cpr(1)cpr(1)NAMEcpr - checkpoint and restart processes; info query; delete statefiles
cview - graphical user interface for checkpoint and restart (CPR)
SYNOPSIScpr-c pathname -p id[:type],[id[:type]...] [ -fgkuw ]
cpr-i pathname ...
cpr [ -jmw ] -r pathname ...
cpr-D pathname ...
cview [ -display XwindowDisplay ]
DESCRIPTION
IRIX Checkpoint and Restart (CPR) offers a set of user-transparent
software management tools, allowing system administrators, operators, and
users with suitable privileges to suspend a job or a set of jobs in mid-
execution, and restart them later on. The jobs may be running on a
single machine or on an array of networking connected machines. CPR may
be used to enhance system availability, provide load and resource control
or balancing, and to facilitate simulation or modeling.
The cview command provides an X Windows interface to CPR, and is composed
of two decks: the Checkpoint Control Panel and the Restart Control
Panel. As of the IRIX 6.5.16 release, new features are no longer being
added to the cview command. The cview command will be removed in the
next major release of IRIX.
OPTIONS
Use the -c, -i, -r, and -D options to: create, query, restart, and
delete checkpoints, respectively.
Create Checkpoint
-c Checkpoint a process or set of processes and create a statefile
directory in pathname, based on the process id specified after -p.
-f Force overwrite of an existing pathname, so existing statefiles are
replaced with new ones according to the new checkpoint.
-g Have checkpoint target processes continue running (go) after this
checkpoint is finished. This overrides the default WILL policy, and
the WILL policy specified in a user's CPR attribute file.
-k Kill checkpoint target processes after this checkpoint is finished.
This is the default WILL policy, but overrides a CONT setting in the
user's CPR attribute file (see below).
-u Use this option only when issuing a checkpoint immediately before an
operating system upgrade. This forces a save of all executable
files and DSO libraries used by the current processes, so that
target processes can be restarted in an upgraded environment. This
flag must be used again if restarted processes must be recursively
checkpointed in the new environment.
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cpr(1)cpr(1)-w Specify that CPR use the attribute file located in the current
working directory (versus $HOME/.cpr).
-p Specifies the process or set of processes to checkpoint. Processes
may have any type in the following list:
PID for Unix process and POSIX pthread ID (the default type)
GID for Unix process group ID
SID for Unix process session ID; see termio(7)
ASH for IRIX Array Session ID; see array_services(5)
HID for process hierarchy (tree) rooted at that PID
SGP for IRIX sproc shared group; see sproc(2)
JID for IRIX job ID; see job_limits(5)
If type is not given in a checkpoint request, id is interpreted to use
its default type PID. Here are some examples:
cpr-c ckpt01 -p 1111
cpr-c ckpt02 -p 2222:GID
The first example checkpoints a process with PID 1111 to the statefile
directory ./ckpt01. The second example checkpoints all processes with
process group ID 2222 to the statefile directory ./ckpt02.
Users may checkpoint a random set of processes into one statefile by
specifying more comma-separated ids (with optional type) after the -p
flag, as in this example:
cpr-c ckpt03 -p 111:GID,222,333:SID
This saves all processes with process group ID 111, process ID 222, and
process session ID 333 into the statefile directory ./ckpt03.
Only the super user and the owner of a process or set of processes (the
checkpoint owner) can checkpoint the targeted processes.
Checkpoint Info
-i statefile ...
Provides information about existing CPR statefile(s): the statefile
revision number, process name(s), credential information of the
process, current working directory, open file information, and the
time when the checkpoint was performed.
Restart Checkpoint
-r statefile ...
Restarts a process or set of processes from the statefile. If a
restart involves more than one processes, the restart on all
processes has to succeed before any process starts running;
otherwise, all restarts are aborted.
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cpr(1)cpr(1)-j Make processes interactive and job controllable. If a checkpoint is
issued against an interactive process or a group of processes rooted
at an interactive process, it can be restarted interactively with
the -j option. It runs in the foreground, even the original process
ran in the background. Users may issue job control signals to
background the process if desired. An interactive job is defined as
a process with a controlling terminal; see termio(7). Only one
controlling terminal is restored even if the original process had
multiple controlling terminals.
-m Migrate process memory at restart time. This option migrates
process memory so it is restored to the location in the system
topology where the restart is executing (within a specific cpuset,
within the global cpuset, etc.). Without this option, the default
restart behavior on NUMA systems is to restore process memory back
to where it was at the time of the checkpoint. This option has no
effect on non-NUMA systems. See the migration(3) man page for
scenarios which may prevent pages from migrating properly.
-w Specify that CPR use the attribute file located in the current
working directory (versus $HOME/.cpr).
Note that statefile remain unchanged after a restart unless users use the
-D option to delete the statefile.
A restart may fail due to a number of reasons including:
Resource Limitation: This happens when the original PID is not available
and the application may not use another PID; or when certain
application-related files, binaries, or libraries are no longer available
on the system if the REPLACE or SUBSTITUTE option was not set at
checkpoint time for missing files; or when other system resources such as
memory or disk run out due to restart.
File contents change: If the CONTENTS action was used for FILE policies
in the user's CPR attribute file, the restart could fail if file contents
have changed between checkpoint and the restart. See the FILE section
below for more information.
Security and Data Integrity: Restart fails if the restarting user lacks
the proper permission to restart the statefile, or if the restart
destroys or replaces data without proper permission. The basic rule is
that only the superuser and checkpoint owner can restart the processes.
This implies that if the superuser checkpoints a process owned by a
regular user, only the superuser has permission to restart it.
Other Fatal Failures: If important parts of the original processes
cannot be restored due to any other reasons.
Delete Checkpoint
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cpr(1)cpr(1)-D statefile ...
Delete one or more statefiles. After a successful restart,
statefiles might no longer be needed, and may be removed. The
delete option removes all files associated with the statefile,
including saved open files, mapped files, pipe data, etc. Only the
superuser and checkpoint owner may delete a statefile directory.
Cview Window
How to Checkpoint: Under the STEP I button, select a process or set of
processes from the list. To checkpoint a process group, a session group,
an IRIX array session, a process hierarchy, or an sproc shared group,
select a category from the Individual Process drop-down menu. In the
filename field below, enter the name of a directory for storing the
statefile. Click the STEP II button if you want to change checkpoint
options, such as whether to exit or continue the process, or control open
file and mapped file dispositions. Click the STEP III OK button to
initiate the checkpoint, or the Cancel Checkpoint button to discontinue.
How to Restart: Click the Restart Control Panel tab at the bottom of the
cview window. From the scrolling list of files and directories, select a
statefile to restart. Note that all files and directories are shown, not
just statefile directories. If a statefile is located somewhere besides
your home directory, change directories using the icon finder at the top.
Select any options you want, such as whether to retain the original
process ID, whether to restore the original working directory, or whether
to restore the original root directory. Click the OK Go Restart button
to initiate restart.
Querying a Statefile: From the scrolling list of files and directories,
select a statefile to query. At the bottom of the cview window, click
the Tell Me More About This Statefile button.
Deleting a Statefile: From the scrolling list of files and directories,
select a statefile to delete. At the bottom of the cview window, click
the Remove This Statefile button.
SIGNALS AND EVENT HANDLING
Two signals, SIGCKPT and SIGRESTART, are designed to give application
programs adequate warning to take special action upon checkpoint or at
restart time. The default action is to ignore both signals unless
applications catch the signals; see signal(2). By catching the signals,
an application gets an opportunity to set up its signal handler and be
prepared for checkpoint or restart. An application can clean up files,
flush buffers, close or reconnect socket connections, etc.
Meanwhile, the main CPR process waits as long as necessary for the
application to finish the signal handling, before cpr proceeds with
further checkpoint activities after SIGCKPT. At restart the first thing
an application runs is the SIGRESTART signal handler, if the application
is catching the signal.
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However, these two signals (SIGCKPT and SIGRESTART) are not recommended
for direct use by applications wishing to be checkpointed. Instead,
applications call atcheckpoint(3C) and/or atrestart(3C) to register event
handlers for checkpoint and restart, and activate signal handling. This
is especially important for applications that need to register multiple
callback handlers for checkpoint or restart events. Use of
atcheckpoint(3C) and atrestart(3C) also ensures that registered signal
handlers are invoked only when a checkpoint or restart of the application
is in progress (as opposed to the user sending the signals directly via a
function such as sigsend(2)).
Warning: if applications catch the two CPR signals directly, it may undo
all of the CPR signal handler registration provided by atcheckpoint(3C)
and atrestart(3C), including handlers that some libraries reserve without
the application programmer's knowledge.
FILES
statefile Directory containing images of checkpointed processes
$HOME/.cpr User-configurable options for checkpoint and restart
/etc/cpr_proto Attribute file prototype for creating $HOME/.cpr
/usr/lib/X11/app-defaults/Cview Application defaults file
/usr/lib/images/Cview.icon Image for minimized window
The $HOME/.cpr files control CPR behavior, and consist of one or more
CKPT attribute definitions, each in the following form:
CKPT IDtype IDvalue {
policy: instance: action
...
}
The IDtype is the same as for the -c option; see above. The IDvalue is
the process or process set ID. Both can be given as a star (*) to
represent any IDtype or IDvalue.
Here are the policy keywords and what they control:
FILE policies of handling open files
WILL actions on the original process after checkpoint
CDIR policy on the original working directory; see chdir(2)
RDIR policy on the original root directory; see chroot(2)
FORK policy on the process ID to be restored when recreating a
process; policy on the job ID to be restored if recreating
an IRIX job structure; this policy does not affect the
amount of data restarted, it simply allows the user to
avoid ID collision failures if collisions should occur
PLACEMENT policy on process and memory placement
FILE takes an instance, which is the filename.
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FORK can take instances PID or JID. If no instance is specified, the
specified action is applied to all instances.
FILE offers the following action keywords:
MERGE upon restart, reopen the file and seek to the previous offset
(default action)
IGNORE upon restart, reopen the file as originally opened
APPEND upon restart, reopen the file for appending
REPLACE save file at checkpoint; replace the original file at
restart. See NOTES section for special considerations
regarding file REPLACE actions with setuid/setgid programs.
SUBSTITUTE save file at checkpoint; at restart, open the saved file as
an anonymous substitute, not touching the original file
CONTENTS calculate checksum (currently MD5) on the file at checkpoint,
upon restart detect if the file has been modified between
begin-of-file and file-size-at-checkpoint; if the file has
been modified in this area, the process is refused to do
restart, otherwise seek to the previous offset and continue.
WILL offers the following action keywords:
EXIT the original process exits after checkpoint (default action)
CONT the original process continues to run after checkpoint
CDIR and RDIR offer the following action keywords:
REPLACE restore original current working directory or root directory
(default action)
IGNORE ignore original current working directory or root directory;
restart according to new process environment
FORK offers the following action keywords:
ORIGINAL attempt to recover the original process ID when recreating a
process; attempt to recover the original job ID if recreating
an IRIX job structure (default action)
ANY it is acceptable to recreate the process with any process ID;
if recreating an IRIX job structure, it is acceptable to
recreate the job with any job ID
PLACEMENT offers the following action keywords:
FLEXIBLE upon restart, if process memory placement fails when adhering
to the checkpointed placement policies, attempt to place
process memory according to a basic memory placement
algorithm (TOPOLOGY_FREE) and print a message stating that
this action was taken; if a process cannot be restricted
to the CPU it was restricted to at the time of checkpoint,
allow the process to run on any CPU (see MP_RUNANYWHERE in
sysmp(2)) and print a message stating that this action
was taken (default action)
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STRICT upon restart, restore the memory of a process according to
the placement policies saved at the time of checkpoint (the
restart may fail if memory can no longer be placed according
to the checkpointed placement policies due to machine
configuration changes, lack of available memory, etc.); upon
restart, restore a process which was restricted to a specific
CPU at the time of checkpoint to the same CPU (the restart
may fail if the process can no longer be restricted to that
CPU due to machine configuration changes, etc.)
NOTES
Due to the nature of UNIX checkpoint and restart, it is impossible to
claim that everything a process owns or connects with can be restored.
The bullet items below attempt to list what is supported, and what is
known to be not supported. For system objects not covered below, safety
decisions must be made by application programmers and users.
The following system objects are checkpoint-safe:
o UNIX processes, process groups, terminal control sessions, IRIX
array sessions, process hierarchies, sproc(2) groups, POSIX pthreads
(pthread_create(3P)), random process sets, and IRIX jobs
o all user memory area, including user stack and data regions
o system states, including process and user information, signal
disposition and signal mask, scheduling information, owner
credentials, accounting data, resource limits, current directory,
root directory, locked memory, and user semaphores
o system calls, if applications handle return values and error numbers
correctly, although slow system calls may return partial results
o undelivered and queued signals are saved at checkpoint and delivered
at restart
o open files (including NFS-mounted files), mapped files, file locks,
and inherited file descriptors
o special files /dev/tty, /dev/console, /dev/zero, /dev/null,
ccsync(7M)
o open pipes, pipeline data and streams pipe read and write message
modes
o System V shared memory
o POSIX semaphores (psema(D3X))
o semaphore and lock arenas (usinit(3P))
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o jobs started with CHALLENGEarray services, provided they have a
unique ASH number; see array_services(5)
o applications using node-lock licenses; see IRIX Checkpoint and
Restart Operation Guide on what to do for applications using
floating licenses
o applications using the prctl() PR_ATTACHADDR option; see prctl(2)
o applications using blockproc and unblockproc; see blockproc(2)
o R10000 counters; see libperfex(3C) and perfex(1)
o capabilities, Mandatory Access Control (MAC) labels, and Access
Control Lists (ACLs); see capabilities(4), DOMINANCE(5) and acl(4),
respectively
The following system objects are not checkpoint-safe:
o network socket connections; see socket(2)
o X terminals and X11 client sessions
o special devices such as tape drivers and CDROM
o files opened with setuid credential that cannot be reestablished
o System V semaphores and messages; see semop(2) and msgop(2)
o memory mapped files using the /dev/mmem file; see mmap(2)
o open directories
The scope of process relationships saved at checkpoint time is directly
related to the id and type options specified. Likewise, at restart, only
these process relationships can be restored to the state they were in at
the time of the checkpoint. Any other process relationships not
encapsulated by the id and type options specified at checkpoint time will
be inherited from the process performing the restart. For example, if a
user checkpoints a single process via type PID, and that process is not a
session leader, at restart time the process will be restored within the
same session as the process doing the restart.
Some checkpoint-safe objects are installed as optional features.
Examples include IRIX job limit data and Comprehensive System Accounting
(CSA) data. If a feature is enabled at the time of the checkpoint, and
if the checkpoint id encapsulates feature data, CPR will store the
pertinent feature data in the statefile and attempt to restore that data
upon restart. CPR attempts to restart the job so its state is exactly as
it was at the time the job was checkpointed. If an optional feature is
no longer enabled at the time of the restart, the restart may fail as CPR
cannot accurately recreate the state of the job prior to the checkpoint.
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For system security, when restarting a setuid or setgid process REPLACE
actions will be changed to SUBSTITUTE actions for files which have been
modified or deleted, or a MERGE action for all others. If a SUBSTITUTE
action is performed a notice specifying the location of the substituted
file will be displayed. It is the user's responsibility to pick up any
output file thus substituted. Applications which reopen a substituted
file by its original name may not operate as expected.
SEE ALSOatcheckpoint(3C), atrestart(3C), ckpt_create(3), ckpt_remove(3),
ckpt_restart(3), ckpt_stat(3)
IRIX Checkpoint and Restart Operation Guide
COPYRIGHT
Portions of the IRIX Checkpoint and Restart code are derived from the RSA
Data Security, Inc. MD5 Message-Digest Algorithm.
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