IDLE
127     The page has not been accessed since it wa    127     The page has not been accessed since it was marked idle (see
128     Documentation/admin-guide/mm/idle_page_tra    128     Documentation/admin-guide/mm/idle_page_tracking.rst).
129     Note that this flag may be stale in case t    129     Note that this flag may be stale in case the page was accessed via
130     a PTE. To make sure the flag is up-to-date    130     a PTE. To make sure the flag is up-to-date one has to read
131     ``/sys/kernel/mm/page_idle/bitmap`` first.    131     ``/sys/kernel/mm/page_idle/bitmap`` first.
132 26 - PGTABLE                                      132 26 - PGTABLE
133     The page is in use as a page table.           133     The page is in use as a page table.
134                                                   134 
135 IO related page flags                             135 IO related page flags
136 ---------------------                             136 ---------------------
137                                                   137 
138 1 - ERROR                                         138 1 - ERROR
139    IO error occurred.                             139    IO error occurred.
140 3 - UPTODATE                                      140 3 - UPTODATE
141    The page has up-to-date data.                  141    The page has up-to-date data.
142    ie. for file backed page: (in-memory data r    142    ie. for file backed page: (in-memory data revision >= on-disk one)
143 4 - DIRTY                                         143 4 - DIRTY
144    The page has been written to, hence contain    144    The page has been written to, hence contains new data.
145    i.e. for file backed page: (in-memory data     145    i.e. for file backed page: (in-memory data revision >  on-disk one)
146 8 - WRITEBACK                                     146 8 - WRITEBACK
147    The page is being synced to disk.              147    The page is being synced to disk.
148                                                   148 
149 LRU related page flags                            149 LRU related page flags
150 ----------------------                            150 ----------------------
151                                                   151 
152 5 - LRU                                           152 5 - LRU
153    The page is in one of the LRU lists.           153    The page is in one of the LRU lists.
154 6 - ACTIVE                                        154 6 - ACTIVE
155    The page is in the active LRU list.            155    The page is in the active LRU list.
156 18 - UNEVICTABLE                                  156 18 - UNEVICTABLE
157    The page is in the unevictable (non-)LRU li    157    The page is in the unevictable (non-)LRU list It is somehow pinned and
158    not a candidate for LRU page reclaims, e.g.    158    not a candidate for LRU page reclaims, e.g. ramfs pages,
159    shmctl(SHM_LOCK) and mlock() memory segment    159    shmctl(SHM_LOCK) and mlock() memory segments.
160 2 - REFERENCED                                    160 2 - REFERENCED
161    The page has been referenced since last LRU    161    The page has been referenced since last LRU list enqueue/requeue.
162 9 - RECLAIM                                       162 9 - RECLAIM
163    The page will be reclaimed soon after its p    163    The page will be reclaimed soon after its pageout IO completed.
164 11 - MMAP                                         164 11 - MMAP
165    A memory mapped page.                          165    A memory mapped page.
166 12 - ANON                                         166 12 - ANON
167    A memory mapped page that is not part of a     167    A memory mapped page that is not part of a file.
168 13 - SWAPCACHE                                    168 13 - SWAPCACHE
169    The page is mapped to swap space, i.e. has     169    The page is mapped to swap space, i.e. has an associated swap entry.
170 14 - SWAPBACKED                                   170 14 - SWAPBACKED
171    The page is backed by swap/RAM.                171    The page is backed by swap/RAM.
172                                                   172 
173 The page-types tool in the tools/mm directory     173 The page-types tool in the tools/mm directory can be used to query the
174 above flags.                                      174 above flags.
175                                                   175 
176 Exceptions for Shared Memory                      176 Exceptions for Shared Memory
177 ============================                      177 ============================
178                                                   178 
179 Page table entries for shared pages are cleare    179 Page table entries for shared pages are cleared when the pages are zapped or
180 swapped out. This makes swapped out pages indi    180 swapped out. This makes swapped out pages indistinguishable from never-allocated
181 ones.                                             181 ones.
182                                                   182 
183 In kernel space, the swap location can still b    183 In kernel space, the swap location can still be retrieved from the page cache.
184 However, values stored only on the normal PTE     184 However, values stored only on the normal PTE get lost irretrievably when the
185 page is swapped out (i.e. SOFT_DIRTY).            185 page is swapped out (i.e. SOFT_DIRTY).
186                                                   186 
187 In user space, whether the page is present, sw    187 In user space, whether the page is present, swapped or none can be deduced with
188 the help of lseek and/or mincore system calls.    188 the help of lseek and/or mincore system calls.
189                                                   189 
190 lseek() can differentiate between accessed pag    190 lseek() can differentiate between accessed pages (present or swapped out) and
191 holes (none/non-allocated) by specifying the S    191 holes (none/non-allocated) by specifying the SEEK_DATA flag on the file where
192 the pages are backed. For anonymous shared pag    192 the pages are backed. For anonymous shared pages, the file can be found in
193 ``/proc/pid/map_files/``.                         193 ``/proc/pid/map_files/``.
194                                                   194 
195 mincore() can differentiate between pages in m    195 mincore() can differentiate between pages in memory (present, including swap
196 cache) and out of memory (swapped out or none/    196 cache) and out of memory (swapped out or none/non-allocated).
197                                                   197 
198 Other notes                                       198 Other notes
199 ===========                                       199 ===========
200                                                   200 
201 Reading from any of the files will return -EIN    201 Reading from any of the files will return -EINVAL if you are not starting
202 the read on an 8-byte boundary (e.g., if you s    202 the read on an 8-byte boundary (e.g., if you sought an odd number of bytes
203 into the file), or if the size of the read is     203 into the file), or if the size of the read is not a multiple of 8 bytes.
204                                                   204 
205 Before Linux 3.11 pagemap bits 55-60 were used    205 Before Linux 3.11 pagemap bits 55-60 were used for "page-shift" (which is
206 always 12 at most architectures). Since Linux     206 always 12 at most architectures). Since Linux 3.11 their meaning changes
207 after first clear of soft-dirty bits. Since Li    207 after first clear of soft-dirty bits. Since Linux 4.2 they are used for
208 flags unconditionally.                            208 flags unconditionally.
209                                                   209 
210 Pagemap Scan IOCTL                                210 Pagemap Scan IOCTL
211 ==================                                211 ==================
212                                                   212 
213 The ``PAGEMAP_SCAN`` IOCTL on the pagemap file    213 The ``PAGEMAP_SCAN`` IOCTL on the pagemap file can be used to get or optionally
214 clear the info about page table entries. The f    214 clear the info about page table entries. The following operations are supported
215 in this IOCTL:                                    215 in this IOCTL:
216                                                   216 
217 - Scan the address range and get the memory ra    217 - Scan the address range and get the memory ranges matching the provided criteria.
218   This is performed when the output buffer is     218   This is performed when the output buffer is specified.
219 - Write-protect the pages. The ``PM_SCAN_WP_MA    219 - Write-protect the pages. The ``PM_SCAN_WP_MATCHING`` is used to write-protect
220   the pages of interest. The ``PM_SCAN_CHECK_W    220   the pages of interest. The ``PM_SCAN_CHECK_WPASYNC`` aborts the operation if
221   non-Async Write Protected pages are found. T    221   non-Async Write Protected pages are found. The ``PM_SCAN_WP_MATCHING`` can be
222   used with or without ``PM_SCAN_CHECK_WPASYNC    222   used with or without ``PM_SCAN_CHECK_WPASYNC``.
223 - Both of those operations can be combined int    223 - Both of those operations can be combined into one atomic operation where we can
224   get and write protect the pages as well.        224   get and write protect the pages as well.
225                                                   225 
226 Following flags about pages are currently supp    226 Following flags about pages are currently supported:
227                                                   227 
228 - ``PAGE_IS_WPALLOWED`` - Page has async-write    228 - ``PAGE_IS_WPALLOWED`` - Page has async-write-protection enabled
229 - ``PAGE_IS_WRITTEN`` - Page has been written     229 - ``PAGE_IS_WRITTEN`` - Page has been written to from the time it was write protected
230 - ``PAGE_IS_FILE`` - Page is file backed          230 - ``PAGE_IS_FILE`` - Page is file backed
231 - ``PAGE_IS_PRESENT`` - Page is present in the    231 - ``PAGE_IS_PRESENT`` - Page is present in the memory
232 - ``PAGE_IS_SWAPPED`` - Page is in swapped        232 - ``PAGE_IS_SWAPPED`` - Page is in swapped
233 - ``PAGE_IS_PFNZERO`` - Page has zero PFN         233 - ``PAGE_IS_PFNZERO`` - Page has zero PFN
234 - ``PAGE_IS_HUGE`` - Page is PMD-mapped THP or    234 - ``PAGE_IS_HUGE`` - Page is PMD-mapped THP or Hugetlb backed
235 - ``PAGE_IS_SOFT_DIRTY`` - Page is soft-dirty     235 - ``PAGE_IS_SOFT_DIRTY`` - Page is soft-dirty
236                                                   236 
237 The ``struct pm_scan_arg`` is used as the argu    237 The ``struct pm_scan_arg`` is used as the argument of the IOCTL.
238                                                   238 
239  1. The size of the ``struct pm_scan_arg`` mus    239  1. The size of the ``struct pm_scan_arg`` must be specified in the ``size``
240     field. This field will be helpful in recog    240     field. This field will be helpful in recognizing the structure if extensions
241     are done later.                               241     are done later.
242  2. The flags can be specified in the ``flags`    242  2. The flags can be specified in the ``flags`` field. The ``PM_SCAN_WP_MATCHING``
243     and ``PM_SCAN_CHECK_WPASYNC`` are the only    243     and ``PM_SCAN_CHECK_WPASYNC`` are the only added flags at this time. The get
244     operation is optionally performed dependin    244     operation is optionally performed depending upon if the output buffer is
245     provided or not.                              245     provided or not.
246  3. The range is specified through ``start`` a    246  3. The range is specified through ``start`` and ``end``.
247  4. The walk can abort before visiting the com    247  4. The walk can abort before visiting the complete range such as the user buffer
248     can get full etc. The walk ending address     248     can get full etc. The walk ending address is specified in``end_walk``.
249  5. The output buffer of ``struct page_region`    249  5. The output buffer of ``struct page_region`` array and size is specified in
250     ``vec`` and ``vec_len``.                      250     ``vec`` and ``vec_len``.
251  6. The optional maximum requested pages are s    251  6. The optional maximum requested pages are specified in the ``max_pages``.
252  7. The masks are specified in ``category_mask    252  7. The masks are specified in ``category_mask``, ``category_anyof_mask``,
253     ``category_inverted`` and ``return_mask``.    253     ``category_inverted`` and ``return_mask``.
254                                                   254 
255 Find pages which have been written and WP them    255 Find pages which have been written and WP them as well::
256                                                   256 
257    struct pm_scan_arg arg = {                     257    struct pm_scan_arg arg = {
258    .size = sizeof(arg),                           258    .size = sizeof(arg),
259    .flags = PM_SCAN_CHECK_WPASYNC | PM_SCAN_CH    259    .flags = PM_SCAN_CHECK_WPASYNC | PM_SCAN_CHECK_WPASYNC,
260    ..                                             260    ..
261    .category_mask = PAGE_IS_WRITTEN,              261    .category_mask = PAGE_IS_WRITTEN,
262    .return_mask = PAGE_IS_WRITTEN,                262    .return_mask = PAGE_IS_WRITTEN,
263    };                                             263    };
264                                                   264 
265 Find pages which have been written, are file b    265 Find pages which have been written, are file backed, not swapped and either
266 present or huge::                                 266 present or huge::
267                                                   267 
268    struct pm_scan_arg arg = {                     268    struct pm_scan_arg arg = {
269    .size = sizeof(arg),                           269    .size = sizeof(arg),
270    .flags = 0,                                    270    .flags = 0,
271    ..                                             271    ..
272    .category_mask = PAGE_IS_WRITTEN | PAGE_IS_    272    .category_mask = PAGE_IS_WRITTEN | PAGE_IS_SWAPPED,
273    .category_inverted = PAGE_IS_SWAPPED,          273    .category_inverted = PAGE_IS_SWAPPED,
274    .category_anyof_mask = PAGE_IS_PRESENT | PA    274    .category_anyof_mask = PAGE_IS_PRESENT | PAGE_IS_HUGE,
275    .return_mask = PAGE_IS_WRITTEN | PAGE_IS_SW    275    .return_mask = PAGE_IS_WRITTEN | PAGE_IS_SWAPPED |
276                   PAGE_IS_PRESENT | PAGE_IS_HU    276                   PAGE_IS_PRESENT | PAGE_IS_HUGE,
277    };                                             277    };
278                                                   278 
279 The ``PAGE_IS_WRITTEN`` flag can be considered    279 The ``PAGE_IS_WRITTEN`` flag can be considered as a better-performing alternative
280 of soft-dirty flag. It doesn't get affected by    280 of soft-dirty flag. It doesn't get affected by VMA merging of the kernel and hence
281 the user can find the true soft-dirty pages in    281 the user can find the true soft-dirty pages in case of normal pages. (There may
282 still be extra dirty pages reported for THP or    282 still be extra dirty pages reported for THP or Hugetlb pages.)
283                                                   283 
284 "PAGE_IS_WRITTEN" category is used with uffd w    284 "PAGE_IS_WRITTEN" category is used with uffd write protect-enabled ranges to
285 implement memory dirty tracking in userspace:     285 implement memory dirty tracking in userspace:
286                                                   286 
287  1. The userfaultfd file descriptor is created    287  1. The userfaultfd file descriptor is created with ``userfaultfd`` syscall.
288  2. The ``UFFD_FEATURE_WP_UNPOPULATED`` and ``    288  2. The ``UFFD_FEATURE_WP_UNPOPULATED`` and ``UFFD_FEATURE_WP_ASYNC`` features
289     are set by ``UFFDIO_API`` IOCTL.              289     are set by ``UFFDIO_API`` IOCTL.
290  3. The memory range is registered with ``UFFD    290  3. The memory range is registered with ``UFFDIO_REGISTER_MODE_WP`` mode
291     through ``UFFDIO_REGISTER`` IOCTL.            291     through ``UFFDIO_REGISTER`` IOCTL.
292  4. Then any part of the registered memory or     292  4. Then any part of the registered memory or the whole memory region must
293     be write protected using ``PAGEMAP_SCAN``     293     be write protected using ``PAGEMAP_SCAN`` IOCTL with flag ``PM_SCAN_WP_MATCHING``
294     or the ``UFFDIO_WRITEPROTECT`` IOCTL can b    294     or the ``UFFDIO_WRITEPROTECT`` IOCTL can be used. Both of these perform the
295     same operation. The former is better in te    295     same operation. The former is better in terms of performance.
296  5. Now the ``PAGEMAP_SCAN`` IOCTL can be used    296  5. Now the ``PAGEMAP_SCAN`` IOCTL can be used to either just find pages which
297     have been written to since they were last     297     have been written to since they were last marked and/or optionally write protect
298     the pages as well.                            298     the pages as well.
                                                      

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