pdsh man page
pdsh — issue commands to groups of hosts in parallel
pdsh [options]... command
pdsh is a variant of the rsh(1) command. Unlike rsh(1), which runs commands on a single remote host, pdsh can run multiple remote commands in parallel. pdsh uses a "sliding window" (or fanout) of threads to conserve resources on the initiating host while allowing some connections to time out.
When pdsh receives SIGINT (ctrl-C), it lists the status of current threads. A second SIGINT within one second terminates the program. Pending threads may be canceled by issuing ctrl-Z within one second of ctrl-C. Pending threads are those that have not yet been initiated, or are still in the process of connecting to the remote host.
If a remote command is not specified on the command line, pdsh runs interactively, prompting for commands and executing them when terminated with a carriage return. In interactive mode, target nodes that time out on the first command are not contacted for subsequent commands, and commands prefixed with an exclamation point will be executed on the local system.
The core functionality of pdsh may be supplemented by dynamically loadable modules. The modules may provide a new connection protocol (replacing the standard rcmd(3) protocol used by rsh(1)), filtering options (e.g. removing hosts that are "down" from the target list), and/or host selection options (e.g., -a selects all hosts from a configuration file.). By default, pdsh must have at least one "rcmd" module loaded. See the Rcmd Modules section for more information.
The method by which pdsh runs commands on remote hosts may be selected at runtime using the -R option (See Options below). This functionality is ultimately implemented via dynamically loadable modules, and so the list of available options may be different from installation to installation. A list of currently available rcmd modules is printed when using any of the -h, -V, or -L options. The default rcmd module will also be displayed with the -h and -V options.
A list of rcmd modules currently distributed with pdsh follows.
Uses an internal, thread-safe implementation of BSD rcmd(3) to run commands using the standard rsh(1) protocol.
Executes an arbitrary command for each target host. The first of the pdsh remote arguments is the local command to execute, followed by any further arguments. Some simple parameters are substitued on the command line, including %h for the target hostname, %u for the remote username, and %n for the remote rank [0-n] (To get a literal % use %%). For example, the following would duplicate using the ssh module to run hostname(1) across the hosts foo[0-10]:
pdsh -R exec -w foo[0-10] ssh -x -l %u %h hostname
and this command line would run grep(1) in parallel across the files console.foo[0-10]:
pdsh -R exec -w foo[0-10] grep BUG console.%h
Uses a variant of popen(3) to run multiple copies of the ssh(1) command.
This module uses the mrsh(1) protocol to execute jobs on remote hosts. The mrsh protocol uses a credential based authentication, forgoing the need to allocate reserved ports. In other aspects, it acts just like rsh. Remote nodes must be running mrshd(8) in order for the mrsh module to work.
Allows pdsh to execute MPI jobs over QsNet. Qshell propagates the current working directory, pdsh environment, and Elan capabilities to the remote process. The following environment variable are also appended to the environment: RMS_RANK, RMS_NODEID, RMS_PROCID, RMS_NNODES, and RMS_NPROCS. Since pdsh needs to run setuid root for qshell support, qshell does not directly support propagation of LD_LIBRARY_PATH and LD_PREOPEN. Instead the QSHELL_REMOTE_LD_LIBRARY_PATH and QSHELL_REMOTE_LD_PREOPEN environment variables will may be used and will be remapped to LD_LIBRARY_PATH and LD_PREOPEN by the qshell daemon if set.
Similar to qshell, but uses the mrsh protocol instead of the rsh protocol.
The krb4 module allows users to execute remote commands after authenticating with kerberos. Of course, the remote rshd daemons must be kerberized.
The xcpu module uses the xcpu service to execute remote commands.
The list of available options is determined at runtime by supplementing the list of standard pdsh options with any options provided by loaded rcmd and misc modules. In some cases, options provided by modules may conflict with each other. In these cases, the modules are incompatible and the first module loaded wins.
Standard target nodelist options
- -w TARGETS,...
Target and or filter the specified list of hosts. Do not use with any other node selection options (e.g. -a, -g, if they are available). No spaces are allowed in the comma-separated list. Arguments in the TARGETS list may include normal host names, a range of hosts in hostlist format (See Hostlist Expressions), or a single `-' character to read the list of hosts on stdin.
If a host or hostlist is preceded by a `-' character, this causes those hosts to be explicitly excluded. If the argument is preceded by a single `^' character, it is taken to be the path to file containing a list of hosts, one per line. If the item begins with a `/' character, it is taken as a regular expression on which to filter the list of hosts (a regex argument may also be optionally trailed by another '/', e.g. /node.*/). A regex or file name argument may also be preceeded by a minus `-' to exclude instead of include thoses hosts.
A list of hosts may also be preceded by "user@" to specify a remote username other than the default, or "rcmd_type:" to specify an alternate rcmd connection type for these hosts. When used together, the rcmd type must be specified first, e.g. "ssh:user1@host0" would use ssh to connect to host0 as user "user1."
- -x host,host,...
Exclude the specified hosts. May be specified in conjunction with other target node list options such as -a and -g (when available). Hostlists may also be specified to the -x option (see the Hostlist Expressions section below). Arguments to -x may also be preceeded by the filename (`^') and regex ('/') characters as described above, in which case the resulting hosts are excluded as if they had been given to -w and preceeded with the minus `-' character.
Standard pdsh options
Return the largest of the remote command return values.
Output usage menu and quit. A list of available rcmd modules will also be printed at the end of the usage message.
Only on AIX, separate remote command stderr and stdout into two sockets.
List option values and the target nodelist and exit without action.
Disable ctrl-C status feature so that a single ctrl-C kills parallel job. (Batch Mode)
- -l user
This option may be used to run remote commands as another user, subject to authorization. For BSD rcmd, this means the invoking user and system must be listed in the user´s .rhosts file (even for root).
- -t seconds
Set the connect timeout. Default is 10 seconds.
- -u seconds
Set a limit on the amount of time a remote command is allowed to execute. Default is no limit. See note in Limitations if using -u with ssh.
- -f number
Set the maximum number of simultaneous remote commands to number. The default is 32.
- -R name
Set rcmd module to name. This option may also be set via the PDSH_RCMD_TYPE environment variable. A list of available rcmd modules may be obtained via the -h, -V, or -L options. The default will be listed with -h or -V.
- -M name,...
When multiple misc modules provide the same options to pdsh, the first module initialized "wins" and subsequent modules are not loaded. The -M option allows a list of modules to be specified that will be force-initialized before all others, in-effect ensuring that they load without conflict (unless they conflict with eachother). This option may also be set via the PDSH_MISC_MODULES environment variable.
List info on all loaded pdsh modules and quit.
Disable hostname: prefix on lines of output.
Include more complete thread status when SIGINT is received, and display connect and command time statistics on stderr when done.
Output pdsh version information, along with list of currently loaded modules, and exit.
qsh/mqsh module options
- -n tasks_per_node
Set the number of tasks spawned per node. Default is 1.
- -m block | cyclic
Set block versus cyclic allocation of processes to nodes. Default is block.
- -r railmask
Set the rail bitmask for a job on a multirail system. The default railmask is 1, which corresponds to rail 0 only. Each bit set in the argument to -r corresponds to a rail on the system, so a value of 2 would correspond to rail 1 only, and 3 would indicate to use both rail 1 and rail 0.
machines module options
Target all nodes from machines file.
genders module options
In addition to the genders options presented below, the genders attribute pdsh_rcmd_type may also be used in the genders database to specify an alternate rcmd connect type than the pdsh default for hosts with this attribute. For example, the following line in the genders file
would cause pdsh to use ssh to connect to host0, even if rsh were the default. This can be overridden on the commandline with the "rcmd_type:host0" syntax.
Target all nodes in genders database. The -A option will target every host listed in genders -- if you want to omit some hosts by default, see the -a option below.
Target all nodes in genders database except those with the "pdsh_all_skip" attribute. This is shorthand for running "pdsh -A -X pdsh_all_skip ..."
- -g attr[=val][,attr[=val],...]
Target nodes that match any of the specified genders attributes (with optional values). Conflicts with the -a option. If used in combination with other node selection options like -w, the -g option will select from the supplied node list, instead of from the genders file as a whole. Otherwise, This option targets the alternate hostnames in the genders database by default. The -i option provided by the genders module may be used to translate these to the canonical genders hostnames. If the installed version of genders supports it, attributes supplied to -g may also take the form of genders queries. Genders queries will query the genders database for the union, intersection, difference, or complement of genders attributes and values. The set operation union is represented by two pipe symbols ('||'), intersection by two ampersand symbols ('&&'), difference by two minus symbols ('--'), and complement by a tilde ('~'). Parentheses may be used to change the order of operations. See the nodeattr(1) manpage for examples of genders queries.
- -X attr[=val][,attr[=val],...]
Exclude nodes that match any of the specified genders attributes (optionally with values). This option may be used in combination with any other of the node selection options (e.g. -w, -g, -a, -X may also take the form of genders queries. Please see documentation for the genders -g option for more information about genders queries.
Request translation between canonical and alternate hostnames.
- -F filename
Read genders information from filename instead of the system default genders file. If filename doesn't specify an absolute path then it is taken to be relative to the directory specified by the PDSH_GENDERS_DIR environment variable (/etc by default). An alternate genders file may also be specified via the PDSH_GENDERS_FILE environment variable.
nodeupdown module options
Eliminate target nodes that are considered "down" by libnodeupdown.
slurm module options
The slurm module allows pdsh to target nodes based on currently running SLURM jobs. The slurm module is typically called after all other node selection options have been processed, and if no nodes have been selected, the module will attempt to read a running jobid from the SLURM_JOBID environment variable (which is set when running under a SLURM allocation). If SLURM_JOBID references an invalid job, it will be silently ignored.
- -j jobid[,jobid,...]
Target list of nodes allocated to the SLURM job jobid. This option may be used multiple times to target multiple SLURM jobs. The special argument "all" can be used to target all nodes running SLURM jobs, e.g. -j all.
- -P partition[,partition,...]
Target list of nodes containing in the SLURM partition partition. This option may be used multiple times to target multiple SLURM partitions and/or partitions may be given in a comma-delimited list.
torque module options
The torque module allows pdsh to target nodes based on currently running Torque/PBS jobs. Similar to the slurm module, the torque module is typically called after all other node selection options have been processed, and if no nodes have been selected, the module will attempt to read a running jobid from the PBS_JOBID environment variable (which is set when running under a Torque allocation).
- -j jobid[,jobid,...]
Target list of nodes allocated to the Torque job jobid. This option may be used multiple times to target multiple Torque jobs.
rms module options
The rms module allows pdsh to target nodes based on an RMS resource. The rms module is typically called after all other node selection options, and if no nodes have been selected, the module will examine the RMS_RESOURCEID environment variable and attempt to set the target list of hosts to the nodes in the RMS resource. If an invalid resource is denoted, the variable is silently ignored.
SDR module options
The SDR module supports targeting hosts via the System Data Repository on IBM SPs.
Target all nodes in the SDR. The list is generated from the "reliable hostname" in the SDR by default.
Translate hostnames between reliable and initial in the SDR, when applicable. If the a target hostname matches either the initial or reliable hostname in the SDR, the alternate name will be substitued. Thus a list composed of initial hostnames will instead be replaced with a list of reliable hostnames. For example, when used with -a above, all initial hostnames in the SDR are targeted.
Do not target nodes that are marked as not responding in the SDR on the targeted interface. (If a hostname does not appear in the SDR, then that name will remain in the target hostlist.)
In combination with -a, include all partitions.
nodeattr module options
The nodeattr module supports access to the genders database via the nodeattr(1) command. See the genders section above for a list of support options with this module. The option usage with the nodeattr module is the same as genders, above, with the exception that the -i option may only be used with -a or -g. NOTE: This module will only work with very old releases of genders where the nodeattr(1) command supports the -r option, and before the libgenders API was available. Users running newer versions of genders will need to use the genders module instead.
dshgroup module options
The dshgroup module allows pdsh to use dsh (or Dancer's shell) style group files from /etc/dsh/group/ or ~/.dsh/group/. The default search path may be overridden with the DSHGROUP_PATH environment variable, a colon-separated list of directories to search. The default value for DSHGROUP_PATH is /etc/dsh/group.
- -g groupname,...
Target nodes in dsh group file "groupname" found in either ~/.dsh/group/groupname or /etc/dsh/group/groupname.
- -X groupname,...
Exclude nodes in dsh group file "groupname."
As an enhancement in pdsh, dshgroup files may optionally include other dshgroup files via a special #include STRING syntax. The argument to #include may be either a file path, or a group name, in which case the path used to search for the group file is the same as if the group had been specified to -g.
netgroup module options
The netgroup module allows pdsh to use standard netgroup entries to build lists of target hosts. (/etc/netgroup or NIS)
- -g groupname,...
Target nodes in netgroup "groupname."
- -X groupname,...
Exclude nodes in netgroup "groupname."
Equivalent to the -R option, the value of this environment variable will be used to set the default rcmd module for pdsh to use (e.g. ssh, rsh).
Override the standard arguments that pdsh passes to the ssh(1) command ("-2 -a -x -l%u %h"). The use of the parameters %u, %h, and %n (as documented in the rcmd/exec section above) is optional. If these parameters are missing, pdsh will append them to the ssh commandline because it is assumed they are mandatory.
Append additional options to the ssh(1) command invoked by pdsh. For example, PDSH_SSH_ARGS_APPEND="-q" would run ssh in quiet mode, or "-v" would increase the verbosity of ssh. (Note: these arguments are actually prepended to the ssh commandline to ensure they appear before any target hostname argument to ssh.)
If no other node selection option is used, the WCOLL environment variable may be set to a filename from which a list of target hosts will be read. The file should contain a list of hosts, one per line (though each line may contain a hostlist expression. See Hostlist Expressions section below).
If set, the path in DSHPATH will be used as the PATH for the remote processes.
Set the pdsh fanout (See description of -f above).
As noted in sections above pdsh accepts lists of hosts the general form: prefix[n-m,l-k,...], where n < m and l < k, etc., as an alternative to explicit lists of hosts. This form should not be confused with regular expression character classes (also denoted by “”). For example, foo does not represent an expression matching foo1 or foo9, but rather represents the degenerate hostlist: foo19.
The hostlist syntax is meant only as a convenience on clusters with a "prefixNNN" naming convention and specification of ranges should not be considered necessary -- this foo1,foo9 could be specified as such, or by the hostlist foo[1,9].
Some examples of usage follow:
Run command on foo01,foo02,...,foo05 pdsh -w foo[01-05] command Run command on foo7,foo9,foo10 pdsh -w foo[7,9-10] command Run command on foo0,foo4,foo5 pdsh -w foo[0-5] -x foo[1-3] command
A suffix on the hostname is also supported:
Run command on foo0-eth0,foo1-eth0,foo2-eth0,foo3-eth0 pdsh -w foo[0-3]-eth0 command
As a reminder to the reader, some shells will interpret brackets ('[' and ']') for pattern matching. Depending on your shell, it may be necessary to enclose ranged lists within quotes. For example, in tcsh, the first example above should be executed as:
pdsh -w "foo[01-05]" command
Originally a rewrite of IBM dsh(1) by Jim Garlick <email@example.com> on LLNL's ASCI Blue-Pacific IBM SP system. It is now used on Linux clusters at LLNL.
When using ssh for remote execution, expect the stderr of ssh to be folded in with that of the remote command. When invoked by pdsh, it is not possible for ssh to prompt for passwords if RSA/DSA keys are configured properly, etc.. For ssh implementations that suppport a connect timeout option, pdsh attempts to use that option to enforce the timeout (e.g. -oConnectTimeout=T for OpenSSH), otherwise connect timeouts are not supported when using ssh. Finally, there is no reliable way for pdsh to ensure that remote commands are actually terminated when using a command timeout. Thus if -u is used with ssh commands may be left running on remote hosts even after timeout has killed local ssh processes.
Output from multiple processes per node may be interspersed when using qshell or mqshell rcmd modules.
The number of nodes that pdsh can simultaneously execute remote jobs on is limited by the maximum number of threads that can be created concurrently, as well as the availability of reserved ports in the rsh and qshell rcmd modules. On systems that implement Posix threads, the limit is typically defined by the constant PTHREADS_THREADS_MAX.
rsh(1), ssh(1), dshbak(1), pdcp(1)