#!@PERL@ # Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult AB # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Library General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Library General Public License for more details. # # You should have received a copy of the GNU Library General Public # License along with this library; if not, write to the Free # Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, # MA 02111-1307, USA # ########################################################## # this is the base file every test is using .... # this is made for not changing every file if we want to # add an option or just want to change something in # code what is the same in every file ... ########################################################## # # The exported values are: # $opt_... Various options # $date Current date in ISO format # $server Object for current server # $limits Hash reference to limits for benchmark $benchmark_version="2.14"; use Getopt::Long; require "$pwd/server-cfg" || die "Can't read Configuration file: $!\n"; $|=1; # Output data immediately $opt_skip_test=$opt_skip_create=$opt_skip_delete=$opt_verbose=$opt_fast_insert=$opt_lock_tables=$opt_debug=$opt_skip_delete=$opt_fast=$opt_force=$opt_log=$opt_use_old_results=$opt_help=$opt_odbc=$opt_small_test=$opt_small_tables=$opt_samll_key_tables=$opt_stage=$opt_old_headers=$opt_die_on_errors=$opt_tcpip=$opt_random=0; $opt_cmp=$opt_user=$opt_password=$opt_connect_options=""; $opt_server="mysql"; $opt_dir="output"; $opt_host="localhost";$opt_database="test"; $opt_machine=""; $opt_suffix=""; $opt_create_options=undef; $opt_optimization="None"; $opt_hw=""; $opt_threads=5; if (!defined($opt_time_limit)) { $opt_time_limit=10*60; # Don't wait more than 10 min for some tests } $log_prog_args=join(" ", skip_arguments(\@ARGV,"comments","cmp","server", "user", "host", "database", "password", "use-old-results","skip-test", "optimization","hw", "machine", "dir", "suffix", "log")); GetOptions("skip-test=s","comments=s","cmp=s","server=s","user=s","host=s","database=s","password=s","loop-count=i","row-count=i","skip-create","skip-delete","verbose","fast-insert","lock-tables","debug","fast","force","field-count=i","regions=i","groups=i","time-limit=i","log","use-old-results","machine=s","dir=s","suffix=s","help","odbc","small-test","small-tables","small-key-tables","stage=i","threads=i","random","old-headers","die-on-errors","create-options=s","hires","tcpip","silent","optimization=s","hw=s","socket=s","connect-options=s") || usage(); usage() if ($opt_help); $server=get_server($opt_server,$opt_host,$opt_database,$opt_odbc, machine_part(), $opt_socket, $opt_connect_options); $limits=merge_limits($server,$opt_cmp); $date=date(); @estimated=(0.0,0.0,0.0); # For estimated time support if ($opt_hires) { eval "use Time::HiRes;"; } { my $tmp= $opt_server; $tmp =~ s/_odbc$//; if (length($opt_cmp) && index($opt_cmp,$tmp) < 0) { $opt_cmp.=",$tmp"; } } $opt_cmp=lc(join(",",sort(split(',',$opt_cmp)))); # # set opt_lock_tables if one uses --fast and drivers supports it # if (($opt_lock_tables || $opt_fast) && $server->{'limits'}->{'lock_tables'}) { $opt_lock_tables=1; } else { $opt_lock_tables=0; } if ($opt_fast) { $opt_fast_insert=1; $opt_suffix="_fast" if (!length($opt_suffix)); } if ($opt_odbc) { $opt_suffix="_odbc" if (!length($opt_suffix)); } if (!$opt_silent) { print "Testing server '" . $server->version() . "' at $date\n\n"; } if ($opt_debug) { print "\nCurrent limits: \n"; foreach $key (sort keys %$limits) { print $key . " " x (30-length($key)) . $limits->{$key} . "\n"; } print "\n"; } # # Some help functions # sub skip_arguments { my($argv,@skip_args)=@_; my($skip,$arg,$name,@res); foreach $arg (@$argv) { if ($arg =~ /^\-+([^=]*)/) { $name=$1; foreach $skip (@skip_args) { if (index($skip,$name) == 0) { $name=""; # Don't use this parameters last; } } push (@res,$arg) if (length($name)); } } return @res; } sub merge_limits { my ($server,$cmp)= @_; my ($name,$tmp_server,$limits,$res_limits,$limit,$tmp_limits); $res_limits=$server->{'limits'}; if ($cmp) { foreach $name (split(",",$cmp)) { $tmp_server= (get_server($name,$opt_host, $opt_database, $opt_odbc,machine_part()) || die "Unknown SQL server: $name\n"); $limits=$tmp_server->{'limits'}; %new_limits=(); foreach $limit (keys(%$limits)) { if (defined($res_limits->{$limit}) && defined($limits->{$limit})) { $new_limits{$limit}=min($res_limits->{$limit},$limits->{$limit}); } } %tmp_limits=%new_limits; $res_limits=\%tmp_limits; } } return $res_limits; } sub date { my ($sec, $min, $hour, $mday, $mon, $year) = localtime(time()); sprintf("%04d-%02d-%02d %2d:%02d:%02d", 1900+$year,$mon+1,$mday,$hour,$min,$sec); } sub min { my($min)=$_[0]; my($i); for ($i=1 ; $i <= $#_; $i++) { $min=$_[$i] if ($min > $_[$i]); } return $min; } sub max { my($max)=$_[0]; my($i); for ($i=1 ; $i <= $#_; $i++) { $max=$_[$i] if ($max < $_[$i]); } return $max; } # # Execute many statements in a row # sub do_many { my ($dbh,@statements)=@_; my ($statement,$sth); foreach $statement (@statements) { if (!($sth=$dbh->do($statement))) { die "Can't execute command '$statement'\nError: $DBI::errstr\n"; } } } sub safe_do_many { my ($dbh,@statements)=@_; my ($statement,$sth); foreach $statement (@statements) { if (!($sth=$dbh->do($statement))) { print STDERR "Can't execute command '$statement'\nError: $DBI::errstr\n"; return 1; } } return 0; } # # Do a query and fetch all rows from a statement and return the number of rows # sub fetch_all_rows { my ($dbh,$query,$must_get_result)=@_; my ($count,$sth); $count=0; print "$query: " if ($opt_debug); if (!($sth= $dbh->prepare($query))) { print "\n" if ($opt_debug); die "Error occured with prepare($query)\n -> $DBI::errstr\n"; return undef; } if (!$sth->execute) { print "\n" if ($opt_debug); if (defined($server->{'error_on_execute_means_zero_rows'}) && !$server->abort_if_fatal_error()) { if (defined($must_get_result) && $must_get_result) { die "Error: Query $query didn't return any rows\n"; } $sth->finish; print "0\n" if ($opt_debug); return 0; } die "Error occured with execute($query)\n -> $DBI::errstr\n"; $sth->finish; return undef; } while ($sth->fetchrow_arrayref) { $count++; } print "$count\n" if ($opt_debug); if (defined($must_get_result) && $must_get_result && !$count) { die "Error: Query $query didn't return any rows\n"; } $sth->finish; undef($sth); return $count; } sub do_query { my($dbh,$query)=@_; print "$query\n" if ($opt_debug); $dbh->do($query) or die "\nError executing '$query':\n$DBI::errstr\n"; } # # Run a query X times # sub time_fetch_all_rows { my($test_text,$result_text,$query,$dbh,$test_count)=@_; my($i,$loop_time,$end_time,$count,$rows,$estimated); print $test_text . "\n" if (defined($test_text)); $count=$rows=0; $loop_time=new Benchmark; for ($i=1 ; $i <= $test_count ; $i++) { $count++; $rows+=fetch_all_rows($dbh,$query) or die $DBI::errstr; $end_time=new Benchmark; last if ($estimated=predict_query_time($loop_time,$end_time,\$count,$i, $test_count)); } $end_time=new Benchmark; if ($estimated) { print "Estimated time"; } else { print "Time"; } print " for $result_text ($count:$rows) " . timestr(timediff($end_time, $loop_time),"all") . "\n\n"; } # # Handle estimated time of the server is too slow # Returns 0 if one should continue as normal # sub predict_query_time { my ($loop_time,$end_time,$count_ref,$loop,$loop_count)= @_; my ($k,$tmp); if (($end_time->[0] - $loop_time->[0]) > $opt_time_limit) { # We can't wait until the SUN dies. Try to predict the end time if ($loop != $loop_count) { $tmp=($end_time->[0] - $loop_time->[0]); print "Note: Query took longer then time-limit: $opt_time_limit\nEstimating end time based on:\n"; print "$$count_ref queries in $loop loops of $loop_count loops took $tmp seconds\n"; for ($k=0; $k < 3; $k++) { $tmp=$loop_time->[$k]+($end_time->[$k]-$loop_time->[$k])/$loop* $loop_count; $estimated[$k]+=($tmp-$end_time->[$k]); $end_time->[$k]=$tmp; } $$count_ref= int($$count_ref/$loop*$loop_count); return 1; } } return 0; } # # standard end of benchmark # sub end_benchmark { my ($start_time)=@_; $end_time=new Benchmark; if ($estimated[0]) { print "Estimated total time: "; $end_time->[0]+=$estimated[0]; $end_time->[1]+=$estimated[1]; $end_time->[2]+=$estimated[2]; } else { print "Total time: " } print timestr(timediff($end_time, $start_time),"all") . "\n"; exit 0; } sub print_time { my ($estimated)=@_; if ($estimated) { print "Estimated time"; } else { print "Time"; } } # # Create a filename part for the machine that can be used for log file. # sub machine_part { my ($name,$orig); return $opt_machine if (length($opt_machine)); # Specified by user # Specified by user $orig=$name=machine(); $name="win9$1" if ($orig =~ /win.*9(\d)/i); $name="NT_$1" if ($orig =~ /Windows NT.*(\d+\.\d+)/i); $name="win2k" if ($orig =~ /Windows 2000/i); $name =~ s/\s+/_/g; # Make the filenames easier to parse $name =~ s/-/_/g; $name =~ s/\//_/g; return $name; } sub machine { $name= `uname -s -r -m`; if ($?) { $name= `uname -s -m`; } if ($?) { $name= `uname -s`; } if ($?) { $name= `uname`; } if ($?) { $name="unknown"; } chomp($name); $name =~ s/[\n\r]//g; return $name; } # # Usage # sub usage { print <