#!/bin/sh ################################################################################# # # Lynis # ------------------ # # Copyright 2007-2013, Michael Boelen # Copyright 2013-2016, CISOfy # # Website : https://cisofy.com # Blog : http://linux-audit.com # GitHub : https://github.com/CISOfy/lynis # # Lynis comes with ABSOLUTELY NO WARRANTY. This is free software, and you are # welcome to redistribute it under the terms of the GNU General Public License. # See LICENSE file for usage of this software. # ################################################################################# # # Networking # ################################################################################# # FOUNDPROMISC=0 # Promiscuous interfaces LOCAL_DNSRESOLVER_FOUND=0 # Local DNS resolver NUMBERACTIVENS=0 # Number of active nameservers DHCP_CLIENT_RUNNING=0 # DHCP client availability ARPWATCH_RUNNING=0 # ARP-cache based attack monitoring software ARPON_RUNNING=0 # ARP-cache based attack monitoring software # ################################################################################# # InsertSection "Networking" # ################################################################################# # # Test : NETW-2600 # Description : Gather IPv6 configuration Register --test-no NETW-2600 --os "Linux" --weight L --network YES --category security --description "Checking IPv6 configuration" if [ ${SKIPTEST} -eq 0 ]; then IPV6_CONFIGURED=0 IPV6_ACCEPT_RA=255 IPV6_ACCEPT_REDIRECTS=255 IPV6_MANUAL_CONFIGURED=255 IPV6_ONLY=255 IPV6_MISCONFIGURED=0 IPV6_MISCONFIGURED_MTU=0 FIND=`sysctl -a 2> /dev/null | ${GREPBINARY} "^net.ipv6" | ${SEDBINARY} "s/ = /=/"` if [ ! "${FIND}" = "" ]; then IPV6_CONFIGURED=1 for I in ${FIND}; do SYSCTL_KEY=`echo ${I} | ${AWKBINARY} -F= '{ print $1 }'` SYSCTL_VALUE=`echo ${I} | ${AWKBINARY} -F= '{ print $2 }'` case ${SYSCTL_KEY} in "net.ipv6.conf.default.accept_ra") if [ "${SYSCTL_VALUE}" = "1" ]; then IPV6_ACCEPT_RA=1; else IPV6_ACCEPT_RA=0; fi ;; "net.ipv6.conf.default.accept_redirects") if [ "${SYSCTL_VALUE}" = "1" ]; then IPV6_ACCEPT_REDIRECTS=1; else IPV6_ACCEPT_REDIRECTS=0; fi ;; "net.ipv6.bindv6only") if [ "${SYSCTL_VALUE}" = "1" ]; then IPV6_ONLY=1; else IPV6_ONLY=0; fi ;; "net.ipv6.conf.all.mtu" | "net.ipv6.conf.default.mtu") if [ ${SYSCTL_VALUE} -lt 1280 ]; then IPV6_MISCONFIGURED_MTU=1; fi ;; #if TestValue --function equals --value "${SYSCTL_VALUE}" --search "1"; then # echo "Found ${SYSCTL_VALUE}" #else # echo "Not found" #fi esac done else IPV6_MODE="disabled" fi # Check if we are manually configured (not accepting automatic configuration) if [ ${IPV6_ACCEPT_RA} -eq 0 -a ${IPV6_ACCEPT_REDIRECTS} -eq 0 ]; then IPV6_MANUAL_CONFIGURED=1 IPV6_MODE="manual" elif [ ${IPV6_ACCEPT_RA} -eq 1 -o ${IPV6_ACCEPT_REDIRECTS} -eq 1 ]; then IPV6_MODE="auto" else IPV6_MODE="disabled" fi LogText "Result: IPV6 mode is ${IPV6_MODE}" if [ ${IPV6_CONFIGURED} -eq 1 ]; then Display --indent 2 --text "- Checking IPv6 configuration" --result "${STATUS_ENABLED}" --color WHITE STATUS=`echo ${IPV6_MODE} | ${TRBINARY} '[:lower:]' '[:upper:]'` Display --indent 6 --text "Configuration method" --result "${STATUS}" --color WHITE if [ ${IPV6_ONLY} -eq 1 ]; then STATUS="YES"; else STATUS="NO"; fi LogText "Result: IPv6 only configuration: ${STATUS}" Display --indent 6 --text "IPv6 only" --result "${STATUS}" --color WHITE else Display --indent 2 --text "- Checking IPv6 configuration" --result "${STATUS_DISABLED}" --color WHITE fi # Configuration errors if [ ${IPV6_MISCONFIGURED_MTU} -eq 1 ]; then IPV6_MISCONFIGURED=1 LogText "Result: MTU of IPv6 interfaces should be 1280 or higher" Display --indent 6 --text "Error: MTU is too low" --result "${STATUS_WARNING}" --color RED ReportSuggestion "${TEST_NO}" "Check your MTU configuration of IPv6 interfaces" fi # Possible improvements: # - Check if we found IPv6 enabled nameservers # Report Report "ipv6_mode=${IPV6_MODE}" Report "ipv6_only=${IPV6_ONLY}" fi # ################################################################################# # # Test : NETW-2704 # Description : Basic nameserver configuration tests (connectivity) Register --test-no NETW-2704 --weight L --network YES --category security --description "Basic nameserver configuration tests" if [ ${SKIPTEST} -eq 0 ]; then Display --indent 2 --text "- Checking configured nameservers" LogText "Test: Checking /etc/resolv.conf file" if [ -f /etc/resolv.conf ]; then LogText "Result: Found /etc/resolv.conf file" FIND=`${GREPBINARY} '^nameserver' /etc/resolv.conf | ${TRBINARY} -d '\t' | ${SEDBINARY} 's/nameserver*//g' | uniq` if [ ! "${FIND}" = "" ]; then Display --indent 4 --text "- Testing nameservers" LogText "Test: Querying nameservers" for I in ${FIND}; do LogText "Found nameserver: ${I}" Report "nameserver[]=${I}" # Check if a local resolver is available (like DNSMasq) if [ "${I}" = "::1" -o "${I}" = "127.0.0.1" -o "${I}" = "0.0.0.0" ]; then LOCAL_DNSRESOLVER_FOUND=1 fi if [ ! "${DIGBINARY}" = "" ]; then # See if we can query something at the nameserver # 0=good, other=bad DNSRESPONSE=`${DIGBINARY} +noall +time=3 +retry=0 @${I} ${I} > /dev/null ; echo $?` if [ "${DNSRESPONSE}" = "0" ]; then Display --indent 8 --text "Nameserver: ${I}" --result "${STATUS_OK}" --color GREEN LogText "Nameserver ${I} seems to respond to queries from this host." # Count responsive nameservers NUMBERACTIVENS=$((NUMBERACTIVENS + 1)) else Display --indent 8 --text "Nameserver: ${I}" --result "NO RESPONSE" --color RED LogText "Result: nameserver ${I} does NOT respond" LogText "Exit-code from dig: ${DNSRESPONSE}" ReportSuggestion ${TEST_NO} "Check connection to this nameserver and make sure no outbound DNS queries are blocked (port 53 UDP and TCP)." ReportWarning ${TEST_NO} "Nameserver ${I} does not respond" fi else LogText "Result: Nameserver test for ${I} skipped, 'dig' not installed" Display --indent 6 --text "Nameserver: ${I}" --result "${STATUS_SKIPPED}" --color YELLOW fi done fi fi fi # ################################################################################# # # Test : NETW-2705 # Description : Basic nameserver configuration tests (connectivity) if [ ${LOCAL_DNSRESOLVER_FOUND} -eq 0 ]; then PREQS_MET="YES"; else PREQS_MET="NO"; fi Register --test-no NETW-2705 --preqs-met ${PREQS_MET} --weight L --network YES --category security --description "Check availability two nameservers" if [ ${SKIPTEST} -eq 0 ]; then if [ ! "${DIGBINARY}" = "" ]; then if [ ${NUMBERACTIVENS} -lt 2 ]; then Display --indent 4 --text "- Minimal of 2 responsive nameservers" --result "${STATUS_WARNING}" --color RED LogText "Result: less than 2 responsive nameservers found" ReportWarning ${TEST_NO} "Couldn't find 2 responsive nameservers" LogText "Note: Non responsive nameservers can give problems for your system(s). Like the lack of recursive lookups, bad connectivity to update servers etc." ReportSuggestion ${TEST_NO} "Check your resolv.conf file and fill in a backup nameserver if possible" AddHP 1 2 else Display --indent 4 --text "- Minimal of 2 responsive nameservers" --result "${STATUS_OK}" --color GREEN LogText "Result: found at least 2 responsive nameservers" AddHP 3 3 fi else Display --indent 4 --text "- Minimal of 2 responsive nameservers" --result "${STATUS_SKIPPED}" --color YELLOW LogText "Result: dig not installed, test can't be fully performed" fi else LogText "Result: Test most likely skipped due having local resolver in /etc/resolv.conf" fi # ################################################################################# # # Test : NETW-3001 # Description : Find default gateway (route) # More info : BSD: ^default Linux: 0.0.0.0 if [ ! "${NETSTATBINARY}" = "" ]; then PREQS_MET="YES"; else PREQS_MET="NO"; fi Register --test-no NETW-3001 --preqs-met ${PREQS_MET} --weight L --network NO --category security --description "Find default gateway (route)" if [ $SKIPTEST -eq 0 ]; then LogText "Test: Searching default gateway(s)" FIND=`${NETSTATBINARY} -rn | ${EGREPBINARY} "^0.0.0.0|default" | ${TRBINARY} -s ' ' | ${CUTBINARY} -d ' ' -f2` if [ ! "${FIND}" = "" ]; then for I in ${FIND}; do LogText "Result: Found default gateway ${I}" Report "default_gateway[]=${I}" done Display --indent 2 --text "- Checking default gateway" --result "${STATUS_DONE}" --color GREEN else LogText "Result: No default gateway found" Display --indent 2 --text "- Checking default gateway" --result "NONE FOUND" --color WHITE fi fi # ################################################################################# # # Test : NETW-3004 # Description : Find available network interfaces Register --test-no NETW-3004 --weight L --network NO --category security --description "Search for available network interfaces" if [ ${SKIPTEST} -eq 0 ]; then FIND="" N=0 case ${OS} in AIX) FIND=$(${IFCONFIGBINARY} -a 2> /dev/null | ${GREPBINARY} "flags=" | ${AWKBINARY} -F ":" '{ print $1 }') ;; Linux) if [ ! "${IPBINARY}" = "" ]; then FIND=$(${IPBINARY} link show 2> /dev/null | ${GREPBINARY} "^[0-9]" | ${AWKBINARY} '{ print $2 }' | ${SEDBINARY} 's/://g') elif [ ! "${IFCONFIGBINARY}" = "" ]; then FIND=$(${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ( $2 == "Link" ) { print $1 }}') fi ;; DragonFly|FreeBSD|macOS|NetBSD) FIND=$(${IFCONFIGBINARY} -l 2> /dev/null) ;; OpenBSD|Solaris) FIND=$(${IFCONFIGBINARY} -a 2> /dev/null | ${GREPBINARY} "flags=" | ${AWKBINARY} -F ": " '{ print $1 }') ;; *) # Having a system currently unsupported? Share your details to determine network interfaces ReportException "${TEST_NO}:1" "No support for this OS (${OS}) to find available network interfaces" ;; esac if [ ! "${FIND}" = "" ]; then for I in ${FIND}; do NETWORK_INTERFACES="${NETWORK_INTERFACES}|${I}" LogText "Found network interface: ${I}" N=$((N + 1)) Report "network_interface[]=${I}" done else ReportException "${TEST_NO}:1" "No interfaces found on this system (OS=${OS})" fi fi # ################################################################################# # # Test : NETW-3006 # Description : Get network MAC addresses Register --test-no NETW-3006 --weight L --network NO --category security --description "Get network MAC addresses" if [ ${SKIPTEST} -eq 0 ]; then FIND="" case ${OS} in AIX) FIND=`lscfg -vl ent* | ${GREPBINARY} "Network Address" | ${CUTBINARY} -d"." -f14 | ${AWKBINARY} '{ ctr=1; i=1; while (ctr <= 6) { d[ctr++]=substr($0,i,2);i=i+2 } printf("%s:%s:%s:%s:%s:%s\n",d[1],d[2],d[3],d[4],d[5],d[6]) }'` ;; DragonFly|FreeBSD) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="ether") print $2 }' | ${SORTBINARY} -u` ;; Linux) if [ ! "${IFCONFIGBINARY}" = "" ]; then FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${GREPBINARY} "HWaddr" | ${AWKBINARY} '{ if ($4=="HWaddr") print $5 }' | ${SORTBINARY} -u` else if [ ! "${IPBINARY}" = "" ]; then LogText "Test: Using ip binary to gather hardware addresses" FIND=`${IPBINARY} link 2> /dev/null | ${GREPBINARY} "link/ether" | ${AWKBINARY} '{ print $2 }'` else ReportException "${TEST_NO}:2" "Missing ifconfig or ip command to collect hardware address (MAC)" fi fi ;; macOS) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="lladdr" || $1=="ether") print $2 }' | ${SORTBINARY} -u` ;; NetBSD) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="address:") print $2 }' | ${SORTBINARY} -u` ;; OpenBSD) FIND=`${IFCONFIGBINARY} -A 2> /dev/null | ${AWKBINARY} '{ if ($1=="lladdr") print $2 }' | ${SORTBINARY} -u` ;; Solaris) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="ether") print $2 }' | ${SORTBINARY} -u` ;; *) # Having a system currently unsupported? Share your details to determine MAC information ReportException "${TEST_NO}:1" "No support for this OS (${OS}) to find MAC information" ;; esac N=0 for I in ${FIND}; do LogText "Found MAC address: ${I}" N=$((N + 1)) Report "network_mac_address[]=${I}" done fi # ################################################################################# # # Test : NETW-3008 # Description : Get network IPv4/6 addresses Register --test-no NETW-3008 --weight L --network NO --category security --description "Get network IP addresses" if [ ${SKIPTEST} -eq 0 ]; then FIND=""; FIND2="" case ${OS} in AIX) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet") print $2 }'` FIND2=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet6") print $2 }'` ;; DragonFly|FreeBSD|NetBSD) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet") print $2 }'` FIND2=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet6") print $2 }'` ;; Linux) if [ ! "${IFCONFIGBINARY}" = "" ]; then FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet") print $2 }' | ${CUTBINARY} -d ':' -f2` # Version which works for multiple types of ifconfig (e.g. Slackware) FIND2=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet6" && $2=="addr:") { print $3 } else { if ($1=="inet6" && $3=="prefixlen") { print $2 } } }'` else if [ ! "${IPBINARY}" = "" ]; then LogText "Test: Using ip binary to gather IP addresses" FIND=`${IPBINARY} addr 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet") { print $2 }}' | ${SEDBINARY} 's/\/.*//'` FIND2=`${IPBINARY} addr 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet6") { print $2 }}' | ${SEDBINARY} 's/\/.*//'` else ReportException "${TEST_NO}:2" "Missing ifconfig or ip command to collect hardware address (MAC)" fi fi ;; macOS) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet") print $2 }'` FIND2=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet6") print $2 }'` ;; OpenBSD) FIND=`${IFCONFIGBINARY} -A 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet") print $2 }'` FIND2=`${IFCONFIGBINARY} -A 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet6") print $2 }'` ;; Solaris) FIND=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet") print $2 }'` FIND2=`${IFCONFIGBINARY} -a 2> /dev/null | ${AWKBINARY} '{ if ($1=="inet6") print $2 }'` ;; *) LogText "Result: no support yet for this OS (${OS}) to find IP address information. You can help improving this test by submitting your details." ReportException "${TEST_NO}:1" "IP address information test not implemented for this operating system" ;; esac N=0 # IPv4 for I in ${FIND}; do LogText "Found IPv4 address: ${I}" N=$((N + 1)) Report "network_ipv4_address[]=${I}" done # IPv6 for I in ${FIND2}; do LogText "Found IPv6 address: ${I}" N=$((N + 1)) Report "network_ipv6_address[]=${I}" done fi # ################################################################################# # # Test : NETW-3012 # Description : Check listening ports Register --test-no NETW-3012 --weight L --network NO --category security --description "Check listening ports" if [ ${SKIPTEST} -eq 0 ]; then FIND=""; FIND2="" N=0 case ${OS} in DragonFly|FreeBSD) if [ ! "${SOCKSTATBINARY}" = "" ]; then FIND=`${SOCKSTATBINARY} | ${AWKBINARY} '{ if ($7 ~ /\*:\*/) print $5"|"$6"|"$2"|" }' | ${SORTBINARY} -u` # To strip off IP's: ${SEDBINARY} 's/|.*:/|/' else FIND="" fi FIND2="" ;; Linux) if [ ! "${NETSTATBINARY}" = "" ]; then # UDP FIND=`${NETSTATBINARY} -nlp 2> /dev/null | ${GREPBINARY} "^udp" | ${AWKBINARY} '{ print $4"|"$1"|"$6"|" }' | ${SEDBINARY} 's:|[0-9]*/:|:'` # TCP FIND2=`${NETSTATBINARY} -nlp 2> /dev/null | ${GREPBINARY} "^tcp" | ${AWKBINARY} '{ if($6=="LISTEN") { print $4"|"$1"|"$7"|" }}' | ${SEDBINARY} 's:|[0-9]*/:|:'` else if [ ! "${SSBINARY}" = "" ]; then # UDP FIND=`${SSBINARY} -u -a -n 2> /dev/null | ${AWKBINARY} '{ print $4 }' | ${GREPBINARY} -v Local` # TCP FIND2=`${SSBINARY} -t -a -n 2> /dev/null | ${AWKBINARY} '{ print $4 }' | ${GREPBINARY} -v Local` else ReportException "${TEST_NO}:1" "netstat and ss binary missing to gather listening ports" fi fi ;; macOS) if [ ! "${LSOFBINARY}" = "" ]; then # UDP and TCP combined FIND=`${LSOFBINARY} -i -P | ${AWKBINARY} '{ print $9"|"$8"|"$1"|" }' | ${SEDBINARY} 's/\(.*\)\-\>.*\(\|.*\)/\1\2/' | ${SEDBINARY} 's/\*/'$IP'/' | ${SORTBINARY} -u | ${GREPBINARY} -v "NAME"` else FIND="" fi # Not needed as we have a combined test FIND2="" ;; NetBSD) if [ ! "${SOCKSTATBINARY}" = "" ]; then FIND=`${SOCKSTATBINARY} 2> /dev/null | ${AWKBINARY} '{ if ($7 ~ /\*.\*/) print $5"|"$6"|"$2"|" }' | ${SORTBINARY} -u` else FIND="" fi FIND2="" ;; OpenBSD) if [ ! "${NETSTATBINARY}" = "" ]; then # UDP FIND=`${NETSTATBINARY} -an 2> /dev/null | ${GREPBINARY} "^udp" | ${AWKBINARY} '{ print $4"|"$1"||" }'` # TCP FIND2=`${NETSTATBINARY} -an 2> /dev/null | ${GREPBINARY} "^tcp" | ${AWKBINARY} '{ if($6=="LISTEN") { print $4"|"$1"||" }}'` else ReportException "${TEST_NO}:3" "netstat missing to gather listening ports" fi ;; *) # Got this exception? Provide your details and output of netstat or any other tool to determine this information. ReportException "${TEST_NO}:2" "Unclear what method to use, to determine listening port information" ;; esac # Retrieve information from sockstat, when available LogText "Test: Retrieving sockstat information to find listening ports" if [ ! "${FIND}" = "" ]; then for I in ${FIND}; do N=$((N + 1)) LogText "Found listening info: ${I}" Report "network_listen_port[]=${I}" done fi if [ ! "${FIND2}" = "" ]; then for I in ${FIND2}; do N=$((N + 1)) LogText "Found listening info: ${I}" Report "network_listen_port[]=${I}" done fi if [ "${FIND}" = "" -a "${FIND2}" = "" ]; then Display --indent 2 --text "- Getting listening ports (TCP/UDP)" --result "${STATUS_SKIPPED}" --color YELLOW else Display --indent 2 --text "- Getting listening ports (TCP/UDP)" --result "${STATUS_DONE}" --color GREEN Display --indent 6 --text "* Found ${N} ports" fi fi # ################################################################################# # # Test : NETW-3014 # Description : Checking promiscuous interfaces (BSD) # Note : FreeBSD and others if [ "${OS}" = "DragonFly" -o "${OS}" = "FreeBSD" -o "${OS}" = "NetBSD" ]; then PREQS_MET="YES"; else PREQS_MET="NO"; fi Register --test-no NETW-3014 --preqs-met ${PREQS_MET} --weight L --network NO --category security --description "Checking promiscuous interfaces (BSD)" if [ ${SKIPTEST} -eq 0 ]; then LogText "Test: Checking promiscuous interfaces (FreeBSD)" FIND=`${IFCONFIGBINARY} 2> /dev/null | ${GREPBINARY} PROMISC | ${CUTBINARY} -d ':' -f1` if [ ! "${FIND}" = "" ]; then LogText "Result: Promiscuous interfaces: ${FIND}" for I in ${FIND}; do WHITELISTED=0 for PROFILE in ${PROFILES}; do Debug "Checking if interface ${I} is whitelisted in profile ${PROFILE}" ISWHITELISTED=`${GREPBINARY} "^if_promisc:${I}:" ${PROFILE}` if [ ! "${ISWHITELISTED}" = "" ]; then WHITELISTED=1 LogText "Result: this interface was whitelisted in profile (${PROFILE})" fi done # Check if this interface was whitelisted if [ ${WHITELISTED} -eq 0 ]; then FOUNDPROMISC=1 ReportWarning ${TEST_NO} "Found promiscuous interface (${I})" LogText "Note: some tools put an interface into promiscuous mode, to capture/log network traffic" else LogText "Result: Found promiscuous interface ${I} (*whitelisted via profile*)" fi done fi # Show result if [ ${FOUNDPROMISC} -eq 0 ]; then Display --indent 2 --text "- Checking promiscuous interfaces" --result "${STATUS_OK}" --color GREEN LogText "Result: No promiscuous interfaces found" else Display --indent 2 --text "- Checking promiscuous interfaces" --result "${STATUS_WARNING}" --color RED fi fi # ################################################################################# # # Test : NETW-3015 # Description : Checking promiscuous interfaces (Linux) # Note : Need ifconfig binary at this moment (does not work on Arch Linux) if [ ! "${IFCONFIGBINARY}" = "" ]; then PREQS_MET="YES"; else PREQS_MET="NO"; fi Register --test-no NETW-3015 --os Linux --preqs-met ${PREQS_MET} --weight L --network NO --category security --description "Checking promiscuous interfaces (Linux)" if [ ${SKIPTEST} -eq 0 ]; then LogText "Test: Checking promiscuous interfaces (Linux)" NETWORK=`${IFCONFIGBINARY} 2> /dev/null | ${GREPBINARY} Link | ${TRBINARY} -s ' ' | ${CUTBINARY} -d ' ' -f1` if [ ! "${NETWORK}" = "" ]; then for I in ${NETWORK}; do FIND=`${IFCONFIGBINARY} ${I} 2> /dev/null | ${GREPBINARY} PROMISC` if [ ! "${FIND}" = "" ]; then LogText "Result: Promiscuous interface: ${I}" ISWHITELISTED=`${GREPBINARY} "^if_promisc:${I}:" ${PROFILE}` if [ "${ISWHITELISTED}" = "" ]; then FOUNDPROMISC=1 ReportWarning ${TEST_NO} "Found promiscuous interface (${I})" LogText "Note: some tools put an interface into promiscuous mode, to capture/log network traffic" else LogText "Result: Found promiscuous interface ${I} (*whitelisted via profile*)" fi fi done fi # Show result if [ ${FOUNDPROMISC} -eq 0 ]; then Display --indent 2 --text "- Checking promiscuous interfaces" --result "${STATUS_OK}" --color GREEN LogText "Result: No promiscuous interfaces found" else Display --indent 2 --text "- Checking promiscuous interfaces" --result "${STATUS_WARNING}" --color RED fi fi # ################################################################################# # # Test : NETW-3020 # Description : Checking multipath configuration (Solaris) # ################################################################################# # # Test : NETW-3028 # Description : Checking for many waiting connections # Type : Performance # Notes : It is common to see a healthy web server seeing to have several thousands of TCP connections in WAIT state if [ ! "${NETSTATBINARY}" = "" ]; then PREQS_MET="YES"; else PREQS_MET="NO"; fi Register --test-no NETW-3028 --preqs-met ${PREQS_MET} --weight L --network NO --category security --description "Checking connections in WAIT state" if [ ${SKIPTEST} -eq 0 ]; then LogText "Test: Using netstat for check for connections in WAIT state" FIND=$(${NETSTATBINARY} -an | ${GREPBINARY} WAIT | ${WCBINARY} -l | ${AWKBINARY} '{ print $1 }') if [ -z "${OPTIONS_CONN_MAX_WAIT_STATE}" ]; then OPTIONS_CONN_MAX_WAIT_STATE="5000"; fi LogText "Result: currently ${FIND} connections are in a waiting state (max configured: ${OPTIONS_CONN_MAX_WAIT_STATE})." if [ ${FIND} -gt ${OPTIONS_CONN_MAX_WAIT_STATE} ]; then Display --indent 2 --text "- Checking waiting connections" --result "${STATUS_WARNING}" --color YELLOW ReportSuggestion "${TEST_NO}" "Determine why system has many connections in WAIT state (${FIND})" else Display --indent 2 --text "- Checking waiting connections" --result "${STATUS_OK}" --color GREEN LogText "Result: ${FIND} connections are in WAIT state" fi fi # ################################################################################# # # Test : NETW-3030 # Description : Checking for DHCP client Register --test-no NETW-3030 --weight L --network NO --category security --description "Checking DHCP client status" if [ ${SKIPTEST} -eq 0 ]; then IsRunning dhclient || IsRunning dhcpd if [ ${RUNNING} -eq 1 ]; then Display --indent 2 --text "- Checking status DHCP client" --result "${STATUS_RUNNING}" --color WHITE DHCP_CLIENT_RUNNING=1 else Display --indent 2 --text "- Checking status DHCP client" --result "NOT ACTIVE" --color WHITE fi fi # ################################################################################# # # Test : NETW-3032 # Description : Checking for ARP spoofing and related monitoring software Register --test-no NETW-3032 --os Linux --weight L --network NO --category security --description "Checking for ARP monitoring software" if [ ${SKIPTEST} -eq 0 ]; then FOUND=0 # arpwatch IsRunning arpwatch if [ ${RUNNING} -eq 1 ]; then FOUND=1 ARPWATCH_RUNNING=1 Display --indent 2 --text "- Checking for ARP monitoring software" --result "${STATUS_RUNNING}" --color GREEN fi # arpon IsRunning arpon if [ ${RUNNING} -eq 1 ]; then FOUND=1 ARPON_RUNNING=1 Display --indent 2 --text "- Checking for ARP monitoring software" --result "${STATUS_RUNNING}" --color GREEN fi if [ ${FOUND} -eq 0 ]; then Display --indent 2 --text "- Checking for ARP monitoring software" --result "${STATUS_NOT_FOUND}" --color YELLOW ReportSuggestion ${TEST_NO} "Consider running ARP monitoring software (arpwatch,arpon)" fi fi # ################################################################################# # Report "dhcp_client_running=${DHCP_CLIENT_RUNNING}" Report "arpwatch_running=${ARPWATCH_RUNNING}" WaitForKeyPress # #================================================================================ # Lynis - Security Auditing and System Hardening for Linux and UNIX - https://cisofy.com