+++ /dev/null
-.\" @(#)nhfsstone.man 1.13 89/10/05 Copyright (c) 1989, Legato Systems Inc
-.\" See DISCLAIMER file for restrictions
-.TH NHFSSTONE 8 "4 October 1989"
-.SH NAME
-nhfsstone \- Network File System benchmark program
-.SH SYNOPSIS
-.B nhfsstone
-[
-.B \-v
-] [[
-.B \-t secs
-] | [
-.B -c calls
-]] [
-.B \-l load
-] [
-.B \-p nprocs
-] [
-.B \-m mixfile
-] [
-.B dir
-]...
-.SH DESCRIPTION
-.B nhfsstone
-(pronounced n\-f\-s\-stone, the "h" is silent)
-is used on a
-.SM NFS
-client to generate an artificial load with a particular mix of
-.SM NFS
-operations. It reports the average response time of the server in
-milliseconds per call and the load in calls per second.
-The program adjusts its calling patterns based on the client's kernel
-.SM NFS
-statistics and the elapsed time.
-Load can be generated over a given time or number of
-.SM NFS
-calls.
-.LP
-Because it uses the kernel
-.SM NFS
-statistics to monitor its progress,
-.B nhfsstone
-cannot be used to measure the performance of non\-NFS filesystems.
-.LP
-The
-.B nhfsstone
-program uses file and directory manipulation in an attempt to generate
-particular
-.SM NFS
-operations in response to particular system calls.
-To do this it uses several tricks
-that are based on a knowledge of the implementation of the
-.SM NFS
-client side reference port.
-For example, it uses long file names to circumvent the kernel name lookup
-cache so that a
-.BR stat (2)
-system call generates an
-.SM NFS
-lookup operation.
-.LP
-The mix of
-.SM NFS
-operations can be set with a mix file, which is the output of the
-.BR nfsstat (8C)
-command (see the "\-m" option below).
-The percentages taken from
-the mix file are calculated based on the number of
-.SM NFS
-calls, not on the percentages printed by nfsstat. Operations with
-0% in the mix will never get called by
-.BR nhfsstone .
-In a real server load mix, even though the percentage of call for
-a particular
-.SM NFS
-operation may be zero, the number of calls is often nonzero.
-.B Nhfsstone
-makes the assumption that the number of calls to these 0 percent
-operations will have an insignificant effect on server response.
-.LP
-Normally
-.B nhfsstone
-should be given a list of two or more test directories to use
-(default is to use the current directory).
-The test directories used should be located on different disks and
-partitions on the server to realistically simulate typical server loads.
-Each
-.B nhfsstone
-process looks for a directory
-.B <dir>/testdir<n>
-(where <n> is a number from 0 to
-.B nprocs
-\- 1).
-If a process directory name already exists,
-it is checked for the correct set of test files.
-Otherwise the directory is created and populated.
-.SH OPTIONS
-.TP 12
-.B \-v
-Verbose output.
-.TP
-.B \-t secs
-Sets
-.B calls
-based on the given running time (in seconds) and the load.
-.TP
-.B \-c calls
-Total number of
-.SM NFS
-calls to generate (default is 5000).
-.TP
-.B \-l load
-Load to generate in
-.SM NFS
-calls per second (default is 30).
-.TP
-.B \-p nprocs
-Number of load generating sub\-processes to fork (default is 7).
-This can be used to maximize the amount of load a single machine can generate.
-On a small client machine (slow CPU or small amount of memory)
-fewer processes might be used to avoid swapping.
-.TP
-.B \-m mixfile
-Mix of
-.SM NFS
-operations to generate.
-The format of
-.B mixfile
-is the same as the output of the
-.BR nfsstat (8C)
-program.
-A mix file can be created on a server by typing "nfsstat \-s > mixfile".
-The default mix of operations is: null 0%, getattr 13%, setattr 1%,
-root 0%, lookup 34%, readlink 8%, read 22%, wrcache 0%, write 15%, create 2%,
-remove 1%, rename 0%, link 0%, symlink 0%, mkdir 0%, rmdir 0%, readdir 3%,
-fsstat 1%.
-.SH USING NHFSSTONE
-As with all benchmarks,
-.B nhfsstone
-can only provide numbers that are useful if experiments that use it are
-set up carefully.
-Since it is measuring servers, it should be run on a client
-that will not limit the generation of
-.SM NFS
-requests.
-This means it should have a fast CPU,
-a good ethernet interface and the machine
-should not be used for anything else during testing.
-A Sun\-3/50 can generate about 60
-.SM NFS
-calls per second before it runs out of CPU.
-.LP
-.B Nhfsstone
-assumes that all
-.SM NFS
-calls generated on the client are going to a single server, and that
-all of the
-.SM NFS
-load on that server is due to this client.
-To make this assumption hold,
-both the client and server should be as quiescent as possible during tests.
-.LP
-If the network is heavily utilized the delays due to collisions
-may hide any changes in server performance.
-High error rates on either the client or server can also
-cause delays due to retransmissions of lost or damaged packets.
-.BR netstat (8C)
-.B \-i
-can be used to measure the error and collision rates on the client and server.
-.LP
-To best simulate the effects of
-.SM NFS
-clients on the server, the test
-directories should be set up so that they are on at least two of the
-disk partitions that the server exports and the partitions should be
-as far apart as possible. The
-.BR dkinfo (8)
-command can be used to find the physical geometry of disk on BSD based systems.
-.SM NFS
-operations tend to randomize
-access the whole disk so putting all of the
-.B nhfsstone
-test directories on a single partition or on
-two partitions that are close together will not show realistic results.
-.LP
-On all tests it is a good idea to run the tests repeatedly and compare results.
-The number of calls can be increased
-(with the
-.B \-c
-option) until the variance in milliseconds per call is acceptably small.
-If increasing the number of calls does not help there may be something
-wrong with the experimental setup.
-One common problem is too much memory on the client
-test machine. With too much memory,
-.B nhfsstone
-is not able to defeat the client caches and the
-.SM NFS
-operations do not end up going to the server at all. If you suspect that
-there is a caching problem you can use the
-.B -p
-option to increase the number of processes.
-.LP
-The numbers generated by
-.B nhfsstone
-are most useful for comparison if the test setup on the client machine
-is the same between different server configurations.
-Changing
-.B nhfsstone
-parameters between runs will produce numbers that can not be
-meaningfully compared.
-For example, changing the number of generator processes
-may affect the measured response
-time due to context switching or other delays on the client machine, while
-changing the mix of
-.SM NFS
-operations will change the whole nature of the experiment.
-Other changes to the client configuration may also effect the comparability
-of results.
-While
-.B nhfsstone
-tries to compensate for differences in client configurations
-by sampling the actual
-.SM NFS
-statistics and adjusting both the load and mix of operations, some changes
-are not reflected in either the load or the mix. For example, installing
-a faster CPU or mounting different
-.SM NFS
-filesystems may effect the response time without changing either the
-load or the mix.
-.LP
-To do a comparison of different server configurations, first set up the
-client test directories and do
-.B nhfsstone
-runs at different loads to be sure that the variability is
-reasonably low. Second, run
-.B nhfsstone
-at different loads of interest and
-save the results. Third, change the server configuration (for example,
-add more memory, replace a disk controller, etc.). Finally, run the same
-.B nhfsstone
-loads again and compare the results.
-.SH SEE ALSO
-.LP
-The
-.B nhfsstone.c
-source file has comments that describe in detail the operation of
-of the program.
-.SH ERROR MESSAGES
-.TP
-.B "illegal calls value"
-The
-.B calls
-argument following the
-.B \-c
-flag on the command line is not a positive number.
-.TP
-.B "illegal load value"
-The
-.B load
-argument following the
-.B \-l
-flag on the command line is not a positive number.
-.TP
-.B "illegal time value"
-The
-.B time
-argument following the
-.B \-t
-flag on the command line is not a positive number.
-.TP
-.B "bad mix file"
-The
-.B mixfile
-file argument following the
-.B \-m
-flag on the command line could not be accessed.
-.TP
-.B "can't find current directory"
-The parent process couldn't find the pathname of the current directory.
-This usually indicates a permission problem.
-.TP
-.B "can't fork"
-The parent couldn't fork the child processes. This usually results from
-lack of resources, such as memory or swap space.
-.TP
-.PD 0
-.B "can't open log file"
-.TP
-.B "can't stat log"
-.TP
-.B "can't truncate log"
-.TP
-.B "can't write sync file"
-.TP
-.B "can't write log"
-.TP
-.B "can't read log"
-.PD
-A problem occurred during the creation, truncation, reading or writing of the
-synchronization log file. The parent process creates the
-log file in /tmp and uses it to synchronize and communicate with its children.
-.TP
-.PD 0
-.B "can't open test directory"
-.TP
-.B "can't create test directory"
-.TP
-.B "can't cd to test directory"
-.TP
-.B "wrong permissions on test dir"
-.TP
-.B "can't stat testfile"
-.TP
-.B "wrong permissions on testfile"
-.TP
-.B "can't create rename file"
-.TP
-.B "can't create subdir"
-.PD
-A child process had problems creating or checking the contents of its
-test directory. This is usually due to a permission problem (for example
-the test directory was created by a different user) or a full filesystem.
-.TP
-.PD 0
-.B "bad mix format: unexpected EOF after 'nfs:'"
-.TP
-.B "bad mix format: can't find 'calls' value"
-.TP
-.B "bad mix format: unexpected EOF after 'calls'"
-.TP
-.B "bad mix format: can't find %d op values"
-.TP
-.B "bad mix format: unexpected EOF"
-.PD
-A problem occurred while parsing the
-.B mix
-file. The expected format of the file is the same as the output of
-the
-.BR nfsstat (8C)
-command when run with the "\-s" option.
-.TP
-.B "op failed: "
-One of the internal pseudo\-NFS operations failed. The name of the operation,
-e.g. read, write, lookup, will be printed along with an indication of the
-nature of the failure.
-.TP
-.B "select failed"
-The select system call returned an unexpected error.
-.SH BUGS
-.LP
-Running
-.B nhfsstone
-on a non\-NFS filesystem can cause the program to run forever because it
-uses the kernel NFS statistics to determine when enough calls have been made.
-.LP
-.B Nhfsstone
-uses many file descriptors. The kernel on the client may
-have to be reconfigured to increase the number of available file table entries.
-.LP
-Shell scripts that used
-.B nhfsstone
-will have to catch and ignore SIGUSR1 (see
-.BR signal (3)).
-This signal is
-used to synchronize the test processes. If the signal is not caught
-the shell that is running the script will be killed.
-.SH FILES
-.PD 0
-.TP 20
-.B /vmunix
-system namelist
-.TP
-.B /dev/kmem
-kernel virtual memory
-.TP
-.B ./testdir*
-per process test directory
-.TP
-.B /tmp/nhfsstone%d
-process synchronization log file
-.PD
projects / nfs-utils.git / blobdiff