Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Network tap wikipedia , lookup
Distributed firewall wikipedia , lookup
Wake-on-LAN wikipedia , lookup
Deep packet inspection wikipedia , lookup
Zero-configuration networking wikipedia , lookup
Recursive InterNetwork Architecture (RINA) wikipedia , lookup
Internet protocol suite wikipedia , lookup
Parallel port wikipedia , lookup
SCSC 455 Computer Security Intrusion Detection Index Network scanning and packet-sniffing utilities IDS -- Intrusion detection systems Automated security audits Scanners and Sniffers Cracker can employ the following techniques in order to gain access to a Linux system: Port scanning, in which packets are sent to a host to gain information about it based on its response Packet sniffing, in which every packet on the network has its header and data examined Network administrators also use these techniques to check for security weaknesses, and though some feel their use is illegitimate, it is important to stay ahead of crackers Port Scanning A port scan enables someone to identify a network’s operating system and any services that could potentially allow greater access Port scans typically use the TCP protocol and its associated flags to gather information about the host and its network services Some port scanners use ICMP and UDP packets, which do not provide as much data as TCP, but can offer some information that TCP cannot Port Scanning Port Scanning The most widely used port-scanning utility is nmap, the network mapper a command-line utility that uses a variety of scanning methods allows for fingerprinting hosts, greater output, and configuration of timing policy also perform a Ping scan, which reports hosts that are reachable using ICMP echo packets nmap Uses Network exploration tool and port scanner Security audits Network inventory Upgrade schedules Monitoring host/service uptime Example nmap Scan # nmap -A -T4 scanme.nmap.org playground Starting nmap ( http://www.insecure.org/nmap/ ) Interesting ports on scanme.nmap.org (205.217.153.62): (The 1663 ports scanned but not shown below are in state: filtered) PORT STATE SERVICE VERSION 22/tcp open ssh OpenSSH 3.9p1 (protocol 1.99) 53/tcp open domain 70/tcp closed gopher 80/tcp open http Apache httpd 2.0.52 ((Fedora)) 113/tcp closed auth Device type: general purpose Running: Linux 2.4.X|2.5.X|2.6.X OS details: Linux 2.4.7 - 2.6.11, Linux 2.6.0 - 2.6.11 Uptime 33.908 days (since Thu Jul 21 03:38:03 2005) Interesting ports on playground.nmap.org (192.168.0.40): (The 1659 ports scanned but not shown below are in state: closed) PORT STATE SERVICE VERSION 135/tcp open msrpc Microsoft Windows RPC 139/tcp open netbios-ssn 389/tcp open ldap? 445/tcp open microsoft-ds Microsoft Windows XP microsoft-ds 1002/tcp open windows-icfw? 1025/tcp open msrpc Microsoft Windows RPC 1720/tcp open H.323/Q.931 CompTek AquaGateKeeper 5800/tcp open vnc-http RealVNC 4.0 (Resolution 400x250; VNC TCP port: 5900) 5900/tcp open vnc VNC (protocol 3.8) MAC Address: 00:A0:CC:63:85:4B (Lite-on Communications) Device type: general purpose Running: Microsoft Windows NT/2K/XP OS details: Microsoft Windows XP Pro RC1+ through final release Service Info: OSs: Windows, Windows XP Nmap finished: 2 IP addresses (2 hosts up) scanned in 88.392 seconds nmap Options Summary and Syntax # nmap Usage: nmap [Scan Type(s)] [Options] {target specification} TARGET SPECIFICATION: Can pass hostnames, IP addresses, networks, etc. Ex: scanme.nmap.org, microsoft.com/24, 192.168.0.1; 10.0.0-255.1-254 -Nmap 3.95 ( http://www.insecure.org/nmap/ ) iL <inputfilename>: Input from list of hosts/networks -iR <num hosts>: Choose random targets --exclude <host1[,host2][,host3],...>: Exclude hosts/networks --excludefile <exclude_file>: Exclude list from file HOST DISCOVERY: -sL: List Scan - simply list targets to scan -sP: Ping Scan - go no further than determining if host is online -P0: Treat all hosts as online -- skip host discovery -PS/PA/PU [portlist]: TCP SYN/ACK or UDP discovery to given ports -PE/PP/PM: ICMP echo, timestamp, and netmask request discovery probes -n/-R: Never do DNS resolution/Always resolve [default: sometimes] SCAN TECHNIQUES: -sS/sT/sA/sW/sM: TCP SYN/Connect()/ACK/Window/Maimon scans -sN/sF/sX: TCP Null, FIN, and Xmas scans --scanflags <flags>: Customize TCP scan flags -sI <zombie host[:probeport]>: Idlescan -sO: IP protocol scan -b <ftp relay host>: FTP bounce scan PORT SPECIFICATION AND SCAN ORDER: -p <port ranges>: Only scan specified ports Ex: -p22; -p1-65535; -p U:53,111,137,T:21-25,80,139,8080 -F: Fast - Scan only the ports listed in the nmap-services file) -r: Scan ports consecutively - don't randomize Port Scanning nmap Syntax (cont) SERVICE/VERSION DETECTION: -sV: Probe open ports to determine service/version info --version_light: Limit to most likely probes for faster identification --version_all: Try every single probe for version detection --version_trace: Show detailed version scan activity (for debugging) OS DETECTION: -O: Enable OS detection --osscan_limit: Limit OS detection to promising targets --osscan_guess: Guess OS more aggressively TIMING AND PERFORMANCE: -T[0-5]: Set timing template (higher is faster) --min_hostgroup/max_hostgroup <msec>: Parallel host scan group sizes --min_parallelism/max_parallelism <msec>: Probe parallelization --min_rtt_timeout/max_rtt_timeout/initial_rtt_timeout <msec>: Specifies probe round trip time. --host_timeout <msec>: Give up on target after this long --scan_delay/--max_scan_delay <msec>: Adjust delay between probes FIREWALL/IDS EVASION AND SPOOFING: -f; --mtu <val>: fragment packets (optionally w/given MTU) -D <decoy1,decoy2[,ME],...>: Cloak a scan with decoys -S <IP_Address>: Spoof source address -e <iface>: Use specified interface -g/--source_port <portnum>: Use given port number --data_length <num>: Append random data to sent packets --ttl <val>: Set IP time-to-live field --spoof_mac <mac address/prefix/vendor name>: Spoof your MAC address nmap Syntax (cont) OUTPUT: -oN/-oX/-oS/-oG <file>: Output scan in normal, XML, s|<rIpt kIddi3, and Grepable format, respectively, to the given filename. -oA <basename>: Output in the three major formats at once -v: Increase verbosity level (use twice for more effect) -d[level]: Set or increase debugging level (Up to 9 is meaningful) --packet_trace: Show all packets sent and received --iflist: Print host interfaces and routes (for debugging) --append_output: Append to rather than clobber specified output files --resume <filename>: Resume an aborted scan --stylesheet <path/URL>: XSL stylesheet to transform XML output to HTML --webxml: Reference stylesheet from Insecure.Org for more portable XML --no_stylesheet: Prevent associating of XSL stylesheet w/XML output MISC: -6: Enable IPv6 scanning -A: Enables OS detection and Version detection --datadir <dirname>: Specify custom Nmap data file location --send_eth/--send_ip: Send using raw ethernet frames or IP packets --privileged: Assume that the user is fully privileged -V: Print version number -h: Print this help summary page. EXAMPLES: nmap -v -A scanme.nmap.org nmap -v -sP 192.168.0.0/16 10.0.0.0/8 nmap -v -iR 10000 -P0 -p 80 SEE THE MAN PAGE FOR MANY MORE OPTIONS, DESCRIPTIONS, AND EXAMPLES Target Specification 192.168.10.0/24 198.168.10.97/16 192.168.0-255.0/8 better 192.168.0-255.1-254 0-155.0-255.13.37 Internet wide scan of all addresses ending in 13.37 scanme.nmap.org/8 Some available options: iL <input_file_name> (Addresses from list) iR <num hosts> (Choose random targets) -excludefile <exclude_file> Host Discovery Reduce the number of hosts on a network to be scanned Specify how each host is to be identified as interesting Firewall considerations Default: Each requested IP address Attempt – TCP ACK to port 80 Attempt – ICMP Echo Request Host Discovery Some available host discovery options: sL (List Scan) sP (Ping Scan) Use only pings to scan the IP addresses specified Prints all host responding to a ping P0 (No Ping) PS [port list] (TCP SYN Ping Scan) TCP SYN Packet sent to port 80 for every IP Else to every port in the list PA [port list] (TCP ACK Ping Scan) PU [port list] (UDP Ping Scan) PE; -PP; -PM (ICMP Ping Scan) PR (ARP Ping Scan) Port Scanning Basics nmap scans more than 1660 ports Most port scanners list ports as opened or closed nmap recognizes 6 port states Open Accepting TCP connections or UDP packets Closed Host is up on the IP address Accessible but no app is listening Try later Port Scanning Basics nmap recognizes 6 port states (cont’d) Filtered No response from probe Firewall probably did a stealth drop Forces nmap to retry many times Unfiltered Port is accessible but not whether open or closed Used in mapping firewall rulesets Try Window scan, SYN scan, FIN scan Port Scanning Basics nmap recognizes 6 port states (cont’d) open|filtered When unable to determine whether port is open of filtered closed|filtered When unable to determine whether port is closed or filtered Port Scanning Techniques Only one scan technique can be used at a time Usually must have root privilege Some available scan techniques: sS (TCP SYN scan) Default Half-open scanning The open request is never completed sT (TCP connect() scan) A full TCP connection is attempted Firewalls tend to block incomplete TCP connect attempts The scan control is handed over to the OS. Port Scanning Techniques (cont’d) Some additional available scan techniques: sU (UDP scan) Picks up services like DNS, SNMP, DHCP A UDP packet is sent with no data to all targeted ports ICMP: port unreachable --> port is closed ICMP: 3 code: 1,2,9,10 or 13 --> port is filtered Responds with a UDP packet --> port is open No response --> port is open|filtered sN (TCP null scan) no flags set sF (TCP FIN scan) only the FIN bit is set sX (Xmas scan) FIN, PSH, & URG bits are set RST packet received --> port is closed No response --> port is open|filtered ICMP unreachable (1,2,3,9,10,13) --> port is filtered Port Scanning Techniques (cont’d) Some additional available scan techniques: (TCP ACK scan) No open ports are discovered Does determine if the firewall is statefull Unfiltered systems return a RST packet and labeled unfiltered Noresponse of ICMP errors are labeled filtered sW (TCP window scan) sO (IP protocol scan) Cycles through all of the IP protocols sA Service and Version Detection Probes discovered ports nmap-service-probes contains probes for querying options sV (Version detection) OS Detection Uses TCP and UDP scans Compares to the nmap-os-fingerprints database o (Enable OS detection) A (Enable both OS and version detection) Output Piles of output Learn perl and grep Many formats oN <filespec> (Normal optput) oX <filespec (XML output) v (Increase verbosity level) nmap Conclusion Powerful Invasive obvious if you are not careful illegal if not done correctly Port Scanning Port Scanning Packet Sniffing A packet sniffer allows for the examination of any or all of the traffic passing through a network cable or wireless space An Ethernet card can enable packet sniffing only if it is operating in promiscuous mode Users must be logged in as root to use this mode, so packet sniffers require root access If encryption technologies such as SSH, GPG, and stunnel are used, packet data is more secure Packet Sniffing Three popular Linux utilities are: IPTraf displays individual network connections, with protocol and other data for each one also displays statistics by protocols, certain host names, or certain IP addresses tcpdump provides information similar to IPTraf, but it also includes more detailed information about network packets Ethereal takes tcpdump a step farther in that it is a graphical network analysis tool Packet Sniffing Packet Sniffing Packet Sniffing Packet Sniffing Packet Sniffing Packet Sniffing Packet Sniffing Index Network scanning and packet-sniffing utilities IDS -- Intrusion detection systems Automated security audits Intrusion Detection Software Intrusion detection is the process of noticing when someone is trying to break into (or has already broken into) a system This category of software is called intrusion detection systems (IDS) PortSentry, by Psionic, watches network ports for packets that appear to be port scans A more complex tool than PortSentry is Linux IDS, or LIDS, which can alter the Linux kernel Big Brother Big Brother provides a different level of intrusion detection than LIDS and it uses a client/server model similar to SNMP includes a server that gathers data from clients on each network host and displays that data as a Web page Some standard services Big Brother will manage are DNS, FTP, HTTP, POP3, SSH, Telnet, disk space and memory usage Using Intrusion Detection Software Suggested use of intrusion detection tools: Use nmap to scan the system after configuration to check for security holes Next use PortSentry to watch for outside hosts trying to port scan the server Use LIDS to secure your file system and processes so that anyone who is able to gain unauthorized access will have very limited power Use Big Brother to keep a constant eye on services that are provided on network servers Index Network scanning and packet-sniffing utilities IDS -- Intrusion detection systems Automated security audits System Security Audits The best way to test confidence in the security of a Linux system is to perform a security audit Security audits are reviews or tests of how secure the system is and what needs to be done to improve its security A security audit could take the form of: A careful review of the security policy Use of special security-auditing software System Security Audits One of the first security-auditing programs was called Security Administrator Tool for Analyzing Networks (SATAN) The Security Administrator’s Integrated Network Tool (SAINT) replaced SATAN SAINT uses a Web browser interface to manage an “attack” on a network and report vulnerabilities found Other security audit tools are Tiger and SARA