Commit 5e2a3278 authored by unknown's avatar unknown

Merge perch.ndb.mysql.com:/home/jonas/src/51-work

into  perch.ndb.mysql.com:/home/jonas/src/mysql-5.1-new-ndb


storage/ndb/src/mgmsrv/InitConfigFileParser.cpp:
  Auto merged
parents 949381c2 28fd0d04
......@@ -26,7 +26,7 @@ LDADD_LOC = \
include $(top_srcdir)/storage/ndb/config/common.mk.am
include $(top_srcdir)/storage/ndb/config/type_util.mk.am
ndb_cpcd_LDFLAGS = @ndb_bin_am_ldflags@
ndb_cpcd_LDFLAGS = -static @ndb_bin_am_ldflags@
# Don't update the files from bitkeeper
%::SCCS/s.%
......
......@@ -837,7 +837,7 @@ InitConfigFileParser::parse_mycnf()
opt.arg_type = REQUIRED_ARG;
options.push_back(opt);
opt.name = "api";
opt.name = "ndbapi";
opt.id = 256;
opt.value = (gptr*)malloc(sizeof(char*));
opt.var_type = GET_STR;
......
......@@ -18,20 +18,18 @@ testdir=$(prefix)/mysql-test/ndb
include $(top_srcdir)/storage/ndb/config/common.mk.am
include $(top_srcdir)/storage/ndb/config/type_util.mk.am
include $(top_srcdir)/storage/ndb/config/type_mgmapiclient.mk.am
include $(top_srcdir)/storage/ndb/config/type_ndbapitools.mk.am
test_PROGRAMS = atrt
test_DATA=daily-basic-tests.txt daily-devel-tests.txt 16node-tests.txt \
conf-daily-basic-ndb08.txt \
conf-daily-devel-ndb08.txt \
conf-daily-sql-ndb08.txt \
conf-ndbmaster.txt \
conf-shark.txt \
conf-dl145a.txt
conf-ndbmaster.cnf \
conf-dl145a.cnf test-tests.txt
test_SCRIPTS=atrt-analyze-result.sh atrt-gather-result.sh atrt-setup.sh \
atrt-clear-result.sh make-config.sh make-index.sh make-html-reports.sh
atrt-clear-result.sh autotest-run.sh
atrt_SOURCES = main.cpp setup.cpp files.cpp
atrt_SOURCES = main.cpp run-test.hpp
INCLUDES_LOC = -I$(top_srcdir)/storage/ndb/test/include
LDADD_LOC = $(top_builddir)/storage/ndb/test/src/libNDBT.a \
$(top_builddir)/storage/ndb/src/libndbclient.la \
......@@ -39,6 +37,14 @@ LDADD_LOC = $(top_builddir)/storage/ndb/test/src/libNDBT.a \
$(top_builddir)/mysys/libmysys.a \
$(top_builddir)/strings/libmystrings.a @NDB_SCI_LIBS@
atrt_CXXFLAGS = -I$(top_srcdir)/ndb/src/mgmapi \
-I$(top_srcdir)/ndb/src/mgmsrv \
-I$(top_srcdir)/ndb/include/mgmcommon \
-DMYSQLCLUSTERDIR="\"\"" \
-DDEFAULT_PREFIX="\"$(prefix)\""
atrt_LDFLAGS = -static @ndb_bin_am_ldflags@
wrappersdir=$(prefix)/bin
wrappers_SCRIPTS=atrt-testBackup atrt-mysql-test-run
......
......@@ -8,7 +8,7 @@ rm -rf *
while [ $# -gt 0 ]
do
rsync -a "$1" .
rsync -a --exclude='ndb_*_fs/*' "$1" .
shift
done
......
......@@ -2,7 +2,8 @@
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
......@@ -16,68 +17,112 @@
#ifndef atrt_config_hpp
#define atrt_config_hpp
#include <getarg.h>
#include <ndb_global.h>
#include <Vector.hpp>
#include <BaseString.hpp>
#include <Logger.hpp>
#include <mgmapi.h>
#include <CpcClient.hpp>
#include <Properties.hpp>
#undef MYSQL_CLIENT
enum ErrorCodes {
enum ErrorCodes
{
ERR_OK = 0,
ERR_NDB_FAILED = 101,
ERR_SERVERS_FAILED = 102,
ERR_MAX_TIME_ELAPSED = 103
};
struct atrt_host {
struct atrt_host
{
size_t m_index;
BaseString m_user;
BaseString m_base_dir;
BaseString m_basedir;
BaseString m_hostname;
SimpleCpcClient * m_cpcd;
Vector<struct atrt_process*> m_processes;
};
struct atrt_options
{
enum Feature {
AO_REPLICATION = 1,
AO_NDBCLUSTER = 2
};
int m_features;
Properties m_loaded;
Properties m_generated;
};
struct atrt_process {
struct atrt_process
{
size_t m_index;
BaseString m_hostname;
struct atrt_host * m_host;
struct atrt_cluster * m_cluster;
enum Type {
ALL = 255,
NDB_DB = 1,
NDB_API = 2,
NDB_MGM = 4,
NDB_REP = 8,
MYSQL_SERVER = 16,
MYSQL_CLIENT = 32
AP_ALL = 255
,AP_NDBD = 1
,AP_NDB_API = 2
,AP_NDB_MGMD = 4
,AP_MYSQLD = 16
,AP_CLIENT = 32
,AP_CLUSTER = 256 // Used for options parsing for "cluster" options
} m_type;
SimpleCpcClient::Process m_proc;
short m_ndb_mgm_port;
NdbMgmHandle m_ndb_mgm_handle; // if type == ndb_mgm
NdbMgmHandle m_ndb_mgm_handle; // if type == ndb_mgm
atrt_process * m_mysqld; // if type == client
atrt_process * m_rep_src; // if type == mysqld
Vector<atrt_process*> m_rep_dst; // if type == mysqld
atrt_options m_options;
};
struct atrt_cluster
{
BaseString m_name;
BaseString m_dir;
Vector<atrt_process*> m_processes;
atrt_options m_options;
};
struct atrt_config {
struct atrt_config
{
bool m_generated;
BaseString m_key;
Vector<atrt_host> m_hosts;
Vector<atrt_process> m_processes;
BaseString m_replication;
Vector<atrt_host*> m_hosts;
Vector<atrt_cluster*> m_clusters;
Vector<atrt_process*> m_processes;
};
struct atrt_testcase {
struct atrt_testcase
{
bool m_report;
bool m_run_all;
time_t m_max_time;
BaseString m_command;
BaseString m_args;
BaseString m_name;
};
extern Logger g_logger;
bool parse_args(int argc, const char** argv);
void require(bool x);
bool parse_args(int argc, char** argv);
bool setup_config(atrt_config&);
bool configure(atrt_config&, int setup);
bool setup_directories(atrt_config&, int setup);
bool setup_files(atrt_config&, int setup, int sshx);
bool deploy(atrt_config&);
bool sshx(atrt_config&, unsigned procmask);
bool start(atrt_config&, unsigned procmask);
bool remove_dir(const char *, bool incl = true);
bool connect_hosts(atrt_config&);
bool connect_ndb_mgm(atrt_config&);
bool wait_ndb(atrt_config&, int ndb_mgm_node_status);
......@@ -92,4 +137,25 @@ bool setup_test_case(atrt_config&, const atrt_testcase&);
bool setup_hosts(atrt_config&);
/**
* Global variables...
*/
extern Logger g_logger;
extern atrt_config g_config;
extern const char * g_cwd;
extern const char * g_my_cnf;
extern const char * g_user;
extern const char * g_basedir;
extern const char * g_prefix;
extern int g_baseport;
extern int g_fqpn;
extern int g_default_ports;
extern const char * g_clusters;
extern const char *save_file;
extern const char *save_group_suffix;
extern char *save_extra_file;
#endif
#!/bin/sh
#############################################################
# This script created by Jonas does the following #
# Cleans up clones and pevious builds, pulls new clones, #
# builds, deploys, configures the tests and launches ATRT #
#############################################################
###############
#Script setup #
##############
save_args=$*
VERSION="autotest-boot.sh version 1.00"
DATE=`date '+%Y-%m-%d'`
HOST=`hostname -s`
export DATE HOST
set -e
echo "`date` starting: $*"
verbose=0
do_clone=yes
build=yes
conf=
LOCK=$HOME/.autotest-lock
############################
# Read command line entries#
############################
while [ "$1" ]
do
case "$1" in
--no-clone) do_clone="";;
--no-build) build="";;
--verbose) verbose=`expr $verbose + 1`;;
--clone=*) clone=`echo $1 | sed s/--clone=//`;;
--version) echo $VERSION; exit;;
--conf=*) conf=`echo $1 | sed s/--conf=//`;;
*) RUN=$*;;
esac
shift
done
#################################
#Make sure the configfile exists#
#if it does not exit. if it does#
# (.) load it #
#################################
if [ -z "$conf" ]
then
conf=`pwd`/autotest.conf
fi
if [ -f $conf ]
then
. $conf
else
echo "Can't find config file: $conf"
exit
fi
###############################
# Validate that all interesting
# variables where set in conf
###############################
vars="src_clone_base install_dir build_dir"
for i in $vars
do
t=`echo echo \\$$i`
if [ -z "`eval $t`" ]
then
echo "Invalid config: $conf, variable $i is not set"
exit
fi
done
###############################
#Print out the enviroment vars#
###############################
if [ $verbose -gt 0 ]
then
env
fi
####################################
# Setup the lock file name and path#
# Setup the clone source location #
####################################
src_clone=$src_clone_base-$clone
#######################################
# Check to see if the lock file exists#
# If it does exit. #
#######################################
if [ -f $LOCK ]
then
echo "Lock file exists: $LOCK"
exit 1
fi
#######################################
# If the lock file does not exist then#
# create it with date and run info #
#######################################
echo "$DATE $RUN" > $LOCK
#############################
#If any errors here down, we#
# trap them, and remove the #
# Lock file before exit #
#############################
if [ `uname -s` != "SunOS" ]
then
trap "rm -f $LOCK" ERR
fi
# You can add more to this path#
################################
dst_place=${build_dir}/clone-mysql-$clone-$DATE.$$
#########################################
# Delete source and pull down the latest#
#########################################
if [ "$do_clone" ]
then
rm -rf $dst_place
bk clone $src_clone $dst_place
fi
##########################################
# Build the source, make installs, and #
# create the database to be rsynced #
##########################################
if [ "$build" ]
then
cd $dst_place
rm -rf $install_dir
BUILD/compile-ndb-autotest --prefix=$install_dir
make install
fi
################################
# Start run script #
################################
script=$install_dir/mysql-test/ndb/autotest-run.sh
$script $save_args --conf=$conf --install-dir=$install_dir --suite=$RUN --nolock
if [ "$build" ]
then
rm -rf $dst_place
fi
rm -f $LOCK
#!/bin/sh
#############################################################
# This script created by Jonas does the following #
# Cleans up clones and pevious builds, pulls new clones, #
# builds, deploys, configures the tests and launches ATRT #
#############################################################
###############
#Script setup #
##############
save_args=$*
VERSION="autotest-run.sh version 1.00"
DATE=`date '+%Y-%m-%d'`
HOST=`hostname -s`
export DATE HOST
set -e
ulimit -Sc unlimited
echo "`date` starting: $*"
RSYNC_RSH=ssh
export RSYNC_RSH
verbose=0
report=yes
nolock=
RUN="daily-basic"
conf=autotest.conf
LOCK=$HOME/.autotest-lock
############################
# Read command line entries#
############################
while [ "$1" ]
do
case "$1" in
--verbose) verbose=`expr $verbose + 1`;;
--conf=*) conf=`echo $1 | sed s/--conf=//`;;
--version) echo $VERSION; exit;;
--suite=*) RUN=`echo $1 | sed s/--suite=//`;;
--install-dir=*) install_dir=`echo $1 | sed s/--install-dir=//`;;
--clone=*) clone=`echo $1 | sed s/--clone=//`;;
--nolock) nolock=true;;
esac
shift
done
#################################
#Make sure the configfile exists#
#if it does not exit. if it does#
# (.) load it #
#################################
install_dir_save=$install_dir
if [ -f $conf ]
then
. $conf
else
echo "Can't find config file: $conf"
exit
fi
install_dir=$install_dir_save
###############################
# Validate that all interesting
# variables where set in conf
###############################
vars="target base_dir install_dir hosts"
if [ "$report" ]
then
vars="$vars result_host result_path"
fi
for i in $vars
do
t=`echo echo \\$$i`
if [ -z "`eval $t`" ]
then
echo "Invalid config: $conf, variable $i is not set"
exit
fi
done
###############################
#Print out the enviroment vars#
###############################
if [ $verbose -gt 0 ]
then
env
fi
#######################################
# Check to see if the lock file exists#
# If it does exit. #
#######################################
if [ -z "$nolock" ]
then
if [ -f $LOCK ]
then
echo "Lock file exists: $LOCK"
exit 1
fi
echo "$DATE $RUN" > $LOCK
fi
#############################
#If any errors here down, we#
# trap them, and remove the #
# Lock file before exit #
#############################
if [ `uname -s` != "SunOS" ]
then
trap "rm -f $LOCK" ERR
fi
###############################################
# Check that all interesting files are present#
###############################################
test_dir=$install_dir/mysql-test/ndb
atrt=$test_dir/atrt
test_file=$test_dir/$RUN-tests.txt
if [ ! -f "$test_file" ]
then
echo "Cant find testfile: $test_file"
exit 1
fi
if [ ! -x "$atrt" ]
then
echo "Cant find atrt binary at $atrt"
exit 1
fi
############################
# check ndb_cpcc fail hosts#
############################
failed=`ndb_cpcc $hosts | awk '{ if($1=="Failed"){ print;}}'`
if [ "$failed" ]
then
echo "Cant contact cpcd on $failed, exiting"
exit 1
fi
#############################
# Function for replacing the#
# choose host with real host#
# names. Note $$ = PID #
#############################
choose(){
SRC=$1
TMP1=/tmp/choose.$$
TMP2=/tmp/choose.$$.$$
shift
cp $SRC $TMP1
i=1
while [ $# -gt 0 ]
do
sed -e s,"CHOOSE_host$i",$1,g < $TMP1 > $TMP2
mv $TMP2 $TMP1
shift
i=`expr $i + 1`
done
cat $TMP1
rm -f $TMP1
}
choose_conf(){
if [ -f $test_dir/conf-$1-$HOST.cnf ]
then
echo "$test_dir/conf-$1-$HOST.cnf"
elif [ -f $test_dir/conf-$1.cnf ]
then
echo "$test_dir/conf-$1.cnf"
elif [ -f $test_dir/conf-$HOST.cnf ]
then
echo "$test_dir/conf-$HOST.cnf"
else
echo "Unable to find conf file looked for" 1>&2
echo "$test_dir/conf-$1-$HOST.cnf and" 1>&2
echo "$test_dir/conf-$HOST.cnf" 1>&2
echo "$test_dir/conf-$1.cnf" 1>&2
exit
fi
}
#########################################
# Count how many computers we have ready#
#########################################
count_hosts(){
cnt=`grep "CHOOSE_host" $1 | awk '{for(i=1; i<=NF;i++) \
if(index($i, "CHOOSE_host") > 0) print $i;}' | sort | uniq | wc -l`
echo $cnt
}
conf=`choose_conf $RUN`
count=`count_hosts $conf`
avail=`echo $hosts | wc -w`
if [ $count -gt $avail ]
then
echo "Not enough hosts"
echo "Needs: $count available: $avail ($avail_hosts)"
exit 1
fi
###
# Make directories needed
p=`pwd`
run_dir=$install_dir/run-$RUN-mysql-$clone-$target
res_dir=$base_dir/result-$RUN-mysql-$clone-$target/$DATE
tar_dir=$base_dir/saved-results
mkdir -p $run_dir $res_dir $tar_dir
rm -rf $res_dir/* $run_dir/*
###
#
# Do sed substitiutions
#
cd $run_dir
choose $conf $hosts > d.tmp.$$
sed -e s,CHOOSE_dir,"$run_dir/run",g < d.tmp.$$ > my.cnf
# Setup configuration
$atrt Cdq my.cnf
# Start...
$atrt --report-file=report.txt --log-file=log.txt --testcase-file=$test_dir/$RUN-tests.txt my.cnf
# Make tar-ball
[ -f log.txt ] && mv log.txt $res_dir
[ -f report.txt ] && mv report.txt $res_dir
[ "`find . -name 'result*'`" ] && mv result* $res_dir
cd $res_dir
echo "date=$DATE" > info.txt
echo "suite=$RUN" >> info.txt
echo "clone=$clone" >> info.txt
echo "arch=$target" >> info.txt
cd ..
p2=`pwd`
cd ..
tarfile=res.$RUN.$clone.$target.$DATE.$HOST.$$.tgz
tar cfz $tar_dir/$tarfile `basename $p2`/$DATE
if [ "$report" ]
then
scp $tar_dir/$tarfile $result_host:$result_path/
fi
cd $p
rm -rf $res_dir $run_dir
if [ -z "$nolock" ]
then
rm -f $LOCK
fi
baseport: 14000
basedir: /space/autotest
mgm: CHOOSE_host1
ndb: CHOOSE_host2 CHOOSE_host3 CHOOSE_host2 CHOOSE_host3
api: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: /space/autotest/run
[MGM DEFAULT]
PortNumber: 14000
ArbitrationRank: 1
DataDir: .
baseport: 16000
basedir: /space/autotest
mgm: CHOOSE_host1
ndb: CHOOSE_host2 CHOOSE_host3 CHOOSE_host2 CHOOSE_host3
api: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: /space/autotest/run
[MGM DEFAULT]
PortNumber: 16000
ArbitrationRank: 1
DataDir: .
baseport: 16000
basedir: CHOOSE_dir
mgm: CHOOSE_host1
ndb: CHOOSE_host2 CHOOSE_host3 CHOOSE_host2 CHOOSE_host3
api: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: CHOOSE_dir/run
[MGM DEFAULT]
PortNumber: 16000
ArbitrationRank: 1
DataDir: .
[TCP DEFAULT]
SendBufferMemory: 2M
baseport: 16000
basedir: /space/autotest
mgm: CHOOSE_host1
ndb: CHOOSE_host2 CHOOSE_host3
mysqld: CHOOSE_host1 CHOOSE_host4
mysql: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: /space/autotest/run
[MGM DEFAULT]
PortNumber: 16000
ArbitrationRank: 1
DataDir: .
baseport: 16000
basedir: /space/autotest
mgm: CHOOSE_host1
ndb: CHOOSE_host2 CHOOSE_host3
mysqld: CHOOSE_host1 CHOOSE_host4
mysql: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host1 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4 CHOOSE_host4
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: /space/autotest/run
[MGM DEFAULT]
PortNumber: 16000
ArbitrationRank: 1
DataDir: .
[atrt]
basedir = CHOOSE_dir
baseport = 14000
clusters = .2node
[ndb_mgmd]
[mysqld]
skip-innodb
skip-bdb
[cluster_config.2node]
ndb_mgmd = CHOOSE_host1
ndbd = CHOOSE_host2,CHOOSE_host3
ndbapi= CHOOSE_host1,CHOOSE_host1,CHOOSE_host1
NoOfReplicas = 2
IndexMemory = 100M
DataMemory = 300M
BackupMemory = 64M
MaxNoOfConcurrentScans = 100
MaxNoOfSavedMessages= 1000
SendBufferMemory = 2M
baseport: 14000
basedir: /home/ndbdev/autotest/run
mgm: CHOOSE_host1
ndb: CHOOSE_host2 CHOOSE_host3
api: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: /home/ndbdev/autotest/run
[MGM DEFAULT]
PortNumber: 14000
ArbitrationRank: 1
DataDir: .
[TCP DEFAULT]
SendBufferMemory: 2M
[atrt]
basedir = CHOOSE_dir
baseport = 14000
clusters = .4node
[ndb_mgmd]
[mysqld]
skip-innodb
skip-bdb
[cluster_config.4node]
ndb_mgmd = CHOOSE_host1
ndbd = CHOOSE_host2,CHOOSE_host3,CHOOSE_host2,CHOOSE_host3
ndbapi= CHOOSE_host1,CHOOSE_host1,CHOOSE_host1
NoOfReplicas = 2
IndexMemory = 100M
DataMemory = 300M
BackupMemory = 64M
MaxNoOfConcurrentScans = 100
MaxNoOfSavedMessages= 1000
SendBufferMemory = 2M
baseport: 14000
basedir: CHOOSE_dir
mgm: CHOOSE_host1
ndb: CHOOSE_host2 CHOOSE_host3 CHOOSE_host2 CHOOSE_host3
api: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: CHOOSE_dir/run
[MGM DEFAULT]
PortNumber: 14000
ArbitrationRank: 1
DataDir: .
[TCP DEFAULT]
SendBufferMemory: 2M
[atrt]
basedir=CHOOSE_dir
baseport=15000
clusters= .master,.slave
replicate= 1.master:1.slave
[ndb_mgmd]
[mysqld]
skip-innodb
skip-bdb
[cluster_config]
MaxNoOfSavedMessages= 1000
DataMemory = 100M
[cluster_config.master]
NoOfReplicas = 2
ndb_mgmd = CHOOSE_host1
ndbd = CHOOSE_host2,CHOOSE_host3
mysqld = CHOOSE_host1
ndbapi= CHOOSE_host1
[cluster_config.slave]
NoOfReplicas = 1
ndb_mgmd = CHOOSE_host4
ndbd = CHOOSE_host4
mysqld = CHOOSE_host4
baseport: 14000
basedir: /space/autotest
mgm: CHOOSE_host1
ndb: CHOOSE_host1 CHOOSE_host1
api: CHOOSE_host1 CHOOSE_host1 CHOOSE_host1
-- cluster config
[DB DEFAULT]
NoOfReplicas: 2
IndexMemory: 100M
DataMemory: 300M
BackupMemory: 64M
MaxNoOfConcurrentScans: 100
DataDir: .
FileSystemPath: /space/autotest/run
[MGM DEFAULT]
PortNumber: 14000
ArbitrationRank: 1
DataDir: .
[TCP DEFAULT]
SendBufferMemory: 2M
[atrt]
basedir=/home/jonas/atrt
baseport=10000
clusters = .master
clusters= .master,.slave
replicate = 1.master:1.slave
replicate = 2.master:2.slave
[cluster_config]
NoOfReplicas= 2
IndexMemory= 10M
DataMemory= 50M
MaxNoOfConcurrentScans= 100
Diskless = 1
[cluster_config.master]
ndb_mgmd = local1
ndbd = local1,local1
mysqld = local1,local1
ndbapi= local1
NoOfReplicas= 2
[cluster_config.slave]
ndb_mgmd = local1
ndbd = local1
ndbapi= local1
mysqld = local1,local1
NoOfReplicas= 1
[mysqld]
skip-innodb
skip-bdb
#
# Generated by atrt
# Mon May 29 23:27:49 2006
[mysql_cluster.master]
ndb-connectstring= local1:10000
[cluster_config.ndb_mgmd.1.master]
PortNumber= 10000
[cluster_config.ndbd.1.master]
FileSystemPath= /home/jonas/atrt/cluster.master/ndbd.1
[cluster_config.ndbd.2.master]
FileSystemPath= /home/jonas/atrt/cluster.master/ndbd.2
[mysqld.1.master]
datadir= /home/jonas/atrt/cluster.master/mysqld.1
socket= /home/jonas/atrt/cluster.master/mysqld.1/mysql.sock
port= 10001
server-id= 1
log-bin
ndb-connectstring= local1:10000
ndbcluster
[client.1.master]
socket= /home/jonas/atrt/cluster.master/mysqld.1/mysql.sock
port= 10001
[mysqld.2.master]
datadir= /home/jonas/atrt/cluster.master/mysqld.2
socket= /home/jonas/atrt/cluster.master/mysqld.2/mysql.sock
port= 10002
server-id= 2
log-bin
ndb-connectstring= local1:10000
ndbcluster
[client.2.master]
socket= /home/jonas/atrt/cluster.master/mysqld.2/mysql.sock
port= 10002
[mysql_cluster.slave]
ndb-connectstring= local1:10003
[cluster_config.ndb_mgmd.1.slave]
PortNumber= 10003
[cluster_config.ndbd.1.slave]
FileSystemPath= /home/jonas/atrt/cluster.slave/ndbd.1
[mysqld.1.slave]
datadir= /home/jonas/atrt/cluster.slave/mysqld.1
socket= /home/jonas/atrt/cluster.slave/mysqld.1/mysql.sock
port= 10004
server-id= 3
master-host= local1
master-port= 10001
master-user= root
master-password= ""
ndb-connectstring= local1:10003
ndbcluster
[client.1.slave]
socket= /home/jonas/atrt/cluster.slave/mysqld.1/mysql.sock
port= 10004
[mysqld.2.slave]
datadir= /home/jonas/atrt/cluster.slave/mysqld.2
socket= /home/jonas/atrt/cluster.slave/mysqld.2/mysql.sock
port= 10005
server-id= 4
master-host= local1
master-port= 10002
master-user= root
master-password= ""
ndb-connectstring= local1:10003
ndbcluster
[client.2.slave]
socket= /home/jonas/atrt/cluster.slave/mysqld.2/mysql.sock
port= 10005
#include "atrt.hpp"
#include <sys/types.h>
#include <dirent.h>
static bool create_directory(const char * path);
bool
setup_directories(atrt_config& config, int setup)
{
/**
* 0 = validate
* 1 = setup
* 2 = setup+clean
*/
for (size_t i = 0; i < config.m_clusters.size(); i++)
{
atrt_cluster& cluster = *config.m_clusters[i];
for (size_t j = 0; j<cluster.m_processes.size(); j++)
{
atrt_process& proc = *cluster.m_processes[j];
const char * dir = proc.m_proc.m_cwd.c_str();
struct stat sbuf;
int exists = 0;
if (lstat(dir, &sbuf) == 0)
{
if (S_ISDIR(sbuf.st_mode))
exists = 1;
else
exists = -1;
}
switch(setup){
case 0:
switch(exists){
case 0:
g_logger.error("Could not find directory: %s", dir);
return false;
case -1:
g_logger.error("%s is not a directory!", dir);
return false;
}
break;
case 1:
if (exists == -1)
{
g_logger.error("%s is not a directory!", dir);
return false;
}
break;
case 2:
if (exists == 1)
{
if (!remove_dir(dir))
{
g_logger.error("Failed to remove %s!", dir);
return false;
}
exists = 0;
break;
}
else if (exists == -1)
{
if (!unlink(dir))
{
g_logger.error("Failed to remove %s!", dir);
return false;
}
exists = 0;
}
}
if (exists != 1)
{
if (!create_directory(dir))
{
return false;
}
}
}
}
return true;
}
static
void
printfile(FILE* out, Properties& props, const char * section, ...)
{
Properties::Iterator it (&props);
const char * name = it.first();
if (name)
{
va_list ap;
va_start(ap, section);
/* const int ret = */ vfprintf(out, section, ap);
va_end(ap);
fprintf(out, "\n");
for (; name; name = it.next())
{
const char* val;
props.get(name, &val);
fprintf(out, "%s %s\n", name + 2, val);
}
fprintf(out, "\n");
}
fflush(out);
}
bool
setup_files(atrt_config& config, int setup, int sshx)
{
/**
* 0 = validate
* 1 = setup
* 2 = setup+clean
*/
BaseString mycnf;
mycnf.assfmt("%s/my.cnf", g_basedir);
if (mycnf != g_my_cnf)
{
struct stat sbuf;
int ret = lstat(mycnf.c_str(), &sbuf);
if (ret == 0)
{
if (unlink(mycnf.c_str()) != 0)
{
g_logger.error("Failed to remove %s", mycnf.c_str());
return false;
}
}
BaseString cp = "cp ";
cp.appfmt("%s %s", g_my_cnf, mycnf.c_str());
if (system(cp.c_str()) != 0)
{
g_logger.error("Failed to '%s'", cp.c_str());
return false;
}
}
if (setup == 2 || config.m_generated)
{
/**
* Do mysql_install_db
*/
for (size_t i = 0; i < config.m_clusters.size(); i++)
{
atrt_cluster& cluster = *config.m_clusters[i];
for (size_t j = 0; j<cluster.m_processes.size(); j++)
{
atrt_process& proc = *cluster.m_processes[j];
if (proc.m_type == atrt_process::AP_MYSQLD)
{
const char * val;
require(proc.m_options.m_loaded.get("--datadir=", &val));
BaseString tmp;
tmp.assfmt("%s/bin/mysql_install_db --datadir=%s > /dev/null 2>&1",
g_prefix, val);
if (system(tmp.c_str()) != 0)
{
g_logger.error("Failed to mysql_install_db for %s",
proc.m_proc.m_cwd.c_str());
}
else
{
g_logger.info("mysql_install_db for %s",
proc.m_proc.m_cwd.c_str());
}
}
}
}
}
FILE * out = NULL;
if (config.m_generated == false)
{
g_logger.info("Nothing configured...");
}
else
{
out = fopen(mycnf.c_str(), "a+");
if (out == 0)
{
g_logger.error("Failed to open %s for append", mycnf.c_str());
return false;
}
time_t now = time(0);
fprintf(out, "#\n# Generated by atrt\n");
fprintf(out, "# %s\n", ctime(&now));
}
for (size_t i = 0; i < config.m_clusters.size(); i++)
{
atrt_cluster& cluster = *config.m_clusters[i];
if (out)
{
Properties::Iterator it(&cluster.m_options.m_generated);
printfile(out, cluster.m_options.m_generated,
"[mysql_cluster%s]", cluster.m_name.c_str());
}
for (size_t j = 0; j<cluster.m_processes.size(); j++)
{
atrt_process& proc = *cluster.m_processes[j];
if (out)
{
switch(proc.m_type){
case atrt_process::AP_NDB_MGMD:
printfile(out, proc.m_options.m_generated,
"[cluster_config.ndb_mgmd.%d%s]",
proc.m_index, proc.m_cluster->m_name.c_str());
break;
case atrt_process::AP_NDBD:
printfile(out, proc.m_options.m_generated,
"[cluster_config.ndbd.%d%s]",
proc.m_index, proc.m_cluster->m_name.c_str());
break;
case atrt_process::AP_MYSQLD:
printfile(out, proc.m_options.m_generated,
"[mysqld.%d%s]",
proc.m_index, proc.m_cluster->m_name.c_str());
break;
case atrt_process::AP_NDB_API:
break;
case atrt_process::AP_CLIENT:
printfile(out, proc.m_options.m_generated,
"[client.%d%s]",
proc.m_index, proc.m_cluster->m_name.c_str());
break;
case atrt_process::AP_ALL:
case atrt_process::AP_CLUSTER:
abort();
}
}
/**
* Create env.sh
*/
BaseString tmp;
tmp.assfmt("%s/env.sh", proc.m_proc.m_cwd.c_str());
char **env = BaseString::argify(0, proc.m_proc.m_env.c_str());
if (env[0])
{
Vector<BaseString> keys;
FILE *fenv = fopen(tmp.c_str(), "w+");
if (fenv == 0)
{
g_logger.error("Failed to open %s for writing", tmp.c_str());
return false;
}
for (size_t k = 0; env[k]; k++)
{
tmp = env[k];
int pos = tmp.indexOf('=');
require(pos > 0);
env[k][pos] = 0;
fprintf(fenv, "%s=\"%s\"\n", env[k], env[k]+pos+1);
keys.push_back(env[k]);
free(env[k]);
}
fprintf(fenv, "PATH=%s/bin:%s/libexec:$PATH\n", g_prefix, g_prefix);
keys.push_back("PATH");
for (size_t k = 0; k<keys.size(); k++)
fprintf(fenv, "export %s\n", keys[k].c_str());
fflush(fenv);
fclose(fenv);
}
free(env);
tmp.assfmt("%s/ssh-login.sh", proc.m_proc.m_cwd.c_str());
FILE* fenv = fopen(tmp.c_str(), "w+");
if (fenv == 0)
{
g_logger.error("Failed to open %s for writing", tmp.c_str());
return false;
}
fprintf(fenv, "#!/bin/sh\n");
fprintf(fenv, "cd %s\n", proc.m_proc.m_cwd.c_str());
fprintf(fenv, "[ -f /etc/profile ] && . /etc/profile\n");
fprintf(fenv, ". env.sh\n");
fprintf(fenv, "ulimit -Sc unlimited\n");
fprintf(fenv, "bash -i");
fflush(fenv);
fclose(fenv);
}
}
if (out)
{
fflush(out);
fclose(out);
}
return true;
}
static
bool
create_directory(const char * path)
{
BaseString tmp(path);
Vector<BaseString> list;
if (tmp.split(list, "/") == 0)
{
g_logger.error("Failed to create directory: %s", tmp.c_str());
return false;
}
BaseString cwd = "/";
for (size_t i = 0; i < list.size(); i++)
{
cwd.append(list[i].c_str());
cwd.append("/");
mkdir(cwd.c_str(), S_IRUSR | S_IWUSR | S_IXUSR | S_IXGRP | S_IRGRP);
}
struct stat sbuf;
if (lstat(path, &sbuf) != 0 ||
!S_ISDIR(sbuf.st_mode))
{
g_logger.error("Failed to create directory: %s (%s)",
tmp.c_str(),
cwd.c_str());
return false;
}
return true;
}
bool
remove_dir(const char * path, bool inclusive)
{
DIR* dirp = opendir(path);
if (dirp == 0)
{
if(errno != ENOENT)
{
g_logger.error("Failed to remove >%s< errno: %d %s",
path, errno, strerror(errno));
return false;
}
return true;
}
struct dirent * dp;
BaseString name = path;
name.append("/");
while ((dp = readdir(dirp)) != NULL)
{
if ((strcmp(".", dp->d_name) != 0) && (strcmp("..", dp->d_name) != 0))
{
BaseString tmp = name;
tmp.append(dp->d_name);
if (remove(tmp.c_str()) == 0)
{
continue;
}
if (!remove_dir(tmp.c_str()))
{
closedir(dirp);
return false;
}
}
}
closedir(dirp);
if (inclusive)
{
if (rmdir(path) != 0)
{
g_logger.error("Failed to remove >%s< errno: %d %s",
path, errno, strerror(errno));
return false;
}
}
return true;
}
......@@ -14,20 +14,19 @@
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <ndb_global.h>
#include <getarg.h>
#include <BaseString.hpp>
#include <Parser.hpp>
#include "atrt.hpp"
#include <my_sys.h>
#include <my_getopt.h>
#include <NdbOut.hpp>
#include <Properties.hpp>
#include <NdbAutoPtr.hpp>
#include "run-test.hpp"
#include <SysLogHandler.hpp>
#include <FileLogHandler.hpp>
#include <mgmapi.h>
#include "CpcClient.hpp"
#include <NdbSleep.h>
#define PATH_SEPARATOR "/"
/** Global variables */
static const char progname[] = "ndb_atrt";
......@@ -36,76 +35,198 @@ static const char * g_analyze_progname = "atrt-analyze-result.sh";
static const char * g_clear_progname = "atrt-clear-result.sh";
static const char * g_setup_progname = "atrt-setup.sh";
static const char * g_setup_path = 0;
static const char * g_process_config_filename = "d.txt";
static const char * g_log_filename = 0;
static const char * g_test_case_filename = 0;
static const char * g_report_filename = 0;
static const char * g_default_user = 0;
static const char * g_default_base_dir = 0;
static int g_default_base_port = 0;
static int g_mysqld_use_base = 1;
static int g_do_setup = 0;
static int g_do_deploy = 0;
static int g_do_sshx = 0;
static int g_do_start = 0;
static int g_do_quit = 0;
static int g_report = 0;
static int g_verbosity = 0;
static int g_help = 0;
static int g_verbosity = 1;
static FILE * g_report_file = 0;
static FILE * g_test_case_file = stdin;
static int g_mode = 0;
Logger g_logger;
atrt_config g_config;
static int g_mode_bench = 0;
static int g_mode_regression = 0;
static int g_mode_interactive = 0;
static int g_mode = 0;
static
struct getargs args[] = {
{ "process-config", 0, arg_string, &g_process_config_filename, 0, 0 },
{ "setup-path", 0, arg_string, &g_setup_path, 0, 0 },
{ 0, 'v', arg_counter, &g_verbosity, 0, 0 },
{ "log-file", 0, arg_string, &g_log_filename, 0, 0 },
{ "testcase-file", 'f', arg_string, &g_test_case_filename, 0, 0 },
{ 0, 'R', arg_flag, &g_report, 0, 0 },
{ "report-file", 0, arg_string, &g_report_filename, 0, 0 },
{ "interactive", 'i', arg_flag, &g_mode_interactive, 0, 0 },
{ "regression", 'r', arg_flag, &g_mode_regression, 0, 0 },
{ "bench", 'b', arg_flag, &g_mode_bench, 0, 0 },
const char * g_user = 0;
int g_baseport = 10000;
int g_fqpn = 0;
int g_default_ports = 0;
const char * g_cwd = 0;
const char * g_basedir = 0;
const char * g_my_cnf = 0;
const char * g_prefix = 0;
const char * g_clusters = 0;
BaseString g_replicate;
const char *save_file = 0;
char *save_extra_file = 0;
const char *save_group_suffix = 0;
const char * g_dummy;
char * g_env_path = 0;
/** Dummy, extern declared in ndb_opts.h */
int g_print_full_config = 0, opt_ndb_shm;
my_bool opt_core;
static struct my_option g_options[] =
{
{ "help", '?', "Display this help and exit.",
(gptr*) &g_help, (gptr*) &g_help,
0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0 },
{ "version", 'V', "Output version information and exit.", 0, 0, 0,
GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0 },
{ "clusters", 256, "Cluster",
(gptr*) &g_clusters, (gptr*) &g_clusters,
0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{ "replicate", 1024, "replicate",
(gptr*) &g_dummy, (gptr*) &g_dummy,
0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{ "log-file", 256, "log-file",
(gptr*) &g_log_filename, (gptr*) &g_log_filename,
0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{ "testcase-file", 'f', "testcase-file",
(gptr*) &g_test_case_filename, (gptr*) &g_test_case_filename,
0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{ "report-file", 'r', "report-file",
(gptr*) &g_report_filename, (gptr*) &g_report_filename,
0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{ "basedir", 256, "Base path",
(gptr*) &g_basedir, (gptr*) &g_basedir,
0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{ "baseport", 256, "Base port",
(gptr*) &g_baseport, (gptr*) &g_baseport,
0, GET_INT, REQUIRED_ARG, g_baseport, 0, 0, 0, 0, 0},
{ "prefix", 256, "mysql install dir",
(gptr*) &g_prefix, (gptr*) &g_prefix,
0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{ "verbose", 'v', "Verbosity",
(gptr*) &g_verbosity, (gptr*) &g_verbosity,
0, GET_INT, REQUIRED_ARG, g_verbosity, 0, 0, 0, 0, 0},
{ "configure", 256, "configure",
(gptr*) &g_do_setup, (gptr*) &g_do_setup,
0, GET_INT, REQUIRED_ARG, g_do_setup, 0, 0, 0, 0, 0 },
{ "deploy", 256, "deploy",
(gptr*) &g_do_deploy, (gptr*) &g_do_deploy,
0, GET_INT, REQUIRED_ARG, g_do_deploy, 0, 0, 0, 0, 0 },
{ "sshx", 256, "sshx",
(gptr*) &g_do_sshx, (gptr*) &g_do_sshx,
0, GET_INT, REQUIRED_ARG, g_do_sshx, 0, 0, 0, 0, 0 },
{ "start", 256, "start",
(gptr*) &g_do_start, (gptr*) &g_do_start,
0, GET_INT, REQUIRED_ARG, g_do_start, 0, 0, 0, 0, 0 },
{ "fqpn", 256, "Fully qualified path-names ",
(gptr*) &g_fqpn, (gptr*) &g_fqpn,
0, GET_INT, REQUIRED_ARG, g_fqpn, 0, 0, 0, 0, 0 },
{ "default-ports", 256, "Use default ports when possible",
(gptr*) &g_default_ports, (gptr*) &g_default_ports,
0, GET_INT, REQUIRED_ARG, g_default_ports, 0, 0, 0, 0, 0 },
{ "mode", 256, "Mode 0=interactive 1=regression 2=bench",
(gptr*) &g_mode, (gptr*) &g_mode,
0, GET_INT, REQUIRED_ARG, g_mode, 0, 0, 0, 0, 0 },
{ "quit", 256, "Quit before starting tests",
(gptr*) &g_mode, (gptr*) &g_do_quit,
0, GET_BOOL, NO_ARG, g_do_quit, 0, 0, 0, 0, 0 },
{ 0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}
};
const int arg_count = 10;
const int p_ndb = atrt_process::AP_NDB_MGMD | atrt_process::AP_NDBD;
const int p_servers = atrt_process::AP_MYSQLD;
const int p_clients = atrt_process::AP_CLIENT | atrt_process::AP_NDB_API;
int
main(int argc, const char ** argv){
main(int argc, char ** argv)
{
ndb_init();
bool restart = true;
int lineno = 1;
int test_no = 1;
int return_code = 1;
const int p_ndb = atrt_process::NDB_MGM | atrt_process::NDB_DB;
const int p_servers = atrt_process::MYSQL_SERVER | atrt_process::NDB_REP;
const int p_clients = atrt_process::MYSQL_CLIENT | atrt_process::NDB_API;
g_logger.setCategory(progname);
g_logger.enable(Logger::LL_ALL);
g_logger.createConsoleHandler();
if(!parse_args(argc, argv))
goto end;
g_logger.info("Starting...");
if(!setup_config(g_config))
g_config.m_generated = false;
g_config.m_replication = g_replicate;
if (!setup_config(g_config))
goto end;
if (!configure(g_config, g_do_setup))
goto end;
g_logger.info("Setting up directories");
if (!setup_directories(g_config, g_do_setup))
goto end;
if (g_do_setup)
{
g_logger.info("Setting up files");
if (!setup_files(g_config, g_do_setup, g_do_sshx))
goto end;
}
if (g_do_deploy)
{
if (!deploy(g_config))
goto end;
}
if (g_do_quit)
{
return_code = 0;
goto end;
}
if(!setup_hosts(g_config))
goto end;
if (g_do_sshx)
{
g_logger.info("Starting xterm-ssh");
if (!sshx(g_config, g_do_sshx))
goto end;
g_logger.info("Done...sleeping");
while(true)
{
NdbSleep_SecSleep(1);
}
return_code = 0;
goto end;
}
g_logger.info("Connecting to hosts");
if(!connect_hosts(g_config))
goto end;
if(!setup_hosts(g_config))
if (g_do_start && !g_test_case_filename)
{
g_logger.info("Starting server processes: %x", g_do_start);
if (!start(g_config, g_do_start))
goto end;
g_logger.info("Done...sleeping");
while(true)
{
NdbSleep_SecSleep(1);
}
return_code = 0;
goto end;
}
return_code = 0;
/**
* Main loop
*/
......@@ -114,37 +235,22 @@ main(int argc, const char ** argv){
* Do we need to restart ndb
*/
if(restart){
g_logger.info("(Re)starting ndb processes");
g_logger.info("(Re)starting server processes processes");
if(!stop_processes(g_config, ~0))
goto end;
if(!start_processes(g_config, atrt_process::NDB_MGM))
goto end;
if(!connect_ndb_mgm(g_config)){
if (!setup_directories(g_config, 2))
goto end;
}
if(!start_processes(g_config, atrt_process::NDB_DB))
if (!setup_files(g_config, 2, 1))
goto end;
if(!wait_ndb(g_config, NDB_MGM_NODE_STATUS_NOT_STARTED))
goto end;
for(Uint32 i = 0; i<3; i++)
if(wait_ndb(g_config, NDB_MGM_NODE_STATUS_STARTED))
goto started;
goto end;
started:
if(!start_processes(g_config, p_servers))
goto end;
g_logger.info("Ndb start completed");
if (!start(g_config, p_ndb | p_servers))
goto end;
g_logger.info("All servers start completed");
}
const int start_line = lineno;
// const int start_line = lineno;
atrt_testcase test_case;
if(!read_test_case(g_test_case_file, test_case, lineno))
goto end;
......@@ -165,7 +271,7 @@ main(int argc, const char ** argv){
const time_t start = time(0);
time_t now = start;
do {
if(!update_status(g_config, atrt_process::ALL))
if(!update_status(g_config, atrt_process::AP_ALL))
goto end;
int count = 0;
......@@ -189,7 +295,7 @@ main(int argc, const char ** argv){
result = ERR_MAX_TIME_ELAPSED;
break;
}
sleep(1);
NdbSleep_SecSleep(1);
} while(true);
const time_t elapsed = time(0) - start;
......@@ -197,7 +303,8 @@ main(int argc, const char ** argv){
if(!stop_processes(g_config, p_clients))
goto end;
if(!gather_result(g_config, &result))
int tmp, *rp = result ? &tmp : &result;
if(!gather_result(g_config, rp))
goto end;
g_logger.info("#%d %s(%d)",
......@@ -205,29 +312,35 @@ main(int argc, const char ** argv){
(result == 0 ? "OK" : "FAILED"), result);
if(g_report_file != 0){
fprintf(g_report_file, "%s %s ; %d ; %d ; %ld\n",
test_case.m_command.c_str(),
test_case.m_args.c_str(),
test_no, result, elapsed);
fprintf(g_report_file, "%s ; %d ; %d ; %ld\n",
test_case.m_name.c_str(), test_no, result, elapsed);
fflush(g_report_file);
}
if(test_case.m_report || g_mode_bench || (g_mode_regression && result)){
BaseString tmp;
tmp.assfmt("result.%d", test_no);
if(rename("result", tmp.c_str()) != 0){
g_logger.critical("Failed to rename %s as %s",
"result", tmp.c_str());
goto end;
}
}
if(g_mode_interactive && result){
if(g_mode == 0 && result){
g_logger.info
("Encountered failed test in interactive mode - terminating");
break;
}
BaseString resdir;
resdir.assfmt("result.%d", test_no);
remove_dir(resdir.c_str(), true);
if(test_case.m_report || g_mode == 2 || (g_mode && result))
{
if(rename("result", resdir.c_str()) != 0)
{
g_logger.critical("Failed to rename %s as %s",
"result", resdir.c_str());
goto end;
}
}
else
{
remove_dir("result", true);
}
if(result != 0){
restart = true;
} else {
......@@ -247,276 +360,254 @@ main(int argc, const char ** argv){
g_test_case_file = 0;
}
stop_processes(g_config, atrt_process::ALL);
stop_processes(g_config, atrt_process::AP_ALL);
return return_code;
}
static
my_bool
get_one_option(int arg, const struct my_option * opt, char * value)
{
if (arg == 1024)
{
if (g_replicate.length())
g_replicate.append(";");
g_replicate.append(value);
return 1;
}
return 0;
}
bool
parse_args(int argc, const char** argv){
int optind = 0;
if(getarg(args, arg_count, argc, argv, &optind)) {
arg_printusage(args, arg_count, progname, "");
parse_args(int argc, char** argv)
{
char buf[2048];
if (getcwd(buf, sizeof(buf)) == 0)
{
g_logger.error("Unable to get current working directory");
return false;
}
if(g_log_filename != 0){
g_logger.removeConsoleHandler();
g_logger.addHandler(new FileLogHandler(g_log_filename));
g_cwd = strdup(buf);
struct stat sbuf;
BaseString mycnf;
if (argc > 1 && lstat(argv[argc-1], &sbuf) == 0)
{
mycnf.append(g_cwd);
mycnf.append(PATH_SEPARATOR);
mycnf.append(argv[argc-1]);
}
else
{
int tmp = Logger::LL_WARNING - g_verbosity;
tmp = (tmp < Logger::LL_DEBUG ? Logger::LL_DEBUG : tmp);
g_logger.disable(Logger::LL_ALL);
g_logger.enable(Logger::LL_ON);
g_logger.enable((Logger::LoggerLevel)tmp, Logger::LL_ALERT);
mycnf.append(g_cwd);
mycnf.append(PATH_SEPARATOR);
mycnf.append("my.cnf");
if (lstat(mycnf.c_str(), &sbuf) != 0)
{
g_logger.error("Unable to stat %s", mycnf.c_str());
return false;
}
}
g_logger.info("Bootstrapping using %s", mycnf.c_str());
const char *groups[] = { "atrt", 0 };
int ret = load_defaults(mycnf.c_str(), groups, &argc, &argv);
save_file = defaults_file;
save_extra_file = defaults_extra_file;
save_group_suffix = defaults_group_suffix;
if(!g_process_config_filename){
g_logger.critical("Process config not specified!");
if (save_extra_file)
{
g_logger.error("--defaults-extra-file(%s) is not supported...",
save_extra_file);
return false;
}
if(!g_setup_path){
char buf[1024];
if(getcwd(buf, sizeof(buf))){
g_setup_path = strdup(buf);
g_logger.info("Setup path not specified, using %s", buf);
} else {
g_logger.critical("Setup path not specified!\n");
return false;
}
}
if(g_report & !g_report_filename){
g_report_filename = "report.txt";
if (ret || handle_options(&argc, &argv, g_options, get_one_option))
{
g_logger.error("Failed to load defaults/handle_options");
return false;
}
if(g_report_filename){
g_report_file = fopen(g_report_filename, "w");
if(g_report_file == 0){
g_logger.critical("Unable to create report file: %s", g_report_filename);
return false;
if (argc >= 2)
{
const char * arg = argv[argc-2];
while(* arg)
{
switch(* arg){
case 'c':
g_do_setup = (g_do_setup == 0) ? 1 : g_do_setup;
break;
case 'C':
g_do_setup = 2;
break;
case 'd':
g_do_deploy = 1;
break;
case 'x':
g_do_sshx = atrt_process::AP_CLIENT | atrt_process::AP_NDB_API;
break;
case 'X':
g_do_sshx = atrt_process::AP_ALL;
break;
case 's':
g_do_start = p_ndb;
break;
case 'S':
g_do_start = p_ndb | p_servers;
break;
case 'f':
g_fqpn = 1;
break;
case 'q':
g_do_quit = 1;
break;
default:
g_logger.error("Unknown switch '%c'", *arg);
return false;
}
arg++;
}
}
if(g_test_case_filename){
g_test_case_file = fopen(g_test_case_filename, "r");
if(g_test_case_file == 0){
g_logger.critical("Unable to open file: %s", g_test_case_filename);
return false;
}
if(g_log_filename != 0)
{
g_logger.removeConsoleHandler();
g_logger.addHandler(new FileLogHandler(g_log_filename));
}
int sum = g_mode_interactive + g_mode_regression + g_mode_bench;
if(sum == 0){
g_mode_interactive = 1;
}
if(sum > 1){
g_logger.critical
("Only one of bench/regression/interactive can be specified");
return false;
{
int tmp = Logger::LL_WARNING - g_verbosity;
tmp = (tmp < Logger::LL_DEBUG ? Logger::LL_DEBUG : tmp);
g_logger.disable(Logger::LL_ALL);
g_logger.enable(Logger::LL_ON);
g_logger.enable((Logger::LoggerLevel)tmp, Logger::LL_ALERT);
}
g_default_user = strdup(getenv("LOGNAME"));
return true;
}
static
atrt_host *
find(const BaseString& host, Vector<atrt_host> & hosts){
for(size_t i = 0; i<hosts.size(); i++){
if(hosts[i].m_hostname == host){
return &hosts[i];
}
if(!g_basedir)
{
g_basedir = g_cwd;
g_logger.info("basedir not specified, using %s", g_basedir);
}
return 0;
}
bool
setup_config(atrt_config& config){
FILE * f = fopen(g_process_config_filename, "r");
if(!f){
g_logger.critical("Failed to open process config file: %s",
g_process_config_filename);
return false;
if (!g_prefix)
{
g_prefix = DEFAULT_PREFIX;
}
bool result = true;
int lineno = 0;
char buf[2048];
BaseString connect_string;
int mysql_port_offset = 0;
while(fgets(buf, 2048, f)){
lineno++;
BaseString tmp(buf);
tmp.trim(" \t\n\r");
if(tmp.length() == 0 || tmp == "" || tmp.c_str()[0] == '#')
continue;
Vector<BaseString> split1;
if(tmp.split(split1, ":", 2) != 2){
g_logger.warning("Invalid line %d in %s - ignoring",
lineno, g_process_config_filename);
continue;
/**
* Add path to atrt-*.sh
*/
{
BaseString tmp;
const char* env = getenv("PATH");
if (env && strlen(env))
{
tmp.assfmt("PATH=%s:%s/mysql-test/ndb",
env, g_prefix);
}
if(split1[0].trim() == "basedir"){
g_default_base_dir = strdup(split1[1].trim().c_str());
continue;
else
{
tmp.assfmt("PATH=%s/mysql-test/ndb", g_prefix);
}
g_env_path = strdup(tmp.c_str());
putenv(g_env_path);
}
if (g_help)
{
my_print_help(g_options);
my_print_variables(g_options);
return 0;
}
if(split1[0].trim() == "baseport"){
g_default_base_port = atoi(split1[1].trim().c_str());
continue;
if(g_test_case_filename)
{
g_test_case_file = fopen(g_test_case_filename, "r");
if(g_test_case_file == 0)
{
g_logger.critical("Unable to open file: %s", g_test_case_filename);
return false;
}
if (g_do_setup == 0)
g_do_setup = 2;
if (g_do_start == 0)
g_do_start = p_ndb | p_servers;
if (g_mode == 0)
g_mode = 1;
if(split1[0].trim() == "user"){
g_default_user = strdup(split1[1].trim().c_str());
continue;
if (g_do_sshx)
{
g_logger.critical("ssx specified...not possible with testfile");
return false;
}
if(split1[0].trim() == "mysqld-use-base" && split1[1].trim() == "no"){
g_mysqld_use_base = 0;
continue;
}
if (g_do_setup == 0)
{
BaseString tmp;
tmp.append(g_basedir);
tmp.append(PATH_SEPARATOR);
tmp.append("my.cnf");
if (lstat(tmp.c_str(), &sbuf) != 0)
{
g_logger.error("Unable to stat %s", tmp.c_str());
return false;
}
Vector<BaseString> hosts;
if(split1[1].trim().split(hosts) <= 0){
g_logger.warning("Invalid line %d in %s - ignoring",
lineno, g_process_config_filename);
if (!S_ISREG(sbuf.st_mode))
{
g_logger.error("%s is not a regular file", tmp.c_str());
return false;
}
// 1 - Check hosts
for(size_t i = 0; i<hosts.size(); i++){
Vector<BaseString> tmp;
hosts[i].split(tmp, ":");
BaseString hostname = tmp[0].trim();
BaseString base_dir;
if(tmp.size() >= 2)
base_dir = tmp[1];
else if(g_default_base_dir == 0){
g_logger.critical("Basedir not specified...");
return false;
}
atrt_host * host_ptr;
if((host_ptr = find(hostname, config.m_hosts)) == 0){
atrt_host host;
host.m_index = config.m_hosts.size();
host.m_cpcd = new SimpleCpcClient(hostname.c_str(), 1234);
host.m_base_dir = (base_dir.empty() ? g_default_base_dir : base_dir);
host.m_user = g_default_user;
host.m_hostname = hostname.c_str();
config.m_hosts.push_back(host);
} else {
if(!base_dir.empty() && (base_dir == host_ptr->m_base_dir)){
g_logger.critical("Inconsistent base dir definition for host %s"
", \"%s\" != \"%s\"", hostname.c_str(),
base_dir.c_str(), host_ptr->m_base_dir.c_str());
return false;
}
}
}
for(size_t i = 0; i<hosts.size(); i++){
BaseString & tmp = hosts[i];
atrt_host * host = find(tmp, config.m_hosts);
BaseString & dir = host->m_base_dir;
const int index = config.m_processes.size() + 1;
atrt_process proc;
proc.m_index = index;
proc.m_host = host;
proc.m_proc.m_id = -1;
proc.m_proc.m_type = "temporary";
proc.m_proc.m_owner = "atrt";
proc.m_proc.m_group = "group";
proc.m_proc.m_cwd.assign(dir).append("/run/");
proc.m_proc.m_stdout = "log.out";
proc.m_proc.m_stderr = "2>&1";
proc.m_proc.m_runas = proc.m_host->m_user;
proc.m_proc.m_ulimit = "c:unlimited";
proc.m_proc.m_env.assfmt("MYSQL_BASE_DIR=%s", dir.c_str());
proc.m_proc.m_shutdown_options = "";
proc.m_hostname = proc.m_host->m_hostname;
proc.m_ndb_mgm_port = g_default_base_port;
if(split1[0] == "mgm"){
proc.m_type = atrt_process::NDB_MGM;
proc.m_proc.m_name.assfmt("%d-%s", index, "ndb_mgmd");
proc.m_proc.m_path.assign(dir).append("/libexec/ndb_mgmd");
proc.m_proc.m_args = "--nodaemon -f config.ini";
proc.m_proc.m_cwd.appfmt("%d.ndb_mgmd", index);
connect_string.appfmt("host=%s:%d;",
proc.m_hostname.c_str(), proc.m_ndb_mgm_port);
} else if(split1[0] == "ndb"){
proc.m_type = atrt_process::NDB_DB;
proc.m_proc.m_name.assfmt("%d-%s", index, "ndbd");
proc.m_proc.m_path.assign(dir).append("/libexec/ndbd");
proc.m_proc.m_args = "--initial --nodaemon -n";
proc.m_proc.m_cwd.appfmt("%d.ndbd", index);
} else if(split1[0] == "mysqld"){
proc.m_type = atrt_process::MYSQL_SERVER;
proc.m_proc.m_name.assfmt("%d-%s", index, "mysqld");
proc.m_proc.m_path.assign(dir).append("/libexec/mysqld");
proc.m_proc.m_args = "--core-file --ndbcluster";
proc.m_proc.m_cwd.appfmt("%d.mysqld", index);
proc.m_proc.m_shutdown_options = "SIGKILL"; // not nice
} else if(split1[0] == "api"){
proc.m_type = atrt_process::NDB_API;
proc.m_proc.m_name.assfmt("%d-%s", index, "ndb_api");
proc.m_proc.m_path = "";
proc.m_proc.m_args = "";
proc.m_proc.m_cwd.appfmt("%d.ndb_api", index);
} else if(split1[0] == "mysql"){
proc.m_type = atrt_process::MYSQL_CLIENT;
proc.m_proc.m_name.assfmt("%d-%s", index, "mysql");
proc.m_proc.m_path = "";
proc.m_proc.m_args = "";
proc.m_proc.m_cwd.appfmt("%d.mysql", index);
} else {
g_logger.critical("%s:%d: Unhandled process type: %s",
g_process_config_filename, lineno,
split1[0].c_str());
result = false;
goto end;
}
config.m_processes.push_back(proc);
g_my_cnf = strdup(tmp.c_str());
g_logger.info("Using %s", tmp.c_str());
}
else
{
g_my_cnf = strdup(mycnf.c_str());
}
g_logger.info("Using --prefix=\"%s\"", g_prefix);
if(g_report_filename)
{
g_report_file = fopen(g_report_filename, "w");
if(g_report_file == 0)
{
g_logger.critical("Unable to create report file: %s", g_report_filename);
return false;
}
}
// Setup connect string
for(size_t i = 0; i<config.m_processes.size(); i++){
config.m_processes[i].m_proc.m_env.appfmt(" NDB_CONNECTSTRING=%s",
connect_string.c_str());
if (g_clusters == 0)
{
g_logger.critical("No clusters specified");
return false;
}
end:
fclose(f);
return result;
g_user = strdup(getenv("LOGNAME"));
return true;
}
bool
connect_hosts(atrt_config& config){
for(size_t i = 0; i<config.m_hosts.size(); i++){
if(config.m_hosts[i].m_cpcd->connect() != 0){
if(config.m_hosts[i]->m_cpcd->connect() != 0){
g_logger.error("Unable to connect to cpc %s:%d",
config.m_hosts[i].m_cpcd->getHost(),
config.m_hosts[i].m_cpcd->getPort());
config.m_hosts[i]->m_cpcd->getHost(),
config.m_hosts[i]->m_cpcd->getPort());
return false;
}
g_logger.debug("Connected to %s:%d",
config.m_hosts[i].m_cpcd->getHost(),
config.m_hosts[i].m_cpcd->getPort());
config.m_hosts[i]->m_cpcd->getHost(),
config.m_hosts[i]->m_cpcd->getPort());
}
return true;
......@@ -529,8 +620,10 @@ connect_ndb_mgm(atrt_process & proc){
g_logger.critical("Unable to create mgm handle");
return false;
}
BaseString tmp = proc.m_hostname;
tmp.appfmt(":%d", proc.m_ndb_mgm_port);
BaseString tmp = proc.m_host->m_hostname;
const char * val;
proc.m_options.m_loaded.get("--PortNumber=", &val);
tmp.appfmt(":%s", val);
if (ndb_mgm_set_connectstring(handle,tmp.c_str()))
{
......@@ -551,8 +644,8 @@ connect_ndb_mgm(atrt_process & proc){
bool
connect_ndb_mgm(atrt_config& config){
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
if((proc.m_type & atrt_process::NDB_MGM) != 0){
atrt_process & proc = *config.m_processes[i];
if((proc.m_type & atrt_process::AP_NDB_MGMD) != 0){
if(!connect_ndb_mgm(proc)){
return false;
}
......@@ -573,100 +666,110 @@ wait_ndb(atrt_config& config, int goal){
goal = remap(goal);
/**
* Get mgm handle for cluster
*/
NdbMgmHandle handle = 0;
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
if((proc.m_type & atrt_process::NDB_MGM) != 0){
handle = proc.m_ndb_mgm_handle;
break;
}
}
if(handle == 0){
g_logger.critical("Unable to find mgm handle");
return false;
}
if(goal == NDB_MGM_NODE_STATUS_STARTED){
size_t cnt = 0;
for (size_t i = 0; i<config.m_clusters.size(); i++)
{
atrt_cluster* cluster = config.m_clusters[i];
/**
* 1) wait NOT_STARTED
* 2) send start
* 3) wait STARTED
* Get mgm handle for cluster
*/
if(!wait_ndb(config, NDB_MGM_NODE_STATUS_NOT_STARTED))
NdbMgmHandle handle = 0;
for(size_t j = 0; j<cluster->m_processes.size(); j++){
atrt_process & proc = *cluster->m_processes[j];
if((proc.m_type & atrt_process::AP_NDB_MGMD) != 0){
handle = proc.m_ndb_mgm_handle;
break;
}
}
if(handle == 0){
g_logger.critical("Unable to find mgm handle");
return false;
}
ndb_mgm_start(handle, 0, 0);
}
struct ndb_mgm_cluster_state * state;
time_t now = time(0);
time_t end = now + 360;
int min = remap(NDB_MGM_NODE_STATUS_NO_CONTACT);
int min2 = goal;
while(now < end){
/**
* 1) retreive current state
*/
state = 0;
do {
state = ndb_mgm_get_status(handle);
if(state == 0){
const int err = ndb_mgm_get_latest_error(handle);
g_logger.error("Unable to poll db state: %d %s %s",
ndb_mgm_get_latest_error(handle),
ndb_mgm_get_latest_error_msg(handle),
ndb_mgm_get_latest_error_desc(handle));
if(err == NDB_MGM_SERVER_NOT_CONNECTED && connect_ndb_mgm(config)){
g_logger.error("Reconnected...");
continue;
}
if(goal == NDB_MGM_NODE_STATUS_STARTED){
/**
* 1) wait NOT_STARTED
* 2) send start
* 3) wait STARTED
*/
if(!wait_ndb(config, NDB_MGM_NODE_STATUS_NOT_STARTED))
return false;
}
} while(state == 0);
NdbAutoPtr<void> tmp(state);
ndb_mgm_start(handle, 0, 0);
}
struct ndb_mgm_cluster_state * state;
time_t now = time(0);
time_t end = now + 360;
int min = remap(NDB_MGM_NODE_STATUS_NO_CONTACT);
int min2 = goal;
min2 = goal;
for(int i = 0; i<state->no_of_nodes; i++){
if(state->node_states[i].node_type == NDB_MGM_NODE_TYPE_NDB){
const int s = remap(state->node_states[i].node_status);
min2 = (min2 < s ? min2 : s );
if(s < remap(NDB_MGM_NODE_STATUS_NO_CONTACT) ||
s > NDB_MGM_NODE_STATUS_STARTED){
g_logger.critical("Strange DB status during start: %d %d", i, min2);
while(now < end){
/**
* 1) retreive current state
*/
state = 0;
do {
state = ndb_mgm_get_status(handle);
if(state == 0){
const int err = ndb_mgm_get_latest_error(handle);
g_logger.error("Unable to poll db state: %d %s %s",
ndb_mgm_get_latest_error(handle),
ndb_mgm_get_latest_error_msg(handle),
ndb_mgm_get_latest_error_desc(handle));
if(err == NDB_MGM_SERVER_NOT_CONNECTED && connect_ndb_mgm(config)){
g_logger.error("Reconnected...");
continue;
}
return false;
}
if(min2 < min){
g_logger.critical("wait ndb failed node: %d %d %d %d",
state->node_states[i].node_id, min, min2, goal);
} while(state == 0);
NdbAutoPtr<void> tmp(state);
min2 = goal;
for(int j = 0; j<state->no_of_nodes; j++){
if(state->node_states[j].node_type == NDB_MGM_NODE_TYPE_NDB){
const int s = remap(state->node_states[j].node_status);
min2 = (min2 < s ? min2 : s );
if(s < remap(NDB_MGM_NODE_STATUS_NO_CONTACT) ||
s > NDB_MGM_NODE_STATUS_STARTED){
g_logger.critical("Strange DB status during start: %d %d",
j, min2);
return false;
}
if(min2 < min){
g_logger.critical("wait ndb failed node: %d %d %d %d",
state->node_states[j].node_id, min, min2, goal);
}
}
}
if(min2 < min){
g_logger.critical("wait ndb failed %d %d %d", min, min2, goal);
return false;
}
if(min2 == goal){
cnt++;
goto next;
}
min = min2;
now = time(0);
}
if(min2 < min){
g_logger.critical("wait ndb failed %d %d %d", min, min2, goal);
return false;
}
if(min2 == goal){
return true;
break;
}
min = min2;
now = time(0);
g_logger.critical("wait ndb timed out %d %d %d", min, min2, goal);
break;
next:
;
}
g_logger.critical("wait ndb timed out %d %d %d", min, min2, goal);
return false;
return cnt == config.m_clusters.size();
}
bool
......@@ -676,21 +779,19 @@ start_process(atrt_process & proc){
return false;
}
BaseString path = proc.m_proc.m_cwd.substr(proc.m_host->m_base_dir.length()+BaseString("/run").length());
BaseString tmp = g_setup_progname;
tmp.appfmt(" %s %s/%s/ %s",
tmp.appfmt(" %s %s/ %s",
proc.m_host->m_hostname.c_str(),
g_setup_path,
path.c_str(),
proc.m_proc.m_cwd.c_str(),
proc.m_proc.m_cwd.c_str());
g_logger.debug("system(%s)", tmp.c_str());
const int r1 = system(tmp.c_str());
if(r1 != 0){
g_logger.critical("Failed to setup process");
return false;
}
{
Properties reply;
if(proc.m_host->m_cpcd->define_process(proc.m_proc, reply) != 0){
......@@ -715,7 +816,7 @@ start_process(atrt_process & proc){
bool
start_processes(atrt_config& config, int types){
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
atrt_process & proc = *config.m_processes[i];
if((types & proc.m_type) != 0 && proc.m_proc.m_path != ""){
if(!start_process(proc)){
return false;
......@@ -760,7 +861,7 @@ stop_process(atrt_process & proc){
bool
stop_processes(atrt_config& config, int types){
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
atrt_process & proc = *config.m_processes[i];
if((types & proc.m_type) != 0){
if(!stop_process(proc)){
return false;
......@@ -779,11 +880,11 @@ update_status(atrt_config& config, int){
m_procs.fill(config.m_hosts.size(), dummy);
for(size_t i = 0; i<config.m_hosts.size(); i++){
Properties p;
config.m_hosts[i].m_cpcd->list_processes(m_procs[i], p);
config.m_hosts[i]->m_cpcd->list_processes(m_procs[i], p);
}
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
atrt_process & proc = *config.m_processes[i];
if(proc.m_proc.m_id != -1){
Vector<SimpleCpcClient::Process> &h_procs= m_procs[proc.m_host->m_index];
bool found = false;
......@@ -798,7 +899,7 @@ update_status(atrt_config& config, int){
g_logger.error("update_status: not found");
g_logger.error("id: %d host: %s cmd: %s",
proc.m_proc.m_id,
proc.m_hostname.c_str(),
proc.m_host->m_hostname.c_str(),
proc.m_proc.m_path.c_str());
for(size_t j = 0; j<h_procs.size(); j++){
g_logger.error("found: %d %s", h_procs[j].m_id,
......@@ -815,7 +916,7 @@ int
is_running(atrt_config& config, int types){
int found = 0, running = 0;
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
atrt_process & proc = *config.m_processes[i];
if((types & proc.m_type) != 0){
found++;
if(proc.m_proc.m_status == "running")
......@@ -910,12 +1011,24 @@ read_test_case(FILE * file, atrt_testcase& tc, int& line){
tc.m_run_all= true;
else
tc.m_run_all= false;
if (!p.get("name", &mt))
{
tc.m_name.assfmt("%s %s",
tc.m_command.c_str(),
tc.m_args.c_str());
}
else
{
tc.m_name.assign(mt);
}
return true;
}
bool
setup_test_case(atrt_config& config, const atrt_testcase& tc){
g_logger.debug("system(%s)", g_clear_progname);
const int r1 = system(g_clear_progname);
if(r1 != 0){
g_logger.critical("Failed to clear result");
......@@ -923,19 +1036,24 @@ setup_test_case(atrt_config& config, const atrt_testcase& tc){
}
size_t i = 0;
for(; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
if(proc.m_type == atrt_process::NDB_API || proc.m_type == atrt_process::MYSQL_CLIENT){
proc.m_proc.m_path.assfmt("%s/bin/%s", proc.m_host->m_base_dir.c_str(),
tc.m_command.c_str());
for(; i<config.m_processes.size(); i++)
{
atrt_process & proc = *config.m_processes[i];
if(proc.m_type == atrt_process::AP_NDB_API || proc.m_type == atrt_process::AP_CLIENT){
proc.m_proc.m_path = "";
if (tc.m_command.c_str()[0] != '/')
{
proc.m_proc.m_path.appfmt("%s/bin/", g_prefix);
}
proc.m_proc.m_path.append(tc.m_command.c_str());
proc.m_proc.m_args.assign(tc.m_args);
if(!tc.m_run_all)
break;
}
}
for(i++; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
if(proc.m_type == atrt_process::NDB_API || proc.m_type == atrt_process::MYSQL_CLIENT){
atrt_process & proc = *config.m_processes[i];
if(proc.m_type == atrt_process::AP_NDB_API || proc.m_type == atrt_process::AP_CLIENT){
proc.m_proc.m_path.assign("");
proc.m_proc.m_args.assign("");
}
......@@ -946,24 +1064,27 @@ setup_test_case(atrt_config& config, const atrt_testcase& tc){
bool
gather_result(atrt_config& config, int * result){
BaseString tmp = g_gather_progname;
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i];
if(proc.m_proc.m_path != ""){
tmp.appfmt(" %s:%s",
proc.m_hostname.c_str(),
proc.m_proc.m_cwd.c_str());
for(size_t i = 0; i<config.m_hosts.size(); i++)
{
tmp.appfmt(" %s:%s/*",
config.m_hosts[i]->m_hostname.c_str(),
config.m_hosts[i]->m_basedir.c_str());
g_logger.debug("system(%s)", tmp.c_str());
const int r1 = system(tmp.c_str());
if(r1 != 0)
{
g_logger.critical("Failed to gather result!");
return false;
}
}
const int r1 = system(tmp.c_str());
if(r1 != 0){
g_logger.critical("Failed to gather result");
return false;
}
g_logger.debug("system(%s)", g_analyze_progname);
const int r2 = system(g_analyze_progname);
if(r2 == -1 || r2 == (127 << 8)){
if(r2 == -1 || r2 == (127 << 8))
{
g_logger.critical("Failed to analyze results");
return false;
}
......@@ -974,6 +1095,7 @@ gather_result(atrt_config& config, int * result){
bool
setup_hosts(atrt_config& config){
g_logger.debug("system(%s)", g_clear_progname);
const int r1 = system(g_clear_progname);
if(r1 != 0){
g_logger.critical("Failed to clear result");
......@@ -982,21 +1104,143 @@ setup_hosts(atrt_config& config){
for(size_t i = 0; i<config.m_hosts.size(); i++){
BaseString tmp = g_setup_progname;
tmp.appfmt(" %s %s/ %s/run",
config.m_hosts[i].m_hostname.c_str(),
g_setup_path,
config.m_hosts[i].m_base_dir.c_str());
tmp.appfmt(" %s %s/ %s/",
config.m_hosts[i]->m_hostname.c_str(),
g_basedir,
config.m_hosts[i]->m_basedir.c_str());
g_logger.debug("system(%s)", tmp.c_str());
const int r1 = system(tmp.c_str());
if(r1 != 0){
g_logger.critical("Failed to setup %s",
config.m_hosts[i].m_hostname.c_str());
config.m_hosts[i]->m_hostname.c_str());
return false;
}
}
return true;
}
bool
deploy(atrt_config & config)
{
for (size_t i = 0; i<config.m_hosts.size(); i++)
{
BaseString tmp = g_setup_progname;
tmp.appfmt(" %s %s/ %s",
config.m_hosts[i]->m_hostname.c_str(),
g_prefix,
g_prefix);
g_logger.info("rsyncing %s to %s", g_prefix,
config.m_hosts[i]->m_hostname.c_str());
g_logger.debug("system(%s)", tmp.c_str());
const int r1 = system(tmp.c_str());
if(r1 != 0)
{
g_logger.critical("Failed to rsync %s to %s",
g_prefix,
config.m_hosts[i]->m_hostname.c_str());
return false;
}
}
return true;
}
bool
sshx(atrt_config & config, unsigned mask)
{
for (size_t i = 0; i<config.m_processes.size(); i++)
{
atrt_process & proc = *config.m_processes[i];
BaseString tmp;
const char * type = 0;
switch(proc.m_type){
case atrt_process::AP_NDB_MGMD:
type = (mask & proc.m_type) ? "ndb_mgmd" : 0;
break;
case atrt_process::AP_NDBD:
type = (mask & proc.m_type) ? "ndbd" : 0;
break;
case atrt_process::AP_MYSQLD:
type = (mask & proc.m_type) ? "mysqld" : 0;
break;
case atrt_process::AP_NDB_API:
type = (mask & proc.m_type) ? "ndbapi" : 0;
break;
case atrt_process::AP_CLIENT:
type = (mask & proc.m_type) ? "client" : 0;
break;
default:
type = "<unknown>";
}
if (type == 0)
continue;
tmp.appfmt("xterm -fg black -title \"%s(%s) on %s\""
" -e 'ssh -t -X %s sh %s/ssh-login.sh' &",
type,
proc.m_cluster->m_name.c_str(),
proc.m_host->m_hostname.c_str(),
proc.m_host->m_hostname.c_str(),
proc.m_proc.m_cwd.c_str());
g_logger.debug("system(%s)", tmp.c_str());
const int r1 = system(tmp.c_str());
if(r1 != 0)
{
g_logger.critical("Failed sshx (%s)",
tmp.c_str());
return false;
}
NdbSleep_MilliSleep(300); // To prevent xlock problem
}
return true;
}
bool
start(atrt_config & config, unsigned proc_mask)
{
if (proc_mask & atrt_process::AP_NDB_MGMD)
if(!start_processes(g_config, atrt_process::AP_NDB_MGMD))
return false;
if (proc_mask & atrt_process::AP_NDBD)
{
if(!connect_ndb_mgm(g_config)){
return false;
}
if(!start_processes(g_config, atrt_process::AP_NDBD))
return false;
if(!wait_ndb(g_config, NDB_MGM_NODE_STATUS_NOT_STARTED))
return false;
for(Uint32 i = 0; i<3; i++)
if(wait_ndb(g_config, NDB_MGM_NODE_STATUS_STARTED))
goto started;
return false;
}
started:
if(!start_processes(g_config, p_servers & proc_mask))
return false;
return true;
}
void
require(bool x)
{
if (!x)
abort();
}
template class Vector<Vector<SimpleCpcClient::Process> >;
template class Vector<atrt_host>;
template class Vector<atrt_process>;
template class Vector<atrt_host*>;
template class Vector<atrt_cluster*>;
template class Vector<atrt_process*>;
#include "atrt.hpp"
#include <ndb_global.h>
#include <my_sys.h>
#include <my_getopt.h>
#include <NdbOut.hpp>
static NdbOut& operator<<(NdbOut& out, const atrt_process& proc);
static atrt_host * find(const char * hostname, Vector<atrt_host*>&);
static bool load_process(atrt_config&, atrt_cluster&, atrt_process::Type,
size_t idx, const char * hostname);
static bool load_options(int argc, char** argv, int type, atrt_options&);
enum {
PO_NDB = atrt_options::AO_NDBCLUSTER
,PO_REP_SLAVE = 256
,PO_REP_MASTER = 512
,PO_REP = (atrt_options::AO_REPLICATION | PO_REP_SLAVE | PO_REP_MASTER)
};
struct proc_option
{
const char * name;
int type;
int options;
};
static
struct proc_option f_options[] = {
{ "--FileSystemPath=", atrt_process::AP_NDBD, 0 }
,{ "--PortNumber=", atrt_process::AP_NDB_MGMD, 0 }
,{ "--datadir=", atrt_process::AP_MYSQLD, 0 }
,{ "--socket=", atrt_process::AP_MYSQLD | atrt_process::AP_CLIENT, 0 }
,{ "--port=", atrt_process::AP_MYSQLD | atrt_process::AP_CLIENT, 0 }
,{ "--server-id=", atrt_process::AP_MYSQLD, PO_REP }
,{ "--log-bin", atrt_process::AP_MYSQLD, PO_REP_MASTER }
,{ "--master-host=", atrt_process::AP_MYSQLD, PO_REP_SLAVE }
,{ "--master-port=", atrt_process::AP_MYSQLD, PO_REP_SLAVE }
,{ "--master-user=", atrt_process::AP_MYSQLD, PO_REP_SLAVE }
,{ "--master-password=", atrt_process::AP_MYSQLD, PO_REP_SLAVE }
,{ "--ndb-connectstring=", atrt_process::AP_MYSQLD | atrt_process::AP_CLUSTER
,PO_NDB }
,{ "--ndbcluster", atrt_process::AP_MYSQLD, PO_NDB }
,{ 0, 0, 0 }
};
const char * ndbcs = "--ndb-connectstring=";
bool
setup_config(atrt_config& config)
{
BaseString tmp(g_clusters);
Vector<BaseString> clusters;
tmp.split(clusters, ",");
bool fqpn = clusters.size() > 1 || g_fqpn;
size_t j,k;
for (size_t i = 0; i<clusters.size(); i++)
{
struct atrt_cluster *cluster = new atrt_cluster;
config.m_clusters.push_back(cluster);
cluster->m_name = clusters[i];
if (fqpn)
{
cluster->m_dir.assfmt("cluster%s/", cluster->m_name.c_str());
}
else
{
cluster->m_dir = "";
}
int argc = 1;
const char * argv[] = { "atrt", 0, 0 };
BaseString buf;
buf.assfmt("--defaults-group-suffix=%s", clusters[i].c_str());
argv[argc++] = buf.c_str();
char ** tmp = (char**)argv;
const char *groups[] = { "cluster_config", 0 };
int ret = load_defaults(g_my_cnf, groups, &argc, &tmp);
if (ret)
{
g_logger.error("Unable to load defaults for cluster: %s",
clusters[i].c_str());
return false;
}
struct
{
atrt_process::Type type;
const char * name;
const char * value;
} proc_args[] = {
{ atrt_process::AP_NDB_MGMD, "--ndb_mgmd=", 0 },
{ atrt_process::AP_NDBD, "--ndbd=", 0 },
{ atrt_process::AP_NDB_API, "--ndbapi=", 0 },
{ atrt_process::AP_NDB_API, "--api=", 0 },
{ atrt_process::AP_MYSQLD, "--mysqld=", 0 },
{ atrt_process::AP_ALL, 0, 0}
};
/**
* Find all processes...
*/
for (j = 0; j<(size_t)argc; j++)
{
for (k = 0; proc_args[k].name; k++)
{
if (!strncmp(tmp[j], proc_args[k].name, strlen(proc_args[k].name)))
{
proc_args[k].value = tmp[j] + strlen(proc_args[k].name);
break;
}
}
}
/**
* Load each process
*/
for (j = 0; proc_args[j].name; j++)
{
if (proc_args[j].value)
{
BaseString tmp(proc_args[j].value);
Vector<BaseString> list;
tmp.split(list, ",");
for (k = 0; k<list.size(); k++)
if (!load_process(config, *cluster, proc_args[j].type,
k + 1, list[k].c_str()))
return false;
}
}
{
/**
* Load cluster options
*/
argc = 1;
argv[argc++] = buf.c_str();
const char *groups[] = { "mysql_cluster", 0 };
ret = load_defaults(g_my_cnf, groups, &argc, &tmp);
if (ret)
{
g_logger.error("Unable to load defaults for cluster: %s",
clusters[i].c_str());
return false;
}
load_options(argc, tmp, atrt_process::AP_CLUSTER, cluster->m_options);
}
}
return true;
}
static
atrt_host *
find(const char * hostname, Vector<atrt_host*> & hosts){
for (size_t i = 0; i<hosts.size(); i++){
if (hosts[i]->m_hostname == hostname){
return hosts[i];
}
}
atrt_host* host = new atrt_host;
host->m_index = hosts.size();
host->m_cpcd = new SimpleCpcClient(hostname, 1234);
host->m_basedir = g_basedir;
host->m_user = g_user;
host->m_hostname = hostname;
hosts.push_back(host);
return host;
}
static
bool
load_process(atrt_config& config, atrt_cluster& cluster,
atrt_process::Type type,
size_t idx,
const char * hostname)
{
atrt_host * host_ptr = find(hostname, config.m_hosts);
atrt_process *proc_ptr = new atrt_process;
config.m_processes.push_back(proc_ptr);
host_ptr->m_processes.push_back(proc_ptr);
cluster.m_processes.push_back(proc_ptr);
atrt_process& proc = *proc_ptr;
const size_t proc_no = config.m_processes.size();
proc.m_index = idx;
proc.m_type = type;
proc.m_host = host_ptr;
proc.m_cluster = &cluster;
proc.m_options.m_features = 0;
proc.m_rep_src = 0;
proc.m_proc.m_id = -1;
proc.m_proc.m_type = "temporary";
proc.m_proc.m_owner = "atrt";
proc.m_proc.m_group = cluster.m_name.c_str();
proc.m_proc.m_stdout = "log.out";
proc.m_proc.m_stderr = "2>&1";
proc.m_proc.m_runas = proc.m_host->m_user;
proc.m_proc.m_ulimit = "c:unlimited";
proc.m_proc.m_env.assfmt("MYSQL_BASE_DIR=%s", g_prefix);
proc.m_proc.m_env.appfmt(" MYSQL_HOME=%s", g_basedir);
proc.m_proc.m_shutdown_options = "";
int argc = 1;
const char * argv[] = { "atrt", 0, 0 };
BaseString buf[10];
char ** tmp = (char**)argv;
const char *groups[] = { 0, 0, 0, 0 };
switch(type){
case atrt_process::AP_NDB_MGMD:
groups[0] = "cluster_config";
buf[1].assfmt("cluster_config.ndb_mgmd.%d", idx);
groups[1] = buf[1].c_str();
buf[0].assfmt("--defaults-group-suffix=%s", cluster.m_name.c_str());
argv[argc++] = buf[0].c_str();
break;
case atrt_process::AP_NDBD:
groups[0] = "cluster_config";
buf[1].assfmt("cluster_config.ndbd.%d", idx);
groups[1] = buf[1].c_str();
buf[0].assfmt("--defaults-group-suffix=%s", cluster.m_name.c_str());
argv[argc++] = buf[0].c_str();
break;
case atrt_process::AP_MYSQLD:
groups[0] = "mysqld";
groups[1] = "mysql_cluster";
buf[0].assfmt("--defaults-group-suffix=.%d%s",idx,cluster.m_name.c_str());
argv[argc++] = buf[0].c_str();
break;
case atrt_process::AP_CLIENT:
buf[0].assfmt("client.%d%s", idx, cluster.m_name.c_str());
groups[0] = buf[0].c_str();
break;
case atrt_process::AP_NDB_API:
break;
default:
g_logger.critical("Unhandled process type: %d", type);
return false;
}
int ret = load_defaults(g_my_cnf, groups, &argc, &tmp);
if (ret)
{
g_logger.error("Unable to load defaults for cluster: %s",
cluster.m_name.c_str());
return false;
}
load_options(argc, tmp, type, proc.m_options);
BaseString dir;
dir.assfmt("%s/%s",
proc.m_host->m_basedir.c_str(),
cluster.m_dir.c_str());
switch(type){
case atrt_process::AP_NDB_MGMD:
{
proc.m_proc.m_name.assfmt("%d-%s", proc_no, "ndb_mgmd");
proc.m_proc.m_path.assign(g_prefix).append("/libexec/ndb_mgmd");
proc.m_proc.m_args.assfmt("--defaults-file=%s/my.cnf",
proc.m_host->m_basedir.c_str());
proc.m_proc.m_args.appfmt(" --defaults-group-suffix=%s",
cluster.m_name.c_str());
proc.m_proc.m_args.append(" --nodaemon --mycnf");
proc.m_proc.m_cwd.assfmt("%sndb_mgmd.%d", dir.c_str(), proc.m_index);
proc.m_proc.m_env.appfmt(" MYSQL_GROUP_SUFFIX=%s",
cluster.m_name.c_str());
break;
}
case atrt_process::AP_NDBD:
{
proc.m_proc.m_name.assfmt("%d-%s", proc_no, "ndbd");
proc.m_proc.m_path.assign(g_prefix).append("/libexec/ndbd");
proc.m_proc.m_args.assfmt("--defaults-file=%s/my.cnf",
proc.m_host->m_basedir.c_str());
proc.m_proc.m_args.appfmt(" --defaults-group-suffix=%s",
cluster.m_name.c_str());
proc.m_proc.m_args.append(" --nodaemon -n");
proc.m_proc.m_cwd.assfmt("%sndbd.%d", dir.c_str(), proc.m_index);
proc.m_proc.m_env.appfmt(" MYSQL_GROUP_SUFFIX=%s",
cluster.m_name.c_str());
break;
}
case atrt_process::AP_MYSQLD:
{
proc.m_proc.m_name.assfmt("%d-%s", proc_no, "mysqld");
proc.m_proc.m_path.assign(g_prefix).append("/libexec/mysqld");
proc.m_proc.m_args.assfmt("--defaults-file=%s/my.cnf",
proc.m_host->m_basedir.c_str());
proc.m_proc.m_args.appfmt(" --defaults-group-suffix=.%d%s",
proc.m_index,
cluster.m_name.c_str());
proc.m_proc.m_args.append(" --core-file");
proc.m_proc.m_cwd.appfmt("%smysqld.%d", dir.c_str(), proc.m_index);
proc.m_proc.m_shutdown_options = "SIGKILL"; // not nice
proc.m_proc.m_env.appfmt(" MYSQL_GROUP_SUFFIX=.%d%s",
proc.m_index,
cluster.m_name.c_str());
break;
}
case atrt_process::AP_NDB_API:
{
proc.m_proc.m_name.assfmt("%d-%s", proc_no, "ndb_api");
proc.m_proc.m_path = "";
proc.m_proc.m_args = "";
proc.m_proc.m_cwd.appfmt("%sndb_api.%d", dir.c_str(), proc.m_index);
proc.m_proc.m_env.appfmt(" MYSQL_GROUP_SUFFIX=%s",
cluster.m_name.c_str());
break;
}
case atrt_process::AP_CLIENT:
{
proc.m_proc.m_name.assfmt("%d-%s", proc_no, "mysql");
proc.m_proc.m_path = "";
proc.m_proc.m_args = "";
proc.m_proc.m_cwd.appfmt("%s/client.%d", dir.c_str(), proc.m_index);
proc.m_proc.m_env.appfmt(" MYSQL_GROUP_SUFFIX=.%d%s",
proc.m_index,
cluster.m_name.c_str());
break;
}
case atrt_process::AP_ALL:
case atrt_process::AP_CLUSTER:
g_logger.critical("Unhandled process type: %d", proc.m_type);
return false;
}
if (proc.m_proc.m_path.length())
{
proc.m_proc.m_env.appfmt(" CMD=\"%s", proc.m_proc.m_path.c_str());
if (proc.m_proc.m_args.length())
proc.m_proc.m_env.append(" ");
proc.m_proc.m_env.append(proc.m_proc.m_args);
proc.m_proc.m_env.append("\" ");
}
if (type == atrt_process::AP_MYSQLD)
{
/**
* Add a client for each mysqld
*/
if (!load_process(config, cluster, atrt_process::AP_CLIENT, idx, hostname))
{
return false;
}
}
if (type == atrt_process::AP_CLIENT)
{
proc.m_mysqld = cluster.m_processes[cluster.m_processes.size()-2];
}
return true;
}
static
bool
load_options(int argc, char** argv, int type, atrt_options& opts)
{
for (size_t i = 0; i<(size_t)argc; i++)
{
for (size_t j = 0; f_options[j].name; j++)
{
const char * name = f_options[j].name;
const size_t len = strlen(name);
if ((f_options[j].type & type) && strncmp(argv[i], name, len) == 0)
{
opts.m_loaded.put(name, argv[i]+len, true);
break;
}
}
}
return true;
}
struct proc_rule_ctx
{
int m_setup;
atrt_config* m_config;
atrt_host * m_host;
atrt_cluster* m_cluster;
atrt_process* m_process;
};
struct proc_rule
{
int type;
bool (* func)(Properties& prop, proc_rule_ctx&, int extra);
int extra;
};
static bool pr_check_replication(Properties&, proc_rule_ctx&, int);
static bool pr_check_features(Properties&, proc_rule_ctx&, int);
static bool pr_fix_client(Properties&, proc_rule_ctx&, int);
static bool pr_proc_options(Properties&, proc_rule_ctx&, int);
static bool pr_fix_ndb_connectstring(Properties&, proc_rule_ctx&, int);
static bool pr_set_ndb_connectstring(Properties&, proc_rule_ctx&, int);
static bool pr_check_proc(Properties&, proc_rule_ctx&, int);
static
proc_rule f_rules[] =
{
{ atrt_process::AP_CLUSTER, pr_check_features, 0 }
,{ atrt_process::AP_MYSQLD, pr_check_replication, 0 }
,{ (atrt_process::AP_ALL & ~atrt_process::AP_CLIENT), pr_proc_options,
~(PO_REP | PO_NDB) }
,{ (atrt_process::AP_ALL & ~atrt_process::AP_CLIENT), pr_proc_options, PO_REP }
,{ atrt_process::AP_CLIENT, pr_fix_client, 0 }
,{ atrt_process::AP_CLUSTER, pr_fix_ndb_connectstring, 0 }
,{ atrt_process::AP_MYSQLD, pr_set_ndb_connectstring, 0 }
,{ atrt_process::AP_ALL, pr_check_proc, 0 }
,{ 0, 0, 0 }
};
bool
configure(atrt_config& config, int setup)
{
Properties props;
for (size_t i = 0; f_rules[i].func; i++)
{
bool ok = true;
proc_rule_ctx ctx;
bzero(&ctx, sizeof(ctx));
ctx.m_setup = setup;
ctx.m_config = &config;
for (size_t j = 0; j < config.m_clusters.size(); j++)
{
ctx.m_cluster = config.m_clusters[j];
if (f_rules[i].type & atrt_process::AP_CLUSTER)
{
g_logger.debug("applying rule %d to cluster %s", i,
ctx.m_cluster->m_name.c_str());
if (! (* f_rules[i].func)(props, ctx, f_rules[i].extra))
ok = false;
}
else
{
atrt_cluster& cluster = *config.m_clusters[j];
for (size_t k = 0; k<cluster.m_processes.size(); k++)
{
atrt_process& proc = *cluster.m_processes[k];
ctx.m_process = cluster.m_processes[k];
if (proc.m_type & f_rules[i].type)
{
g_logger.debug("applying rule %d to %s", i,
proc.m_proc.m_cwd.c_str());
if (! (* f_rules[i].func)(props, ctx, f_rules[i].extra))
ok = false;
}
}
}
}
if (!ok)
{
return false;
}
}
return true;
}
static
atrt_process*
find(atrt_config& config, int type, const char * name)
{
BaseString tmp(name);
Vector<BaseString> src;
Vector<BaseString> dst;
tmp.split(src, ".");
if (src.size() != 2)
{
return 0;
}
atrt_cluster* cluster = 0;
BaseString cl;
cl.appfmt(".%s", src[1].c_str());
for (size_t i = 0; i<config.m_clusters.size(); i++)
{
if (config.m_clusters[i]->m_name == cl)
{
cluster = config.m_clusters[i];
break;
}
}
if (cluster == 0)
{
return 0;
}
int idx = atoi(src[0].c_str()) - 1;
for (size_t i = 0; i<cluster->m_processes.size(); i++)
{
if (cluster->m_processes[i]->m_type & type)
{
if (idx == 0)
return cluster->m_processes[i];
else
idx --;
}
}
return 0;
}
static
bool
pr_check_replication(Properties& props, proc_rule_ctx& ctx, int)
{
if (! (ctx.m_config->m_replication == ""))
{
Vector<BaseString> list;
ctx.m_config->m_replication.split(list, ";");
atrt_config& config = *ctx.m_config;
ctx.m_config->m_replication = "";
const char * msg = "Invalid replication specification";
for (size_t i = 0; i<list.size(); i++)
{
Vector<BaseString> rep;
list[i].split(rep, ":");
if (rep.size() != 2)
{
g_logger.error("%s: %s (split: %d)", msg, list[i].c_str(), rep.size());
return false;
}
atrt_process* src = find(config, atrt_process::AP_MYSQLD,rep[0].c_str());
atrt_process* dst = find(config, atrt_process::AP_MYSQLD,rep[1].c_str());
if (src == 0 || dst == 0)
{
g_logger.error("%s: %s (%d %d)",
msg, list[i].c_str(), src != 0, dst != 0);
return false;
}
if (dst->m_rep_src != 0)
{
g_logger.error("%s: %s : %s already has replication src (%s)",
msg,
list[i].c_str(),
dst->m_proc.m_cwd.c_str(),
dst->m_rep_src->m_proc.m_cwd.c_str());
return false;
}
dst->m_rep_src = src;
src->m_rep_dst.push_back(dst);
src->m_options.m_features |= PO_REP_MASTER;
dst->m_options.m_features |= PO_REP_SLAVE;
}
}
return true;
}
static
bool
pr_check_features(Properties& props, proc_rule_ctx& ctx, int)
{
int features = 0;
atrt_cluster& cluster = *ctx.m_cluster;
for (size_t i = 0; i<cluster.m_processes.size(); i++)
{
if (cluster.m_processes[i]->m_type == atrt_process::AP_NDB_MGMD ||
cluster.m_processes[i]->m_type == atrt_process::AP_NDB_API ||
cluster.m_processes[i]->m_type == atrt_process::AP_NDBD)
{
features |= atrt_options::AO_NDBCLUSTER;
break;
}
}
if (features)
{
cluster.m_options.m_features |= features;
for (size_t i = 0; i<cluster.m_processes.size(); i++)
{
cluster.m_processes[i]->m_options.m_features |= features;
}
}
return true;
}
static
bool
pr_fix_client(Properties& props, proc_rule_ctx& ctx, int)
{
for (size_t i = 0; f_options[i].name; i++)
{
proc_option& opt = f_options[i];
const char * name = opt.name;
if (opt.type & atrt_process::AP_CLIENT)
{
const char * val;
atrt_process& proc = *ctx.m_process;
if (!proc.m_options.m_loaded.get(name, &val))
{
require(proc.m_mysqld->m_options.m_loaded.get(name, &val));
proc.m_options.m_loaded.put(name, val);
proc.m_options.m_generated.put(name, val);
}
}
}
return true;
}
static
Uint32
try_default_port(atrt_process& proc, const char * name)
{
Uint32 port =
strcmp(name, "--port=") == 0 ? 3306 :
strcmp(name, "--PortNumber=") == 0 ? 1186 :
0;
atrt_host * host = proc.m_host;
for (size_t i = 0; i<host->m_processes.size(); i++)
{
const char * val;
if (host->m_processes[i]->m_options.m_loaded.get(name, &val))
{
if ((Uint32)atoi(val) == port)
return 0;
}
}
return port;
}
static
bool
generate(atrt_process& proc, const char * name, Properties& props)
{
atrt_options& opts = proc.m_options;
if (strcmp(name, "--port=") == 0 ||
strcmp(name, "--PortNumber=") == 0)
{
Uint32 val;
if (g_default_ports == 0 || (val = try_default_port(proc, name)) == 0)
{
val = g_baseport;
props.get("--PortNumber=", &val);
props.put("--PortNumber=", (val + 1), true);
}
char buf[255];
snprintf(buf, sizeof(buf), "%u", val);
opts.m_loaded.put(name, buf);
opts.m_generated.put(name, buf);
return true;
}
else if (strcmp(name, "--datadir=") == 0)
{
opts.m_loaded.put(name, proc.m_proc.m_cwd.c_str());
opts.m_generated.put(name, proc.m_proc.m_cwd.c_str());
return true;
}
else if (strcmp(name, "--FileSystemPath=") == 0)
{
BaseString dir;
dir.append(proc.m_host->m_basedir);
dir.append("/");
dir.append(proc.m_cluster->m_dir);
opts.m_loaded.put(name, dir.c_str());
opts.m_generated.put(name, dir.c_str());
return true;
}
else if (strcmp(name, "--socket=") == 0)
{
const char * sock = 0;
if (g_default_ports)
{
sock = "/tmp/mysql.sock";
atrt_host * host = proc.m_host;
for (size_t i = 0; i<host->m_processes.size(); i++)
{
const char * val;
if (host->m_processes[i]->m_options.m_loaded.get(name, &val))
{
if (strcmp(sock, val) == 0)
{
sock = 0;
break;
}
}
}
}
BaseString tmp;
if (sock == 0)
{
tmp.assfmt("%s/mysql.sock", proc.m_proc.m_cwd.c_str());
sock = tmp.c_str();
}
opts.m_loaded.put(name, sock);
opts.m_generated.put(name, sock);
return true;
}
else if (strcmp(name, "--server-id=") == 0)
{
Uint32 val = 1;
props.get(name, &val);
char buf[255];
snprintf(buf, sizeof(buf), "%u", val);
opts.m_loaded.put(name, buf);
opts.m_generated.put(name, buf);
props.put(name, (val + 1), true);
return true;
}
else if (strcmp(name, "--log-bin") == 0)
{
opts.m_loaded.put(name, "");
opts.m_generated.put(name, "");
return true;
}
else if (strcmp(name, "--master-host=") == 0)
{
require(proc.m_rep_src != 0);
opts.m_loaded.put(name, proc.m_rep_src->m_host->m_hostname.c_str());
opts.m_generated.put(name, proc.m_rep_src->m_host->m_hostname.c_str());
return true;
}
else if (strcmp(name, "--master-port=") == 0)
{
const char* val;
require(proc.m_rep_src->m_options.m_loaded.get("--port=", &val));
opts.m_loaded.put(name, val);
opts.m_generated.put(name, val);
return true;
}
else if (strcmp(name, "--master-user=") == 0)
{
opts.m_loaded.put(name, "root");
opts.m_generated.put(name, "root");
return true;
}
else if (strcmp(name, "--master-password=") == 0)
{
opts.m_loaded.put(name, "\"\"");
opts.m_generated.put(name, "\"\"");
return true;
}
g_logger.warning("Unknown parameter: %s", name);
return true;
}
static
bool
pr_proc_options(Properties& props, proc_rule_ctx& ctx, int extra)
{
for (size_t i = 0; f_options[i].name; i++)
{
proc_option& opt = f_options[i];
atrt_process& proc = *ctx.m_process;
const char * name = opt.name;
if (opt.type & proc.m_type)
{
if (opt.options == 0 ||
(opt.options & extra & proc.m_options.m_features))
{
const char * val;
if (!proc.m_options.m_loaded.get(name, &val))
{
generate(proc, name, props);
}
}
}
}
return true;
}
static
bool
pr_fix_ndb_connectstring(Properties& props, proc_rule_ctx& ctx, int)
{
const char * val;
atrt_cluster& cluster = *ctx.m_cluster;
if (cluster.m_options.m_features & atrt_options::AO_NDBCLUSTER)
{
if (!cluster.m_options.m_loaded.get(ndbcs, &val))
{
/**
* Construct connect string for this cluster
*/
BaseString str;
for (size_t i = 0; i<cluster.m_processes.size(); i++)
{
atrt_process* tmp = cluster.m_processes[i];
if (tmp->m_type == atrt_process::AP_NDB_MGMD)
{
if (str.length())
{
str.append(";");
}
const char * port;
require(tmp->m_options.m_loaded.get("--PortNumber=", &port));
str.appfmt("%s:%s", tmp->m_host->m_hostname.c_str(), port);
}
}
cluster.m_options.m_loaded.put(ndbcs, str.c_str());
cluster.m_options.m_generated.put(ndbcs, str.c_str());
cluster.m_options.m_loaded.get(ndbcs, &val);
}
for (size_t i = 0; i<cluster.m_processes.size(); i++)
{
cluster.m_processes[i]->m_proc.m_env.appfmt(" NDB_CONNECTSTRING=%s",
val);
}
}
return true;
}
static
bool
pr_set_ndb_connectstring(Properties& props, proc_rule_ctx& ctx, int)
{
const char * val;
atrt_process& proc = *ctx.m_process;
if (proc.m_options.m_features & atrt_options::AO_NDBCLUSTER)
{
if (!proc.m_options.m_loaded.get(ndbcs, &val))
{
require(proc.m_cluster->m_options.m_loaded.get(ndbcs, &val));
proc.m_options.m_loaded.put(ndbcs, val);
proc.m_options.m_generated.put(ndbcs, val);
}
if (!proc.m_options.m_loaded.get("--ndbcluster", &val))
{
proc.m_options.m_loaded.put("--ndbcluster", "");
proc.m_options.m_generated.put("--ndbcluster", "");
}
}
return true;
}
static
bool
pr_check_proc(Properties& props, proc_rule_ctx& ctx, int)
{
bool ok = true;
bool generated = false;
const int setup = ctx.m_setup;
atrt_process& proc = *ctx.m_process;
for (size_t i = 0; f_options[i].name; i++)
{
proc_option& opt = f_options[i];
const char * name = opt.name;
if ((ctx.m_process->m_type & opt.type) &&
(opt.options == 0 || (ctx.m_process->m_options.m_features & opt.options)))
{
const char * val;
if (!proc.m_options.m_loaded.get(name, &val))
{
ok = false;
g_logger.warning("Missing paramter: %s for %s",
name, proc.m_proc.m_cwd.c_str());
}
else if (proc.m_options.m_generated.get(name, &val))
{
if (setup == 0)
{
ok = false;
g_logger.warning("Missing paramter: %s for %s",
name, proc.m_proc.m_cwd.c_str());
}
else
{
generated = true;
}
}
}
}
if (generated)
{
ctx.m_config->m_generated = true;
}
//ndbout << proc << endl;
return ok;
}
NdbOut&
operator<<(NdbOut& out, const atrt_process& proc)
{
out << "[ atrt_process: ";
switch(proc.m_type){
case atrt_process::AP_NDB_MGMD:
out << "ndb_mgmd";
break;
case atrt_process::AP_NDBD:
out << "ndbd";
break;
case atrt_process::AP_MYSQLD:
out << "mysqld";
break;
case atrt_process::AP_NDB_API:
out << "ndbapi";
break;
case atrt_process::AP_CLIENT:
out << "client";
break;
default:
out << "<unknown: " << (int)proc.m_type << " >";
}
out << " cluster: " << proc.m_cluster->m_name.c_str()
<< " host: " << proc.m_host->m_hostname.c_str()
<< endl << " cwd: " << proc.m_proc.m_cwd.c_str()
<< endl << " path: " << proc.m_proc.m_path.c_str()
<< endl << " args: " << proc.m_proc.m_args.c_str()
<< endl << " env: " << proc.m_proc.m_env.c_str() << endl;
proc.m_options.m_generated.print(stdout, "generated: ");
out << " ]";
#if 0
proc.m_index = 0; //idx;
proc.m_host = host_ptr;
proc.m_cluster = cluster;
proc.m_proc.m_id = -1;
proc.m_proc.m_type = "temporary";
proc.m_proc.m_owner = "atrt";
proc.m_proc.m_group = cluster->m_name.c_str();
proc.m_proc.m_cwd.assign(dir).append("/atrt/").append(cluster->m_dir);
proc.m_proc.m_stdout = "log.out";
proc.m_proc.m_stderr = "2>&1";
proc.m_proc.m_runas = proc.m_host->m_user;
proc.m_proc.m_ulimit = "c:unlimited";
proc.m_proc.m_env.assfmt("MYSQL_BASE_DIR=%s", dir);
proc.m_proc.m_shutdown_options = "";
#endif
return out;
}
max-time: 600
cmd: testBasic
args: -n PkRead T1
max-time: 1800
cmd: testMgm
args: -n SingleUserMode T1
#
#
# SYSTEM RESTARTS
#
max-time: 1500
cmd: testSystemRestart
args: -n SR3 T6
max-time: 1500
cmd: testSystemRestart
args: -n SR4 T6
max-time: 600
cmd: testBasic
args: -n PkRead T1
......@@ -38,6 +38,7 @@ include $(top_srcdir)/storage/ndb/config/common.mk.am
include $(top_srcdir)/storage/ndb/config/type_ndbapitest.mk.am
ndb_cpcc_LDADD = $(LDADD)
ndb_cpcc_LDFLAGS = -static
# Don't update the files from bitkeeper
%::SCCS/s.%
......
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