I've been trying to work out a reliable script to determine,
after pg_ctl start, that the server is done attempting
to come up, and that it has either succeeded OR FAILED.
This is for several hundred unattended appliance-type servers,
currently on PG 8.0 but soon to be on 8.3
Haven't found anything in the archives.
I want to determine success/failure without time-outs, since:
the db is restarted every time a server gets an upgrade,
and it can get several upgrades in a batch, and the cpu/disk load
during an upgrade is highly variable; a restart with no
recovery may still require as much as a minute to get to 'ready'.
We also need to restart the server several hundred times
in our in-house system tests.
So pg_ctl -w start is not an option, even if the timeout were
configurable to under a minute.
The best I have that doesn't involve modifying pg_ctl is:
# Hand-compute $NEXT_LOG from postgresql.conf
# parameters (log_directory) and (log_filename).
# Replace %S format with a '??' wildcard (yech).
$ TEMP_LOG=/tmp/pg.$PGPORT.log
$ touch $NEXT_LOG >$TEMP_LOG
$ FROM=`awk 'END {print NR+1}' $NEXT_LOG`
$ pg_ctl start -s -l $TEMPLOG
$ while tail +$FROM $NEXT_LOG | ! egrep -hw
'FATAL|PANIC|DETAIL|ready|shutting|^postmaster cannot' $TEMP_LOG -; do
sleep 1; done
The nasty cases are when the server fails (exits)
without being able to create its std log file (e.g.
error in postgresql.conf).
So I'm down to patching start_postmaster in pg_ctl.c
to use popen("... & echo $!") instead of system("... &"),
then make test_postmaster_connection do a kill(0,pid)
if PQsetdbLogin fails.
Any suggestions appreciated.
--
Engineers think that equations approximate reality.
Physicists think that reality approximates the equations.
Mathematicians never make the connection.