conf/cassandra-env.sh - cassandra - Git at Google

 # Licensed to the Apache Software Foundation (ASF) under one
 # or more contributor license agreements.  See the NOTICE file
 # distributed with this work for additional information
 # regarding copyright ownership.  The ASF licenses this file
 # to you under the Apache License, Version 2.0 (the
 # "License"); you may not use this file except in compliance
 # with the License.  You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 calculate_heap_sizes()
 {
     case "`uname`" in
         Linux)
             system_memory_in_mb=`free -m | awk '/:/ {print $2;exit}'`
             system_cpu_cores=`egrep -c 'processor([[:space:]]+):.*' /proc/cpuinfo`
         ;;
         FreeBSD)
             system_memory_in_bytes=`sysctl hw.physmem | awk '{print $2}'`
             system_memory_in_mb=`expr $system_memory_in_bytes / 1024 / 1024`
             system_cpu_cores=`sysctl hw.ncpu | awk '{print $2}'`
         ;;
         SunOS)
             system_memory_in_mb=`prtconf | awk '/Memory size:/ {print $3}'`
             system_cpu_cores=`psrinfo | wc -l`
         ;;
         Darwin)
             system_memory_in_bytes=`sysctl hw.memsize | awk '{print $2}'`
             system_memory_in_mb=`expr $system_memory_in_bytes / 1024 / 1024`
             system_cpu_cores=`sysctl hw.ncpu | awk '{print $2}'`
         ;;
         *)
             # assume reasonable defaults for e.g. a modern desktop or
             # cheap server
             system_memory_in_mb="2048"
             system_cpu_cores="2"
         ;;
     esac

     # some systems like the raspberry pi don't report cores, use at least 1
     if [ "$system_cpu_cores" -lt "1" ]
     then
         system_cpu_cores="1"
     fi

     # set max heap size based on the following
     # max(min(1/2 ram, 1024MB), min(1/4 ram, 8GB))
     # calculate 1/2 ram and cap to 1024MB
     # calculate 1/4 ram and cap to 8192MB
     # pick the max
     half_system_memory_in_mb=`expr $system_memory_in_mb / 2`
     quarter_system_memory_in_mb=`expr $half_system_memory_in_mb / 2`
     if [ "$half_system_memory_in_mb" -gt "1024" ]
     then
         half_system_memory_in_mb="1024"
     fi
     if [ "$quarter_system_memory_in_mb" -gt "8192" ]
     then
         quarter_system_memory_in_mb="8192"
     fi
     if [ "$half_system_memory_in_mb" -gt "$quarter_system_memory_in_mb" ]
     then
         max_heap_size_in_mb="$half_system_memory_in_mb"
     else
         max_heap_size_in_mb="$quarter_system_memory_in_mb"
     fi
     MAX_HEAP_SIZE="${max_heap_size_in_mb}M"

     # Young gen: min(max_sensible_per_modern_cpu_core * num_cores, 1/4 * heap size)
     max_sensible_yg_per_core_in_mb="100"
     max_sensible_yg_in_mb=`expr $max_sensible_yg_per_core_in_mb "*" $system_cpu_cores`

     desired_yg_in_mb=`expr $max_heap_size_in_mb / 4`

     if [ "$desired_yg_in_mb" -gt "$max_sensible_yg_in_mb" ]
     then
         HEAP_NEWSIZE="${max_sensible_yg_in_mb}M"
     else
         HEAP_NEWSIZE="${desired_yg_in_mb}M"
     fi
 }

 # Determine the sort of JVM we'll be running on.
 java_ver_output=`"${JAVA:-java}" -version 2>&1`
 jvmver=`echo "$java_ver_output" | grep '[openjdk|java] version' | awk -F'"' 'NR==1 {print $2}' | cut -d\- -f1`
 JVM_VERSION=${jvmver%_*}
 JVM_PATCH_VERSION=${jvmver#*_}

 if [ "$JVM_VERSION" \< "1.8" ] ; then
     echo "Cassandra 3.0 and later require Java 8u40 or later."
     exit 1;
 fi

 if [ "$JVM_VERSION" \< "1.8" ] && [ "$JVM_PATCH_VERSION" -lt 40 ] ; then
     echo "Cassandra 3.0 and later require Java 8u40 or later."
     exit 1;
 fi

 jvm=`echo "$java_ver_output" | grep -A 1 '[openjdk|java] version' | awk 'NR==2 {print $1}'`
 case "$jvm" in
     OpenJDK)
         JVM_VENDOR=OpenJDK
         # this will be "64-Bit" or "32-Bit"
         JVM_ARCH=`echo "$java_ver_output" | awk 'NR==3 {print $2}'`
         ;;
     "Java(TM)")
         JVM_VENDOR=Oracle
         # this will be "64-Bit" or "32-Bit"
         JVM_ARCH=`echo "$java_ver_output" | awk 'NR==3 {print $3}'`
         ;;
     *)
         # Help fill in other JVM values
         JVM_VENDOR=other
         JVM_ARCH=unknown
         ;;
 esac

 # Sets the path where logback and GC logs are written.
 if [ "x$CASSANDRA_LOG_DIR" = "x" ] ; then
     CASSANDRA_LOG_DIR="$CASSANDRA_HOME/logs"
 fi

 #GC log path has to be defined here because it needs to access CASSANDRA_HOME
 JVM_OPTS="$JVM_OPTS -Xloggc:${CASSANDRA_LOG_DIR}/gc.log"

 # Here we create the arguments that will get passed to the jvm when
 # starting cassandra.

 # Read user-defined JVM options from jvm.options file
 JVM_OPTS_FILE=$CASSANDRA_CONF/jvm.options
 for opt in `grep "^-" $JVM_OPTS_FILE`
 do
   JVM_OPTS="$JVM_OPTS $opt"
 done

 # Check what parameters were defined on jvm.options file to avoid conflicts
 echo $JVM_OPTS | grep -q Xmn
 DEFINED_XMN=$?
 echo $JVM_OPTS | grep -q Xmx
 DEFINED_XMX=$?
 echo $JVM_OPTS | grep -q Xms
 DEFINED_XMS=$?
 echo $JVM_OPTS | grep -q UseConcMarkSweepGC
 USING_CMS=$?
 echo $JVM_OPTS | grep -q UseG1GC
 USING_G1=$?

 # Override these to set the amount of memory to allocate to the JVM at
 # start-up. For production use you may wish to adjust this for your
 # environment. MAX_HEAP_SIZE is the total amount of memory dedicated
 # to the Java heap. HEAP_NEWSIZE refers to the size of the young
 # generation. Both MAX_HEAP_SIZE and HEAP_NEWSIZE should be either set
 # or not (if you set one, set the other).
 #
 # The main trade-off for the young generation is that the larger it
 # is, the longer GC pause times will be. The shorter it is, the more
 # expensive GC will be (usually).
 #
 # The example HEAP_NEWSIZE assumes a modern 8-core+ machine for decent pause
 # times. If in doubt, and if you do not particularly want to tweak, go with
 # 100 MB per physical CPU core.

 #MAX_HEAP_SIZE="4G"
 #HEAP_NEWSIZE="800M"

 # Set this to control the amount of arenas per-thread in glibc
 #export MALLOC_ARENA_MAX=4

 # only calculate the size if it's not set manually
 if [ "x$MAX_HEAP_SIZE" = "x" ] && [ "x$HEAP_NEWSIZE" = "x" -o $USING_G1 -eq 0 ]; then
     calculate_heap_sizes
 elif [ "x$MAX_HEAP_SIZE" = "x" ] ||  [ "x$HEAP_NEWSIZE" = "x" -a $USING_G1 -ne 0 ]; then
     echo "please set or unset MAX_HEAP_SIZE and HEAP_NEWSIZE in pairs when using CMS GC (see cassandra-env.sh)"
     exit 1
 fi

 if [ "x$MALLOC_ARENA_MAX" = "x" ] ; then
     export MALLOC_ARENA_MAX=4
 fi

 # We only set -Xms and -Xmx if they were not defined on jvm.options file
 # If defined, both Xmx and Xms should be defined together.
 if [ $DEFINED_XMX -ne 0 ] && [ $DEFINED_XMS -ne 0 ]; then
      JVM_OPTS="$JVM_OPTS -Xms${MAX_HEAP_SIZE}"
      JVM_OPTS="$JVM_OPTS -Xmx${MAX_HEAP_SIZE}"
 elif [ $DEFINED_XMX -ne 0 ] || [ $DEFINED_XMS -ne 0 ]; then
      echo "Please set or unset -Xmx and -Xms flags in pairs on jvm.options file."
      exit 1
 fi

 # We only set -Xmn flag if it was not defined in jvm.options file
 # and if the CMS GC is being used
 # If defined, both Xmn and Xmx should be defined together.
 if [ $DEFINED_XMN -eq 0 ] && [ $DEFINED_XMX -ne 0 ]; then
     echo "Please set or unset -Xmx and -Xmn flags in pairs on jvm.options file."
     exit 1
 elif [ $DEFINED_XMN -ne 0 ] && [ $USING_CMS -eq 0 ]; then
     JVM_OPTS="$JVM_OPTS -Xmn${HEAP_NEWSIZE}"
 fi

 if [ "$JVM_ARCH" = "64-Bit" ] && [ $USING_CMS -eq 0 ]; then
     JVM_OPTS="$JVM_OPTS -XX:+UseCondCardMark"
 fi

 # provides hints to the JIT compiler
 JVM_OPTS="$JVM_OPTS -XX:CompileCommandFile=$CASSANDRA_CONF/hotspot_compiler"

 # add the jamm javaagent
 JVM_OPTS="$JVM_OPTS -javaagent:$CASSANDRA_HOME/lib/jamm-0.3.0.jar"

 # set jvm HeapDumpPath with CASSANDRA_HEAPDUMP_DIR
 if [ "x$CASSANDRA_HEAPDUMP_DIR" != "x" ]; then
     JVM_OPTS="$JVM_OPTS -XX:HeapDumpPath=$CASSANDRA_HEAPDUMP_DIR/cassandra-`date +%s`-pid$$.hprof"
 fi

 # stop the jvm on OutOfMemoryError as it can result in some data corruption
 # uncomment the preferred option
 # ExitOnOutOfMemoryError and CrashOnOutOfMemoryError require a JRE greater or equals to 1.7 update 101 or 1.8 update 92
 # For OnOutOfMemoryError we cannot use the JVM_OPTS variables because bash commands split words
 # on white spaces without taking quotes into account
 # JVM_OPTS="$JVM_OPTS -XX:+ExitOnOutOfMemoryError"
 # JVM_OPTS="$JVM_OPTS -XX:+CrashOnOutOfMemoryError"
 JVM_ON_OUT_OF_MEMORY_ERROR_OPT="-XX:OnOutOfMemoryError=kill -9 %p"

 # print an heap histogram on OutOfMemoryError
 # JVM_OPTS="$JVM_OPTS -Dcassandra.printHeapHistogramOnOutOfMemoryError=true"

 # jmx: metrics and administration interface
 #
 # add this if you're having trouble connecting:
 # JVM_OPTS="$JVM_OPTS -Djava.rmi.server.hostname=<public name>"
 #
 # see
 # https://blogs.oracle.com/jmxetc/entry/troubleshooting_connection_problems_in_jconsole
 # for more on configuring JMX through firewalls, etc. (Short version:
 # get it working with no firewall first.)
 #
 # Cassandra ships with JMX accessible *only* from localhost.
 # To enable remote JMX connections, uncomment lines below
 # with authentication and/or ssl enabled. See https://wiki.apache.org/cassandra/JmxSecurity
 #
 if [ "x$LOCAL_JMX" = "x" ]; then
     LOCAL_JMX=yes
 fi

 # Specifies the default port over which Cassandra will be available for
 # JMX connections.
 # For security reasons, you should not expose this port to the internet.  Firewall it if needed.
 JMX_PORT="7199"

 if [ "$LOCAL_JMX" = "yes" ]; then
   JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.local.port=$JMX_PORT"
   JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.authenticate=false"
 else
   JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.remote.port=$JMX_PORT"
   # if ssl is enabled the same port cannot be used for both jmx and rmi so either
   # pick another value for this property or comment out to use a random port (though see CASSANDRA-7087 for origins)
   JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.rmi.port=$JMX_PORT"

   # turn on JMX authentication. See below for further options
   JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.authenticate=true"

   # jmx ssl options
   #JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl=true"
   #JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl.need.client.auth=true"
   #JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl.enabled.protocols=<enabled-protocols>"
   #JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl.enabled.cipher.suites=<enabled-cipher-suites>"
   #JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.keyStore=/path/to/keystore"
   #JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.keyStorePassword=<keystore-password>"
   #JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.trustStore=/path/to/truststore"
   #JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.trustStorePassword=<truststore-password>"
 fi

 # jmx authentication and authorization options. By default, auth is only
 # activated for remote connections but they can also be enabled for local only JMX
 ## Basic file based authn & authz
 JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.password.file=/etc/cassandra/jmxremote.password"
 #JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.access.file=/etc/cassandra/jmxremote.access"
 ## Custom auth settings which can be used as alternatives to JMX's out of the box auth utilities.
 ## JAAS login modules can be used for authentication by uncommenting these two properties.
 ## Cassandra ships with a LoginModule implementation - org.apache.cassandra.auth.CassandraLoginModule -
 ## which delegates to the IAuthenticator configured in cassandra.yaml. See the sample JAAS configuration
 ## file cassandra-jaas.config
 #JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.remote.login.config=CassandraLogin"
 #JVM_OPTS="$JVM_OPTS -Djava.security.auth.login.config=$CASSANDRA_CONF/cassandra-jaas.config"

 ## Cassandra also ships with a helper for delegating JMX authz calls to the configured IAuthorizer,
 ## uncomment this to use it. Requires one of the two authentication options to be enabled
 #JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.authorizer=org.apache.cassandra.auth.jmx.AuthorizationProxy"

 # To use mx4j, an HTML interface for JMX, add mx4j-tools.jar to the lib/
 # directory.
 # See http://cassandra.apache.org/doc/3.11/operating/metrics.html#jmx
 # By default mx4j listens on 0.0.0.0:8081. Uncomment the following lines
 # to control its listen address and port.
 #MX4J_ADDRESS="-Dmx4jaddress=127.0.0.1"
 #MX4J_PORT="-Dmx4jport=8081"

 # Cassandra uses SIGAR to capture OS metrics CASSANDRA-7838
 # for SIGAR we have to set the java.library.path
 # to the location of the native libraries.
 JVM_OPTS="$JVM_OPTS -Djava.library.path=$CASSANDRA_HOME/lib/sigar-bin"

 JVM_OPTS="$JVM_OPTS $MX4J_ADDRESS"
 JVM_OPTS="$JVM_OPTS $MX4J_PORT"
 JVM_OPTS="$JVM_OPTS $JVM_EXTRA_OPTS"
	# Licensed to the Apache Software Foundation (ASF) under one
	# or more contributor license agreements. See the NOTICE file
	# distributed with this work for additional information
	# regarding copyright ownership. The ASF licenses this file
	# to you under the Apache License, Version 2.0 (the
	# "License"); you may not use this file except in compliance
	# with the License. You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	calculate_heap_sizes()
	{
	case "`uname`" in
	Linux)
	system_memory_in_mb=`free -m \| awk '/:/ {print $2;exit}'`
	system_cpu_cores=`egrep -c 'processor([[:space:]]+):.*' /proc/cpuinfo`
	;;
	FreeBSD)
	system_memory_in_bytes=`sysctl hw.physmem \| awk '{print $2}'`
	system_memory_in_mb=`expr $system_memory_in_bytes / 1024 / 1024`
	system_cpu_cores=`sysctl hw.ncpu \| awk '{print $2}'`
	;;
	SunOS)
	system_memory_in_mb=`prtconf \| awk '/Memory size:/ {print $3}'`
	system_cpu_cores=`psrinfo \| wc -l`
	;;
	Darwin)
	system_memory_in_bytes=`sysctl hw.memsize \| awk '{print $2}'`
	system_memory_in_mb=`expr $system_memory_in_bytes / 1024 / 1024`
	system_cpu_cores=`sysctl hw.ncpu \| awk '{print $2}'`
	;;
	*)
	# assume reasonable defaults for e.g. a modern desktop or
	# cheap server
	system_memory_in_mb="2048"
	system_cpu_cores="2"
	;;
	esac

	# some systems like the raspberry pi don't report cores, use at least 1
	if [ "$system_cpu_cores" -lt "1" ]
	then
	system_cpu_cores="1"
	fi

	# set max heap size based on the following
	# max(min(1/2 ram, 1024MB), min(1/4 ram, 8GB))
	# calculate 1/2 ram and cap to 1024MB
	# calculate 1/4 ram and cap to 8192MB
	# pick the max
	half_system_memory_in_mb=`expr $system_memory_in_mb / 2`
	quarter_system_memory_in_mb=`expr $half_system_memory_in_mb / 2`
	if [ "$half_system_memory_in_mb" -gt "1024" ]
	then
	half_system_memory_in_mb="1024"
	fi
	if [ "$quarter_system_memory_in_mb" -gt "8192" ]
	then
	quarter_system_memory_in_mb="8192"
	fi
	if [ "$half_system_memory_in_mb" -gt "$quarter_system_memory_in_mb" ]
	then
	max_heap_size_in_mb="$half_system_memory_in_mb"
	else
	max_heap_size_in_mb="$quarter_system_memory_in_mb"
	fi
	MAX_HEAP_SIZE="${max_heap_size_in_mb}M"

	# Young gen: min(max_sensible_per_modern_cpu_core * num_cores, 1/4 * heap size)
	max_sensible_yg_per_core_in_mb="100"
	max_sensible_yg_in_mb=`expr $max_sensible_yg_per_core_in_mb "*" $system_cpu_cores`

	desired_yg_in_mb=`expr $max_heap_size_in_mb / 4`

	if [ "$desired_yg_in_mb" -gt "$max_sensible_yg_in_mb" ]
	then
	HEAP_NEWSIZE="${max_sensible_yg_in_mb}M"
	else
	HEAP_NEWSIZE="${desired_yg_in_mb}M"
	fi
	}

	# Determine the sort of JVM we'll be running on.
	java_ver_output=`"${JAVA:-java}" -version 2>&1`
	jvmver=`echo "$java_ver_output" \| grep '[openjdk\|java] version' \| awk -F'"' 'NR==1 {print $2}' \| cut -d\- -f1`
	JVM_VERSION=${jvmver%_*}
	JVM_PATCH_VERSION=${jvmver#*_}

	if [ "$JVM_VERSION" \< "1.8" ] ; then
	echo "Cassandra 3.0 and later require Java 8u40 or later."
	exit 1;
	fi

	if [ "$JVM_VERSION" \< "1.8" ] && [ "$JVM_PATCH_VERSION" -lt 40 ] ; then
	echo "Cassandra 3.0 and later require Java 8u40 or later."
	exit 1;
	fi

	jvm=`echo "$java_ver_output" \| grep -A 1 '[openjdk\|java] version' \| awk 'NR==2 {print $1}'`
	case "$jvm" in
	OpenJDK)
	JVM_VENDOR=OpenJDK
	# this will be "64-Bit" or "32-Bit"
	JVM_ARCH=`echo "$java_ver_output" \| awk 'NR==3 {print $2}'`
	;;
	"Java(TM)")
	JVM_VENDOR=Oracle
	# this will be "64-Bit" or "32-Bit"
	JVM_ARCH=`echo "$java_ver_output" \| awk 'NR==3 {print $3}'`
	;;
	*)
	# Help fill in other JVM values
	JVM_VENDOR=other
	JVM_ARCH=unknown
	;;
	esac

	# Sets the path where logback and GC logs are written.
	if [ "x$CASSANDRA_LOG_DIR" = "x" ] ; then
	CASSANDRA_LOG_DIR="$CASSANDRA_HOME/logs"
	fi

	#GC log path has to be defined here because it needs to access CASSANDRA_HOME
	JVM_OPTS="$JVM_OPTS -Xloggc:${CASSANDRA_LOG_DIR}/gc.log"

	# Here we create the arguments that will get passed to the jvm when
	# starting cassandra.

	# Read user-defined JVM options from jvm.options file
	JVM_OPTS_FILE=$CASSANDRA_CONF/jvm.options
	for opt in `grep "^-" $JVM_OPTS_FILE`
	do
	JVM_OPTS="$JVM_OPTS $opt"
	done

	# Check what parameters were defined on jvm.options file to avoid conflicts
	echo $JVM_OPTS \| grep -q Xmn
	DEFINED_XMN=$?
	echo $JVM_OPTS \| grep -q Xmx
	DEFINED_XMX=$?
	echo $JVM_OPTS \| grep -q Xms
	DEFINED_XMS=$?
	echo $JVM_OPTS \| grep -q UseConcMarkSweepGC
	USING_CMS=$?
	echo $JVM_OPTS \| grep -q UseG1GC
	USING_G1=$?

	# Override these to set the amount of memory to allocate to the JVM at
	# start-up. For production use you may wish to adjust this for your
	# environment. MAX_HEAP_SIZE is the total amount of memory dedicated
	# to the Java heap. HEAP_NEWSIZE refers to the size of the young
	# generation. Both MAX_HEAP_SIZE and HEAP_NEWSIZE should be either set
	# or not (if you set one, set the other).
	#
	# The main trade-off for the young generation is that the larger it
	# is, the longer GC pause times will be. The shorter it is, the more
	# expensive GC will be (usually).
	#
	# The example HEAP_NEWSIZE assumes a modern 8-core+ machine for decent pause
	# times. If in doubt, and if you do not particularly want to tweak, go with
	# 100 MB per physical CPU core.

	#MAX_HEAP_SIZE="4G"
	#HEAP_NEWSIZE="800M"

	# Set this to control the amount of arenas per-thread in glibc
	#export MALLOC_ARENA_MAX=4

	# only calculate the size if it's not set manually
	if [ "x$MAX_HEAP_SIZE" = "x" ] && [ "x$HEAP_NEWSIZE" = "x" -o $USING_G1 -eq 0 ]; then
	calculate_heap_sizes
	elif [ "x$MAX_HEAP_SIZE" = "x" ] \|\| [ "x$HEAP_NEWSIZE" = "x" -a $USING_G1 -ne 0 ]; then
	echo "please set or unset MAX_HEAP_SIZE and HEAP_NEWSIZE in pairs when using CMS GC (see cassandra-env.sh)"
	exit 1
	fi

	if [ "x$MALLOC_ARENA_MAX" = "x" ] ; then
	export MALLOC_ARENA_MAX=4
	fi

	# We only set -Xms and -Xmx if they were not defined on jvm.options file
	# If defined, both Xmx and Xms should be defined together.
	if [ $DEFINED_XMX -ne 0 ] && [ $DEFINED_XMS -ne 0 ]; then
	JVM_OPTS="$JVM_OPTS -Xms${MAX_HEAP_SIZE}"
	JVM_OPTS="$JVM_OPTS -Xmx${MAX_HEAP_SIZE}"
	elif [ $DEFINED_XMX -ne 0 ] \|\| [ $DEFINED_XMS -ne 0 ]; then
	echo "Please set or unset -Xmx and -Xms flags in pairs on jvm.options file."
	exit 1
	fi

	# We only set -Xmn flag if it was not defined in jvm.options file
	# and if the CMS GC is being used
	# If defined, both Xmn and Xmx should be defined together.
	if [ $DEFINED_XMN -eq 0 ] && [ $DEFINED_XMX -ne 0 ]; then
	echo "Please set or unset -Xmx and -Xmn flags in pairs on jvm.options file."
	exit 1
	elif [ $DEFINED_XMN -ne 0 ] && [ $USING_CMS -eq 0 ]; then
	JVM_OPTS="$JVM_OPTS -Xmn${HEAP_NEWSIZE}"
	fi

	if [ "$JVM_ARCH" = "64-Bit" ] && [ $USING_CMS -eq 0 ]; then
	JVM_OPTS="$JVM_OPTS -XX:+UseCondCardMark"
	fi

	# provides hints to the JIT compiler
	JVM_OPTS="$JVM_OPTS -XX:CompileCommandFile=$CASSANDRA_CONF/hotspot_compiler"

	# add the jamm javaagent
	JVM_OPTS="$JVM_OPTS -javaagent:$CASSANDRA_HOME/lib/jamm-0.3.0.jar"

	# set jvm HeapDumpPath with CASSANDRA_HEAPDUMP_DIR
	if [ "x$CASSANDRA_HEAPDUMP_DIR" != "x" ]; then
	JVM_OPTS="$JVM_OPTS -XX:HeapDumpPath=$CASSANDRA_HEAPDUMP_DIR/cassandra-`date +%s`-pid$$.hprof"
	fi

	# stop the jvm on OutOfMemoryError as it can result in some data corruption
	# uncomment the preferred option
	# ExitOnOutOfMemoryError and CrashOnOutOfMemoryError require a JRE greater or equals to 1.7 update 101 or 1.8 update 92
	# For OnOutOfMemoryError we cannot use the JVM_OPTS variables because bash commands split words
	# on white spaces without taking quotes into account
	# JVM_OPTS="$JVM_OPTS -XX:+ExitOnOutOfMemoryError"
	# JVM_OPTS="$JVM_OPTS -XX:+CrashOnOutOfMemoryError"
	JVM_ON_OUT_OF_MEMORY_ERROR_OPT="-XX:OnOutOfMemoryError=kill -9 %p"

	# print an heap histogram on OutOfMemoryError
	# JVM_OPTS="$JVM_OPTS -Dcassandra.printHeapHistogramOnOutOfMemoryError=true"

	# jmx: metrics and administration interface
	#
	# add this if you're having trouble connecting:
	# JVM_OPTS="$JVM_OPTS -Djava.rmi.server.hostname=<public name>"
	#
	# see
	# https://blogs.oracle.com/jmxetc/entry/troubleshooting_connection_problems_in_jconsole
	# for more on configuring JMX through firewalls, etc. (Short version:
	# get it working with no firewall first.)
	#
	# Cassandra ships with JMX accessible only from localhost.
	# To enable remote JMX connections, uncomment lines below
	# with authentication and/or ssl enabled. See https://wiki.apache.org/cassandra/JmxSecurity
	#
	if [ "x$LOCAL_JMX" = "x" ]; then
	LOCAL_JMX=yes
	fi

	# Specifies the default port over which Cassandra will be available for
	# JMX connections.
	# For security reasons, you should not expose this port to the internet. Firewall it if needed.
	JMX_PORT="7199"

	if [ "$LOCAL_JMX" = "yes" ]; then
	JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.local.port=$JMX_PORT"
	JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.authenticate=false"
	else
	JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.remote.port=$JMX_PORT"
	# if ssl is enabled the same port cannot be used for both jmx and rmi so either
	# pick another value for this property or comment out to use a random port (though see CASSANDRA-7087 for origins)
	JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.rmi.port=$JMX_PORT"

	# turn on JMX authentication. See below for further options
	JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.authenticate=true"

	# jmx ssl options
	#JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl=true"
	#JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl.need.client.auth=true"
	#JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl.enabled.protocols=<enabled-protocols>"
	#JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.ssl.enabled.cipher.suites=<enabled-cipher-suites>"
	#JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.keyStore=/path/to/keystore"
	#JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.keyStorePassword=<keystore-password>"
	#JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.trustStore=/path/to/truststore"
	#JVM_OPTS="$JVM_OPTS -Djavax.net.ssl.trustStorePassword=<truststore-password>"
	fi

	# jmx authentication and authorization options. By default, auth is only
	# activated for remote connections but they can also be enabled for local only JMX
	## Basic file based authn & authz
	JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.password.file=/etc/cassandra/jmxremote.password"
	#JVM_OPTS="$JVM_OPTS -Dcom.sun.management.jmxremote.access.file=/etc/cassandra/jmxremote.access"
	## Custom auth settings which can be used as alternatives to JMX's out of the box auth utilities.
	## JAAS login modules can be used for authentication by uncommenting these two properties.
	## Cassandra ships with a LoginModule implementation - org.apache.cassandra.auth.CassandraLoginModule -
	## which delegates to the IAuthenticator configured in cassandra.yaml. See the sample JAAS configuration
	## file cassandra-jaas.config
	#JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.remote.login.config=CassandraLogin"
	#JVM_OPTS="$JVM_OPTS -Djava.security.auth.login.config=$CASSANDRA_CONF/cassandra-jaas.config"

	## Cassandra also ships with a helper for delegating JMX authz calls to the configured IAuthorizer,
	## uncomment this to use it. Requires one of the two authentication options to be enabled
	#JVM_OPTS="$JVM_OPTS -Dcassandra.jmx.authorizer=org.apache.cassandra.auth.jmx.AuthorizationProxy"

	# To use mx4j, an HTML interface for JMX, add mx4j-tools.jar to the lib/
	# directory.
	# See http://cassandra.apache.org/doc/3.11/operating/metrics.html#jmx
	# By default mx4j listens on 0.0.0.0:8081. Uncomment the following lines
	# to control its listen address and port.
	#MX4J_ADDRESS="-Dmx4jaddress=127.0.0.1"
	#MX4J_PORT="-Dmx4jport=8081"

	# Cassandra uses SIGAR to capture OS metrics CASSANDRA-7838
	# for SIGAR we have to set the java.library.path
	# to the location of the native libraries.
	JVM_OPTS="$JVM_OPTS -Djava.library.path=$CASSANDRA_HOME/lib/sigar-bin"

	JVM_OPTS="$JVM_OPTS $MX4J_ADDRESS"
	JVM_OPTS="$JVM_OPTS $MX4J_PORT"
	JVM_OPTS="$JVM_OPTS $JVM_EXTRA_OPTS"