-
Notifications
You must be signed in to change notification settings - Fork 61
/
README
148 lines (113 loc) · 6.71 KB
/
README
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
memtester
Utility to test for faulty memory subsystem.
by Charles Cazabon <[email protected]>
Copyright 1999 Simon Kirby.
Version 2 Copyright 1999 Charles Cazabon.
Version 3 not publicly released.
Version 4 rewrite:
Copyright 2004-2020 Charles Cazabon.
Licensed under the terms of the GNU General Public License version 2 (only).
See the file COPYING for details.
About memtester
memtester is a utility for testing the memory subsystem in a computer to
determine if it is faulty. The original source was by Simon Kirby
<[email protected]>. I have by this time completely rewritten the
original source, and added many additional tests to help catch
borderline memory. I also rewrote the original tests (which catch
mainly memory bits which are stuck permanently high or low) so that
they run approximately an order of magnitude faster.
The version 4 rewrite was mainly to accomplish three things:
(1) the previous code was basically a hack, and was ugly.
(2) to make the code more portable. The previous version required some
hackery to compile on some systems.
(3) to make the code fully 64-bit aware. The previous version worked
on 64-bit systems, but did not fully stress the memory subsystems
on them -- this version should be better at stress-testing 64-bit
systems.
Building memtester
memtester is currently only distributed in source-code form. Building
it, however, is simple -- just type `make`. There's no `configure` script
or anything like that.
If you have a really strange system/toolchain, you might need to edit the
conf-cc or conf-ld files, but try to build it without changes first.
For example, if you want to cross-compile with `armgcc`, you would edit
conf-cc and conf-ld to use `armgcc` instead of `cc`. You can also change
the contents of these files for other reasons; for example, if your
compiler isn't in your PATH, you could change it to use `/path/to/cc` or
similar.
You can run the resulting binary from anywhere, but if you want to install
it and the manpage to /usr/local/, `make install` will do that. Edit
INSTALLPATH in the makefile if you prefer a different location.
I've successfully built and run memtester 4 on the following systems:
HP Tru64 Unix 4.0g (Alpha)
HP Tru64 Unix 5.1b (Alpha)
HP-UX 11i 11.11 (PA-RISC)
HP-UX 11i 11.23 (64-bit Itanium)
Debian GNU/Linux 3.0 (various)
other 32-bit Linux (RedHat, SuSE, Ubuntu, etc) (various)
RedHat Enterprise Linux/CentOS (64-bit AMD Opteron)
FreeBSD 4.9 (32-bit Intel)
FreeBSD 5.1 (64-bit Alpha)
NetBSD 1.6 (32-bit Intel)
Darwin (OS X) 7.5.0 (32-bit PowerPC)
OS X Leopard/Panther/whatever -- 32- or 64-bit, PPC or x86
It should, however, work on other Unix-like systems -- I simply don't
have access to systems running Solaris, AIX, etc. at the moment.
If you have trouble building memtester on your system, please report it
to me so I can fix this.
Using memtester
Usage is simple for the basic case. As root, run the resulting memtester
binary with the following commandline:
memtester <memory> [runs]
where <memory> is the amount of memory to test, in megabytes by default.
You can optionally include a suffix of B, K, M, or G (for bytes,
kilobytes, megabytes, and gigabytes respectively).
[runs] is an optional limit to the number of runs through all tests.
An optional "-p physaddr" argument available to cause memtester to test
memory starting at a specific physical memory address (by mmap(2)ing
a device file representing physical memory (/dev/mem by default, but can
be specified with the "-d device" option) starting at an offset of
`physaddr`, which is given in hex).
Note: the memory specified will be overwritten during testing; you
therefore *cannot* specify a region belonging to the kernel or other
applications without causing the other process or entire system to
crash). If you use this option, it is up to you to ensure the specified
memory is safe to overwrite. That makes this option mostly of use for
testing memory-mapped I/O devices and similar. Thanks to Allon Stern
for the idea behind this feature. For example, if you want to test a
bank of RAM or device which is 64kbytes in size and starts at physical
address 0x0C0000 through the normal /dev/mem, you would run memtester as
follows:
memtester -p 0x0c0000 64k [runs]
If instead that device presented its memory as /dev/foodev at offset
0, you would run memtester instead as follows:
memtester -p 0 -d /dev/foodev 64k [runs]
Note that the "-d" option can only be specified in combination with "-p".
memtester must run as user root so that it can lock its pages into
memory. If memtester fails to lock its pages, it will issue a warning and
continue regardless. Testing without the memory being locked is generally
very slow and not particularly accurate, as you'll end up testing the same
memory over and over as the system swaps the larger region.
Current Version
The current version of memtester should be available at
http://pyropus.ca/software/memtester/
Questions, comments, and feature requests should be
directed to me at <[email protected]>. Read BUGS to report
bugs found in memtester.
Platform Compatibility Notes
As mentioned, memtester v4 was tested with a wide variety of Unix- and
Unix-like systems. However, at least two issues with ancient HP/UX
versions, and one with Tru64, have come up since.
HP/UX versions prior to v11 do not support mlock() and will fail with an
invalid syscall error at runtime. If you're building on HP/UX v10.20 or
similar, change `int do_mlock = 1` around line 128 of memtester.c to
`int do_mlock = 0` and rebuild.
They also are missing strtoull() from C99. To fix this build error,
add `#define strtoull __strtoull` to the top of memtester.c; this should
at least work with a GCC toolchain.
Tru64 is missing strtoull() from C99. To fix this build error when using
cc, add `#define strtoull strtoul` to the top of memtester.c; this is
safe because long on Tru64 is 64-bits. This build problem could be dealt
with automatically, but I don't particularly want to invest the necessary
time, because Tru64 went out of support in 2012. In addition, I no longer
have access to a build machine for testing on this platform.