Commit 414f5868 authored by unknown's avatar unknown

Merge tulin@bk-internal.mysql.com:/home/bk/mysql-5.1

into  poseidon.mysql.com:/home/tomas/mysql-5.1-new-ndb


sql/mysqld.cc:
  Auto merged
parents db1aa7e8 08850cda
...@@ -568,7 +568,7 @@ t1 ...@@ -568,7 +568,7 @@ t1
insert into t1 values (1,1),(2,1),(3,1),(4,1),(5,2),(6,1),(7,1); insert into t1 values (1,1),(2,1),(3,1),(4,1),(5,2),(6,1),(7,1);
explain select * from t1 where a12345678901234567890123456789a1234567890=2; explain select * from t1 where a12345678901234567890123456789a1234567890=2;
id select_type table type possible_keys key key_len ref rows Extra id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ref a12345678901234567890123456789a1234567890 a12345678901234567890123456789a1234567890 5 const # Using where 1 SIMPLE t1 ref a12345678901234567890123456789a1234567890 a12345678901234567890123456789a1234567890 5 const # Using where with pushed condition
select * from t1 where a12345678901234567890123456789a1234567890=2; select * from t1 where a12345678901234567890123456789a1234567890=2;
a1234567890123456789012345678901234567890 a12345678901234567890123456789a1234567890 a1234567890123456789012345678901234567890 a12345678901234567890123456789a1234567890
5 2 5 2
......
...@@ -242,7 +242,7 @@ insert into t1 values(9,'b9',999,'dd9'); ...@@ -242,7 +242,7 @@ insert into t1 values(9,'b9',999,'dd9');
commit; commit;
explain select * from t1 where c >= 100 order by a; explain select * from t1 where c >= 100 order by a;
id select_type table type possible_keys key key_len ref rows Extra id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range c c 4 NULL # Using where; Using filesort 1 SIMPLE t1 range c c 4 NULL # Using where with pushed condition; Using filesort
select * from t1 where c >= 100 order by a; select * from t1 where c >= 100 order by a;
a b c d a b c d
1 b1 111 dd1 1 b1 111 dd1
...@@ -278,7 +278,7 @@ insert into t1 values(2,@b2,222,@d2); ...@@ -278,7 +278,7 @@ insert into t1 values(2,@b2,222,@d2);
commit; commit;
explain select * from t1 where c >= 100 order by a; explain select * from t1 where c >= 100 order by a;
id select_type table type possible_keys key key_len ref rows Extra id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range c c 4 NULL # Using where; Using filesort 1 SIMPLE t1 range c c 4 NULL # Using where with pushed condition; Using filesort
select a,length(b),substr(b,1+2*900,2),length(d),substr(d,1+3*900,3) select a,length(b),substr(b,1+2*900,2),length(d),substr(d,1+3*900,3)
from t1 where c >= 100 order by a; from t1 where c >= 100 order by a;
a length(b) substr(b,1+2*900,2) length(d) substr(d,1+3*900,3) a length(b) substr(b,1+2*900,2) length(d) substr(d,1+3*900,3)
......
...@@ -259,17 +259,16 @@ static int ndb_to_mysql_error(const NdbError *ndberr) ...@@ -259,17 +259,16 @@ static int ndb_to_mysql_error(const NdbError *ndberr)
int execute_no_commit_ignore_no_key(ha_ndbcluster *h, NdbTransaction *trans) int execute_no_commit_ignore_no_key(ha_ndbcluster *h, NdbTransaction *trans)
{ {
int res= trans->execute(NdbTransaction::NoCommit, if (trans->execute(NdbTransaction::NoCommit,
NdbOperation::AO_IgnoreError, NdbOperation::AO_IgnoreError,
h->m_force_send); h->m_force_send) == -1)
if (res == -1)
return -1; return -1;
const NdbError &err= trans->getNdbError(); const NdbError &err= trans->getNdbError();
if (err.classification != NdbError::NoError && if (err.classification != NdbError::NoError &&
err.classification != NdbError::ConstraintViolation && err.classification != NdbError::ConstraintViolation &&
err.classification != NdbError::NoDataFound) err.classification != NdbError::NoDataFound)
return res; return -1;
return 0; return 0;
} }
...@@ -9052,7 +9051,7 @@ void ndb_serialize_cond(const Item *item, void *arg) ...@@ -9052,7 +9051,7 @@ void ndb_serialize_cond(const Item *item, void *arg)
Check that the field is part of the table of the handler Check that the field is part of the table of the handler
instance and that we expect a field with of this result type. instance and that we expect a field with of this result type.
*/ */
if (context->table == field->table) if (context->table->s == field->table->s)
{ {
const NDBTAB *tab= (const NDBTAB *) context->ndb_table; const NDBTAB *tab= (const NDBTAB *) context->ndb_table;
DBUG_PRINT("info", ("FIELD_ITEM")); DBUG_PRINT("info", ("FIELD_ITEM"));
......
...@@ -232,6 +232,8 @@ void Item_func::traverse_cond(Cond_traverser traverser, ...@@ -232,6 +232,8 @@ void Item_func::traverse_cond(Cond_traverser traverser,
(*traverser)(this, argument); (*traverser)(this, argument);
} }
} }
else
(*traverser)(this, argument);
} }
......
...@@ -5072,7 +5072,7 @@ struct my_option my_long_options[] = ...@@ -5072,7 +5072,7 @@ struct my_option my_long_options[] =
"Push supported query conditions to the storage engine.", "Push supported query conditions to the storage engine.",
(gptr*) &global_system_variables.engine_condition_pushdown, (gptr*) &global_system_variables.engine_condition_pushdown,
(gptr*) &global_system_variables.engine_condition_pushdown, (gptr*) &global_system_variables.engine_condition_pushdown,
0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0}, 0, GET_BOOL, NO_ARG, 1, 0, 0, 0, 0, 0},
/* See how it's handled in get_one_option() */ /* See how it's handled in get_one_option() */
{"event-scheduler", OPT_EVENT_SCHEDULER, "Enable/disable the event scheduler.", {"event-scheduler", OPT_EVENT_SCHEDULER, "Enable/disable the event scheduler.",
NULL, NULL, 0, GET_STR, OPT_ARG, 0, 0, 0, 0, 0, 0}, NULL, NULL, 0, GET_STR, OPT_ARG, 0, 0, 0, 0, 0, 0},
......
...@@ -611,16 +611,18 @@ void getTextTransporterError(QQQQ) { ...@@ -611,16 +611,18 @@ void getTextTransporterError(QQQQ) {
if(theData[2] == TransporterErrorString[i].errorNum) if(theData[2] == TransporterErrorString[i].errorNum)
{ {
BaseString::snprintf(m_text, m_text_len, BaseString::snprintf(m_text, m_text_len,
"Transporter to node %d reported error: %s", "Transporter to node %d reported error 0x%x: %s",
theData[1], theData[1],
theData[2],
TransporterErrorString[i].errorString); TransporterErrorString[i].errorString);
break; break;
} }
} }
if(i == lenth) if(i == lenth)
BaseString::snprintf(m_text, m_text_len, BaseString::snprintf(m_text, m_text_len,
"Transporter to node %d reported error: no such error", "Transporter to node %d reported error 0x%x: unknown error",
theData[1]); theData[1],
theData[2]);
} }
void getTextTransporterWarning(QQQQ) { void getTextTransporterWarning(QQQQ) {
getTextTransporterError(m_text, m_text_len, theData); getTextTransporterError(m_text, m_text_len, theData);
......
...@@ -26,7 +26,7 @@ LDADD_LOC = \ ...@@ -26,7 +26,7 @@ LDADD_LOC = \
include $(top_srcdir)/storage/ndb/config/common.mk.am include $(top_srcdir)/storage/ndb/config/common.mk.am
include $(top_srcdir)/storage/ndb/config/type_util.mk.am include $(top_srcdir)/storage/ndb/config/type_util.mk.am
ndb_cpcd_LDFLAGS = @ndb_bin_am_ldflags@ ndb_cpcd_LDFLAGS = -static @ndb_bin_am_ldflags@
# Don't update the files from bitkeeper # Don't update the files from bitkeeper
%::SCCS/s.% %::SCCS/s.%
......
...@@ -837,7 +837,7 @@ InitConfigFileParser::parse_mycnf() ...@@ -837,7 +837,7 @@ InitConfigFileParser::parse_mycnf()
opt.arg_type = REQUIRED_ARG; opt.arg_type = REQUIRED_ARG;
options.push_back(opt); options.push_back(opt);
opt.name = "api"; opt.name = "ndbapi";
opt.id = 256; opt.id = 256;
opt.value = (gptr*)malloc(sizeof(char*)); opt.value = (gptr*)malloc(sizeof(char*));
opt.var_type = GET_STR; opt.var_type = GET_STR;
......
...@@ -18,20 +18,18 @@ testdir=$(prefix)/mysql-test/ndb ...@@ -18,20 +18,18 @@ testdir=$(prefix)/mysql-test/ndb
include $(top_srcdir)/storage/ndb/config/common.mk.am 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_util.mk.am
include $(top_srcdir)/storage/ndb/config/type_mgmapiclient.mk.am include $(top_srcdir)/storage/ndb/config/type_mgmapiclient.mk.am
include $(top_srcdir)/storage/ndb/config/type_ndbapitools.mk.am
test_PROGRAMS = atrt test_PROGRAMS = atrt
test_DATA=daily-basic-tests.txt daily-devel-tests.txt 16node-tests.txt \ test_DATA=daily-basic-tests.txt daily-devel-tests.txt 16node-tests.txt \
conf-daily-basic-ndb08.txt \ conf-ndbmaster.cnf \
conf-daily-devel-ndb08.txt \ conf-dl145a.cnf test-tests.txt
conf-daily-sql-ndb08.txt \
conf-ndbmaster.txt \
conf-shark.txt \
conf-dl145a.txt
test_SCRIPTS=atrt-analyze-result.sh atrt-gather-result.sh atrt-setup.sh \ test_SCRIPTS=atrt-analyze-result.sh atrt-gather-result.sh atrt-setup.sh \
atrt-clear-result.sh make-config.sh make-index.sh make-html-reports.sh atrt-clear-result.sh autotest-run.sh
atrt_SOURCES = main.cpp setup.cpp files.cpp
atrt_SOURCES = main.cpp run-test.hpp
INCLUDES_LOC = -I$(top_srcdir)/storage/ndb/test/include INCLUDES_LOC = -I$(top_srcdir)/storage/ndb/test/include
LDADD_LOC = $(top_builddir)/storage/ndb/test/src/libNDBT.a \ LDADD_LOC = $(top_builddir)/storage/ndb/test/src/libNDBT.a \
$(top_builddir)/storage/ndb/src/libndbclient.la \ $(top_builddir)/storage/ndb/src/libndbclient.la \
...@@ -39,6 +37,14 @@ LDADD_LOC = $(top_builddir)/storage/ndb/test/src/libNDBT.a \ ...@@ -39,6 +37,14 @@ LDADD_LOC = $(top_builddir)/storage/ndb/test/src/libNDBT.a \
$(top_builddir)/mysys/libmysys.a \ $(top_builddir)/mysys/libmysys.a \
$(top_builddir)/strings/libmystrings.a @NDB_SCI_LIBS@ $(top_builddir)/strings/libmystrings.a @NDB_SCI_LIBS@
atrt_CXXFLAGS = -I$(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 wrappersdir=$(prefix)/bin
wrappers_SCRIPTS=atrt-testBackup atrt-mysql-test-run wrappers_SCRIPTS=atrt-testBackup atrt-mysql-test-run
......
...@@ -8,7 +8,7 @@ rm -rf * ...@@ -8,7 +8,7 @@ rm -rf *
while [ $# -gt 0 ] while [ $# -gt 0 ]
do do
rsync -a "$1" . rsync -a --exclude='ndb_*_fs/*' "$1" .
shift shift
done done
......
...@@ -2,7 +2,8 @@ ...@@ -2,7 +2,8 @@
This program is free software; you can redistribute it and/or modify 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 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, This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of but WITHOUT ANY WARRANTY; without even the implied warranty of
...@@ -16,68 +17,112 @@ ...@@ -16,68 +17,112 @@
#ifndef atrt_config_hpp #ifndef atrt_config_hpp
#define atrt_config_hpp #define atrt_config_hpp
#include <getarg.h> #include <ndb_global.h>
#include <Vector.hpp> #include <Vector.hpp>
#include <BaseString.hpp> #include <BaseString.hpp>
#include <Logger.hpp> #include <Logger.hpp>
#include <mgmapi.h> #include <mgmapi.h>
#include <CpcClient.hpp> #include <CpcClient.hpp>
#include <Properties.hpp>
#undef MYSQL_CLIENT enum ErrorCodes
{
enum ErrorCodes {
ERR_OK = 0, ERR_OK = 0,
ERR_NDB_FAILED = 101, ERR_NDB_FAILED = 101,
ERR_SERVERS_FAILED = 102, ERR_SERVERS_FAILED = 102,
ERR_MAX_TIME_ELAPSED = 103 ERR_MAX_TIME_ELAPSED = 103
}; };
struct atrt_host { struct atrt_host
{
size_t m_index; size_t m_index;
BaseString m_user; BaseString m_user;
BaseString m_base_dir; BaseString m_basedir;
BaseString m_hostname; BaseString m_hostname;
SimpleCpcClient * m_cpcd; 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; size_t m_index;
BaseString m_hostname;
struct atrt_host * m_host; struct atrt_host * m_host;
struct atrt_cluster * m_cluster;
enum Type { enum Type {
ALL = 255, AP_ALL = 255
NDB_DB = 1, ,AP_NDBD = 1
NDB_API = 2, ,AP_NDB_API = 2
NDB_MGM = 4, ,AP_NDB_MGMD = 4
NDB_REP = 8, ,AP_MYSQLD = 16
MYSQL_SERVER = 16, ,AP_CLIENT = 32
MYSQL_CLIENT = 32 ,AP_CLUSTER = 256 // Used for options parsing for "cluster" options
} m_type; } m_type;
SimpleCpcClient::Process m_proc; 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; BaseString m_key;
Vector<atrt_host> m_hosts; BaseString m_replication;
Vector<atrt_process> m_processes; 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_report;
bool m_run_all; bool m_run_all;
time_t m_max_time; time_t m_max_time;
BaseString m_command; BaseString m_command;
BaseString m_args; BaseString m_args;
BaseString m_name;
}; };
extern Logger g_logger; 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 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_hosts(atrt_config&);
bool connect_ndb_mgm(atrt_config&); bool connect_ndb_mgm(atrt_config&);
bool wait_ndb(atrt_config&, int ndb_mgm_node_status); bool wait_ndb(atrt_config&, int ndb_mgm_node_status);
...@@ -92,4 +137,25 @@ bool setup_test_case(atrt_config&, const atrt_testcase&); ...@@ -92,4 +137,25 @@ bool setup_test_case(atrt_config&, const atrt_testcase&);
bool setup_hosts(atrt_config&); 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 #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 @@ ...@@ -14,20 +14,19 @@
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <ndb_global.h> #include "atrt.hpp"
#include <getarg.h> #include <my_sys.h>
#include <BaseString.hpp> #include <my_getopt.h>
#include <Parser.hpp>
#include <NdbOut.hpp> #include <NdbOut.hpp>
#include <Properties.hpp>
#include <NdbAutoPtr.hpp> #include <NdbAutoPtr.hpp>
#include "run-test.hpp"
#include <SysLogHandler.hpp> #include <SysLogHandler.hpp>
#include <FileLogHandler.hpp> #include <FileLogHandler.hpp>
#include <mgmapi.h> #include <NdbSleep.h>
#include "CpcClient.hpp"
#define PATH_SEPARATOR "/"
/** Global variables */ /** Global variables */
static const char progname[] = "ndb_atrt"; static const char progname[] = "ndb_atrt";
...@@ -36,76 +35,198 @@ static const char * g_analyze_progname = "atrt-analyze-result.sh"; ...@@ -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_clear_progname = "atrt-clear-result.sh";
static const char * g_setup_progname = "atrt-setup.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_log_filename = 0;
static const char * g_test_case_filename = 0; static const char * g_test_case_filename = 0;
static const char * g_report_filename = 0; static const char * g_report_filename = 0;
static const char * g_default_user = 0; static int g_do_setup = 0;
static const char * g_default_base_dir = 0; static int g_do_deploy = 0;
static int g_default_base_port = 0; static int g_do_sshx = 0;
static int g_mysqld_use_base = 1; static int g_do_start = 0;
static int g_do_quit = 0;
static int g_report = 0; static int g_help = 0;
static int g_verbosity = 0; static int g_verbosity = 1;
static FILE * g_report_file = 0; static FILE * g_report_file = 0;
static FILE * g_test_case_file = stdin; static FILE * g_test_case_file = stdin;
static int g_mode = 0;
Logger g_logger; Logger g_logger;
atrt_config g_config; atrt_config g_config;
const char * g_user = 0;
static int g_mode_bench = 0; int g_baseport = 10000;
static int g_mode_regression = 0; int g_fqpn = 0;
static int g_mode_interactive = 0; int g_default_ports = 0;
static int g_mode = 0;
const char * g_cwd = 0;
static const char * g_basedir = 0;
struct getargs args[] = { const char * g_my_cnf = 0;
{ "process-config", 0, arg_string, &g_process_config_filename, 0, 0 }, const char * g_prefix = 0;
{ "setup-path", 0, arg_string, &g_setup_path, 0, 0 }, const char * g_clusters = 0;
{ 0, 'v', arg_counter, &g_verbosity, 0, 0 }, BaseString g_replicate;
{ "log-file", 0, arg_string, &g_log_filename, 0, 0 }, const char *save_file = 0;
{ "testcase-file", 'f', arg_string, &g_test_case_filename, 0, 0 }, char *save_extra_file = 0;
{ 0, 'R', arg_flag, &g_report, 0, 0 }, const char *save_group_suffix = 0;
{ "report-file", 0, arg_string, &g_report_filename, 0, 0 }, const char * g_dummy;
{ "interactive", 'i', arg_flag, &g_mode_interactive, 0, 0 }, char * g_env_path = 0;
{ "regression", 'r', arg_flag, &g_mode_regression, 0, 0 },
{ "bench", 'b', arg_flag, &g_mode_bench, 0, 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 int
main(int argc, const char ** argv){ main(int argc, char ** argv)
{
ndb_init(); ndb_init();
bool restart = true; bool restart = true;
int lineno = 1; int lineno = 1;
int test_no = 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.setCategory(progname);
g_logger.enable(Logger::LL_ALL); g_logger.enable(Logger::LL_ALL);
g_logger.createConsoleHandler(); g_logger.createConsoleHandler();
if(!parse_args(argc, argv)) if(!parse_args(argc, argv))
goto end; goto end;
g_logger.info("Starting..."); 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; 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"); g_logger.info("Connecting to hosts");
if(!connect_hosts(g_config)) if(!connect_hosts(g_config))
goto end; 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; goto end;
}
return_code = 0;
/** /**
* Main loop * Main loop
*/ */
...@@ -114,37 +235,22 @@ main(int argc, const char ** argv){ ...@@ -114,37 +235,22 @@ main(int argc, const char ** argv){
* Do we need to restart ndb * Do we need to restart ndb
*/ */
if(restart){ if(restart){
g_logger.info("(Re)starting ndb processes"); g_logger.info("(Re)starting server processes processes");
if(!stop_processes(g_config, ~0)) if(!stop_processes(g_config, ~0))
goto end; 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; goto end;
}
if(!start_processes(g_config, atrt_process::NDB_DB)) if (!setup_files(g_config, 2, 1))
goto end; goto end;
if(!wait_ndb(g_config, NDB_MGM_NODE_STATUS_NOT_STARTED)) if (!start(g_config, p_ndb | p_servers))
goto end; goto end;
g_logger.info("All servers start completed");
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");
} }
const int start_line = lineno; // const int start_line = lineno;
atrt_testcase test_case; atrt_testcase test_case;
if(!read_test_case(g_test_case_file, test_case, lineno)) if(!read_test_case(g_test_case_file, test_case, lineno))
goto end; goto end;
...@@ -165,7 +271,7 @@ main(int argc, const char ** argv){ ...@@ -165,7 +271,7 @@ main(int argc, const char ** argv){
const time_t start = time(0); const time_t start = time(0);
time_t now = start; time_t now = start;
do { do {
if(!update_status(g_config, atrt_process::ALL)) if(!update_status(g_config, atrt_process::AP_ALL))
goto end; goto end;
int count = 0; int count = 0;
...@@ -189,7 +295,7 @@ main(int argc, const char ** argv){ ...@@ -189,7 +295,7 @@ main(int argc, const char ** argv){
result = ERR_MAX_TIME_ELAPSED; result = ERR_MAX_TIME_ELAPSED;
break; break;
} }
sleep(1); NdbSleep_SecSleep(1);
} while(true); } while(true);
const time_t elapsed = time(0) - start; const time_t elapsed = time(0) - start;
...@@ -197,7 +303,8 @@ main(int argc, const char ** argv){ ...@@ -197,7 +303,8 @@ main(int argc, const char ** argv){
if(!stop_processes(g_config, p_clients)) if(!stop_processes(g_config, p_clients))
goto end; goto end;
if(!gather_result(g_config, &result)) int tmp, *rp = result ? &tmp : &result;
if(!gather_result(g_config, rp))
goto end; goto end;
g_logger.info("#%d %s(%d)", g_logger.info("#%d %s(%d)",
...@@ -205,29 +312,35 @@ main(int argc, const char ** argv){ ...@@ -205,29 +312,35 @@ main(int argc, const char ** argv){
(result == 0 ? "OK" : "FAILED"), result); (result == 0 ? "OK" : "FAILED"), result);
if(g_report_file != 0){ if(g_report_file != 0){
fprintf(g_report_file, "%s %s ; %d ; %d ; %ld\n", fprintf(g_report_file, "%s ; %d ; %d ; %ld\n",
test_case.m_command.c_str(), test_case.m_name.c_str(), test_no, result, elapsed);
test_case.m_args.c_str(),
test_no, result, elapsed);
fflush(g_report_file); fflush(g_report_file);
} }
if(test_case.m_report || g_mode_bench || (g_mode_regression && result)){ if(g_mode == 0 && 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){
g_logger.info g_logger.info
("Encountered failed test in interactive mode - terminating"); ("Encountered failed test in interactive mode - terminating");
break; 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){ if(result != 0){
restart = true; restart = true;
} else { } else {
...@@ -247,276 +360,254 @@ main(int argc, const char ** argv){ ...@@ -247,276 +360,254 @@ main(int argc, const char ** argv){
g_test_case_file = 0; 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; return 0;
} }
bool bool
parse_args(int argc, const char** argv){ parse_args(int argc, char** argv)
int optind = 0; {
if(getarg(args, arg_count, argc, argv, &optind)) { char buf[2048];
arg_printusage(args, arg_count, progname, ""); if (getcwd(buf, sizeof(buf)) == 0)
{
g_logger.error("Unable to get current working directory");
return false; return false;
} }
g_cwd = strdup(buf);
if(g_log_filename != 0){
g_logger.removeConsoleHandler(); struct stat sbuf;
g_logger.addHandler(new FileLogHandler(g_log_filename)); 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; mycnf.append(g_cwd);
tmp = (tmp < Logger::LL_DEBUG ? Logger::LL_DEBUG : tmp); mycnf.append(PATH_SEPARATOR);
g_logger.disable(Logger::LL_ALL); mycnf.append("my.cnf");
g_logger.enable(Logger::LL_ON); if (lstat(mycnf.c_str(), &sbuf) != 0)
g_logger.enable((Logger::LoggerLevel)tmp, Logger::LL_ALERT); {
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 = my_defaults_file;
save_extra_file = my_defaults_extra_file;
save_group_suffix = my_defaults_group_suffix;
if (save_extra_file)
if(!g_process_config_filename){ {
g_logger.critical("Process config not specified!"); g_logger.error("--defaults-extra-file(%s) is not supported...",
save_extra_file);
return false; return false;
} }
if(!g_setup_path){ if (ret || handle_options(&argc, &argv, g_options, get_one_option))
char buf[1024]; {
if(getcwd(buf, sizeof(buf))){ g_logger.error("Failed to load defaults/handle_options");
g_setup_path = strdup(buf); return false;
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(g_report_filename){ if (argc >= 2)
g_report_file = fopen(g_report_filename, "w"); {
if(g_report_file == 0){ const char * arg = argv[argc-2];
g_logger.critical("Unable to create report file: %s", g_report_filename); while(* arg)
return false; {
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){ if(g_log_filename != 0)
g_test_case_file = fopen(g_test_case_filename, "r"); {
if(g_test_case_file == 0){ g_logger.removeConsoleHandler();
g_logger.critical("Unable to open file: %s", g_test_case_filename); g_logger.addHandler(new FileLogHandler(g_log_filename));
return false;
}
} }
int sum = g_mode_interactive + g_mode_regression + g_mode_bench; {
if(sum == 0){ int tmp = Logger::LL_WARNING - g_verbosity;
g_mode_interactive = 1; tmp = (tmp < Logger::LL_DEBUG ? Logger::LL_DEBUG : tmp);
} g_logger.disable(Logger::LL_ALL);
g_logger.enable(Logger::LL_ON);
if(sum > 1){ g_logger.enable((Logger::LoggerLevel)tmp, Logger::LL_ALERT);
g_logger.critical
("Only one of bench/regression/interactive can be specified");
return false;
} }
g_default_user = strdup(getenv("LOGNAME")); if(!g_basedir)
{
return true; g_basedir = g_cwd;
} g_logger.info("basedir not specified, using %s", g_basedir);
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];
}
} }
return 0;
}
bool if (!g_prefix)
setup_config(atrt_config& config){ {
g_prefix = DEFAULT_PREFIX;
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;
} }
bool result = true;
/**
int lineno = 0; * Add path to atrt-*.sh
char buf[2048]; */
BaseString connect_string; {
int mysql_port_offset = 0; BaseString tmp;
while(fgets(buf, 2048, f)){ const char* env = getenv("PATH");
lineno++; if (env && strlen(env))
{
BaseString tmp(buf); tmp.assfmt("PATH=%s:%s/mysql-test/ndb",
tmp.trim(" \t\n\r"); env, g_prefix);
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;
} }
else
if(split1[0].trim() == "basedir"){ {
g_default_base_dir = strdup(split1[1].trim().c_str()); tmp.assfmt("PATH=%s/mysql-test/ndb", g_prefix);
continue;
} }
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"){ if(g_test_case_filename)
g_default_base_port = atoi(split1[1].trim().c_str()); {
continue; 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"){ if (g_do_sshx)
g_default_user = strdup(split1[1].trim().c_str()); {
continue; 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; if (g_do_setup == 0)
continue; {
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 (!S_ISREG(sbuf.st_mode))
if(split1[1].trim().split(hosts) <= 0){ {
g_logger.warning("Invalid line %d in %s - ignoring", g_logger.error("%s is not a regular file", tmp.c_str());
lineno, g_process_config_filename); return false;
} }
// 1 - Check hosts g_my_cnf = strdup(tmp.c_str());
for(size_t i = 0; i<hosts.size(); i++){ g_logger.info("Using %s", tmp.c_str());
Vector<BaseString> tmp; }
hosts[i].split(tmp, ":"); else
BaseString hostname = tmp[0].trim(); {
BaseString base_dir; g_my_cnf = strdup(mycnf.c_str());
if(tmp.size() >= 2) }
base_dir = tmp[1];
else if(g_default_base_dir == 0){ g_logger.info("Using --prefix=\"%s\"", g_prefix);
g_logger.critical("Basedir not specified...");
return false; if(g_report_filename)
} {
g_report_file = fopen(g_report_filename, "w");
atrt_host * host_ptr; if(g_report_file == 0)
if((host_ptr = find(hostname, config.m_hosts)) == 0){ {
atrt_host host; g_logger.critical("Unable to create report file: %s", g_report_filename);
host.m_index = config.m_hosts.size(); return false;
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);
} }
} }
// Setup connect string if (g_clusters == 0)
for(size_t i = 0; i<config.m_processes.size(); i++){ {
config.m_processes[i].m_proc.m_env.appfmt(" NDB_CONNECTSTRING=%s", g_logger.critical("No clusters specified");
connect_string.c_str()); return false;
} }
end: g_user = strdup(getenv("LOGNAME"));
fclose(f);
return result; return true;
} }
bool bool
connect_hosts(atrt_config& config){ connect_hosts(atrt_config& config){
for(size_t i = 0; i<config.m_hosts.size(); i++){ 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", g_logger.error("Unable to connect to cpc %s:%d",
config.m_hosts[i].m_cpcd->getHost(), config.m_hosts[i]->m_cpcd->getHost(),
config.m_hosts[i].m_cpcd->getPort()); config.m_hosts[i]->m_cpcd->getPort());
return false; return false;
} }
g_logger.debug("Connected to %s:%d", g_logger.debug("Connected to %s:%d",
config.m_hosts[i].m_cpcd->getHost(), config.m_hosts[i]->m_cpcd->getHost(),
config.m_hosts[i].m_cpcd->getPort()); config.m_hosts[i]->m_cpcd->getPort());
} }
return true; return true;
...@@ -529,8 +620,10 @@ connect_ndb_mgm(atrt_process & proc){ ...@@ -529,8 +620,10 @@ connect_ndb_mgm(atrt_process & proc){
g_logger.critical("Unable to create mgm handle"); g_logger.critical("Unable to create mgm handle");
return false; return false;
} }
BaseString tmp = proc.m_hostname; BaseString tmp = proc.m_host->m_hostname;
tmp.appfmt(":%d", proc.m_ndb_mgm_port); const char * val;
proc.m_options.m_loaded.get("--PortNumber=", &val);
tmp.appfmt(":%s", val);
if (ndb_mgm_set_connectstring(handle,tmp.c_str())) if (ndb_mgm_set_connectstring(handle,tmp.c_str()))
{ {
...@@ -551,8 +644,8 @@ connect_ndb_mgm(atrt_process & proc){ ...@@ -551,8 +644,8 @@ connect_ndb_mgm(atrt_process & proc){
bool bool
connect_ndb_mgm(atrt_config& config){ connect_ndb_mgm(atrt_config& config){
for(size_t i = 0; i<config.m_processes.size(); i++){ 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_type & atrt_process::NDB_MGM) != 0){ if((proc.m_type & atrt_process::AP_NDB_MGMD) != 0){
if(!connect_ndb_mgm(proc)){ if(!connect_ndb_mgm(proc)){
return false; return false;
} }
...@@ -573,100 +666,110 @@ wait_ndb(atrt_config& config, int goal){ ...@@ -573,100 +666,110 @@ wait_ndb(atrt_config& config, int goal){
goal = remap(goal); goal = remap(goal);
size_t cnt = 0;
/** for (size_t i = 0; i<config.m_clusters.size(); i++)
* Get mgm handle for cluster {
*/ atrt_cluster* cluster = config.m_clusters[i];
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){
/** /**
* 1) wait NOT_STARTED * Get mgm handle for cluster
* 2) send start
* 3) wait STARTED
*/ */
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; return false;
}
ndb_mgm_start(handle, 0, 0); if(goal == NDB_MGM_NODE_STATUS_STARTED){
} /**
* 1) wait NOT_STARTED
struct ndb_mgm_cluster_state * state; * 2) send start
* 3) wait STARTED
time_t now = time(0); */
time_t end = now + 360; if(!wait_ndb(config, NDB_MGM_NODE_STATUS_NOT_STARTED))
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;
}
return false; return false;
}
} while(state == 0); ndb_mgm_start(handle, 0, 0);
NdbAutoPtr<void> tmp(state); }
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; while(now < end){
for(int i = 0; i<state->no_of_nodes; i++){ /**
if(state->node_states[i].node_type == NDB_MGM_NODE_TYPE_NDB){ * 1) retreive current state
const int s = remap(state->node_states[i].node_status); */
min2 = (min2 < s ? min2 : s ); state = 0;
do {
if(s < remap(NDB_MGM_NODE_STATUS_NO_CONTACT) || state = ndb_mgm_get_status(handle);
s > NDB_MGM_NODE_STATUS_STARTED){ if(state == 0){
g_logger.critical("Strange DB status during start: %d %d", i, min2); 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; return false;
} }
} while(state == 0);
if(min2 < min){ NdbAutoPtr<void> tmp(state);
g_logger.critical("wait ndb failed node: %d %d %d %d",
state->node_states[i].node_id, min, min2, goal); 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 timed out %d %d %d", min, min2, goal);
g_logger.critical("wait ndb failed %d %d %d", min, min2, goal); break;
return false;
} next:
;
if(min2 == goal){
return true;
break;
}
min = min2;
now = time(0);
} }
g_logger.critical("wait ndb timed out %d %d %d", min, min2, goal); return cnt == config.m_clusters.size();
return false;
} }
bool bool
...@@ -676,21 +779,19 @@ start_process(atrt_process & proc){ ...@@ -676,21 +779,19 @@ start_process(atrt_process & proc){
return false; 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; BaseString tmp = g_setup_progname;
tmp.appfmt(" %s %s/%s/ %s", tmp.appfmt(" %s %s/ %s",
proc.m_host->m_hostname.c_str(), proc.m_host->m_hostname.c_str(),
g_setup_path, proc.m_proc.m_cwd.c_str(),
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()); const int r1 = system(tmp.c_str());
if(r1 != 0){ if(r1 != 0){
g_logger.critical("Failed to setup process"); g_logger.critical("Failed to setup process");
return false; return false;
} }
{ {
Properties reply; Properties reply;
if(proc.m_host->m_cpcd->define_process(proc.m_proc, reply) != 0){ if(proc.m_host->m_cpcd->define_process(proc.m_proc, reply) != 0){
...@@ -715,7 +816,7 @@ start_process(atrt_process & proc){ ...@@ -715,7 +816,7 @@ start_process(atrt_process & proc){
bool bool
start_processes(atrt_config& config, int types){ start_processes(atrt_config& config, int types){
for(size_t i = 0; i<config.m_processes.size(); i++){ 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((types & proc.m_type) != 0 && proc.m_proc.m_path != ""){
if(!start_process(proc)){ if(!start_process(proc)){
return false; return false;
...@@ -760,7 +861,7 @@ stop_process(atrt_process & proc){ ...@@ -760,7 +861,7 @@ stop_process(atrt_process & proc){
bool bool
stop_processes(atrt_config& config, int types){ stop_processes(atrt_config& config, int types){
for(size_t i = 0; i<config.m_processes.size(); i++){ 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((types & proc.m_type) != 0){
if(!stop_process(proc)){ if(!stop_process(proc)){
return false; return false;
...@@ -779,11 +880,11 @@ update_status(atrt_config& config, int){ ...@@ -779,11 +880,11 @@ update_status(atrt_config& config, int){
m_procs.fill(config.m_hosts.size(), dummy); m_procs.fill(config.m_hosts.size(), dummy);
for(size_t i = 0; i<config.m_hosts.size(); i++){ for(size_t i = 0; i<config.m_hosts.size(); i++){
Properties p; 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++){ 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){ if(proc.m_proc.m_id != -1){
Vector<SimpleCpcClient::Process> &h_procs= m_procs[proc.m_host->m_index]; Vector<SimpleCpcClient::Process> &h_procs= m_procs[proc.m_host->m_index];
bool found = false; bool found = false;
...@@ -798,7 +899,7 @@ update_status(atrt_config& config, int){ ...@@ -798,7 +899,7 @@ update_status(atrt_config& config, int){
g_logger.error("update_status: not found"); g_logger.error("update_status: not found");
g_logger.error("id: %d host: %s cmd: %s", g_logger.error("id: %d host: %s cmd: %s",
proc.m_proc.m_id, proc.m_proc.m_id,
proc.m_hostname.c_str(), proc.m_host->m_hostname.c_str(),
proc.m_proc.m_path.c_str()); proc.m_proc.m_path.c_str());
for(size_t j = 0; j<h_procs.size(); j++){ for(size_t j = 0; j<h_procs.size(); j++){
g_logger.error("found: %d %s", h_procs[j].m_id, g_logger.error("found: %d %s", h_procs[j].m_id,
...@@ -815,7 +916,7 @@ int ...@@ -815,7 +916,7 @@ int
is_running(atrt_config& config, int types){ is_running(atrt_config& config, int types){
int found = 0, running = 0; int found = 0, running = 0;
for(size_t i = 0; i<config.m_processes.size(); i++){ 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((types & proc.m_type) != 0){
found++; found++;
if(proc.m_proc.m_status == "running") if(proc.m_proc.m_status == "running")
...@@ -910,12 +1011,24 @@ read_test_case(FILE * file, atrt_testcase& tc, int& line){ ...@@ -910,12 +1011,24 @@ read_test_case(FILE * file, atrt_testcase& tc, int& line){
tc.m_run_all= true; tc.m_run_all= true;
else else
tc.m_run_all= false; 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; return true;
} }
bool bool
setup_test_case(atrt_config& config, const atrt_testcase& tc){ 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); const int r1 = system(g_clear_progname);
if(r1 != 0){ if(r1 != 0){
g_logger.critical("Failed to clear result"); g_logger.critical("Failed to clear result");
...@@ -923,19 +1036,24 @@ setup_test_case(atrt_config& config, const atrt_testcase& tc){ ...@@ -923,19 +1036,24 @@ setup_test_case(atrt_config& config, const atrt_testcase& tc){
} }
size_t i = 0; size_t i = 0;
for(; i<config.m_processes.size(); i++){ 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){ atrt_process & proc = *config.m_processes[i];
proc.m_proc.m_path.assfmt("%s/bin/%s", proc.m_host->m_base_dir.c_str(), if(proc.m_type == atrt_process::AP_NDB_API || proc.m_type == atrt_process::AP_CLIENT){
tc.m_command.c_str()); 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); proc.m_proc.m_args.assign(tc.m_args);
if(!tc.m_run_all) if(!tc.m_run_all)
break; break;
} }
} }
for(i++; i<config.m_processes.size(); i++){ for(i++; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i]; atrt_process & proc = *config.m_processes[i];
if(proc.m_type == atrt_process::NDB_API || proc.m_type == atrt_process::MYSQL_CLIENT){ 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_path.assign("");
proc.m_proc.m_args.assign(""); proc.m_proc.m_args.assign("");
} }
...@@ -946,24 +1064,27 @@ setup_test_case(atrt_config& config, const atrt_testcase& tc){ ...@@ -946,24 +1064,27 @@ setup_test_case(atrt_config& config, const atrt_testcase& tc){
bool bool
gather_result(atrt_config& config, int * result){ gather_result(atrt_config& config, int * result){
BaseString tmp = g_gather_progname; BaseString tmp = g_gather_progname;
for(size_t i = 0; i<config.m_processes.size(); i++){
atrt_process & proc = config.m_processes[i]; for(size_t i = 0; i<config.m_hosts.size(); i++)
if(proc.m_proc.m_path != ""){ {
tmp.appfmt(" %s:%s", tmp.appfmt(" %s:%s/*",
proc.m_hostname.c_str(), config.m_hosts[i]->m_hostname.c_str(),
proc.m_proc.m_cwd.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()); g_logger.debug("system(%s)", g_analyze_progname);
if(r1 != 0){
g_logger.critical("Failed to gather result");
return false;
}
const int r2 = system(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"); g_logger.critical("Failed to analyze results");
return false; return false;
} }
...@@ -974,6 +1095,7 @@ gather_result(atrt_config& config, int * result){ ...@@ -974,6 +1095,7 @@ gather_result(atrt_config& config, int * result){
bool bool
setup_hosts(atrt_config& config){ setup_hosts(atrt_config& config){
g_logger.debug("system(%s)", g_clear_progname);
const int r1 = system(g_clear_progname); const int r1 = system(g_clear_progname);
if(r1 != 0){ if(r1 != 0){
g_logger.critical("Failed to clear result"); g_logger.critical("Failed to clear result");
...@@ -982,21 +1104,143 @@ setup_hosts(atrt_config& config){ ...@@ -982,21 +1104,143 @@ setup_hosts(atrt_config& config){
for(size_t i = 0; i<config.m_hosts.size(); i++){ for(size_t i = 0; i<config.m_hosts.size(); i++){
BaseString tmp = g_setup_progname; BaseString tmp = g_setup_progname;
tmp.appfmt(" %s %s/ %s/run", tmp.appfmt(" %s %s/ %s/",
config.m_hosts[i].m_hostname.c_str(), config.m_hosts[i]->m_hostname.c_str(),
g_setup_path, g_basedir,
config.m_hosts[i].m_base_dir.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()); const int r1 = system(tmp.c_str());
if(r1 != 0){ if(r1 != 0){
g_logger.critical("Failed to setup %s", 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; return false;
} }
NdbSleep_MilliSleep(300); // To prevent xlock problem
} }
return true; 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<Vector<SimpleCpcClient::Process> >;
template class Vector<atrt_host>; template class Vector<atrt_host*>;
template class Vector<atrt_process>; 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 ...@@ -38,6 +38,7 @@ include $(top_srcdir)/storage/ndb/config/common.mk.am
include $(top_srcdir)/storage/ndb/config/type_ndbapitest.mk.am include $(top_srcdir)/storage/ndb/config/type_ndbapitest.mk.am
ndb_cpcc_LDADD = $(LDADD) ndb_cpcc_LDADD = $(LDADD)
ndb_cpcc_LDFLAGS = -static
# Don't update the files from bitkeeper # Don't update the files from bitkeeper
%::SCCS/s.% %::SCCS/s.%
......
...@@ -50,7 +50,7 @@ ndb_restore_SOURCES = restore/restore_main.cpp \ ...@@ -50,7 +50,7 @@ ndb_restore_SOURCES = restore/restore_main.cpp \
restore/Restore.cpp \ restore/Restore.cpp \
../test/src/NDBT_ResultRow.cpp $(tools_common_sources) ../test/src/NDBT_ResultRow.cpp $(tools_common_sources)
ndb_config_SOURCES = ndb_condig.cpp \ ndb_config_SOURCES = ndb_config.cpp \
../src/mgmsrv/Config.cpp \ ../src/mgmsrv/Config.cpp \
../src/mgmsrv/ConfigInfo.cpp \ ../src/mgmsrv/ConfigInfo.cpp \
../src/mgmsrv/InitConfigFileParser.cpp ../src/mgmsrv/InitConfigFileParser.cpp
......
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