Version 30 (modified by blyth, 14 years ago)

restarting slave after hiatus

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NuWa Slave : automated build/test setup

Running a slave provides :

  • automatically updated and tested dybinst'allation
  • web interface to the status of the installation including history of build/test status

Slave Status (Dec 2010)

location responsible host supervisord status
NUU Simon belle7.nuu.edu.tw Y nearly continuous operation for several years
NTU Simon cms01.phys.ntu.edu.tw Y nearly continuous operation for several years
BNL Jiajie daya0001.rcf.bnl.gov Y operational
IHEP Miao/Qiumei lxslc\d\d.ihep.ac.cn Y operational, but somewhat unstable
LBNL Cheng-Ju pdsf\d.nersc.gov Y operational
VT Deb Mohapatra ? initial investigations
Wisconsin ?Wei ? ?
Shandong ? ? ?
Dayabay Miao offline.dyb.local ?
Caltech ?Dan ? ?

General Build status and that of dybinst configurations are available at

CMTCONFIG for operational slaves (for opt ones just swap the dbg ) :

belle7 i686-slc5-gcc41-dbg
cms01 i686-slc4-gcc34-dbg

How to setup a slave

Decisions : how many nodes ? which configs ? which nodes ?

Currently the typical configs to build are :

  • dybinst (debug version)
  • opt.dybinst (optimized version)

These can both be auto-built using a slave on a single node, or the configs can be split between two nodes and builds can then proceed in parallel.

You will need to install a few packages into the system python on the nodes, and let Simon know which configs should to handled by which hostnames (the exact output of the hostname command on the nodes is needed).

Requirements for slave nodes

If your institute policies etc.. allow you to make the node web accessible (eg by running nginx/lighttpd/apache) then your slave node will be more useful, as it can publish : documentation, build logs etc..

Before you start : do a greenfield dybinst build on each node

This will verify that your intended slave nodes are ready to be auto-builders, and prime your build directory ready for first auto-builds.

cd /path/to/build/dir
svn export http://dayabay.ihep.ac.cn/svn/dybsvn/installation/trunk/dybinst/dybinst
screen ./dybinst trunk all

Pre-requisites : python 2.4-2.7 , setuptools, bitten ( 0.6dev-r561 )

A precise version of bitten is required (note this SVN branch no longer exists), so ensure you use this precise URL :

svn checkout http://svn.edgewall.org/repos/bitten/branches/experimental/trac-0.11@561 bitn
cd bitn
python setup.py develop       ## probably with sudo
  • more recent revisions of bitten have incompatibilites with the trac 0.11 master

Bitten is no longer installed by dybinst into nuwa python, as is more logical to install this into your system python as the slave can then perform green-field dybinst builds without recourse to existing dybinst-allations.

If your slave runs on a shared node you are recommended to use the alternative install with security patch that avoids passwords in the process list.

alternative install with patching of the slave for secure running

See #580 for background.

svn checkout http://svn.edgewall.org/repos/bitten/branches/experimental/trac-0.11@561 bitn   ## you may need to accept a certificate
cd bitn
svn export http://dayabay.phys.ntu.edu.tw/repos/env/trunk/trac/patch/bitten/bitten-trac-0.11-561.patch 
patch -p0 < bitten-trac-0.11-561.patch 
python setup.py develop       ## probably with sudo

To configure secure running set the below in your ~/.dybinstrc , and stop and start the slave to test :

slv_secure=yes

Interactive Test Running of the slave

  • Verify that bitten-slave is installed and in your PATH and is the expected standard version
    [blyth@belle7 ~]$ which bitten-slave
    /usr/bin/bitten-slave
    [blyth@belle7 ~]$ bitten-slave --version
    bitten-slave 0.6dev-r561
    
  • export dybinst into directory to be used for slave builds (you could use an existing dybinst-allation also)
  • interactive test run of the slave
    ./dybinst trunk slave 
    
    • this should fail complaining of lack of config in your $HOME/.dybinstrc
  • add or create $HOME/.dybinstrc containing connection credentials
    slv_buildsurl=http://dayabay.ihep.ac.cn/tracs/dybsvn/builds
    slv_username=slave
    slv_password=***
    slv_loghost=http://your.address       ## if you are able to publish logfiles 
    

If your credentials are correct the expected startup messages are :

[blyth@cms01 trunk]$ ./dybinst trunk slave
Updating existing installation directory installation/trunk/dybinst.
Updating existing installation directory installation/trunk/dybtest.


Mon Aug  9 16:12:04 CST 2010
Start Logging to /data/env/local/dyb/trunk/dybinst-20100809-161204.log (or dybinst-recent.log)


Starting dybinst commands: slave

Stage: "slave"... 


dybinst-slave invoking : /data/env/local/dyb/trunk/installation/trunk/dybinst/scripts/slave.sh trunk

Contacting the master instance, this will take a while.  Go get muffins...

=== slv-main : derive config /home/blyth/.bitten-slave/dybslv.cfg from source /home/blyth/.dybinstrc
[INFO    ] Setting socket.defaulttimeout : 15.0 
[INFO    ] Setting socket.defaulttimeout : 15.0 
[DEBUG   ] Sending POST request to 'http://dayabay.ihep.ac.cn/tracs/dybsvn/builds'
[INFO    ] No pending builds

Note that slave asked the master if there are any builds to do and got reply No pending builds , the default config is to ask the master every 5 mins if there is anything to do.

In order for the master to instruct the slave to perform builds you must send the hostname to Simon :

[blyth@belle7 ~]$ hostname
belle7.nuu.edu.tw

who will inform add the slave to the master through the Trac Admin web interface.

Running the slave continuously

Network glitches or other problems that prevent the slave from contacting the master (every 5min) result in death of the slave. In order to automatically restart the slave following these frequent (typically every few days) stoppages the slave is run as a child of supervisord, which is able to keep the slave running continuously (even surviving reboots if you are able to setup the initd script).

Install supervisord into your system python with easy_install or pip :

easy_install supervisor

For tips on using supervisord, see :

An example of the supervisord config used to keep the dybslv running :

[program:dybslv]
environment=HOME=/home/blyth,BITTEN_SLAVE=/usr/bin/bitten-slave,SLAVE_OPTS=--verbose
directory=/data1/env/local/dyb
command=/data1/env/local/dyb/dybinst -l dybinst-slave.log trunk slave
redirect_stderr=true
redirect_stdout=true
autostart=true
autorestart=true
priority=999
user=blyth

Refreshing the slave build

For reasons of efficiency the slave build (which can be performed multiple times each day) is done as an update build. Certain types of commits are known to be likely to cause issues with update builds, including :

  • changes to DataModel classes

In order to freshen up the build you can try rebuilding after removing various directories, in progressively increasing levels of cleanliness :

  • rm -rf NuWa-trunk/dybgaudi/DybRelease/$CMTCONFIG
  • rm -rf NuWa-trunk/dybgaudi/InstallArea
  • rm -rf NuWa-trunk/dybgaudi/* ; svn up NuWa-trunk/dybgaudi

To trigger a slave build after the removal, invalidate the last build on the node in question using the web interface (BUILD_ADMIN privilege required)

Monitoring the slave node

After many failures on a slave, it is wise to check running processes ps aux, it can happen that many tens of stuck nuwa.py processes can kill your node. Clean up with pgrep -f nuwa.py ; pkill -f nuwa.py

Restarting a slave after a hiatus

Before restarting after an extended hiatus (more than a few days) it is better to get someone with BUILD_ADMIN privilege (currently Me, Miao, Cheng-Ju ) to set the build start revision to a recent one to avoid too much catch-up/out-of-order builds of dubious validity.

The current starting revisions for each config are visible on the build status page.

Getting the slave to do periodic builds

To zeroth order only a few steps are needed to convert a standard update-build bitten slave into a periodic (daily/weekly) builder.

Develop/Debug the cron commandline

Starting point ... interactive trials with :

SLAVE_OPTS="--single --dry-run" ./dybinst -b singleshot_\\\${revision} -l /dev/stdout  trunk slave 
dybinst options
-l /dev/stdout send logging to stdout, for debugging
-b singleshot_\\\${revision} option propagated to bitten-slave --build-dir
(variables evaluated in build context supplied by the master)

The SLAVE_OPTS are incorporated into the bitten-slave commandline,

  • --dry-run is for debugging only : builds are performed but not reported to the master.
  • --single perform a single build before exiting

While debugging increase verbosity by adding line to ~/.dybinstrc :

slv_verbose=yes

Issues Forseen / Things TODO

  • may need more escaping \\\${revision} of the build-dir
  • the cron command might not get a build to perform within the period (if no qualifying commits),
    • process pile-up will occur ...
      • maybe avoid by exiting if existing slave process ?
      • perhaps add a first step that checks
  • will need some purging to avoid filling the disk with builds
    • could add a build step to do this cleanup
  • failed builds need to be marked as such in the file system as well as in the web interface
    • add a final build step that checks status and takes action for failures ...
      • renaming of build directories

Understanding how ./dybinst trunk slave works

dybinst invokes the below which construct and evaluate the bitten-slave commandline to talk to the master and perform builds

bitten-slave options

[blyth@belle7 dyb]$ bitten-slave --help
Usage: bitten-slave [options] url

Options:
  --version             show program's version number and exit
  -h, --help            show this help message and exit
  --name=NAME           name of this slave (defaults to host name)
  -f FILE, --config=FILE
                        path to configuration file
  -u USERNAME, --user=USERNAME
                        the username to use for authentication
  -p PASSWORD, --password=PASSWORD
                        the password to use when authenticating

  building:
    -d DIR, --work-dir=DIR
                        working directory for builds
    --build-dir=BUILD_DIR
                        name pattern for the build dir to use inside the
                        working dir ["build_${config}_${build}"]
    -k, --keep-files    don't delete files after builds
    -s, --single        exit after completing a single build
    -n, --dry-run       don't report results back to master
    -i SECONDS, --interval=SECONDS
                        time to wait between requesting builds

  logging:
    -l FILENAME, --log=FILENAME
                        write log messages to FILENAME
    -v, --verbose       print as much as possible
    -q, --quiet         print as little as possible
    --dump-reports      whether report data should be printed

What happens when builds/tests fail ?

Failures result in notification emails and an entry on the timeline. Following the link in the email gets you to the build status page, such as :

Examining the error reporting there and on the summary page

will tell you which step of the build/tests failed.

You can confirm the error by running pkg tests via dybinst, eg for rootiotest

./dybinst trunk tests rootiotest  

and investigate futher by getting into the environment and directory of the pkg running the tests

nosetests -v

Causes of test failure

Non-Run tests can fail by

  • an assertion/exception in the test being triggered

Run-style tests have many additional ways to fail...

  • stdout + stderr from command matches a pattern with integer code > 0
  • time taken by the command exceeds the limit
  • command returns with non-zero exit code
  • memory(maxrss) taken by the command exceeds limit
  • for reference=True tests, the output does not match the reference
  • for histref=path/to/hists.root tests, any of created histograms do not match the reference path/to/histref_hists.root

Updating reference output/histograms

To update reference outputs or histograms :

  • simply delete the old one, a new reference will be created at next run, subsequent runs will compare against the new reference

Find test_name.ref and histref_*.root by :

[blyth@cms01 ~]$ cd $DYB/NuWa-trunk/dybgaudi
[blyth@cms01 dybgaudi]$ find . -name '*.ref'

./Simulation/GenTools/test_diffuser.ref
./Simulation/GenTools/test_gun.ref
./Simulation/DetSim/test_historian.ref
./Simulation/DetSim/test_basic_physics.ref
./DataModel/Conventions/test_Conventions.ref
./Production/MDC10b/test_dby0.ref
./RootIO/RootIOTest/test_dybo.ref
./RawData/RawDataTest/share/rawpython.log.ref
./DybAlg/test_dmp.ref
./Tutorial/Quickstart/test_printrawdata_output.ref
./Database/DbiTest/scripts/TestDbiIhep.log.ref
./Database/DbiValidate/tests/test_Conventions.ref

[blyth@cms01 dybgaudi]$ find . -name 'histref_*.root'
./Production/MDC10b/histref_dby1test.root
./Tutorial/Quickstart/histref_rawDataResult.root
[blyth@cms01 dybgaudi]$

Investigating Issues

The primary duty is to isolate the cause and report the problem to the author/responsible in the form of a Trac ticket that enables the investigator to rapidly reproduce the issue.

While investigating remember to stop the slave to avoid interference and resource competition from additional builds starting ... eg if using supervisord :

[blyth@cms01 dybgaudi]$ supervisorctl
dybslv                           RUNNING    pid 28651, uptime 1 day, 22:27:01
C> stop dybslv
dybslv: stopped

attach to python nuwa.py process with gdb

Start the failing test :

[blyth@cms01 MDC10b]$ nosetests tests/test_mdc10b.py:test_dby0
Warning in <TEnvRec::ChangeValue>: duplicate entry <Library.vector<short>=vector.dll> for level 0; ignored
Run MDC10b.runLED_Muon.FullChain with double-pulsing of LEDs and no muons to produces 50 readouts ...

Attach gdb to the process and continue c :

[blyth@cms01 dybgaudi]$ gdb `which python` $(pgrep -f $(which nuwa.py))
...
Loaded symbols for /data/env/local/dyb/trunk/NuWa-trunk/dybgaudi/InstallArea/i686-slc4-gcc34-dbg/lib/libG4DataHelpers.so
0xb6687b23 in ParticlePropertySvc::anti (this=0xaa28798, pp=0xaa66a98) at ../src/ParticlePropertySvc/ParticlePropertySvc.cpp:445
445         const ParticleProperty* ap = *it ;
(gdb)

Unfortunately this approach sometimes gets Killed for gdb Out of Memory.

running the command under gdb

Grab the command from the source of the test(if simple) or process table :

ps --no-headers -o command  -p $(pgrep -f $(which nuwa.py)) > cmd

Edit the cmd file, fixup any missing quotes and prefixing with gdb command : set args

Allowing :

[blyth@cms01 dybgaudi]$ gdb `which python` -x cmd
GNU gdb Red Hat Linux (6.3.0.0-1.162.el4rh)
Copyright 2004 Free Software Foundation, Inc.
...

Capture the backtrace bt when meet problems :

ElecSimProc                           INFO Processing hit collections
ToolSvc.EsIdealFeeTool                INFO Processing 73 pmt pulses.
ToolSvc.TsMultTriggerTool             INFO Max multiplicity for DayaBayAD1 is 44
*** glibc detected *** malloc(): memory corruption: 0x0fe95d10 ***

Program received signal SIGABRT, Aborted.
[Switching to Thread -1208318272 (LWP 17858)]
0x00a1e7a2 in _dl_sysinfo_int80 () from /lib/ld-linux.so.2
(gdb)

(gdb) bt
#0  0x00a1e7a2 in _dl_sysinfo_int80 () from /lib/ld-linux.so.2
#1  0x00a5f915 in raise () from /lib/tls/libc.so.6
#2  0x00a61379 in abort () from /lib/tls/libc.so.6
#3  0x00a93e1a in __libc_message () from /lib/tls/libc.so.6
#4  0x00a9b473 in _int_malloc () from /lib/tls/libc.so.6
#5  0x00a9d0f1 in malloc () from /lib/tls/libc.so.6
#6  0x04fa911e in operator new () from /usr/lib/libstdc++.so.6
#7  0x032762ca in __gnu_cxx::new_allocator<std::_Rb_tree_node<std::pair<char const* const, DybDaq::FeeTraits*> > >::allocate (this=0x32798c4, __n=1) at /usr/lib/gcc/i386-redhat-linux/3.4.6/../../../../include/c++/3.4.6/ext/new_allocator.h:81
#8  0x03276232 in std::_Rb_tree<char const*, std::pair<char const* const, DybDaq::FeeTraits*>, std::_Select1st<std::pair<char const* const, DybDaq::FeeTraits*> >, std::less<char const*>, std::allocator<std::pair<char const* const, DybDaq::FeeTraits*> > >::_M_get_node (this=0x32798c4) at /usr/lib/gcc/i386-redhat-linux/3.4.6/../../../../include/c++/3.4.6/bits/stl_tree.h:356
#9  0x03276159 in std::_Rb_tree<char const*, std::pair<char const* const, DybDaq::FeeTraits*>, std::_Select1st<std::pair<char const* const, DybDaq::FeeTraits*> >, std::less<char const*>, std::allocator<std::pair<char const* const, DybDaq::FeeTraits*> > >::_M_create_node (this=0x32798c4, __x=@0xbfe81c88) at /usr/lib/gcc/i386-redhat-linux/3.4.6/../../../../include/c++/3.4.6/bits/stl_tree.h:365
#10 0x03275ce5 in std::_Rb_tree<char const*, std::pair<char const* const, DybDaq::FeeTraits*>, std::_Select1st<std::pair<char const* const, DybDaq::FeeTraits*> >, std::less<char const*>, std::allocator<std::pair<char const* const, DybDaq::FeeTraits*> > >::_M_insert (this=0x32798c4, __x=0x0, __p=0xfe95b88, __v=@0xbfe81c88) at /usr/lib/gcc/i386-redhat-linux/3.4.6/../../../../include/c++/3.4.6/bits/stl_tree.h:809
#11 0x03275ac9 in std::_Rb_tree<char const*, std::pair<char const* const, DybDaq::FeeTraits*>, std::_Select1st<std::pair<char const* const, DybDaq::FeeTraits*> >, std::less<char const*>, std::allocator<std::pair<char const* const, DybDaq::FeeTraits*> > >::insert_unique (this=0x32798c4, __v=@0xbfe81c88) at /usr/lib/gcc/i386-redhat-linux/3.4.6/../../../../include/c++/3.4.6/bits/stl_tree.h:929
#12 0x0327583f in std::map<char const*, DybDaq::FeeTraits*, std::less<char const*>, std::allocator<std::pair<char const* const, DybDaq::FeeTraits*> > >::insert (this=0x32798c4, __x=@0xbfe81c88)
    at /usr/lib/gcc/i386-redhat-linux/3.4.6/../../../../include/c++/3.4.6/bits/stl_map.h:360
#13 0x032755cf in DybDaq::FeeTraits::defaultTraits () at ../src/FeeTraits.cc:52
#14 0xb5880e3c in DayaBay::DaqReadoutPmtCrate::channel (this=0xfe97a80, channelId=@0xbfe81dc0) at ../src/DaqReadoutPmtCrate.cc:170
#15 0xb5884bd5 in DayaBay::ReadoutPmtCrate::daqReadout (this=0xfe97780, run=0, event=0) at ../src/ReadoutPmtCrate.cc:77
#16 0xaeb14500 in SingleLoader::execute (this=0xab6ec28) at ../src/SingleLoader.cc:112
#17 0x03f95d2c in Algorithm::sysExecute (this=0xab6ec28) at ../src/Lib/Algorithm.cpp:558
#18 0xaeb1f6fc in DybAlgorithm<DayaBay::ReadoutHeader>::sysExecute (this=0xab6ec28) at /data/env/local/dyb/trunk/NuWa-trunk/dybgaudi/InstallArea/include/DybAlg/DybAlgorithmImp.h:59
#19 0x01825d45 in GaudiSequencer::execute (this=0xab6bc00) at ../src/lib/GaudiSequencer.cpp:100
#20 0xb58d3823 in Stage::nextElement (this=0xab6ae78, pIStgData=@0xbfe8248c, erase=true) at ../src/Stage.cc:48
#21 0xb58c0a4e in Sim15::execute (this=0xaae7608) at ../src/Sim15.cc:121
Killed

Report findings in Trac tickets such as #565

why are my added tests not running ?

As a precaution nosetests does not run tests from executable modules unless you do : nosetests --exe OR explicitly specify the path nosetests tests/test_mdc10bfadc.py. Thus you can use chmod ugo-x or chmod ugo+x as a simple way to swap in/out modules of tests from the standard package tests.

Optimized Builds

A new bitten config for doing optimized builds opt.dybinst

Optimized builds are done in an "opt" directory within the normal dybinst directory :

      dybinst
      external
      NuWa-trunk

      opt/
         dybinst
         external
         NuWa-trunk

The master can be configured to distribute "dybinst" and/or "opt.dybinst" configs to your slave.

It is not necessary to setup two slaves to perform the "opt" builds, although if you have another node available it has the advantage that "dbg" and "opt" builds can then proceed in parallel. Otherwise with a single slave you will have to wait for the "dbg" build to complete before the "opt" build starts (or vv).

If you want to setup parallel "dbg" and "opt" builds then send me 2 lists of hostnames for "opt.dybinst" and "dybinst" builds.

opt-by-default setup

For the slave test steps to work a manual step is required, to setup your opt installation to be opt-by-default, one line needs to be added to opt/NuWa-trunk/setup/default/cmt/requirements as described at

An easy way to do this, from the opt folder containing dybinst :

[blyth@belle7 opt]$ . installation/trunk/dybinst/scripts/dybinst-common.sh   ## source bash funcs
[blyth@belle7 opt]$ type opt-by-default-                                     ## check what the func is going to do 
opt-by-default- is a function
opt-by-default- () 
{ 
    local msg="=== $FUNCNAME :";
    local req=${1:-.}/NuWa-trunk/setup/default/cmt/requirements;
    [ ! -f "$req" ] && echo $msg ABORT cannot find req $req && return 0;
    local add="macro host-optdbg 'opt'";
    echo $msg insert \"$add\" into $req;
    perl -pi -e 'BEGIN{ undef $/ ; }' -e "s,(^use LCG_Settings v\*\n)(^set CMTCONFIG .*\$),\$1$add\n\$2,msg" $req
}

[blyth@belle7 opt]$ opt-by-default-    ## run the func
=== opt-by-default- : insert "macro host-optdbg 'opt'" into ./NuWa-trunk/setup/default/cmt/requirements

[blyth@belle7 opt]$ cat ./NuWa-trunk/setup/default/cmt/requirements     ## check 
package default
version v0
use LCG_Settings v*
macro host-optdbg 'opt'
set CMTCONFIG ${host-cmtconfig}

dybinst copy step

The final copy step of builds allows the update build directory to be copied ( using dybbin pack/unpack/setup ) into a revision named directory.

When enabled this prevents breakage of trunk from hindering progress by allowing users to trivially shift a recent prior revision.

when builds/tests fail

If a build fails (eg dybgaudi fails to compile) then the copy step is not reached and no copy is made. However if the build completes but some of the tests fail then the copy is still done by the name of the copied directory is changed to indicate the number of failed tests.

debugging slvmon results

The return code from installation/trunk/dybinst/scripts/slvmon.py records the number of test failures discerned from the xml logfiles written by the slave.

If you are surprised by this return code and resulting renamed directory then debug the issue by turning up the debug ...

cd /dybinst/export/dir
python installation/trunk/dybinst/scripts/slvmon.py dybinst/4059_9542 -l DEBUG

cd /dybinst/export/dir/opt
python installation/trunk/dybinst/scripts/slvmon.py opt.dybinst/4059_9542 -l DEBUG

The single required argument needed is the BUILD_SLUG which identifies the configuration, build number and revision.

slvmon can also be used in scan mode to report on the status of all builds for which logfiles are available, see the help for details ...

installation/trunk/dybinst/scripts/slvmon.py --help

configuration of the copy step

The copy is configured by means of variables dyb_copy.. in envfiles such as ~/.dybinstrc. To allow separate configuration for debug and opt builds variants of the config vars ending with _opt or _dbg are accepted that take precendence over the generic vars.

  • dyb_copybase : directory to which revision directories are copyied, not configuring this or the _dbg/_opt variant prevents the copying from being done
  • dyb_copykeep : number of revision directories to be retained (defaults to 10, can have different opt/dbg settings using _dbg/_opt), others are purged

Currently the purge algorithm decides what to purge/retain based on

  • modification time of the revision directory
  • number of symbolic links within dyb_copybase that point to the revision directory

debugging copy step config

Following r9845 you can debug a mis-behaving copy step using the DYBCOPY_DBG envvar, for example :

[blyth@cms01 trunk]$ export DYBCOPY_DBG=1
[blyth@cms01 trunk]$  ./dybinst trunk copy dummy


Wed Oct 27 11:46:08 CST 2010
Start Logging to /data/env/local/dyb/trunk/dybinst-20101027-114608.log (or dybinst-recent.log)


Starting dybinst commands: copy

Stage: "copy"... 

Found CMTCONFIG="i686-slc4-gcc34-dbg" from lcgcmt
Checking your CMTCONFIG="i686-slc4-gcc34-dbg"...
...ok.
 DYBCOPY_DBG          : 1 
 CMTCONFIG            : i686-slc4-gcc34-dbg 
 relver               : trunk 
 target               : dummy 
 slug                 :  
 dyb_copybase         : /data/env/local/dyb 
 dyb_copybase_opt     :  
 dyb_copybase_dbg     :  
 dyb_copykeep         : 8 
 dyb_copykeep_opt     :  
 dyb_copykeep_dbg     :  

dybinst-copy: trunk installation to directory "/data/env/local/dyb/dummy" derived from base:"/data/env/local/dyb" and target:"dummy" slug:"" slvmon:""

as DYBCOPY_DBG is defined skipping : do-copy trunk /data/env/local/dyb/dummy
 base                 : /data/env/local/dyb 
 copyto               : /data/env/local/dyb/dummy 
 slvmon               :


Coordinated blessed-for-24hrs revisions for configurations : dybinst and opt.dybinst are provided by the bitten master at :

The revisions listed correspond to the last revision that was successfully built by all operational slaves for the corresponding configuration prior to the cutoff time :

18:00 Dayabay time

The slvmgr.py script accesses these pages in order to determine the blessed revisions for each configuration when it is invoked with the --diabolic option. The planting of daily links to revision dirs is best done from a cron job running at a coordinated time rather than as part of the copy step.

For coordinated diabolic links it is recommended that cron invokes the diabolic option 15-min after the cutoff time, eg with cron command line ( with time converted to your machines timezone).

HOME=/home/joe
15 18 * * * ( cd /path/to/dybinst/export/dir ; python installation/trunk/dybinst/scripts/slvmgr.py --diabolic dybinst opt.dybinst )  > $HOME/diabolic.log 2>&1

Note that diabolic calls outside the time window (cutoff + 10min, cutoff +20 min) do not plant links. Thus to avoid having to change cron config twice a year for daylight saving time changes you can add cron entries an hr ahead and behind the target time 18:15 in your timezone.