1VMTOUCH(8) System Manager's Manual VMTOUCH(8)
2
3
4
6 vmtouch - the Virtual Memory Toucher
7
9 vmtouch [OPTIONS] ... FILES OR DIRECTORIES ...
10
12 Portable file system cache diagnostics and control.
13
14 vmtouch opens every file provided on the command line and maps it into
15 virtual memory with mmap(2). The mappings are opened read-only. It
16 recursively crawls any directories and does the same to all files it
17 finds within them.
18
19 With no options, vmtouch will not read from (touch) any memory pages.
20 It will only use mincore(2) to determine how many pages of each file
21 are actually resident in memory. Before exiting, it will print a
22 summary of the total pages encountered and how many were resident.
23
24 -t Touch virtual memory pages. Reads a byte from each page of the
25 file. If the page is not resident in memory, a page fault will be
26 generated and the page will be read from disk into the file
27 system's memory cache.
28
29 Note: Although each page is guaranteed to have been brought into
30 memory, the page might be evicted from memory by the time the
31 vmtouch command completes.
32
33 -e Evict the mapped pages from the file system cache. They will need
34 to be read in from disk the next time they are accessed. This is
35 the inverse of "-t".
36
37 Note: Even if the eviction is successful, pages may be paged back
38 into memory by the time the vmtouch command completes.
39
40 Note: This option is not portable to all systems. See PORTABILITY
41 below.
42
43 -l Lock pages into physical memory. This option works the same as "-t"
44 except it calls mlock(2) on all the memory mappings and doesn't
45 close the descriptors when finished. At the end of the crawl, if
46 successful, vmtouch will block indefinitely. The files will be
47 locked in physical memory until the vmtouch process is killed.
48
49 Note: While the vmtouch process is holding memory locks, any
50 processes that access the locked pages will not cause non-resident
51 page faults or address-translation faults although they may still
52 cause TLB misses.
53
54 Note: Because vmtouch holds file descriptors open it may reach the
55 "RLIMIT_NOFILE" process file descriptor limit. In this case it will
56 try to increase the descriptor limit which will only work if the
57 process is run with root privileges. Similarly, root privileges are
58 required to exceed the "RLIMIT_MEMLOCK" limit. Even with root
59 privileges, "-l" is limited by both the system file descriptor
60 limit and the system limit on "wired memory".
61
62 -L This option is the same as "-l" except that it uses mlockall(2) at
63 the end of the crawl rather than individually mlock(2)ing each
64 file. Because of this, other unrelated pages belonging to the
65 vmtouch process will also be locked in memory.
66
67 -d Daemon mode. After performing the crawl, disassociate from the
68 terminal and run in the background as a daemon. This option can
69 only be used with the "-l" or "-L" locking modes.
70
71 -m <max file size>
72 Maximum file size to map into virtual memory. Files that are larger
73 than this will be skipped. Examples: 4096, 4k, 100M, 1.5G. The
74 default is 500M.
75
76 -p <size range> or <size>
77 Page mode. Maps the portion of the file specified by a range
78 instead of the entire file. Size format same as for "-m". Omitted
79 range start (end) value means start (end) of file. Single <size>
80 value is equivalent to -<size>, i.e. map the first <size> bytes.
81 Examples: 4k-50k, 100M-2G, -5M, -.
82
83 -f Follow symbolic links. With this option, vmtouch will descend into
84 symbolic links that point to directories and will touch regular
85 files pointed to by symbolic links. Symbolic link loops are
86 detected and issue warnings.
87
88 -F During the crawl, don't recurse into directories that have separate
89 filesystems mounted on them. This is handy to avoid accidentally
90 touching other filesystems that have been mounted underneath your
91 target directory.
92
93 -i <pattern>
94 Can be specified multiple times. Ignores files and directories that
95 match any of the provided patterns. The pattern may include
96 wildcards (remember to escape them from your shell). This option
97 stops the crawl, so can be used to ignore directories and all their
98 contents. Example: vmtouch -i .git -i '*.bak' .
99
100 -I <pattern>
101 Can be specified multiple times. Only processes filenames matching
102 one or more of the provided patterns. The pattern may include
103 wildcards (remember to escape them from your shell). Example:
104 vmtouch -I '*.c' -I '*.h' .
105
106 -b <list file>
107 The list of files/directories to crawl is read from the specified
108 list file, which by default should be a newline-separated list, for
109 example the output from the find command. If the list file is "-"
110 then this list is read from standard input. Example: find /usr/lib
111 -type f | vmtouch -b -
112
113 -0 If -b ("batch mode") is in effect, assume the list file is
114 delimited with NUL bytes instead of newlines, for example the
115 output from find -print0. This is useful in case your filenames
116 contain newline characters themselves.
117
118 -P <pidfile>
119 Create a PID file. This option can only be provided in combination
120 with -l or -L. The PID file will be automatically deleted when
121 vmtouch gets a termination signal (SIGINT, SIGTERM, SIGQUIT).
122
123 -v Verbose mode. While crawling, print out every file being processed
124 along with its total number of pages and the number of its pages
125 that are currently resident in memory to standard output.
126
127 -q Quiet mode. Suppress the end of crawl summary and all warnings that
128 are normally printed to standard error. On success print nothing.
129 Fatal errors print a single error message line to standard error.
130
131 -h Normally, if multiple files both point to the same inode then
132 vmtouch will ignore all but the first it finds so as to avoid
133 double-counting their pages. This option overrides this behaviour
134 and double-counts anyways.
135
137 The page residency summaries depend on mincore(2) which first appeared
138 in 4.4BSD but is not present on all unix systems.
139
140 The "-l" and "-L" locking options depends on mlock(2) or mlockall(2),
141 both of which are specified by POSIX.1b-1993, Real-Time Extensions.
142
143 The "-e" page eviction option is the least portable. On Linux it uses
144 posix_fadvise(2) with "POSIX_FADV_DONTNEED" advice to inform the kernel
145 that the file should be evicted from the file system cache.
146 posix_fadvise(2) is specified by POSIX.1-2003 TC1. On FreeBSD, the
147 pages are invalidated with msync(2)'s "MS_INVALIDATE" flag. msync(2) is
148 specified by POSIX.1b-1993, Real-Time Extensions, although this call is
149 not required to remove pages from the file system cache. Some systems
150 like OpenBSD 4.3 don't have posix_fadvise(2), don't evict the pages on
151 an msync(2)/"MS_INVALIDATE", and don't evict the pages with
152 madvise(2)/"MADV_DONTNEED" so "-e" isn't supported on those systems
153 yet. Using "-e" on systems that don't yet support it is a fatal error.
154
156 All vmtouch features have been confirmed to work on the following
157 systems:
158
159 Linux 2.6+
160 FreeBSD 4.X
161 FreeBSD 7.X
162 Solaris 10
163 OS X 10.x
164 HP-UX 11.31+patches (see below)
165
166 Systems that support everything except eviction:
167
168 OpenBSD 4.3
169
170 CPUs that have been tested:
171
172 x86
173 amd64 (x86-64)
174 SPARC
175 ARMv7
176
177 We would like to support as many systems as possible so please send us
178 any success reports, failure reports or patches. Thanks!
179
181 Shane Seymour did the HP-UX port and says that either 32-bit or 64-bit
182 binaries can be compiled (just use "+DD64" for 64-bit). However,
183 mincore(2) was added to HP-UX 11.31 via patches and at least the
184 following patches need to be installed: PHKL_38651, PHKL_38708,
185 PHKL_38686, PHKL_38688, and PHCO_38658 (or patches that supersede those
186 ones).
187
189 Not all the following manual pages may exist in every unix dialect to
190 which vmtouch has been ported.
191
192 vmstat(8), touch(1), mmap(2), mincore(2), mlock(2), mlockall(2),
193 msync(2), madvise(2), posix_fadvise(2)
194
196 Written by Doug Hoyte <doug@hcsw.org>
197
198
199
200 2022-01-22 VMTOUCH(8)